CN1310795A - Intelligent toy - Google Patents

Abstract

Apparatus for a wireless computer controlled toy system is disclosed, the apparatus including a computer system operative to transmit a first transmission via a first wireless transmitter and at least one toy including a first wireless receiver, the toy receiving the first transmission via the first wireless receiver and operative to carry out at least one action based on said first transmission. A method for controlling the toy system is also disclosed.

Description

Intelligent toy

The present invention relates to toy in general, specifically relates to the toy that is used in combination with computer system.

The toy that is not used in combination with computer system by the radio communication remote control is known in the art already.Usually, this toy comprises that its motion is by the motor vehicle of human user by remote control device control.

The United States Patent (USP) 4,712,184 of Haugerud has been described a kind of computer-controlled Educational toy, and its structure can be taught the user with computerese and programming and Robotics.Haugerud has described the computer control of carrying out toy by wired connection, and wherein the user of computing machine writes the motion of simple program with control robot usually.

The United States Patent (USP) 4 of Rose, 840,602 described a kind of can be in response to the doll of the meeting of external signal speech, wherein this doll has with numerical data and is stored in vocabulary in the storer, can conduct interviews to this storer, so that the simulation of the voice operation demonstrator in doll pronunciation.

The United States Patent (USP) 5,021,878 of Lang has been described two kinds of animated character (animatedcharacter) systems of control in real time.

The United States Patent (USP) 5,142,803 of Lang has also been described a kind of animated character system of real-time control.

People's such as Aldava United States Patent (USP) 5,191,615 have described a kind of audio frequency movement entertainment system that connects each other, wherein, with be provided with audio frequency and the control data synchronous, the program viewing person reciprocation that is used for and is associated in placed apart movable of a TV screen and the toy that can listen and other animating means with TV programme with program.

The United States Patent (USP) 5,195,920 of Coilier has been described a kind of toy motor vehicle of controlled in wireless, and it can be gone up at the plate (board) of motor vehicle and produce sound effect true to nature.Allow operator's modification and increase new sound effect with communicating by letter of remote computer.

The United States Patent (USP) 5,270,480 of Hikawa has been described a kind of toy that moves in response to MIDI (music musical instrument data interface) signal, wherein carries out analog instruments by an instrument playing toy and plays action.

The United States Patent (USP) 5,289,273 of Lang has been described a kind of Long-distance Control animated character's system.This system utilizes wireless signal to transmit audio frequency, video and other control signal to the animated character, so that voice, sense of hearing scene and motion are provided in real time.

United States Patent (USP) 5,388,493 have described a kind of system that frame (housing) is provided for the vertical two keyboard MIDI wireless controllers that are used for the accordionist.This system can connect or connect by wireless MIDI transmitting system with traditional MIDI cable.

The German patent DE 3009-040 of Neuhierl has described and a kind ofly will send to the equipment of controlled model motor vehicle from the sound of telepilot.This sound utilizes microphone or video recorder to produce, and is sent to the prototype motor-car by radio communication.The loudspeaker of the emission sound that receives is housed on this prototype motor-car.

General introduction of the present invention

The present invention aims to provide a kind of improved toy system that is used in combination with computer system.

Therefore, according to a preferred embodiment of the present invention, provide a kind of toy system of wireless computer control, this toy system comprises: a computer system, can when operation, carry out sending the first time through first wireless transmitter; With at least one toy, this toy comprises first wireless receiver, and this toy receives through this first wireless receiver and sends the described first time, and can send at least one action of execution for the first time based on this when operation.

Described computer system can comprise a computer game.Described toy can comprise a plurality of toys, and described at least one action can comprise a plurality of actions.

Send the described first time and can comprise digital signal.The described transmission first time comprises simulating signal, and this simulating signal can comprise sound.

In addition, according to a preferred embodiment of the present invention, described computer system comprises the computing machine with midi port, and wherein this computing machine can send digital signal by this midi port when operation.

In addition, according to a preferred embodiment of the present invention, described sound comprises music, the sound of prerecording and/or voice.These voice can comprise voice and the synthetic voice of having recorded.

In addition, according to a preferred embodiment of the present invention, described at least one toy has a plurality of states, these states comprise at least one sleep state and a waking state, and, the described transmission first time comprises a state exchange order, and described at least one action is included in the conversion between described sleep state and the described waking state.

Sleep state generally includes such state: in this state, energy and/or toy that toy consumption reduces are in inactive state substantially, and the waking state state of normal running normally.

In addition, according to a preferred embodiment of the present invention, send described for the first time and comprise at least in part a control command of from a plurality of available control commands, selecting based on the operating result of computer game.

In addition, according to a preferred embodiment of the present invention, described computer system comprises a plurality of computing machines.

In addition, according to a preferred embodiment of the present invention, the described transmission first time comprises the computer identity data, and the described transmission second time comprises the computer identity data.

In addition, according to a preferred embodiment of the present invention, described at least one toy can carry out sending second time through second wireless transmitter in when operation, and can receive this through second wireless receiver when operating and send for the second time.

In addition, according to a preferred embodiment of the present invention, described system comprises at least one input media, and, send a state that comprises described at least one input media the described second time.

In addition, according to a preferred embodiment of the present invention, described at least one toy comprises at least one first toy and one second toy, and, wherein said first toy can, send to described second toy the toy send mode with toy through described second wireless transmitter when operation, and wherein said second toy can be carried out at least one action based on described toy to the toy transmission when operation.

In addition, according to a preferred embodiment of the present invention, described computer system is subjected to the control that send the described second time at least in part.

In addition, according to a preferred embodiment of the present invention, described computer system comprises a computer game, and the operation of wherein said recreation is subjected to the control that send the described second time at least in part.

Send the described second time and can comprise digital signal and/or simulating signal.

In addition, according to a preferred embodiment of the present invention, described computer system has a plurality of states, these states comprise at least one sleep state and a waking state, and the described transmission second time comprises a state exchange order, and, described computing machine is receiving when sending the described second time, can change between described sleep state and described waking state when operation.

In addition, according to a preferred embodiment of the present invention, described at least one toy comprises audio input device, and, send described for the second time and comprise that voice signal, this voice signal represent the sound through described audio input device input.

In addition, according to a preferred embodiment of the present invention, described computer system also can be carried out at least one action in the following action when operation: handle described voice signal; And, play described voice signal.

In addition, according to a preferred embodiment of the present invention, described sound comprises voice, and described computer system can be carried out speech recognition operation to described voice when operation.

In addition, according to a preferred embodiment of the present invention, the described transmission second time comprises the toy logo data, and described computer system can identify described at least one toy up to small part ground based on described toy logo data in operation.

In addition, according to a preferred embodiment of the present invention, the described transmission first time comprises the toy logo data.Described computer system is come adaptive its operator scheme based on described toy logo data at least in part.

In addition, according to a preferred embodiment of the present invention, described at least one action can comprise: the motion and/or the output sound of the motion of described toy, the part of described toy.This sound can utilize the MIDI agreement to send.

According to another preferred embodiment of the present invention, a kind of games system also is provided, this games system comprises: a computer system, and this computer system can be controlled a computer game and have a display when operation, and this display can show at least one display object when operation; With at least one toy, toy and described computer system are carried out radio communication, and described computer game comprises a plurality of game objects, and described a plurality of game objects comprise described at least one display object and described at least one toy.

In addition, according to a preferred embodiment of the present invention, described at least one toy can send the toy logo data to described computer system when operation, and described computer system can be come the operator scheme of adaptive described computer game in operation based on described toy logo data up to small part ground.

Described computer system can comprise a plurality of computing machines.

In addition, according to a preferred embodiment of the present invention, transmission for the first time comprises the computer identity data, and transmission for the second time comprises the computer identity data.

In addition, according to another preferred embodiment of the present invention, a kind of data transmitting equipment also is provided, this data transmitting equipment comprises: first wireless device, this equipment comprises music musical instrument data interface (musicalinstrument dara interface, MIDI) equipment is used for sending and receiving the MIDI data between first wireless device and a MIDI device when operation; With second wireless device, this equipment comprises MIDI equipment, be used for when operation, between second wireless device and the 2nd MIDI device, sending and receiving the MIDI data, described first wireless device can send the MIDI data that comprise from the data of described MIDI device reception to described second wireless device when operation, and send the MIDI data that comprise from the data of described second wireless device reception to a described MIDI device, and, described second wireless device can send the MIDI data that comprise from the data of described the 2nd MIDI device reception to described first wireless device when operation, and sends the MIDI data that comprise from the data of described first wireless device reception to described the 2nd MIDI device.

In addition, according to a preferred embodiment of the present invention, described second wireless device comprises a plurality of wireless devices, each device all is associated with a device in a plurality of MIDI devices respectively, and, each device in a plurality of wireless devices of described second wireless device all can send the MIDI data that comprise the data that receive from the MIDI device of be correlated with to described first wireless device in when operation, and comprises from the MIDI data of the data of described first wireless device reception to the transmission of being correlated with MIDI device.

A described MIDI device can comprise a computing machine, and described the 2nd MIDI device can comprise a toy.

In addition, according to a preferred embodiment of the present invention, described first wireless device also comprises analog interface equipment, is used for receiving between described first wireless device and first analogue means and sending when operation simulating signal; And, described second wireless device also comprises analog interface equipment, be used for when operation, between described second wireless device and second analogue means, receiving and sending simulating signal, and, described first wireless device also sends the simulating signal that comprises from the signal of described first analogue means reception to described second wireless device when operation, and send the simulating signal that comprises from the signal of described second wireless device reception to described first analogue means, and, described second wireless device also sends the simulating signal that comprises from the signal of described second analogue means reception to described first wireless device when operation, and sends the simulating signal that comprises from the data of described first wireless device reception to described second analogue means.

In addition, according to another preferred embodiment of the present invention, also provide a kind of generation to be used for the method for the steering order of computer-controlled toy system, the method comprising the steps of: select a toy; From a plurality of orders relevant, select at least one order with described toy; And, producing the steering order that is used for described toy, these instructions comprise described at least one order.

In addition, according to a preferred embodiment of the present invention, the step of described at least one order of selection comprises: select an order; And, specify at least one controlled variable relevant with the order of described selection.

In addition, according to a preferred embodiment of the present invention, described at least one controlled variable comprises the condition that at least one depends on the result of a previous order.

In addition, according to a preferred embodiment of the present invention, at least one step in the step of described selection one toy and the step of described at least one order of selection comprises the use to a graphical user interface.

In addition, according to a preferred embodiment of the present invention, described previous order comprises that relevant with second toy one had before ordered.

In addition, according to a preferred embodiment of the present invention, described at least one controlled variable comprises the executive condition of the execution of controlling described order.

Described executive condition can comprise a moment of carrying out described order, and/or stops to carry out a moment of described order.Described executive condition also comprises a state of described toy.

In addition, according to a preferred embodiment of the present invention, described at least one controlled variable comprises an order modification symbol of the execution of revising described order.

In addition, according to a preferred embodiment of the present invention, described at least one controlled variable comprises a condition that depends on a future event.

In addition, according to a preferred embodiment of the present invention, described at least one order comprises an order that is used to cancel a previous order.

According to another preferred embodiment of the present invention, a kind of apparatus for transmitting signal that uses that combines with a computing machine also is provided, this equipment comprises: wireless transmission device; And signal handling equipment, this signal handling equipment comprises at least one parts in the lower member: analog/digital sound conversion equipment, this conversion equipment can be converted to analoging sound signal digital audio signal, digital audio signal is converted to analoging sound signal when operation, and utilizes described wireless transmission device to send described signal between a described computing machine and an audio unit; One peripheral control interface, this interface can utilize described wireless transmission device to transmit control signal between a described computing machine and an external device (ED) when operation; With a midi interface, this interface can utilize described wireless transmission device to send midi signal between a described computing machine and a MIDI device when operation.

According to another preferred embodiment of the present invention, a kind of computer system also is provided, this system comprises: a computing machine; With a sound card, this sound card is operably connected to described computing machine, and have a MIDI connector and at least one simulation connector, wherein said computing machine can utilize described MIDI connector to send digital signal when operation, and utilizes described at least one simulation connector to send simulating signal.

In addition, according to a preferred embodiment of the present invention, described computing machine also can utilize described MIDI connector receiving digital signals when operation, and utilizes described at least one simulation connector to receive simulating signal.

In addition, according to another preferred embodiment of the present invention, also provide a kind of ad system, this system comprises: a computer-controlled toy, such as being the physics toy, this toy is in the customer location place, and presents the advertisement communique in response to a control command when operation; One computing machine, the described toy of this computer control is also relevant such as the Internet with a network, and can produce described control command when operation; With Advertisement Server equipment, this equipment is relevant with described network, and to described downloaded advertisement communique.

In addition, according to another preferred embodiment of the present invention, also provide a kind of computerized toy to upgrade order system, relevant with a network when operation, described system comprises: the diversified computerized toy relevant with a network; With a toy renovator, this renovator is relevant with described network, and periodically the toy lastest imformation is issued to described diversified computerized toy when operation.

Best, the operation of described toy renovator is irrelevant with the periodicity intervention of the human user of described diversified computerize toy basically.

In this application, term " wireless (radio) " comprises " wireless (wireless) " communication of form of ownership.

The concise and to the point description of accompanying drawing and appendix

By below in conjunction with accompanying drawing and appendix detailed description of the present invention, the present invention will become better understood and appreciate, in described accompanying drawing and appendix:

Figure 1A is that part be the figure of square frame form for picture form part, has illustrated according to a preferred embodiment of the present invention structure and the computer control system that comprises a toy of operating;

Figure 1B is that part is the figure of square frame form for picture form part, and the preferred way of realization of the toy 122 of Figure 1A has been described;

Fig. 1 C is that part be the figure of square frame form for picture form part, has illustrated according to another preferred embodiment structure of the present invention and the computer control system that comprises a toy of operating;

Fig. 2 A-2C is the part simplification picture in use of the system of explanation Figure 1A;

Fig. 3 is the simplified block diagram of preferred way of realization of the computer radio interface 110 of Figure 1A;

Fig. 4 is the more detailed block diagram of the computer radio interface 110 of Fig. 3;

Fig. 5 A-5D lumps together the synoptic diagram of the equipment that has just comprised Fig. 4;

Fig. 5 E is the synoptic diagram of alternative way of realization of the equipment of Fig. 5 D;

Fig. 6 is the simplified block diagram of preferred way of realization of the toy control device 130 of Figure 1A;

Fig. 7 A-7F and Fig. 5 D or 5E lump together the synoptic diagram of the equipment that has just comprised Fig. 6;

Fig. 8 A is the simplified flow chart that a method for optimizing of carrying out in the toy control device of figure IA is described, this method is used to receive wireless signal, carries out the order that is included in wherein and sends wireless signal:

Fig. 8 B-8T lumps together the simplified flow chart of the preferred way of realization of the method that has just comprised Fig. 8 A;

Fig. 9 A is the simplified flow chart of explanation method for optimizing of execution in the computer radio interface 110 of Figure 1A, and this method is used to receive midi signal, receives wireless signal, carries out order, the transmission wireless signal that is included in wherein and sends midi signal;

Fig. 9 B-9N and Fig. 8 D-8M lump together the simplified flow chart of the preferred way of realization that has just comprised Fig. 9 A method;

Figure 10 A-10C is the simplicity of illustration explanation of the signal of transmission between the computer radio interface 110 of Figure 1A and toy control device 130;

Figure 11 is the simplified flow chart that the method for optimizing of the steering order that produces the equipment that is used for Figure 1A is described;

Figure 12 A-12C is the diagram of preferred way of realization of graphical user interface way of realization of the method for explanation Figure 11;

Figure 13 is the block scheme that the computer radio of Figure 1A connects first subelement of 110 multiport multichannel way of realization, and this subelement resides in the computing machine 100 of Figure 1A;

Figure 14 is the block scheme that the computer radio of Figure 1A connects second subelement of 110 multiport multichannel way of realization, and this subelement is the supplementary form of the equipment of Figure 13, and resides in the computing machine 100 of Figure 1A;

Figure 15 A-15E lumps together the detailed electrical synoptic diagram of the toy control device that forms Fig. 6, and it is suitable for the multichannel way of realization of Figure 13 and 14;

Figure 16 is the simplified flow chart of a kind of method for optimizing of explanation, utilize this method, but computing machine selects a control channel right predicting a toy time spent, but and at every turn when a toy and a transceiver time spent of computer radio interface, start recreation by control channel and limit communication;

Figure 17 is the simplified flow chart of the method for optimizing of explanation " select control channel to " step of being used to realize Figure 16;

Figure 18 A is the simplified flow chart of the method for optimizing of explanation " select information communication channel to " step of being used to realize Figure 16;

Figure 18 B is the simplified flow chart of the method for optimizing of explanation " to the computing machine location " step of being used to realize Figure 18 A;

Figure 19 is the simplified flow chart of the method for optimizing of toy control device 130;

Figure 20 is the simplified illustration of the remote game servers relevant with the toy system of wireless computer control, and described toy system can comprise a network computer;

Simplified control process flow diagram when Figure 21 is the explanation network computer of Figure 20 or computing machine and described remote server binding operation;

Figure 22 is the simplified flow chart of operation of the remote game servers of explanation Figure 20;

Figure 23 with half be picture, half be block scheme formal specification the toy system of wireless computer control, this toy system comprises a degree of approach (proximity) detection subsystem, and this subsystem can detect the degree of approach between toy and the computing machine when operation;

Figure 24 A-24E lumps together the detailed electrical synoptic diagram of the multichannel way of realization of the computer radio interface 110 that forms Fig. 3, it is similar to the detailed electrical synoptic diagram of Fig. 5 A-5D, difference only is that form shown in Figure 3 is a multichannel, thereby can support the full duplex applications mode, rather than single channel mode;

Figure 25 A-25F lumps together the detailed schematic illustration that forms the computer radio interface, and this computer radio interface is connected to the serial port of a computing machine rather than is connected to the sound card (soundboard) of this computing machine;

Figure 26 A-26D lumps together the detailed schematic illustration that forms the computer radio interface, and this computer radio interface is connected to the parallel port of a computing machine rather than is connected to the sound card of this computing machine;

Figure 27 A-27J is the process flow diagram of a kind of preferred wireless coding techniques of explanation, and this technology is the replacement form of the top wireless encoding technology of describing with reference to Fig. 8 E, 8G-8M and 10A-C;

Figure 28 A-28K lumps together the detailed electrical synoptic diagram of the multiport multichannel computer radio interface subelement that forms Figure 13;

Figure 29 A-29I lumps together the detailed electrical synoptic diagram of the multiport multichannel computer radio interface subelement that forms Figure 14;

Figure 30 is that part be the figure of square frame form for picture form part, has illustrated according to another preferred embodiment structure of the present invention and the computer control system that comprises a toy of operating;

Figure 31 is a block diagram, and it is that explanation is used in the computer radio interface among the embodiment of Figure 30 and the simplified block diagram of toy control device;

Figure 32 A, 32B and 32C lump together the simplified block diagram of the EPLD chip that forms Figure 28 H;

Figure 33 with half be picture, half be block scheme formal specification constitute and a kind of Computerized Network ad system of operation according to a preferred embodiment of the present invention, wherein the physics toy sends the advertisement communique to the user of this toy;

Figure 34 is the data transmission figure that is described in the data transmission of carrying out between the various network services provider according to a preferred embodiment of the present invention, and these Internet Service Providers support the ad system of Figure 33;

Figure 35 with half be picture, half be block scheme formal specification constitute and a kind of Computerized Network ad system of operation according to a preferred embodiment of the present invention, one of them virtual toy sends the advertisement communique to the user of this toy;

Figure 36 is the simplified flow chart that the operation preference pattern of the user PC that is used for Figure 34 is described;

Figure 37 is the simplified flow chart that the operation preference pattern of the Games Software server that is used for Figure 34 is described;

Figure 38 is the simplified flow chart that the marketeer/advertising provider's who is used for Figure 34 operation preference pattern is described;

Figure 39 is the simplified flow chart that the operation preference pattern at the software maintenance center that is used for Figure 34 is described;

Figure 40-58 described according to a preferred embodiment of the present invention constitute and the moving object internet service system of operation (Living Object Internet Service System, LOIS);

Appendix A is the computer code tabulation of optimization software way of realization of the method for the method of Fig. 9 A-9N and Fig. 8 D-8M;

Appendix B is the computer code tabulation of optimization software way of realization of the method for Fig. 8 A-8T;

Appendix C is the computer code tabulation of optimization software way of realization that is used in an example of the computer game in the computing machine 100 of Fig. 1;

Appendix D is the computer code tabulation of optimization software way of realization of the method for Figure 11 and Figure 12 A-12C;

It is the computer program tabulation that constitutes the function library (functions library) of a DLL compatibility that appendix E-H lumps together; With

It is the computer program tabulation that constitutes second function library that appendix I-O lumps together, and this function library can be used for producing various games, illustrated in these recreation are used for here and any computer control system of describing.

Detailed description of preferred embodiment

Referring now to Figure 1A, Figure 1A is that part be the figure of square frame form for picture form part, has illustrated according to a preferred embodiment of the present invention structure and the computer control system that comprises a toy of operating.The system of Figure 1A comprises computing machine 100, and this computing machine can be any suitable computing machine, such as being IBM-compatible personal computer or the like.Screen 105 is housed on the computing machine 100.Sound card preferably is housed on the computing machine 100, such as being Sound Blaster Pro card, this card can be from the California, Miller Bi Te city, (the Creative Labs of original creation laboratory company limited that No. the 1901st, the Mai Kaxi main road, Inc., 1901McCarthy Boulevard, Milpitas CA95035) buys, perhaps from the A Ye of Singapore slowly original creation technology company limited (Creative Technology Ltd., 67AyerRajah Crescent#03-18, the Singapore of No. the 67th, Cha Keli cent, 0513) buys, hard disk and CD-ROM drive optionally preferably also are housed on the described computing machine 100.

Computer radio interface 110 is housed on the computing machine 100, this interface 110 sends signal based on the order that receives from computing machine 100 by wireless transmission when operation, and, in a preferred embodiment of the invention, also receive the signal that sends by wireless transmission by other, and these signals are passed to computing machine 100.Usually, the two sends by simulating signal and digital signal in the order that sends to computer radio interface 110 from computing machine 100, and wherein digital signal normally sends by midi port.The transmission of analog and digital signal is described with reference to Fig. 3 below.

The signal that is sent can be simulating signal or digital signal.The signal that is received also can be simulating signal or digital signal.Each signal generally includes a message.The preferred way of realization of computer radio interface 110 is described with reference to Fig. 3 below.

The system of Figure 1A also comprises one or more toys 120.The system of Figure 1A comprises a plurality of toys, and promptly three toys 122,124 and 126 also can be the toys that only uses a toy or use a lot of numbers but should be appreciated that in addition.

Referring now to Figure 1B, Figure 1B with the part be the picture form and the part be block scheme formal specification the toy 122 of Figure 1A.

Each toy 120 all comprises power supply 125, such as being battery or being connected to supply line.Each toy 120 also comprises toy control device 130, is used for receiving the wireless signal that is sent by computing machine 100 in when operation, perhaps makes each toy 120 carry out an action according to the signal that is received.As explained above, the signal that is received can be simulating signal or digital signal.The preferred way of realization of toy control device 130 is described with reference to Fig. 6 below.

Each toy 120 preferably includes a plurality of input medias 140 and output unit 150, shown in Figure 1B.Input media 140 for example can comprise the one or more parts in the following parts: microphone 141, micro switch sensor 142; Feeler (not shown among Figure 1B); Optical sensor (not shown among Figure 1B); Motion sensor 143, this motion sensor can be inclination sensor or acceleration transducer.Can buy input media on the suitable market and comprise following parts: position transducer, can be from Wisconsin, USA, thunder grammeter Er Si city, the Kurt Hamrin company that No. the 612nd, the Dong Leike street (Hamlin Inc., 612East LakeStreet, Lake Mills, WI53551 USA) buys; Motion and vibration transducer can be from N.J.s, the Na Teli city, the Kao Musi international corporation that No. the 263rd, the Xi Ersaide main road (ComusInternational, 263Hillside Avenue, Nutley, New Jersey07110 USA) buys; Temperature, impact and magnetic sensor, can from the Mu Leite Electronics Co., Ltd. of nurse prefecture, England sea (MurataElectronics Ltd., Hampshire England) buys; And switch, can be from Massachusetts, USA State, newton city, the C﹠amp that No. the 15th, sharp thing Dell main road; K components and parts (the C﹠amp of company; K Components Inc., 15Riverdale Avenue, Newton, MA02058-1082 USA) buys, and perhaps buys from the micro switch company (Micro Switch Inc., a division of Honeywell USA) of U.S. Hani Weir state one branch.Output unit 150 for example can comprise the one or more parts in the following parts: loudspeaker 151; Optical sensor 152; Solenoid 153 can be in the part of operation time shift toy; One motor, such as stepper motor, can be in the part of operation time shift toy or all parts (not shown in Figure 1B) of toy.The output unit that can buy on the suitable market comprises following parts: direct current generator, can be from No. 7823, the German doffer/Si Wochadedi of Poona, Alcatel that (Alkatel (dunkermotoren) of (Dun Kemengtelun) company of Post, Wiley Fick 1240, Postfach1240, D-7823, Bonndorf/Schwarzald Germany) buys; Stepper motor and micromachine can be from U.S. Kang Naitige state, Waterbury cities, the he that No. 1500, Mai Lidengludi is stepped on switch and instrument company (HSI) (HaydonSwitch and Instruments, Inc. (HSI), 1500Meriden Road, Waterbury, CT, USA)) buy; And the direct current solenoid, can be from North Carolina, USA, the box number in Fei Erwei city be 520 communication only device company (Communications Instruments, Inc., P.O.Box520, Fairview, North Carolina28730 USA) buys.

The example of the executable action of toy comprises following: the part of mobile toy; Move whole toy; Perhaps send a sound, this sound can comprise following various sound: the sound of having recorded, synthetic sound, comprise and record or the music of composite music, comprise and recording or the voice of synthetic speech.

The signal that is received can comprise: the condition of management activities, and such as the duration of action, perhaps Dong Zuo multiplicity.

Usually, the received signal that comprises message partly comprises digital signal, and described message contained be useful on the execution specific action, for example order of sounding in the given duration.The received signal that comprises sound partly generally includes simulating signal.Perhaps, in a preferred embodiment of the invention, the received signal part that contains the sound that comprises music can comprise digital signal, and this digital signal normally contains the signal of MIDI data.

The executable action of toy also can comprise: make a response for the signal of being sent by another toy, for example, play the sound that this another toy monitors and sends.

In a preferred embodiment of the invention, toy control device 130 also can send the signal that is used for computing machine 100 when operation, and this signal will be received by computer radio interface 110.In the present embodiment, computer radio interface 110 preferably also carries out poll (poll) to toy control device 130 when operation, that is to say, send the signal comprise a request, a signal is sent to computer radio interface 110 with request toy control device 130.Can see that poll is particularly preferred under following situation: have a plurality of toys with a plurality of toy control device 130.

The signal that is sent by toy control device 130 can comprise in following one or multinomial: sound, the normally sound of being caught by microphone input media 141; Each state of sensor input media 140 for example is each state of optical sensor or micro switch; The indication of power in the power supply 125; Perhaps identify the information of toy.

Can see that the voice signal that is sent by device 130 can comprise voice.Computer system can be carried out speech recognition operation to voice signal when operation.The software that is used for can buying on the suitable market of speech recognition for example can be provided by following company: Massachusetts, USA State, Cambridge city, (the Stylus Innovation Inc. of this TELUS Creative Company in No. 300 building, king Ken Deer square, One Kendall Square, Building300, Cambridge, MA02139, USA); The A﹠amp of the U.S.; G graphic interface (the A﹠amp of company; G Graphics Interface, USA), its telephone number is (617) 492-0120, telefacsimile number is (617) 427-3625; " the imperial board Dictation device (Dragon Dictate ForWindows) that is used for Windows ", can be from Massachusetts, USA State, imperial board system house (DragonSystem, Inc., the 320Nevada Street in No. the 320th, Nevada street, MA.02160, USA) buy, and " SDK " can be from Belgium, the Li Po city, the Le Nate that sage-Chris Pi Sichuitedi is No. 7 and good this general voice (Lemout of Products Co., Ltd; Hausple Speech Products, Sint-Krispijnstraat7,8900Leper Belgium) buys.

For example can comprise in following one from the signal of wireless control interface 110: be used to ignore a request from the input of one or more input medias 140; Be used to activate one or more input medias 140 or stop a request of ignoring from the input of one or more input medias 140; Be used to report a request of the state of one or more input medias 140; Be used to store a request from the data of one or more input medias 140 receptions, this storage is normally carried out like this: latch the conversion of the state of one or more input medias 140, send up to another request signal toy control device 130 from wireless control interface 110 till the moment arrival that comprises the signal of being stored that receives from described one or more input medias 140; Perhaps be used to send a request of simulated data, this simulated data comprises sound usually, normally asks to send in the cycle at special time.

Usually, all signals of the transmission of the twocouese between computer radio interface 110 and toy control device 130 all comprise the information that identifies toy.

Referring now to Fig. 1, Fig. 1 C is that part be the figure of square frame form for picture form part, has illustrated according to another preferred embodiment structure of the present invention and the computer control system that comprises a toy of operating.The system of Fig. 1 C comprises two computing machines 100.Can see, in general, can use a plurality of computing machines 100.In the way of realization of Fig. 1 C, all signals that the twocouese between computer radio interface 110 and toy control device 130 sends all comprise the information that identifies computing machine usually.

Below the operation of Figure 1A system will be described briefly.Usually, computing machine 100 operations comprise the software of computer game, and this computer game normally comprises at least one animated character's recreation.Perhaps, described software can comprise education software or any other comprises the interactivity software of at least one animate object.As used herein, term " animate object (animated obiect) " comprises and can be described on the computer screen 105 and can be by being input to computing machine or carrying out mutual any object from computing machine output with the user of computing machine.Animate object can be any object that is described on the screen, such as being: doll; Action figure; Toy, this toy is such as being action toy, motor vehicle or driving-type motor vehicle; Plotting sheet or sketch plate; Perhaps family expenses object is such as being clock, light fixture, container tank (chamberDot) or a piece of furniture.

Now in addition with reference to Fig. 2 A-2C, the system that Fig. 2 A-2C has described Figure 1A is in the part in the use.The equipment of Fig. 2 A comprises the computing machine 100 of Figure 1A.On computer screen, describe animate object 160 and 165 are arranged.

Fig. 2 B has described in the scope of computer radio interface 110 that toy 122 has been placed in Figure 1A, normally place identical with computer radio interface 110 indoor, afterwards situation.Best, toy 122 is corresponding to animate object 160.For example, in Fig. 2 B, the animate object 160 shown in toy 122 and Fig. 2 A all is a Teddy bear.The equipment of Fig. 2 B comprises computer screen 105, and describing thereon has animate object 165.The equipment of Fig. 2 B also comprises toy 122.Computing machine 100 has the message that machine wave point 110 as calculated receives from toy 122, and this computing machine 100 no longer shows the animate object 160 corresponding to toy 122.The function of animate object 160 is current to be by toy 122, under the control of computing machine 100, carries out by computer radio interface 110 and toy control device 130.

Fig. 2 C has described in the scope of computer radio interface 11O that toy 126 has been placed in Figure 1A, normally place identical with computer radio interface 110 indoor, situation afterwards.Best, toy 126 is corresponding to animate object 165.For example, in Fig. 2 C, the animate object 166 shown in toy 126 and Fig. 2 A and the 2B all is a clock.The equipment of Fig. 2 C comprises computer screen 105, does not describe animate object thereon.

The equipment of Fig. 2 C also comprises toy 126.Computing machine 100 has the message that machine wave point 110 as calculated receives from toy 126, and this computing machine 100 no longer shows the animate object 165 corresponding to toy 126.The function of animate object 165 is current to be by toy 126, under the control of computing machine 100, carries out by computer radio interface 110 and toy control device 130.

In Fig. 2 A, the user utilizes traditional method to carry out alternately with animate object 160 and 165 on computer screen usually.In Fig. 2 B, the user also carries out alternately with toy 122, and carries out carrying out alternately alternately rather than with animate object 160 and 165 with toy 122 and 126 respectively usually in Fig. 2 C.Can see that the user can be undertaken alternately by following manner and toy 122 and 126: the part of mobile toy or toy; Speak with toy; Motion to the toy that moves in response to the signal that receives from computing machine 100 responds; The sound that toy sent is responded, and this sound is in response to the signal that receives from computing machine 100 and produces, and can comprise music, voice or another kind of sound or other.

Referring now to Fig. 3, Fig. 3 is the simplified block diagram of preferred embodiment of the computer radio interface 110 of Figure 1A.The equipment of Fig. 3 comprises computer radio interface 110.The equipment of Fig. 3 also comprises sound card 190, as top described with reference to Figure 1A.In Fig. 3, show the connection between computer radio interface 110 and the sound card 190.

Computer radio interface 110 comprises direct current (DC) unit 200, by midi interface 210 from 194 pairs of these direct current unit 200 feed power supplies of sound card midi interface, described computer radio interface 110 also comprises as lower interface: midi interface 210 is connected to sound card midi interface 194; Audio interface 220 is connected to the audio interface 192 of sound card 190; Auxiliary audio frequency interface 230, this interface preferably is connected to stereophonic sound system, is used for producing under the control that runs on software on computing machine 100 (not shown) high-quality sound.

The equipment of Fig. 3 also comprises an antenna 240, this antenna 240 when operation send and receiving computer wave point 110 and one or more toy control device 130 between signal.

Fig. 4 is the more detailed block diagram of the computer radio interface 110 of Fig. 3.The equipment of Fig. 4 comprises direct current unit 200, midi interface 210, audio interface 220 and auxiliary audio frequency interface 230.The equipment of Fig. 4 also comprises a multiplexer 240, microcontroller 250, radio receiving-transmitting unit 260, radio receiving-transmitting unit 260 is connected to the linkage unit 270 and the comparer 280 of microcontroller 250.

Referring now to Fig. 5 A-5D, Fig. 5 A-5D lumps together the synoptic diagram of the equipment that has just comprised Fig. 4.

Be the preferred components tabulation of the equipment of Fig. 5 A-5C below:

1.K1 relaying department (Relay Dept), Idec for example is a California, USA, Sani's Weir, No. 1213 Ai Erke fast traffic lane (specific address is: 1213ElcoDrive, and sunnyvale, Calif.94089-2211, USA.)

2.U18751 microcontroller is provided by Intel company (Intel Corporation), the said firm is positioned at California, USA, (specific address is: San Tomas4,2700Sun Tomas Expressway, 2nd Floor in holy Te Kelala city, SantaClara 95051, CA USA.

3.U2CXO-12MHZ (crystal oscillator) provided by Lei Erchun company (Raltron), the said firm is positioned at Fla., the Miami city, the 107th main road (specific address is: 2315 N.W.107th Avenue, and Miami, FL33172, USA.)

4.U4MC33174, providing by Motorola Inc. (Motorola), the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

5. diode 1N914 is provided by Motorola Inc. (Motorola), and the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

6. transistor 2N2222 and MPSA14 are provided by Motorola Inc. (Motorola), and the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

Be the preferred components tabulation of the equipment of Fig. 5 D below:

1.U1 SILRAX-418-A UHF wireless telemetering receiver module, provide by Ginsberg electronics incorporated company (Ginsburg Electronic GmbH), the said firm is positioned at the A Mumusifeide of No. the 81829th, German Manchester, and No. 85 (specific address is: Am Moosfeld85, D-81829, Munchen, Germany)

Perhaps, the U1 of Fig. 5 D can be replaced by following parts:

U1 433.92MHz receiver module parts, its part number is 0927, can sell company limited (CEL SALES LTD.) by CEL provides, the said firm is positioned at Britain sago Lanzhou, He Ersuowen city, this boulevard of Sheng Sitong trade property Broome, the 6th block, Unit the 2nd, (specific address is: Cel House in the Cel house, Unit2, Block6, Shenstone Trading Estate Broms-grove, Halesowen, West Midlands B36 3XB, UK)

2.U2 TXM-418-A low-power UHF is wireless telemetry sending module, provide by Ginsberg electronics incorporated company (Ginsburg Electronic GmbH), the said firm is positioned at the A Mumusifeide of No. the 81829th, German Manchester, and No. 85 (specific address is: Am Moosfe1d85, D-81829, Munchen, Germany) or, the U2 of Fig. 5 D can be replaced by following parts:

U2 433.92 SIL FM transmitter modules, its part number is 5229, can sell company limited (CEL SALES LTD.) by CEL provides, the said firm is positioned at Britain sago Lanzhou, He Ersuowen city, this boulevard of Sheng Sitong trade property Broome, the 6th block, Unit the 2nd, (specific address is: Cel House in the Cel house, Unit2, Block6, Shenstone Trading Estate Broms-grove, Halesowen, West Midlands B36 3XB, UK)

Now subsidiary with reference to Fig. 5 E, this figure is a kind of synoptic diagram of alternate embodiments of the equipment of Fig. 5 D.Be the preferred components tabulation of the equipment of Fig. 5 E below:

1.U1BIM-418-F low-power UHF data transmitting and receiving machine module, provide by Ginsberg electronics incorporated company (Ginsburg Electronic GmbH), the said firm is positioned at the A Mumusifeide of No. the 81829th, German Manchester, and No. 85 (specific address is: Am Moosfeld85, D-81829, Munchen, Germany)

Perhaps,

1.U1S20043 spread spectrum full duplex transceiver, (AMI Semiconductors-American Microsystems Inc.) provides by AMI Semiconductor Inc.-U.S.'s microsystems, the said firm be positioned at Ida. (Idaho, USA)

Perhaps,

1.U1SDT-300 synthetic transceiver, by Japanese circuit design company provide (CircuitDesign, Inc., Japan)

Perhaps, U1 can be replaced by following parts:

U1 RY3GB021 RF 900Mhz unit, can provide by Sharp Electronics components and parts group (SHARP ELECTRONIC COMPONENTS GROUP), this group is positioned at Washington state, the Ka Mosi city, the nurse tree-covered walkways are #20 number in the Pacific Ocean, and No. 5700 (specific address is Nuo Siweisite: 5700Northwest, Pacific Rim Boulevard#20, Gamas, Washington, USA)

U1 RY3GB100RF detecting unit, can provide by Sharp Electronics components and parts group (SHARP ELECTRONIC COMPONENTS GROUP), this group is positioned at Washington state, the Ka Mosi city, and the nurse tree-covered walkways are #20 number in the Pacific Ocean, No. 5700 (specific address is Nuo Siweisite: 5700Northwest, Pacmc Rim Boulevard#20, Gamas, Washington, USA) in the list of parts of Fig. 5 E, in project 1 or the project 1 that substitutes can be used for U1.Can see, can carry out suitable modification all circuit boards of the alternate embodiment of described equipment.

The equipment of Fig. 5 E has function like the equipment class with Fig. 5 D, sends and receiving ability but have this higher special rate, and the preferred equipment of Fig. 5 E especially when sending and receive the MIDI data for example.

Fig. 5 A-5E is the explanation voluntarily about above-mentioned list of parts.

Referring now to Fig. 6, Fig. 6 is the simplified block diagram of preferred embodiment of the toy control device 130 of Figure 1A.The equipment of Fig. 6 comprises radio receiving-transmitting unit 260, is similar to the radio receiving-transmitting unit 260 of Fig. 4.The equipment of Fig. 6 also comprises microcontroller (MCU) 250, is similar to the microcontroller 250 of Fig. 4.

The equipment of Fig. 6 also comprises digital input/output interface (digital I/O interface) 290, this interface can provide the interface between microcontroller 250 and a plurality of input and output device when operation, for example, 4 input medias and 4 output units can be connected to this interface 290.The preferred way of realization of digital I/O interface 290 is described in more detail with reference to Fig. 7 A-7F below.

The equipment of Fig. 6 also comprises analog input/output interface (Simulation with I/O interface) 300, this interface is operably connected to radio receiving-transmitting unit 260, and can receive from the signal of radio receiving-transmitting unit 260 or send signal to radio receiving-transmitting unit 260 in when operation.

The equipment of Fig. 6 also comprises multiplexer 305, be used for when operation in response to signal from microcontroller 250, only when simulating signal be when sending by radio receiving-transmitting unit 260, just output is offered Simulation with I/O interface 300, and, only when need be, this input be passed through from the input of Simulation with I/O interface 300.

The equipment of Fig. 6 also comprises input media 140 and output unit 150.In Fig. 6, for instance, input media 140 comprises: a tilt switch is operably connected to digital I/O interface 290; And a microphone, be operably connected to Simulation with I/O interface 300.Can see, can adopt diversified input media 140.

In Fig. 6, for instance, output unit 150 comprises: a direct current motor is operably connected to digital I/O interface 290; And a loudspeaker, be operably connected to Simulation with I/O interface 300.Can see, can adopt diversified output unit 150.

The equipment of Fig. 6 also comprises a dc controller 310, describes a preferred way of realization of this dc controller below in more detail to 7F with reference to Fig. 7 A.

The equipment of Fig. 6 also comprises a comparer 280, is similar to the comparer 280 of Fig. 4.

The equipment of Fig. 6 also comprises a power supply 125, is shown battery with way of example in Fig. 6, and this power supply can provide electric power through dc controller 310 to the equipment of Fig. 6 when operation.

Referring now to Fig. 7 A-7F, Fig. 7 A-7F and Fig. 5 D or 5E lump together the synoptic diagram of the equipment that has just comprised Fig. 6.If the schematic construction of Fig. 5 E is used to realize the computer radio interface of Fig. 4, then RY3GB021 is adopted as the U1 of Fig. 5 E, preferably adopt the schematic construction identical with Fig. 5 E to realize the toy control device of Fig. 6 then, special character is RY3GH021 rather than RY3GB021 are used to realize U1.

Be the preferred components tabulation of the equipment of Fig. 7 A-7F below:

1.U1 8751 microcontrollers are provided by Intel company (Intel Corporation), the said firm is positioned at California, USA, (specific address is: San Tomas4,2700Sun Tomas Expressway, 2nd Floor in holy Te Kelala city, SantaClara 95051, CA USA.

2.U2 LM78L05, provide by National Semiconductor (National Semiconductor), the said firm is positioned at California, USA, holy Te Kelala city, No. 2900 (specific address is: 2900Semiconductor Drive in Sai Mikenda cut fast traffic lane, Santa Clara, CA95052, USA)

3.U3 CXO-12MHZ (crystal oscillator) is provided by Lei Erchun company (Raltron), the said firm is positioned at Fla., the Miami city, the 107th main road (specific address is: 2315N.W.107th Avenue, and Miami, FL33172, USA.)

4.U4 MC33174 is provided by Motorola Inc. (Motorola), the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

5.U5 MC34119 is provided by Motorola Inc. (Motorola), the said firm is positioned at the Phoenix this (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

6.U6 4066, provide by Motorola Inc. (Motorola), the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

7. diode 1N914,1N4005 is provided by Motorola Inc. (Motorola), and the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

8. transistor 2N2222,2N3906 is provided by Motorola Inc. (Motorola), and the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

9. transistor 2N2907, MPSA14 is provided by Motorola Inc. (Motorola), and the said firm is positioned at the Phoenix (Phoenix, AZ USA) in the U.S. that state of Ya Lisang, and its telephone number is: (602) 897-5056

Fig. 7 A-7E is the explanation voluntarily about above-mentioned list of parts.

As top described with reference to Figure 1A, the signal that sends between computer radio interface 110 and toy control device 130 can be simulating signal or digital signal.Under the situation of digital signal, this digital signal preferably includes a plurality of predefined message, and this message all is known for computing machine 100 and toy control device 130 the two.

Each message that is sent to toy control device 130 by computer radio interface 110 all comprises the designator for the intended recipinent of this message.Each message that is sent to computer radio interface 110 by toy control device 130 all comprises the designator for the sender of this message.

Among the embodiment of described in the above Fig. 1 C, each message also can comprise following:

Each message that is sent to toy control device 130 by computer radio interface 110 all comprises the designator for the sender of this message; With

Each message that is sent to computer radio interface 110 by toy control device 130 all comprises the designator for the intended recipinent of this message.

The preferred set of predefined message is as follows: imperative structures

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dst2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8

Command list (CLIST) from computing machine to toy control device A. output command SET_IO_TO_DATA

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	P	00	00	A	? 00	01	?00	?IO	?00												D	?x	?x

Toy control device output pin is set to digital level 0P: computer address 00-03 HA: element address 00-FF HIO:i/o number 00-03 HD: data 00-01 H example 1.01 0 0 0 0 0500 01 03 01 00 00 are provided with io3 is " 1 " 2.01 0 0 0 0 0 500 01 03 00 00 00 io3 is set is " 0 " CHANGE_IO_FOR_TIME

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	?P	?00	?00	?A	? 00	? 02	?00	?IO	?00												?D	?T1	?T2

In a time period, toy control device output pin is changed into D, return original state then.P: computer address 00-03 HA: element address 00-FF HIO:i/o number 00-03 HT1.T2: time 00-FF HD: data 00-01 H example: 1.01 0 0 0 00 500 02 03 05 00 00 in 5 seconds io3 be set to " 1 " B. input command SEND_STATUS_OF_SENSORS

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	????P	????00	00	A	? 01	? 00	?x	?x	?x												?x	?x	?x

Send the toy state of a control of all the sensors.P: computer address 00-03 HA: element address 00-FF H example: 1.01 0 0 0 0 0 501 00 00 00 00 00 send the current state SENSORS_SCAN_MODE_ON of each sensor

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4					4	4	4	8
?01	?P	00	00	A	01	? 01	?x	?x	?x											?x	?x	?x

Begin to scan toy control device sensor, and, if one of them sensor is closed (placing " 0 "), then return a confirmation signal.P: computer address 00-03 HA: element address 00-FF H example: the scan pattern of 1.01 00 00 05 01 01 00 00 00 00 sensors is " ON " SENSORS_SCAN_MODE_ON_ONCE

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	????CMD ????msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	P	00	00	A	???? 01	? 02	?x	?x	?x												?x	?x	?x

Begin to scan toy control device sensor,, then return a confirmation signal, forbid scanning this sensor then if one of them sensor is closed (placing " 0 ").P: computer address 00-03 HA: element address 00-FF H1.01 0 0 0 0 0 5The scan pattern of 01 02 00 00 00 00 sensors once is " ON " SENSORS_SCAN_MODE_OFF

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	P	00	00	A	? 01	? 03	?x	?x	?x												?x	?x	?x

Stop to scan toy control device sensor.P: computer address 00-03 HA: element address 00-FF H example: 1.01 0 0 0 0 0 5The scan pattern of 01 03 00 00 00 00 sensors is " OFF " C. audio frequency output command START_AUDIO_PLAY

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	????P	00	00	A	? 02	? 00	?x	?x	?x												?x	?xx	?xx

Beginning is the audio plays content in the loudspeaker of toy control device.This audio content sends to the toy control device by computer sound card and computer audio interface.P: computer address 00-03 HA: element address 00-FF H1.01 00 00 05 02 00 00 00 00 00 beginning voice playing STOP_AUDIO_PLAY

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	?P	00	00	A	02	? 01	?x	?x	?x												?x	?x	?x

Stop at audio plays content in the loudspeaker of toy control device.P: computer address 00-03 HA: element address 00-FF H1.01 0 0 0 0 0 502 01 00 00 00 00 stop voice playing STAR_AUDIO_AND_IO_PLAY_FOR_TIME

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	????P	????00	00	A	? 02	? 04	?T1	?T2	?T0												?1d	?SC	?IO

Beginning audio plays content and io pin in the loudspeaker of toy control device be set to ' 1 '.After time T, stop voice playing and IO to be set to ' 0 ', after the delay that equals 100ms, start this order, if SC=" 1 ", then after carrying out this order, beginning input command SCAN_SENSORS_ON_ONCE (,, also a message being sent to computing machine) even if during voice playing if pushed any sensor.P: computer address 00-03 HA: element address 00-FF HIO:i/o number 0-3 H (if IO＞3 then IO is not set) T0, T1, T2: time 000-FFFH (* 100ms) (T0=MMSB, T1MSB, T0=LSB) TD: 0-F H time delay before carrying out ( ^*100ms) 1.01 00 00 05 02 04 80 2A 03 00 begin voice playing and IO#3 in 6.45

6.10=2BOH

Delay=10*100ms=1sec2.01 00 00 05 02 04 80 2A 14 00 before carrying out begin voice playing and IO#3 in 6.45, and scanning sensor is set is " ON " pattern once.

Delay=10*100ms=1secD.AUDIO IN COMMANDSTRANSMIT_MIC_FOR_TIME before carrying out

Byte 0	Byte 1		Byte 2	Byte 3	Byte 4	Byte 5	Byte 6		Byte 7		Byte 8		Byte 9
														Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-		-8-		-8-		CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb	?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
														8	2	6	8	8	8	8	4	4	4	4	4	4	8
01	????P	????00	00	A	03	? 00	?T1	?T2	?x	?x	?x	?x

Request toy control device sends the microphone audio content from the toy control device to the sound card of computer audio interface and computing machine in time T.P: computer address 00-03 HA: element address 00-FF HT1, T2: time 00-FF H (SEC) example: 1.01 0 0 0 0 0 503 00 0A 00 00 00 begin mic pattern E.GENERAL TOY COMMANDSGOTO_SLEEP_MODE in 10s

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	1	00	00	A	? 04	? 01	?x	?x	?x												?x	?x	?x

Request toy control device enters battery saving mode (sleep).P: computer address 00-03 HA: element address 00-FF H1.01 0 0 0 0 0 504 01 01 00 00 00 00 switch to sleep pattern GOTO_AWAKE_MODE with the toy control device

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	????P	????00	00	A	? 04	? 02	?x	?x	?x												?x	?x	?x

Request toy control device enters an awakening pattern.P: computer address 00-03 HA: element address 00-FF H1.01 0 0 0 0 0 504 02 00 00 00 00 switch to the awakening pattern with the toy control device.TOY_RESET

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	????P	????00	00	A	? 04	? 0F	?x	?x	?x												?x	?x	?x

Request toy control device is carried out " resetting ".P: computer address 00-03 HA: element address 00-FF H1.01 0 0 0 0 0 501 0F, 00 00 00 00 toys reset.TOY_USE_NEW_RF_CHANNELS

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
00	????P	????00	00	A	04	? 0A	?C111	?C112	?x												?x	?x	?x

Request toy control device switches to new RF and sends and receive channel.P: computer address 00-03 HA: element address 00-FF HCH1: send RF channel number 0-F HCH1: receive RF channel number 0-F H1.01 0 0 0 0 0 504 0A 12 00 00 00 switches to new reception and sends the RF channel.Note: this order only can be used for the radio module (U1 of Fig. 5 E in other words) that strengthens or is used for Figure 15 A-15E and the described module of 24A-24E.The information that E.TELEMETRY is sent by the toy control device is as the affirmation information to the order that receives from the computer radio interface.OK_ACK

Byte 0	Byte 1		Byte 2	Byte 3	Byte 4	Byte 5	Byte 6		Byte 7		Byte 8		Byte 9
														Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	CMD 1sb	-8-		-8-		-8-		CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb	?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
														8	2	6	8	8	8	8	4	4	4	4	4	4	8
01	?P	00	00	A	0A	0 0	?cmd1	?cmd2	?Cmd3	?Cmd4	?sen1	?sen2

Send it back a confirmation signal, expression receives and orders successfully.P: computer address 00-03 HA: element address 00-FF Hcmd1,2: the order MSB of reception successfully confirms 00-FF Hcmd3,4: the order LSB of reception successfully confirms 00-FF Hsen1,2: sensor 0-7 state 00-FF H1.01 6 0 00 05 0A, 00 01 01 FF 00 are used for the successful affirmation (the sensor scan pattern is connected order) of 0101 order.

State: all sensors all be not pressed (FF)

Computer radio interface number is the successful affirmation (the sensor scan pattern is connected order) that 62.01 00 00 05 0A, 00 01 01 FE 00 are used for 0101 order.

State: sensor #8 be pressed (FE)

Computer radio interface number is the request that 6E.REQUESTS is sent after an incident by the toy control device.TOY_IS_AWAKE_REQ

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	?P	00	00	A	? 0A	? 0 0	?c1	?c2	?x												?x	?x	?x

If the toy control device forwards the awakening pattern to from sleep pattern, then send a message to the computer radio interface.P: computer address 00-03 HA: element address 00-FF Hc1, c2: status command AB H1.01 6 0 0 0 0 S 0A 00 AB 00 FF 00 toy awakening message.F.CRI (computer radio interface) order only sends to the order of computer radio interface.SWITCH_AUDIO_OUT_TO_RADIO_&_TRANSMIT

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	????P	????00	00	x	? 0C	? 00	?x	?x	?x												?x	?x	?x

The requesting computer wave point switches to " audio frequency output " radio receiving-transmitting unit and sends from computer sound card.P: computer address 00-03 HSWITCH_AUDIO_OUT_TO_JACK_﹠amp; _ STOP_TRANSMIT

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	P	00	00	x	? 0C	? 01	?x	?x	?x												?x	?x	?x

The requesting computer wave point switches to " audio frequency output " the loudspeaker socket and stops transmission from the wireless RF radio receiving-transmitting unit.P: computer address 00-03 HMUTE_RADIO

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	????P	????00	00	x	? 0C	? 02	?x	?x	?x												?x	?x	?x

Make the quiet P of radio transmitting: computer address 00-03 HG.CRI-ACK " affirmation " signal only after the CRI order, only sends to computing machine by the computer radio interface.CRI_COMMAND_ACK

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	PC add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	P	00	00	x	0D	? 00	?cmd1	?cmd2	?cmd3												?cmd4	?x	?x

This is the affirmation signal that is used for the CRI order, and this confirmation signal only just sends to computing machine by the computer radio interface after successful execution one order.P: computer address 00-03 Hcmd1,2: the CRI order MSB of reception successfully confirms.00-FF Hcmd3,4: the CRI order LSB of reception successfully confirms.00-FF H1.01 6 0 0 0 0 0 0D 00 0C 01 00 00 orders for 0C01 CRI and successfully confirms (switch audio outputs to socket).

Computer radio interface number is 6.2.01 ordering for 0C0F CRI, 60 00 00 0D, 00 0C 0F 00 00 successfully confirms (CRI resets).

Computer radio interface number is 6.

This confirmation signal also is sent in electrification reset UN-MUTE-RADIO

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMO ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dar2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	???00	????00	????00	????x	? 0C	? 03	?x	?x	?x												?x	?x	?x

Make wireless transmission not quiet.CRI_RESET

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	?CMD ?msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
?01	???1’	????00	00	x	? 0C	? 0F	?x	?x	?x												?x	?x	??x

To computer radio interface unit software reset.P: computer address 00-03 H

Referring now to Fig. 8 A, Fig. 8 A is the simplified flow chart of explanation method for optimizing of execution in the toy control device 130 of Figure 1A, and this method is used to receive wireless signal, carries out the order that is included in wherein and sends wireless signal.Usually, each message as previously described all comprises an order, and this order can comprise an order that is used for handling the information that is also contained in described message.The method of Fig. 8 A preferably comprises the following step:

Detect a synchronous signal or a preamble (step 400).Detect a title (step 403).

Reception is included in the order of one in the described signal (step 405).

Execution is included in the described order (step 410) in the described signal.Execution to this order can be as top described with reference to Figure 1A.

Transmission contains the signal of an order, and this order is intended for use computer radio interface 110 (step 420).

Referring now to Fig. 8 B-8T, Fig. 8 B-8T lumps together the simplified flow chart of the preferred way of realization of the method that has just comprised Fig. 8 A.The method of Fig. 8 B-8T is explained very clearly in the drawings, need not to do explanation again.

Referring now to Fig. 9 A, Fig. 9 A is the simplified flow chart of explanation method for optimizing of execution in the computer radio interface 110 of Figure 1A, and this method is used to receive midi signal, receives wireless signal, carries out order, the transmission wireless signal that is included in wherein and sends midi signal.Some step among Fig. 9 A is identical with step among above-described Fig. 8 A.Fig. 9 A also preferably comprises the following step:

Receive MIDI order (step 430) from computing machine 100.This MIDI order can comprise an order of planning to be sent to toy control device 130, can comprise audio frequency input (audio in) or audio frequency output (audio out) order or can comprise general orders.

One MIDI order is sent to computing machine 100 (step 440).This MIDI order can comprise the signal that receives from toy control device 130, can comprise for the response of the MIDI order that had before been received from computing machine 100 by computer radio interface 110 or can comprise general orders.

Execution is included in the described MIDI order or the order (step 450) in received signal.Under the situation of the signal that receives being, can comprise the execution of this order this order is reported to computing machine 100, computing machine 100 can be carried out any suitable action usually under programmed control thus, for example changes screen display or carries out any other suitable action in response to the order that is received.Under the situation that is being the MIDI order that receives from computing machine 100, can comprise the execution of this order this order is sent to toy control device 130.Also can be included in the audio frequency output of switching computer control device 110 between auxiliary audio frequency interface 230 and the radio receiving-transmitting unit 260 to the execution of MIDI order.

Under the normal condition, auxiliary audio frequency interface 230 orientations are connected to audio interface 220, are used to keep the connection between computer sound card plate and the peripheral audio device, and this audio devices is such as being loudspeaker, microphone and stereophonic sound system.

Referring now to Fig. 9 B-9N, and, returning in addition with reference to Fig. 8 D-8M, all these figure lump together the simplified flow chart of the preferred way of realization that has just comprised Fig. 9 A method.The method of Fig. 9 B-9M and Fig. 8 D-8M lump together and explain very clearly in the drawings, need not to do explanation again.

Referring now to Figure 10 A-10C, Figure 10 A-10C is the simplicity of illustration explanation of the signal of transmission between the computer radio interface 110 of Figure 1A and toy control device 130.Figure 10 A comprises a synchronized preamble.Duration T _ the SYNC of this synchronized preamble is preferably the .500 millisecond, and preferably is divided on (leading to) and off (breaking) component basically.

It is 0 one signal that Figure 10 B comprises the expression value, is 1 one signal and Figure 10 C comprises the expression value.

Can see that Figure 10 B and 10C are meant the situation of the equipment that uses Fig. 5 D.Under the situation of the equipment of Fig. 5 E, be provided in the equipment of Fig. 5 E corresponding to the functive of the functive of describing among Figure 10 B and the 10C (functionality).

Best, a predetermined lasting time T is distributed in each position, this predetermined lasting time T is identical concerning each.Adopt the frequency modulation (PFM) keying method of knowing in this area to come the carrier wave of transmission frequency modulation.One " off " signal (usually less than 0.7 volt) that the terminal 5 of U2 is expressed in Fig. 5 D can make and send with the frequency that is lower than the intermediate value channel frequency.The end of U2 can make in 5 one " on " signals (usually greater than 2.3 volts) of expressing and send with the frequency that is higher than the intermediate value channel frequency in Fig. 5 D.These signals are received by respective receiver U1.Output signal from the pin 6 of U1 is presented respectively to the comparer in Fig. 4 and 6 280, and this comparer 280 determines that the signal that is received is " off " or " on " when operation.

Also can use the comparer that is included among the U1 like this: the pin 7 of U1 among the connection layout 5D makes the pin 6 of connector J1 among its pin that passes through connector J1 among Fig. 5 D 6, Fig. 5 A, by bonding jumper (jumper) pin one 2 of U1 in Fig. 5 A more afterwards.

Best, ignore for the duration less than 0.01 ^*The reception of the signal of T or spiking (spike).For the duration 0.01 ^*T and 0.40 ^*Reception between the T, " on " signal shown in Figure 10 B is best by the position reception that as value is 0.For the duration greater than 0.40 ^*Reception T, " on " signal shown in Figure 10 C is best by the position reception that as value is 1.Usually, the value that has of T is 1.0 milliseconds.

In addition, after receiving " on " signal, measure the duration of follow-up " off " signal.For being considered to effectively position, the duration sum of " on " signal and " off " signal must be between 0.90T and 1.10T.Otherwise this position is just regarded as invalid and is left in the basket.

Referring now to Figure 11, Figure 11 is the simplified flow chart that explanation produces the method for the steering order that is used for Figure 1A equipment.The method of Figure 11 preferably includes the following step:

Select a toy (step 550).Select at least one order, preferably from a plurality of orders relevant, select (step 560-580) with selected toy.Perhaps, can import an order (step 585) by selecting, revise and create a new binary order.

Usually, the selection to an order in step 560-580 can comprise: select an order, and specify one or more controlled variable relevant with this order.A controlled variable for example can comprise the result's who depends on a previous order a condition, and this previous order can be relevant with selected toy, also can be relevant with another toy.A controlled variable can also comprise an executive condition of the execution of administration order, and for example: be used for the condition that one specific output will take place for according to the state of toy statement, described state is, and and if only if when receiving a specific input; Being used to explain described order will be in a condition of special time execution; Be used to explain the condition that described order will stop at a special time; Comprise order and revise a condition of symbol, the execution that symbol is used to revise described order is revised in this order, for example, has continued under the situation in certain hour cycle termination in the execution of order to the execution of this order; A condition that depends on the generation of a future event; Perhaps other condition.

Described order can comprise the order that is used to cancel a previous order.

The output of the method for Figure 11 comprises one or more steering orders usually, and these steering orders are used for being implemented in the particular command that step 590 produces.Usually, described one or more steering order is included in the command file.Usually, this command file calls from a driver procedure, and this driver procedure determines will carry out which order at preset time point, call the command file relevant with given order then usually.

Best, the user of the method for Figure 11 adopts the computing machine with graphical user interface to come execution in step 550 and 560.Referring now to Figure 12 A-12C, Figure 12 A-12C is the diagram of preferred embodiment of graphical user interface way of realization of the method for explanation Figure 11.

Figure 12 A comprises a toy and selects district 600, and this toy is selected district 600 to comprise a plurality of toys and selected icon 610, each icon representation one toy.The user of the graphical user interface of Figure 12 A-12C selects an icon in the toy selection icon 610 usually, and this icon representation is assigned to selected toy with an order.

Figure 12 A also comprises Action Button 620 usually, and this Action Button 620 comprises in following one or multinomial usually:

Allow a button of user's (normally expert user) input one direct binary order, this order is used to realize senior or complicated especially order that in addition, this order is to obtain by the graphical user interface of Figure 12 A-12C;

Allow a button of user installation one new toy, use this button just can increase by a new toy and select icon 610; With

Allow the user to withdraw from a button of the graphical user interface of Figure 12 A-12C.

Figure 12 B has described an order generator screen, and this screen has selected the toy of Figure 12 A to select an icon in the icon 610 just to show afterwards the user usually.Figure 12 B comprises: an animation district 630, this animation district 630 preferably comprise the descriptor that selected toy is selected icon 610; And a text area 635, this article local area 635 comprises the text of describing selected toy.

Figure 12 B also comprises a plurality of order classification buttons 640, and each button all allows a classification of user's select command, for example: output command; Input command; The audio frequency input command; The audio frequency output command; And general orders.

Figure 12 B also comprises a cancel button 645, is used for the screen that Figure 12 A was selected and turned back in mandatum cassatorium.

Figure 12 C comprises a command selection district 650, allows the user to specify a particular command.Can specify multiple order, described each order of Figure 12 C only is to illustrate with the form of giving an example.

Figure 12 C also comprises a file name area 655, and wherein the user can specify the file name that will receive the steering order that is produced.Figure 12 C also comprises a cancel button 645, is similar to the cancel button 645 of Figure 12 B.Figure 12 C also comprises one and makes (make) button 660.When the user started this making button 660, the steering order generator of Figure 11 produced the steering order that realization is used for the selected order of selected toy, and these steering orders was written to the file of appointment.

Figure 12 C also comprises a parameter and selects district 665, and wherein the user can specify the parameter relevant with selected order.

Referring now to appendix A, appendix A is the computer code tabulation of optimization software way of realization of the method for Fig. 8 A-8T.

Appendix A is INTEL sexadecimal (hex) formatted file.In each row, data byte is with number of characters 9 beginnings.Each byte is by 2 character representations.Last byte (2 characters) in each row should be left in the basket.

For example, for the same one's own profession: original row is read to get off and is: 07000000020100020320329F, data byte are 02010002032032 (02,01,00,02,03,20,32), the start address of this data byte is 0000 (00,00), and appendix A may be programmed in the storer of microcontroller 250 of Fig. 6.

Appendix B is the computer code tabulation of optimization software way of realization of the method for Fig. 9 A-9N and Fig. 8 D-8M.

Appendix B is INTEL sexadecimal (hex) formatted file.In each row, data byte is with number of characters 9 beginnings.Each byte is by 2 character representations.Last byte (2 characters) in each row should be left in the basket.

For example, for the same one's own profession: original row is read to get off and is: 070000000201000205A73216, data byte are 0201000205A732 (02,01,00,02,05, A7,32), the start address of this data byte is 0000 (00,00), and appendix B may be programmed in the storer of microcontroller 250 of Fig. 4.

Appendix C is the computer code tabulation of optimization software way of realization that is used in an example of the computer game in the computing machine 100 of Fig. 1.

Appendix D is the computer code tabulation of optimization software way of realization of the method for Figure 11 and Figure 12 A-12C.

For appendix C and D, these programs are to adopt VISUAL BASIC exploitation.For moving these programs, at first need to install VISUAL BASIC environment.This application program needs VisualBasic client control, is used to carry out be similar to the MIDII/O that is called MIDIVBX.VBX.VISUALBASIC is made by Microsoft (Microsoft Corporation), and the said firm is positioned at Washington state, the Redmond city, No. 1, Microsoft road (One Microsoft Way, Redmond, WA98052-6399, USA).MIDIVBX.VBX can be provided by Wayne Radinsky, and e-mail address is: a-wayner@microsoft.com.

Be used for the step that microcontroller of the present invention is programmed is comprised the use universal programmer, such as Universal Programmer, type EXPRO60/80, they are by Taibei sunlight Electronics Co., Ltd. (Sunshine Electronics Co.Ltd., Taipei, Japan) making of Japan.

The step that is used to utilize the data of appendix A and B that microcontroller is programmed comprises the following steps:

1. working procedure EXPRO.EXE provides EXPRO60/80 to this program.

2. from master menu, select the EDIT/VIEW option.

3. select EDIT BUFFER option.

4. input of character string E0000.

5. with the byte-by-byte form, from the address 0000, input relevant data (in appendix A or B, providing).In each row, all has a new start address for each data byte that appears in this row.

6. press ESC.

7. input alphabet Q.

8. from master menu, select the DEVICE option.

9. select the MPU/MCU option.

10. select the INTEL option.

11. select 87C51.

12. from master menu, select the RUNFUNC option.

13. select the PROGRAM option.

14. the 87C51 chip is placed the slot of programmable device.

15. input Y also waits for, up to OK message occurring.

16. present described chip has been ready to be mounted on the circuit board.

The method that is used to utilize the data of appendix C and D to create associated documents for computing machine 100 comprises the HEX EDITOR that use can be edited the dos format file.Typical HEX and ASC II editing machine are made by Martin Doppler boolean company (Martin DoPPelbauer), the said firm is positioned at German Duo Mengte city, its specific address is: Am spoerkel17,44227Dortmund, Germany, UET401, its e-mail address is: hrz.unidozr.uni-dortmund.de.

Utilizing HEX editing machine (such as being Martin Koppelbauer editing machine) to create the necessary step of file comprises the following steps:

1. be new file with required title with any DOS file copy, its expansion .EXE (for example, writing COPY AUTOEXEC.BAT TOY1.EXE) by name.

2. working procedure ME.EXE.

3. from master menu, press alphabetical L (file of packing into).

4. new file (for example, TOY1.EXE) is write master menu.

5. from master menu, press letter (insertion).

6. with the byte-by-byte form, from the address 0000, input relevant data (writing on the data among appendix C or the D).

7. press ESC.

8. input alphabet W (writing file) from master menu.

9. press the RETURN key, and withdraw from from editing machine by pressing alphabetical Q.

The embodiment of Fig. 1 C recited above comprises the descriptor of the preferred set of predetermined message, and this is predetermined

Message comprises the classification that is called " general orders (General commands) ".Other general life

Order is defined by following descriptor: multiport order AVAILABILITY_INTERROGATION_COMMAND

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	????P	???00	????00	????A	04	? 05	?00	?00	?00												?00	?x	?x

It is the free time with the checking wireless channel that computing machine sends this order.If another computing machine has used this order, then it responds with the availability response command.If do not receive response in 250ms, then this channel is considered to idle.P: computer address 00-03 HA: element address 00-FF HAVAILABILITY_RESPONSE_COMMAND

Byte 0	Byte 1		Byte 2	Byte 3	Byte 4	Byte 5	Byte 6		Byte 7		Byte 8		Byte 9
														Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	CMD 1sb	-8-		-8-		-8-		CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb	?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
														8	2	6	8	8	8	8	4	4	4	4	4	4	8
?01	?P	00	00	A	04	06	?00	?00	?00	?00	?x	?x

Computing machine sends this order in response to available inquiry command, is used with the declaration wireless channel.P: computer address 00-03 HA: element address 00-FF HTOY_AVAILABILITY_COMMAND

Byte 0	Byte 1		Byte 2	Byte 3	Byte 4	Byte 5	Byte 6		Byte 7		Byte 8		Byte 9
														Header	?PC ?add	Unit # A-sb	Unit # B-sb	Unit # C-sb	CMD msb	?CMD ?1sb	-8-		-8-		-8-		CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb	?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
														8	2	6	8	8	8	8	4	4	4	4	4	4	8
?01	?P	00	00	?A	04	? 07	?00	?00	?00	?00	?x	?x

Toy sends this order and exists to announce it, and receives its channel of computing machine of specified control to the select command and the wireless channel that will use in response.P: computer address 00-03 HA: element address 00-FF HCHANNEL_PAIR_SELECTION_COMMAND

Byte

0	Byte 1	Byte 2	Byte 3	Byte 4	Byte 5	Byte 6	Byte 7	Byte 8	Byte 9
										Header	????PC ????add	Unit # A-sb	Unit # B-sb	Unit # C-sb	????CMD ????msb	????CMD ????1sb	-8-	-8-	-8-	CRC
							?Dat1 ?msb	?Dat1 ?1sb	?Dat2 ?msb												?Dat2 ?1sb	?Dat3 ?msb	?Dat3 ?1sb
										8	2	6	8	8	8	8	4	4	4	4					4	4	8
01	????P	????00	????00	?????A	???? 04	???? 08	?C111	?C112	?00												?00	?x	?x

Computing machine sends this order in response to the order of toy availability, is used with notice toy wireless channel.P: computer address 00-03 HA: element address 00-FF HCH1: toy transmitting channel 0-F HCH1: toy receive channel 0-F H

In Figure 13 and 14, show the block scheme of multiport multichannel way of realization of the computer radio interface 110 of Figure 1A.Figure 13 shows the processing subelement of this computer interface, and this subelement is implemented as the adding circuit board (add-in board) that is installed in a PC inside.Figure 14 is the RF transceiver, and it is the external device (ED) of computing machine, and is connected to described processing subelement by cable.In the current application mode of RF unit, 4 transceivers are arranged, each transceiver can both use two wireless channels simultaneously.

With reference to Fig. 3 once, can see that briefly sound and control command can optionally be sent by MIDI connector 210, rather than voice command is sent by simulation connector 220.Can also see, interface 210 between computer radio interface 110 and the sound card 190 and 220 function also can realize in another way, promptly as computer radio interface 110 to the serial of computing machine 100 and/or the connection of parallel port, as shown in Figure 25 A-25F.

If want to provide full-duplex communication, form each transceiver 260 of a part of the computer radio interface 110 of Figure 1A preferably can be when operation first channel on send, and one different be second channel on receive.The transceiver 260 (Fig. 4) of the part of the toy control device 130 of formation Figure 1A preferably can send on second channel when operation, and receives on first channel.

It is right to adopt any suitable technology to limit at least two channels, such as adopting arrowband technology or spread spectrum technology, this spread spectrum technology is such as being frequency hopping or direct sequence (direct sequence) technology, as shown in Figure 15 A-15E, show multichannel computer radio interface, and, show multichannel toy control device as Figure 24 A-24E.

It is the computer program tabulation that constitutes the function library of a DLL compatibility that appendix E-H lumps together.The compatible function library of this DLL can be used in order by suitable computer system, and this computer system is such as be IBM PC, so that generation is used for the various games of any computer control system of illustrating and describing here.Perhaps, can adopt the application program generator of Figure 11-12C to produce each recreation.

For produce a DLL (dynamically pack into and link) function library according to appendix E-H, need to carry out following operation:

1) opens Visual C++4.0

2) forward File menu (File Menu) to

3) from File menu, select " new (New) "

4) select " project work space (Project Workspace) "

5) select " dynamic link library (Dynamic-Link Library) "

6) project name is: DLL32.MDP

7) press " creating (Create) " button

8) forward File menu to

9) from File menu, select " newly "

10) select text (Text File)

11) write " source (Source) " now

12) write a file on current page, this document comprises the content of appendix E

13) press mouse the right button and selection: file is inserted project (Insert File Into Project)

14) click the DLL32 project

15) in preserving dialogue, write CREATOR.C

16) press the OK button

17) forward File menu to

18) from File menu, select " newly "

19) select text

20) write a file on this page or leaf, this document comprises the content of appendix F;

21) forward File menu to

22) press " preserving (Save) "

23) in preserving dialogue, write CRMIDI.H

24) press the OK button

25) forward File menu to

26) from File menu, select " newly "

27) select text

28) write a file on this page or leaf, this document comprises the content of appendix G;

29) forward File menu to

30) press " preservation "

31) in preserving dialogue, write a file CREATOR.H

32) press the OK button

33) forward File menu to

34) from File menu, select " newly "

35) select text

36) write a file on this page or leaf, this document comprises the content of appendix H;

37) press mouse the right button and selection: file is inserted project

38) click the DLL32 project

39) in preserving dialogue, write a file CREATOR.DEF

40) press the OK button

41) forward insertion menu (Insert Menu) to

42) press " file enters project ... (File Into Project ...) "

43) in the listing file of type: the selection library file ( ^*.lib)

44) forward Visual C++ library directory and select WINMM.LIB to

45) press the OK button

46) forward to and set up menu (Build menu)

47) press " all setting up (Rebuild ALL) again "

Now as follows based on each command description that is included in the DLL function library of appendix E-H:

A.MIDI input functions1-2 (MIDI input function 1-2):

1.Open MIDI input device (opening the MIDI input media)

Sentence structure: long MIDIInOpen (long Device)

This function is opened the MIDI device that is used to import.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

if?MIDIInOpen(Device)<>0Then

MessageDlg (' Error opening MIDI input device (mistake is opened the MIDI input media) ', mtError, mbOk, 0);

2.Reset MIDI input device (the MIDI input media resets)

Sentence structure: long MIDIInReset (void (blank))

This function resets MIDI input media.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

ifMIDIInReset<>0Then

MessageDlg (' Error reseting MIDI input device (erroneous resets MIDI input media) ', mtError, mbOk, 0);

B.MIDI output functions3-6 (MIDI output function 3-6):

3.Close MIDI input device (closing the MIDI input media)

Sentence structure: long MIDIInClose (void (blank))

This function is closed the MIDI input media.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

ifMIDIInClose<>0Then

MessageDlg (' Error closing MIDI input device (mistake is closed the MIDI input media) ', mtError, mbOk, 0);

4.OpenMIDI output device (opening the MIDI output unit)

Sentence structure: long MIDIOutOpen (long Device)

This function is opened the MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

if?MIDIOutOpen(Device)<>0Then

MessageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

5.Reset MIDI Output device (the MIDI output unit resets)

Sentence structure: long MIDIOutReset (void (blank))

This function resets MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

if?MIDIOutReset<>0Then

MessageDlg (' Error reseting MIDI output device (erroneous resets MIDI output unit) ', mtError, mbOk, 0);

6.Close MIDI output device (closing the MIDI output unit)

Sentence structure: long MIDIOutClose (void (blank))

This function is closed the MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

if?MIDIOutClose<>0Then

MeSSageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

C.General functions7-10 (generic function 7-10):

(7.SendData transmission data)

Sentence structure: long SendData (long Data)

This function sends to the toy card with 4 bytes.

Current use be to send to be used for 144 of initialization toy card (inittoy card).

Just return 0 during success, otherwise just return-1.

With Delphi is example:

If?SendData(144)<>0Then

MessageDlg (' Error sending data to toy (mistake sends data to toy) ', mtError, mbOk, 0);

8.Send Message (transmission message)

Sentence structure: long SendMessage (char*Mess)

This function sends serial data to the toy card.

Just return 1 during success, otherwise be error code.

With Delphi is example:

Mess:=‘00?01?00?00?00?00?00?05?00

00?00?01?00?03?00?01?00?00?00’；

If?SendMessage(Mess)<>0Then

MessageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

9.Check message (check message)

Sentence structure: long CheckMessage (void (blank))

If do not find message from the toy card, then this function returns 0.

With Delphi is example:

If?CheckMessage?Then

Mess:=GetMessage；

(10.GetMessage obtaining message)

Sentence structure: char ^*GetMessage (char ^*Mess)

If toy message exists, then this function returns 20 characters, otherwise just returns " Time Out (overtime) ".

With Delphi is example:

If?GetMessage=“Time?Out”Then

MessageDlg (' No message received (not receiving message) ', mtError, mbOk, 0);

D.Toy control functions11-16 (toy control function 11-16):

11.Get Toy Number (obtaining the toy number)

Sentence structure: char ^*GetToyNumber (void (blank))

If do not receive message, then this function returns the toy number of last reception message, perhaps " 0,000 00 00 ".

12.Get Sensor Number (obtaining the sensor number)

Sentence structure: long GetSensorNumber (void (blank))

If do not receive message, then this function returns the sensor number of last reception message, perhaps " 255 ".

13.Toy Reset (toy resets)

Sentence structure: long ToyReset (char ^*ToyNumber)

This function resets to go here and there with one and sends to toy.

Just return 0 during success, otherwise just return-1.

14.Toy Transceive (toy transmitting-receiving)

Sentence structure: char ^*ToyTransceive (char ^*ToyNumber, char ^*Mess)

This function sends to toy with message, and waits for 3 seconds to confirm.

Just return " Ack.Ok (confirming successfully) " during success, otherwise just return " Time Out (overtime) ".

15.Prepare Toy Talk (preparing toy speaks)

Sentence structure: char ^*PrepareToyTalk (char ^*ToyNumber, char ^*WaveFile)

This function is prepared the toy card, produces sound to utilize toy speaker.

After calling this function, can play WaveFile and hear at the toy speaker place.

Just return " Ack.Ok " during success, otherwise just return " Time Out ".

16.GoTo SleepMode (forwarding sleep pattern to)

Sentence structure: char ^*GoSleep (char ^*ToyNumber)

This function sends sleep commands to toy.

Just return " Ack.Ok " during success, otherwise just return " Time Out ".

It is the computer program tabulation of second function library that appendix I-O lumps together, this second function library can be used for combining with Director (guides) 5.0 software packages and produces various games, illustrated in these recreation are used for here and any computer control system of describing, described Director5.0 software package can be buied from grand media companies (Macro-media Inc.), the said firm is positioned at California, USA, city of san francisco, No. 600 (the 600Townsend St. in Tun Sende street, San Francisco, CA94103).

For produce an XObject function library according to appendix I-O, need to carry out following operation:

1) create a new directory by writing (MD C: XOBJECT): C: XOBJECT

2) open Visual C++1.5

3) go up selection " new (NEW) " at File menu (File menu)

4) generation contains a file of the content of appendix I;

5) from File menu, select " saving as (Save As) "

6) title given the file that in step (4), is produced by keying in (punching) " C: XOBJECT CREATOR.MAK "

7) press the OK button

8) on File menu, select " newly "

9) generation contains a file of the content of appendix J;

10) on File menu, select " saving as "

11) at filename: under the dialog, write C: XOBJECT CREATOR.C

12) press the OK button

13) on File menu, select " newly "

14) generation contains a file of the content of appendix K;

15) on File menu, select " saving as "

16) at filename: under the dialog, write C: XOBJECT CREATOR.H

17) press the OK button

18) on File menu, select " newly "

19) generation contains a file of the content of appendix L;

20) on File menu, select " saving as "

21) at filename: under the dialog, write C: XOBJECT CRMIDI.H

22) press the OK button

23) on File menu, select " newly "

24) generation contains a file of the content of appendix M;

25) on File menu, select " saving as "

26) at filename: under the dialog, write C: XOBJECT XOBJECT.H

27) press the OK button

28) on File menu, select " newly "

29) generation contains a file of the content of appendix N;

30) on File menu, select " saving as "

31) at filename: under the dialog, write C: XOBJECT CREATOR.DEF

32) press the OK button

33) on File menu, select " newly "

34) generation contains a file of the content of appendix O;

35) on File menu, select " saving as "

36) at filename: under the dialog, write C: XOBJECT CREATOR.RC

37) press the OK button

38) go up selection " opening (Open) " at project menu (Project Menu)

39) under filename dialog, write C: XOBJECT CREATOR.MAK40, press " all again set up (Rebuild All) " in the project menu

Now as follows based on each command description that is included in the XObiect function library of appendix I-O:

A.MIDI input functions1-3 (MIDI input function 1-3):

1.Open MIDI input device (opening the MIDI input media)

Sentence structure: long MIDIInOpen (long Device)

This function is opened the MIDI device that is used to import.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

if?MIDIInOpen(Device)<>0Then

MessageDlg (' Error opening MIDI input device (mistake is opened the MIDI input media) ', mtError, mbOk, 0);

2.Reset MIDI input device (the MIDI input media resets)

Sentence structure: longMIDIInReset (void (blank))

This function resets MIDI input media.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

if?MIDIInReset<>0Then

MessageDlg (' Error reseting MIDI input device (erroneous resets MIDI input media) ', mtError, mbOk, 0);

3.Close MIDI input device (closing the MIDI input media)

Sentence structure: long MIDIInClose (void (blank))

This function turn-offs the MIDI input media.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

ifMIDIInClose<>0Then

MessageDlg (' Error closing MIDI input device (mistake is closed the MIDI input media) ', mtError, mbOk, 0);

B.MIDI output functions4-6 (MIDI output function 4-6):

4.Open MIDI output device (opening the MIDI output unit)

Sentence structure: long MIDIOutOpen (long Device)

This function is opened the MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

if?MIDIOutOpen(Device)<>0Then

MessageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

5.ResetMIDI Output device (the MIDI output unit resets)

Sentence structure: long MIDIOutReset (void (blank))

This function resets MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

if?MIDIOutReset<>0Then

MessageDlg (' Error reseting MIDI output device (erroneous resets MIDI output unit) ', mtError, mbOk, 0);

6.Close MIDI output device (closing the MIDI output unit)

Sentence structure: long MIDIOutClose (void (blank))

This function is closed the MIDI output unit.

Just return 0 during success, otherwise just return-1.

With Delphi is example:

Device:=0；

ifMIDIOutClose<>0Then

MessageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

C.General functions7-11 (generic function 7-11):

(7.New newly)

Sentence structure: Creator (mNew)

The new example of this function creation XObject.

When success then the result be 1, otherwise the result is an error code.

Be exemplified below:

openxlib“Creator.Dll”

Creator(mNew)

…

Creator(mDispose)

In addition referring to Dispose (disposal)

(8.Dispose disposal)

Sentence structure: Creator (mNew)

This function is disposed the Xobject example.

When success then the result be 1, otherwise the result is an error code.

Be exemplified below:

openxlib“Creator.Dll”

Creator(mNew)

…

Creator(mDispose)

In addition referring to New (newly)

9.Send Message (transmission message)

Sentence structure: long SendMessage (char*Mess)

This function sends serial data to the toy card.

Just return 1 during success, otherwise be error code.

With Delphi is example:

Mess:=‘00?01?00?00?00?00?00?05?00

00?00?01?00?03?00?01?00?00?00’；

If?SendMessage(Mess)<>?Then

MessageDlg (' Error opening MIDI output device (mistake is opened the MIDI output unit) ', mtError, mbOk, 0);

10.Check message (check message)

Sentence structure: long CheckMessage (void (blank))

If do not find message from the toy card, then this function returns 0.

With Delphi is example:

If?CheckMessage?Then

Mess:=GetMessage；

11.Get ToyMessage (obtaining toy message)

Sentence structure: GetToyMessage

This function receives message from toy.

The result is a message.

If do not have message in 3 seconds, then the result is " Time Out (overtime) ".

For instance:

set?message=GetToyMessage

If?message=“Time?Out”Then

Put“No?message?receiving”

End?If

In addition referring to Check for Message (check message)

D.Toy control functions12-17 (toy control function 12-17):

12.Get Toy Number (obtaining the toy number)

Sentence structure: char ^*GetToyNumber (void (blank))

If do not receive message, then this function returns the toy number of last reception message, perhaps " 00000000 ".

13.Get Sensor Number (obtaining the sensor number)

Sentence structure: long GetSensorNumber (void (blank))

If do not receive message, then this function returns the sensor number of last reception message, perhaps " 255 ".

14.Toy Reset (toy resets)

Sentence structure: long ToyReset (char ^*ToyNumber)

This function resets to go here and there with one and sends to toy.

Just return 0 during success, otherwise just return-1.

15.Toy Transceive (toy transmitting-receiving)

Sentence structure: char ^*ToyTransceive (char ^*ToyNumber, char ^*Mess)

This function sends to toy with message, and waits for 3 seconds to confirm.

Just return " Ack.Ok (confirming successfully) " when receiving, otherwise just return " Time Out (overtime) ".

16.Prepare Toy Talk (preparing toy speaks)

Sentence structure: char ^*PrepareToyTalk (char ^*ToyNumber, char ^*WaveFile)

This function is prepared the toy card, produces sound to utilize toy speaker.

After calling this function, can play WaveFile and hear at the toy speaker place.

Just return " Ack.Ok " during success, otherwise just return " Time Out (overtime) ".

17.GoTo SleepMode (forwarding sleep pattern to)

Sentence structure: char ^*GoSleep (char ^*ToyNumber)

This function sends sleep commands to toy.

Just return " Ack.Ok " during success, otherwise just return " Time Out (overtime) ".

For be used in combination the XObject function library with Director, use following method:

1) opens Director version 5.0 programs

2) from File menu (FileMenu), select " new (New) "

3) press " film option (Movie Option) "

4) forward Windows menu and press " moulding (Cast) " to

5) forward first script (Script) on " type conversion " to

6) on the Windows menu, select " Script (script) "

7) write required recreation script

8) begin repetition from step 5, all be written into up to all required scripts.Press (Ctrl+Alt+P) to move this application program

Referring now to Figure 16, Figure 16 is the simplified flow chart of a kind of method for optimizing of explanation computer radio interface (CRI) 110 operation, this computer radio interface 110 personal computer 100 to Figure 1A when operation is served, and do not need to intervene other computing machine or intervened by other computing machine, each personal computer 100 is all served by a similar CRI similarly.Usually, the method for Figure 16 is to realize on the computing machine 100 of Figure 1A with form of software.

CRI comprises traditional radio receiving-transmitting unit (Fig. 4 260), and this transceiver for example can comprise the RY3 GB021 with 40 channels, and it is right that these 40 channels are divided into 20 channels.Usually, 16 channels of these channel centerings are to being allocated for information communication, and remaining 4 channels are to being designated as control channel.

In the method for Figure 16, a pair of of 4 control channel centerings selected (step 810) by wave point, and be described in detail in Figure 17 below resembling.Selected control channel monitors (step 820) to i by first transceiver, and detecting the appearance of new toy, this appearance is (step 816) that the arrival of the toy availability order by the toy of making a fresh start is signaled.When detecting new toy, select an information communication channel to (step 830) from 16 information communication channel centerings that provided, game shows information will be by this channel to sending to new toy.A kind of method for optimizing that is used for performing step 830 is shown in the process flow diagram of Figure 18 A, and the expressed meaning of this process flow diagram itself is perfectly clear, and does not need to do explanation again." position computer " order among Figure 18 A is shown in the process flow diagram of Figure 18 B.

The right identity of selected information communication channel, be also referred to as " channel is to select command " here, by control channel to sending to new toy (step 840).Then, utilize selected information communication channel right, beginning game shows (step 850).Then, when receiving the order of toy availability from another toy, described control channel is to just can freely receiving and other behavior (act).Therefore, need to distribute another transceiver to give described control channel right, because the communication that provides between recreation and the toy is provided current transceiver.

For distributing another transceiver to give the current control channel that is monitored, in the transceiver availability table, monitored before that the transceiver of described control channel was marked as " doing " (step 852).Then, scan described transceiver availability table, up to identifying an available transceiver, i.e. transceiver (step 854) that is not labeled as " doing ".Then, this transceiver is assigned to control channel i (step 858).

Figure 17 is the simplified flow chart of the method for optimizing of explanation " select control channel to " step 810 of being used to realize Figure 16.In Figure 17,4 control channels are scanned.For each wherein noise level drop to certain channel below the threshold value concerning (step 895), for a response, computing machine sends availability inquiry command (step 910) and also waits for predetermined amount of time, such as 250ms (step 930 and 940).If there is not other computing machine response, promptly send it back " availability response command ", then this channel is to being considered to idle.If find that this channel to occupied, then scans next channel.If 4 channel centering neither ones are found to be the free time, then return one " not having control channel to use " message.

Figure 19 is the very clear and definite simplified flow chart of meaning of the operation method for optimizing of toy control device 130 itself, and it is more useful when embodiment combines with Figure 16-18B " multichannel ".I=1 ..., the 4th, the index of the control channel of system.Described toy control device sends one " order of toy availability " (step 1160), this order is the message of the availability of notice toy, this order is sent to each control channel i (step 1140,1150,1210) successively, up to a control channel that arrives by a computer monitor.This becomes obviously when one " channel is to select command " responds (step 1180) by sending at computing machine, described " channel is to select command " is to specify the right message of information channel, right by this channel, the toy control device can communicate with operation recreation on computers.(step 1190) at this moment, toy control device can begin to receive and carry out the recreation order, and the information channel that these recreation orders are computing machines by appointment in control channel i is to sending.

According to a preferred embodiment of the present invention, the computer system that provides an a kind of and remote game servers as shown in figure 20 to communicate.This remote game servers 1250 can be served at least a portion of at least one toy running game of computing machine 100 in when operation, and this toy running game can be operated one or more toys 1260.Alternatively, a complete recreation can be downloaded from remote game servers 1250.Yet, interchangeablely being, a new toy action script or new text can be downloaded from remote game servers 1250, and the remainder of a particular game is Already in the storer of computing machine 100.

100 download can be carried out in off-line (off-line) mode before the recreation beginning from remote game servers 1250 to computing machine, perhaps can online in game process (on-line) carry out.Perhaps, the first of recreation can be received by off-line, and the extention that should play can be by online reception.

The communication of carrying out between remote game servers 1250 and the computing machine 100 can be carried out based on any suitable technology, such as, but be not limited to ISDN; X.25; Frame relay (Frame-Relay); And the Internet.

The advantage of the embodiment of Figure 20 is to provide a kind of very simple computerized device in this locality, promptly is adjacent to provide with toy, because all " intelligence (intelligence) " can provide from remote source.Say that more specifically this computerized device can be lower than the complicacy of personal computer, can lack the display monitor of itself, and for example can comprise a network computer 1270.

Figure 21 is the simplified control process flow diagram of computing machine 100 with described remote server 1250 binding operations time of the network computer 1260 of explanation Figure 20.

Figure 22 is the simplified flow chart of operation of the remote game servers 1250 of explanation Figure 20.

Figure 23 with half be picture, half be block scheme formal specification the toy system of wireless computer control, this toy system comprises: a toy 1500 has a toy control device 1504; One computing machine 1510 utilizes a computer radio interface 1514 to communicate with toy control device 1504; And the degree of approach (proximity) detection subsystem, this subsystem can detect the degree of approach between toy and the computing machine when operation.This proximity detection subsystem for example can comprise relevant with toy and computing machine respectively a pair of ultrasonic converter 1520 and 1530.The ultrasonic converter 1520 of toy is play ultrasonic signals usually, and this signal can be detected by the ultrasonic converter 1530 of computing machine, but detected condition be described computing machine and toy in the ultrasonic communication scope, promptly be in the identical room.

Figure 24 A-24E lumps together the detailed electrical synoptic diagram of the multichannel way of realization of the computer radio interface 110 that forms Fig. 3, it is similar to the detailed electrical synoptic diagram of Fig. 5 A-5D, difference only is that form shown in Figure 3 is a multichannel, thereby can support the full duplex applications mode, rather than single channel mode.

Figure 25 A-25F lumps together the detailed schematic illustration that forms the computer radio interface, and this computer radio interface is connected to the serial port of a computing machine rather than is connected to the sound card of this computing machine.

Figure 26 A-26D lumps together the detailed schematic illustration that forms the computer radio interface, and this computer radio interface is connected to the parallel port of a computing machine rather than is connected to the sound card of this computing machine.

Figure 27 A-27J be explaining of a kind of preferred wireless coding techniques based on Manchester coding of explanation itself the process flow diagram that is perfectly clear, this technology is the replacement form of the top wireless encoding technology of describing with reference to Fig. 8 E, 8G-8M and 10A-C.

Figure 28 A-28K lumps together the detailed electrical synoptic diagram of the multiport multichannel computer radio interface subelement that forms Figure 13.

Figure 29 A-29I lumps together the detailed electrical synoptic diagram of the multiport multichannel computer radio interface subelement that forms Figure 14.

Figure 30 has illustrated that according to another preferred embodiment of the present invention the preferred embodiment has comprised the combination 1610 of computer radio interface (CRI) and toy control device (TCD).

This assembled unit 1610 controls one toy 1620, this toy is connected to computing machine 100 by the device such as cable, and by utilize computer radio interface 110 and other toy 120 to communicate such as communication.Toy 1620 is operated in the mode that is similar to toy apparatus 120.

Figure 31 has illustrated a simplified block diagram of assembled unit 1610.

Figure 32 A, 32B and 32C lump together the rough schematic view of the EP900 EPLD chip (U9) that forms Figure 28 H.The code of programming for the EPLD chip of this synoptic diagram preferably adopts programming software bag " MaxPlus II Ver.6.2 ", this programming software bag can be provided by Altera Corp (Altera Corporation), the said firm is positioned at California, USA, holy Te Kelala city, No. 3525 (the 3525Monroe Street in Lip river street rub, Santa Clara, CA.5051, USA).

Figure 33 with half be picture, half be block scheme formal specification constitute and a kind of Computerized Network ad system of operation according to a preferred embodiment of the present invention.

As shown in the figure, computerized toy or doll 300 are computer-controlled, preferably control by the wireless connections between toy 300 and computing machine or the workstation 310.Computing machine or workstation 310 through the Internet or another kind of communication network 320 be associated with Advertisement Server 330.

Figure 34 is the data transmission scheme that is described in the data transmission of carrying out between the various network services provider according to a preferred embodiment of the present invention, and these Internet Service Providers support the ad system of Figure 33.

Figure 35 with half be picture, half be block scheme formal specification constitute and a kind of Computerized Network ad system of operation according to a preferred embodiment of the present invention, one of them virtual toy sends the advertisement communique to the user of this toy.

Figure 36 is the simplified flow chart that the operation preference pattern of the user PC that is used for Figure 34 is described.

Figure 37 is the simplified flow chart that the operation preference pattern of the Games Software server that is used for Figure 34 is described;

Figure 38 is the simplified flow chart that the marketeer/advertising provider's who is used for Figure 34 operation preference pattern is described.

Figure 39 is the simplified flow chart that the operation preference pattern at the software maintenance center that is used for Figure 34 is described.

Figure 40-58 has generally speaking described the moving object internet service system (LOIS) that constitutes and operate according to a preferred embodiment of the present invention, is expressed as follows respectively:

Figure 56

Website and calculation element: illustrate which kind of calculation element joins among the LOIS

Figure 57

Website and top not (Top Level) data stream: described the top other data stream between the LOIS website

Website and participant (Sites and Actors)=================

LOIS participant on this website, their responsibility and their cooperation have been shown in the diagrammatic sketch of each website.

Figure 40

At home

Figure 41

At founder HQ

Figure 42

At the HQ of advertiser

Figure 43

At toy manufacturer HQ

Website and subsystem========

The subsystem of operation, their responsibility and the calculation element of their operations have there been provided in the diagrammatic sketch of each website.

Figure 44

At home

Figure 45

At founder HQ

Figure 46

At the HQ of advertiser

Figure 47

At toy manufacturer HQ1: present the moving object server

Figure 48

At toy manufacturer HQ2: present other LOIS subsystem that operates in toy manufacturer general headquarters

Subsystem and data stream=========

The subsystem of operation there and the data stream between them have been provided in the diagrammatic sketch of each website.

Figure 49

At home

Figure 50

At the HQ of advertiser

Figure 51

At toy manufacturer HQ

The cooperation diagram

=======

There is shown each main LOIS dynamically (dynamics), illustrated how it is finished by the subsystem cooperation.

Figure 58

Client computer (client) is upgraded: utilize a kind of new behavior (Behavior) to finish the cooperation of client computer being installed the renewal of (Client Installations)

Figure 52

Play a recreation: describe and develop each cooperation that relates in the whole process from creating to

The state diagram

=======

There is shown each main subsystem among the LOIS, the internal state switching network of this subsystem has been described.

Figure 53

Client computer logger (Logger)

Figure 54

Carry out (Push) client computer

Figure 55

The moving object Control Software-------------------------------------------------------------------------------------------------

Figure 56: website and calculation element

==============

There is shown each website that joins among the LOIS, and the calculation element that moves LOIS software at these websites.

Note

1.3-D square frame is a website.Website is defined as being had or the set of all subsystems in one family by a tissue part.This square frame indicates site name and radix (cardinality) thereof.

2. quick coupler (lightning connectors) is a communication link.

3. three types calculation element is arranged: server, workstation and moving object in each website.

The unit

1. family: LOIS can support mostly to be most 1,000,000 client computer facilities.

Each client apparatus is characterised in that to have a moving object and client computer access terminal at least.At first, unique feasible calculation element is Win32 PC.In the future, also can support Mac, Java and other platform.

2. toy manufacturer HQ: maximum 100 toy manufacturer can be present in the initial way of realization of LOIS jointly.Each toy manufacturer website has been characterised in that office worker's workstation and toy manufacturer server.

3. the HQ of advertiser: in the initial way of realization of LOIS, can support 1000 advertisers at most.Each website has been characterised in that office worker's workstation.

4. founder HQ: founder's website comprises server and office worker's workstation.Founder's website is only arranged." founder " is the title that is used for marking easily the supplier of moving object technology, and this supplier for example can provide the maintenance service to other HQ.-------------------------------------------------------------------------------------------------

Figure 57: website and top other data stream

================

Join each website among the LOIS shown in the figure, and the calculation element that moves LOIS software at these websites.

Note

1.3-D square frame is a website that indicates site name.

2. the communication between the website of two connections of wiring connector indication.

3. circle arrow cell list shows the direction of data stream.Additional text is sorted out data stream.

Connect

1.Toy Maker (toy manufacturer)  Home (family)

Client computer is upgraded response: these are that toy manufacturer is carried out the behavior that server is made in response to client computer renewal response.Web Shop (WWW shop) URL: these are URL that publish in toy manufacturer WWW shop.These comprise catalog classification page or leaf, search page, purchase page or leaf and bill page or leaf.

Registration RUL: these are URL that the toy manufacturer registration service is published, as the form from user's one side's reception/modification log-on message.

Receive Email (email): received be used for on-line purchase, from the Email of toy manufacturer.

Announcement Email: have from the Email of toy manufacturer and may make the interested announcement of moving object owner.

2.Home  Toy MakerHQ (toy manufacturer HQ)

The client computer update request: these are according to carrying out the request that the client computer timetable sends.They comprise unique client computer id.

Client computer registration (log) is upgraded: these are operation reports of being collected (and filtration/calculating) and send to profile business (Profiling Service) in client computer one side by the client computer logger.

Log-on message: this is the information of collecting by the registration form.It is sent to the registration service of toy manufacturer website from Web-browser at client apparatus.

WWW shop order form (orders): by the order form that specific behavior is ordered that is used for of WWW transmission.

3.Creator HQ (founder HQ)  Home

Software upgrading: these are LOIS client software of latest edition.It is to carry out automatically and installation.

4.Advertiser HQ (HQ of advertiser)  Toy Maker HQ (toy manufacturer HQ)

Behavior: these are advertisement behaviors of creating and be uploaded to the toy manufacturer server at the office worker of advertiser workstation.

5.Toy Maker HQ (toy manufacturer HQ)  Advertiser HQ

Report: this report is used by advertiser, is used for better targeted customer.

(6.Creator founder)  Advertiser (advertiser)/Toy Maker HQ

Support request/report: the founder is provided at line technology and end user support.

-website and participant

Figure 40-42: in family, at the HQ of advertiser, at founder HQ: these figure have illustrated the participant who is adding the LOIS website of LOIS in dynamically.

Note

1. a two dimension (2-D) square frame is a participant.It can represent the people of several reality.This square frame indicates role's title of this participant.The LOIS that responsibility tabulation expression participant participates in is dynamic.Cooperation tabulation expression cooperation participant, and their mutual relationship.

-website and participant

Figure 43: at toy manufacturer HQ

==============

There is shown the member who adds the toy manufacturer tissue of LOIS in dynamically.

Note

1. a 2-D square frame is a participant.It can represent the people of several reality.This square frame indicates role's title of this participant.The LOIS that responsibility tabulation expression participant participates in is dynamic.Cooperation tabulation expression cooperation participant, and their mutual relationship.

The unit

(1.SysAdmin/Developer/WebMaster system operator/developer/WWW effector): toy manufacturer technician.Do not need other participant technical ability that possesses skills at the toy manufacturer website.Desired definite technical ability depends on: the type (routine/complexity) of the behavior of producing in toy manufacturer.Complex behavior requires client's programming, and has the knowledge of LOIS API.Most behaviors can be created by the founder of non-technology contents.

Make the natural characteristic (routine/complexity) of the action space that requires by toy.Complicacy mapping between profile (profiles)/external data and the behavior requires the client to programme, and has the knowledge of LOIS API.The action space of the majority that toy manufacturer requires can be created by non-technology advertising management person.

The number of the client computer facility of ordering to toy manufacturer (100,000/ hundred ten thousand).The load of toy manufacturer server is high more, then difficult more they is managed and guarantee the desired performance of client.Toy manufacturer with millions of orders family can infinitely require skilled system operator, needs only the WWW infosystem for them.

The rank (routine/complexity) of required workflow (workflow) robotization between advertising management person, creator of content and the supvr.This comprises the workflow automation of Intranet and toy manufacturer extranets, and communicates by letter with gray.Complicated robotization requires client's programming, and has the knowledge of LOISAPI.The simple working flow process can be by any non-technology member's construction among the toy manufacturer office worker.

The requirement (routine/complexity) in toy manufacturer WWW infosystem/WWW shop.Complicated WWW shop is linked to toy manufacturer master infosystem (infosystem), requires the client to programme, and has the knowledge of third party's business software.Most WWW shops can be by any non-technology member's construction among the toy manufacturer office worker.

The prime responsibility of SysAdmin is to keep the operation of toy manufacturer server.Developer (developer) help content founder creates complicated behavior and WWW infosystem composition, helps advertising management person to create complicated action space, and helps everyone to create complicated workflow automation.WebMaster is responsible for the WWW infosystem.

2. creator of content: the behavior deviser of utilization comes the establishment behavior.Creator of content also can help the WebMaster preparation will persuade former generation's buying behavior to order the WWW infosystem of (Behavior Subscriptions).

3. advertising management person: responsible acquisition more sells the behavior of selling more and subscribes, and partly is distributed as space (Behavior Space) to advertiser sells.Be responsible for the report of operating position and profile data in addition.

4. supvr: management is sold to " content behavior order " user and " advertisement behavior " is promoted operation to the user.Report facility interaction among main and the LOIS.------------------------------------------------------------------------------------------------

-website and subsystem

Figure 44: in family

========

The calculation element that the LOIS software of client apparatus shown in the figure moves in system and they.

Note

1. a 2-D square frame is a software subsystem.It shows subsystem title and responsibility tabulation thereof.Software subsystem can nested (nest).All responsibilities that the responsibility of the subsystem that contains is defined by being born by contained subsystem.

2. quick coupler is represented the communication link between the calculation element.

3. card edge conntecter indicates their fixed form (stereotype).

The unit

-------

1. moving object: by the interacting toys of LOCS control.Access terminal with client computer by Radio Link and to communicate by letter.

2. client computer accesses terminal: a kind of individual/network computer that moves the moving object client computer.Communicate by letter with moving object with wireless.

3. moving object client computer: be defined as comprising the subsystem of all softwares on operating in client computer accesses terminal, these softwares comprise: client's logger, LOCS and implementation client computer.

4. client computer logger: a kind of collection from LOCS used data, made it by the client-side wave filter and through carrying out the software package that client computer sends it to the profile business.Having of it helps client-side to using the filtration of data.For example: be not 100 scores that send 100 vocabulary trainings, but the client computer logger calculates average, and average is sent to toy manufacturer profile business.

5. moving object Control Software: (LOCS) software package of control moving object.It will be converted to the interactive command that operates on the moving object from the behavioral data of carrying out the client computer submission.

6. implementation client computer: by the customized a kind of third party software bag of the founder of LOIS.It can provide the implementation layer of LOIS to client-side.

7. Web-browser: a kind of third party software bag.It can be used as client computer, is used for registration/record keeping, and is used for the WWW shop.This just can allow us to simplify client computer.

Connect

------

1. run on the moving object client computer of client computer on accessing terminal.------------------------------------------------------------------------------------------------

-website and subsystem

Figure 45: at founder HQ

The calculation element that moves in the LOIS of founder general headquarters software subsystem and their shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows subsystem title and responsibility tabulation thereof.Software subsystem can be nested.All responsibilities that the responsibility of the subsystem that contains is defined by being born by contained subsystem.

2. quick coupler is represented the communication link between the computer installation.

3. card edge conntecter indicates their fixed form.

The unit

1. founder's server: at the server of client-side operation LOIS software.

2. implementation server: provide LOIS to carry out the software of layer to server side.

Connect-----------

1. operate in the implementation server on founder's server.

-website and subsystem

Figure 46: at the HQ of advertiser

The calculation element that moves in the LOIS of general headquarters of advertiser software subsystem and their shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows subsystem title and responsibility tabulation thereof.Software subsystem can be nested.All responsibilities that the responsibility of the subsystem that contains is defined by being born by contained subsystem.

2. quick coupler is represented the communication link between the computer installation.

3. card edge conntecter indicates their fixed form.

Unit----------

1. workstation: at the workstation of the side operation LOIS of advertiser software.

2. behavior deviser: a kind of friendly application program that is used to authorize complex behavior.The operation output of this software is the behavior of creation.

3. reporting software: a kind ofly help advertiser that whom understands to use LOIS and them how to use the subsystem of this LOIS.

Connect-----------

1. operate in the behavior deviser on the workstation.

2. operate in the reporting software on the workstation.

-----------------------------------------

-website and subsystem

Figure 47: at toy manufacturer HQ1

The calculation element that moves in the LOIS of toy manufacturer general headquarters software subsystem and their shown in the figure.In the figure, we will concentrate on each unit of moving object server.

Note----------

1.2-D square frame is a software subsystem.It shows subsystem title and responsibility tabulation thereof.Software subsystem can be nested.All responsibilities that the responsibility of the subsystem that contains is defined by being born by contained subsystem.

2. quick coupler is represented the communication link between the computer installation.

3. card edge conntecter indicates their fixed form.

The unit

------

1. toy manufacturer server: the calculation element of operation moving object server software.

2. moving object server: comprise carry out that server, database server, WWW shop, registration are professional, the subsystem of action space manager and profile business, Web server and listserv.

3. database server: all subsystems that are used to handle the ODBMS storehouse of intrinsic object.Important object most among the LOIS are intrinsic in the database server.Because we utilize ODMG-93 to come work, ODMG-93 is not such as the database code that embeds SQL etc.We no longer mention database server, because the ODMG mapping allows us with its transparent processing.

4. action space manager: a kind of software subsystem with two kinds of effects.In when design, it be provided for shining upon effectively big action space service, upload behavior, inquiry and report service, or the like.When operation, it provides the function of a behavior that Any user ID is mapped as.

5. moving object Control Software: (LOCS) software package of control moving object.It will be converted to the interactive command that operates on the moving object from the behavioral data of carrying out the client computer submission.

6. implementation client computer: by the customized a kind of third party software bag of the founder of LOIS.It can provide the implementation layer of LOIS to client-side.

7. Web-browser: a kind of third party software bag.It can be used as client computer, is used for registration/record keeping, and is used for the WWW shop.This just can allow us to simplify client computer.

Connect

-------

1. operate in the moving object client computer that client computer accesses terminal.

---------------------------------------------

-website and subsystem

Figure 48: at toy manufacturer HQ2

The calculation element that moves in the LOIS of toy manufacturer general headquarters software subsystem and their shown in the figure.In the figure, we will concentrate on each subsystem rather than moving object server.

Note

1.2-D square frame is a software subsystem.It shows subsystem title and responsibility tabulation thereof.Software subsystem can be nested.All responsibilities that the responsibility of the subsystem that contains is defined by being born by contained subsystem.

2. quick coupler is represented the communication link between the computer installation.

3. card edge conntecter indicates their fixed form.

The unit

-------

1. workstation: the workstation of operation LOIS software.

2. reporting software: a kind ofly help toy manufacturer that whom understands to use LOIS and them how to use the subsystem of this LOIS.It is worked at the system of all existence, to create the report of customization.It can create automatic report according to schedule.

3. behavior deviser: a kind of friendly application program that is used to authorize complex behavior.The operation output of this software is the behavior of creation.

4. server console (Console): to the main interface of LOIS.Its principal character is:

-administration behaviour is also constructed the action space manager

-structure WWW shop

-structure profile business

The registration of-structure is professional

-leading subscriber, registration, record keeping

-be configured to the robotization of reporting software

-initiate announcing the transmission of Email

Connect

-------

1. all subsystems operate on the workstation.

------------------------------------------

Subsystem and data stream

Figure 49: in family

The data that between each subsystem that client's installation (ClientInstallation) is located, flow through shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows the subsystem title.

2. connector means the communication between subsystem/device.

3. data symbol stream illustrates the News Category tabulation of flowing through in direction and the link.Without any implication about the data stream order.

Connect----------

1.LOCS＜=Living Object (moving object): LOCS is converted to behavior the order that may operate on the moving object.All use data all send to LOCS from moving object.

2.LOCS  Client Logger (client computer logger): behavior can contain the code of specific use data transfer being given the client computer logger.

3.Push Client (implementation client computer)  LOCS: new behavior passes to LOCS.

4.Client Logger (client computer logger)  Push Client (implementation client computer): utilize the client computer logger to filter, and only have filtered data set statistical number just to pass to the implementation client computer to using data.

5.Push Client (implementation client computer)＜=〉Intemet (the Internet): carry out client computer the client computer update request is passed to the Internet, mean request behavior renewal.Carry out client computer and also transmit client computer registration renewal, it contains the data of being prepared by the client computer logger.Carry out client computer subscribing client from the Internet and upgrade response (behavior), with and installed software upgrade.

6.Web Browser (Web-browser)＜=〉Internet (the Internet): Web-browser is used to browse the WWW shop, buying behavior is subscribed and be used for the LOIS Email.-------------------------------------------------------------------------------------------------

-subsystem and data stream

Figure 50: at the HQ of advertiser

The data that between each subsystem of general headquarters of advertiser, flow through shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows the subsystem title.

2. connector means the communication between subsystem/device.

3. data symbol stream illustrates the News Category tabulation of flowing through in direction and the link.Without any implication about the data stream order.

Connect---------

1.Intemet  Reporting Software (reporting software): receive operation report from toy manufacturer, and this operation report is used for creating motion (campaigns).

2.Behavior Designer (behavior deviser)  Intemet (the Internet): " advertisement behavior " is uploaded to the toy manufacturer server, and they will be advanced to the client computer facility there.

-subsystem and data stream

Figure 51: at toy manufacturer HQ

The data that between each subsystem of toy manufacturer general headquarters, flow through shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows the subsystem title.

2. connector means the communication between subsystem/device.

3. data symbol stream illustrates direction and the News Category tabulation of flowing through in the link.Without any implication about the data stream order.

Connect----------

1.Service Console (server console)  Reporting Software (reporting software): server console is applied to reporting software with its configuration.

2.Service Console (server console)  Profiling Service (profile business): server console is applied to the profile business with its configuration.

3.Service Console (server console)  Registration Service (registration is professional): it is professional that server console is applied to registration with its configuration.

4.Service Console (server console)  Web Store (WWW shop): server console is applied to the WWW shop with its configuration.

5.Service Console  Behavior Space Manager (action space manager): server console is applied to the action space manager with its configuration.

6.Behavior Designer (behavior deviser)  Behavior Space Manager (action space manager): BSM is created and be sent to the action space manager, they are added to all available behaviors there.

7.Service Console  Web/List Server (WWW/listserv): informing E-mail is created/is uploaded and edited in server console, is passed to listserv then to concentrate mailing (mass mailing).

8.Behavior Space Manager (action space manager)  Profiling Service (profile business): the action space manager is by coming the query profiles data with user ID as key.

9.Behavior Space Manager (action space manager)  Push Server (implementation server): the implementation server passes to BSM with the user ID of client's update request.Carry out server and also they are mapped to the behavior of carrying out server that turns back to.

10.Push Server (implementation server)  Profiling Service (profile business): register renewal from the client of client's logger and sent to the profile business from carrying out server.

(11.Internet the Internet)  Behavior Space Manager (action space manager): the behavior in advertiser's website creation sends to BSM, and they are added to all available behaviors there, and use some special ruless.

12.Internet＜=Push Server (implementation server): carry out server and send each behavior, and receive each request and use data.

13.Web Shop (WWW shop)＜=〉Web/List Server (listserv): WWW shop URL (on the fly) when not working is produced by the WWW shop.It also receives the order from Web server.

14.Web/List Server (listserv)＜=〉Registration Service (registration is professional): this data stream is that registration is professional needed.

15.Web/List Server (listserv)＜=〉Internet: this data stream is that registration business, WWW shop business and E-mail communication are needed.

---------------------------------------------------

Collaboration diagram

Figure 58: the client upgrades

Be included in the cooperation in client's renewal shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows the subsystem title.

2. connector means the communication between subsystem/device.

3. data symbol stream illustrates direction and the News Category tabulation of flowing through in the link.Each message all illustrates its sequential order in the figure.

Dynamically----------

1. carry out client computer notice client computer logger the client computer renewal will take place.Carrying out client computer is to carry out this operation on schedule, and and if only if ' bandwidth ideal (bandwidth niceness) ' just carries out this operation when allowing.

2. the client computer logger will use data transfer to give and carry out client computer.Asynchronous the carrying out that reset of this operation and process, but must be to take place at the client computer reproducting periods.

3. carry out client computer and send client computer update request with user ID.

4. receive this client computer update request by carrying out server.

5. carry out server and ask a mapping from this BSM by transmit a user ID to BSM.

6.BSM tabulate and answer with being suitable for behavior that client computer installs.

7. each behavior being bundled to client computer upgrades in the response and sends to the implementation client computer.

8. carry out client computer and receive this client computer renewal response.

9. each behavior is sending to LOCS after extracting from client computer renewal response.

10. with the resetting asynchronously of process, but at the client computer reproducting periods, send the client computer registration of the use data that free client computer logger sends and upgrade from carrying out client computer.

Receive this client computer registration renewal 11. carry out server.

12. the profile business that is sent to is upgraded in the client computer registration.

-----------------------------------------------------

Collaboration diagram

Figure 52: play a recreation

Related cooperation when on moving object, playing a recreation shown in the figure.

Note----------

1.2-D square frame is a software subsystem.It shows the subsystem title.

2. connector means the communication between subsystem/device.

3. data symbol stream illustrates direction, reaches the News Category tabulation of flowing through in the link.Each message all illustrates its sequential order in the figure.

Dynamically----------

1. moving object is notified to LOCS with a session primary event.This operation is feasible, because it has detected filial generation (Child), perhaps because session has been initiated in this filial generation.

2.LOCS transmit order and reciprocation now with moving object, finish operation to behavior.

3. during session, moving object arrives LOCS with any use data transfer of operation action regulation.

4. use data to send to the client computer logger.

5. finally propose session and withdraw from incident by moving object.This also is feasible, because taken place overtime.

---------------------------------------------------

Constitutional diagram

Figure 53: client computer logger

The internal state and the conversion at the logger of client computer shown in figure subsystem place.

Note----------

1. justifying frame is state.It shows Status Name.

2. point to connect and mean possible state exchange.Textual description the conversion condition.

Note----------

The client computer logger has 2 super (super) states.Begin to be expressed as 2 loops from idle (idle) state.First loop is begun by LOCS, and second loop begins by carrying out client computer.

Have client computer logger counting statistics numeral in the up-to-date possible time (notifying it just entering when online) better accuracy can be provided when carrying out client computer.

----------------------------------------------------

Constitutional diagram

Figure 54: moving object Control Software

The internal state and the conversion at LOCS place are shown shown in the figure.

Note----------

1. justifying frame is state.It shows Status Name.

2. point to connect and mean possible state exchange.Textual description the conversion condition.

Note----------

LOCS is in idle condition or moves vaild act on moving object under the most time.When changing behavior, when perhaps starting a new behavior, LOCS calculates new vaild act, and retrieves the behavior from dish.When being done like this by the vaild act indication, LOCS will send any use data to the client computer logger.--------------------------------------------------------------------------------------------------

Constitutional diagram

Figure 55: carry out client computer

Carry out the internal state and the conversion at client computer place shown in the figure.

Note------------

1. justifying frame is state.It shows Status Name.

2. point to connect and mean possible state exchange.Textual description the conversion condition.

Note----------

Carrying out 3 super states of client computer place existence, be expressed as 3 loops from idle condition.We enter when online when conditions permit, send the client computer update request and also notify the client computer logger, to prepare the statistical figure of any critical moment (last minute).When the client computer logger notifies them to be ready to, promptly prepare the client computer registration and upgrade.When receiving client computer renewal response, the client computer registration is upgraded and is uploaded to the implementation server.

The various terms that use in instructions and claims are discussed below:

The advertisement classification:

A kind of type of behavior is paid by advertiser, but different with content in others.

Advertiser's classification:

A kind of tissue from toy manufacturer buying behavior space, and fill (populate) this tissue with the behavior of its establishment.

Advertising management person participant:

The member of toy manufacturer or the office worker of advertiser finally are responsible for a behavior space.Advertising management person cooperates to split the whole action space between them.Toy manufacturer advertising management person has the superlative degree control to whole action space.

The listserv subsystem:

It is the moving object server subsystem of the concentrated mailing of management notice and receipt (receipt).

The behavior classification:

It is minimum unit by the moving object behavior of behavior deviser announcement.It has defined the moving object interactivity in certain time period.A kind of behavior can be depended on other behavior.

Behavior deviser subsystem:

(BD) a kind of founder's application program is the part of LOIS, and it allows creator of content to create the interactivity behavior.

The action space classification:

Imitate a kind of object of the part of whole action space, this object be defined as the mapping, this mapping definition at any time with condition under, which type of behavior should move in each client computer.For instance: the action space that is called " Young Children Afternoon (children's afternoons) " has defined children and will receive which type of behavior in the afternoon.

Action space manager (BSM) subsystem:

Be contained in the software on the moving object server of managing the toy manufacturer action space.It is the mapping (i.e. broadcasting/personalization among a small circle) between profile and the behavior fully.

Classification is ordered in behavior:

Be a kind of order mode, former generation (parent) buys or receives the moving object of buying in the WWW shop.If the user will order a kind of behavior and subscribe, then LOIS will guarantee that some behavior is delivered to the subscriber.

Filial generation (Child) participant:

A kind of and moving object is carried out mutual user.

The client computer subsystem that accesses terminal:

A kind of computing machine that moves the moving object client software.Be present in the client computer mounting portion.

Client computer is installed subsystem:

A kind ofly comprise that filial generation, former generation, client computer access terminal and the subsystem of the moving object of any number.

Classification is upgraded in the client computer registration:

A kind ofly send to the message of profile business, send by carrying out software from the client computer logger.It contains the use data of the moving object after the filtration.

Client computer logger subsystem:

Data are used in a kind of responsible collection, and it is sent to the client computer of the gathering statistical figure of profile business, also possible computing client pusher side after the wave filter of operation client-side.

Client computer update request classification:

A kind of user of utilization id delivers to the message of carrying out server from carrying out client computer by carrying out software.It means client computer and has been ready to subscribing client renewal response.

Client computer is upgraded the response classification:

A kind of message of delivering to the implementation client computer from the implementation server by implementation software.It contains a behavior group.

Content type:

A kind of behavior type of buying in the WWW shop or distributing as client service.

Creator of content participant:

The office worker of advertiser of the member of toy manufacturer or the behavior of establishment.

The database server subsystem:

Other toy manufacturer subsystem is provided the software of object and planning (schema) storage/inquiry/management service.Run on the moving object server.

The recreation classification:

Time between conversation start notice and session OPT-OUT NOTICE.This is that the mutual time is wanted in moving object recognin generation and filial generation.The behavior of any number all can move in single recreation.

The moving object subsystem:

(LO) a kind of interactive computing device by the control of moving object Control Software.

Moving object client computer subsystem:

Comprise the subsystem of all softwares on operating in client computer accesses terminal, these client computer access terminal and comprise: client computer logger, moving object Control Software and implementation client computer.

Moving object Control Software subsystem:

(LOCS) software of control moving object.It moves each behavior.And it operates on client computer accesses terminal.

The moving object Internet system:

(LOIS) provide the effective high resolution control of action space and correct behavior system to toy manufacturer and advertiser to 1,000,000 subscribers' transparent announcement.

The moving object server subsystem:

Comprise the subsystem of carrying out server, database server, WWW shop, registration business, action space manager and profile business, Web server and listserv.It is in the toy manufacturer website.

Moving object provider software subsystem:

Comprise the subsystem that operates in all softwares on website manufacturer and the advertiser's website, these website manufacturers and advertiser's website comprise: the subsystem in behavior deviser, server console, action space supvr, profile business, implementation server, database server, reporting software, registration business and WWW shop.

Supvr participant:

The member who is responsible in the toy manufacturer that business strategy is set and analyzes the Business Performance report.

Former generation participant:

Buy, register and install moving object, buy the product of order and help the user of filial generation.

The profile classification:

Imitation relates to all uses of the user and the object of log-on message.

The profile category is other:

Define the customization set of one significant group profile.For instance: preschool education on ordinary days (pre-schoolers on weekdays).

The profile service sub-system:

The moving object server subsystem of management profile data.It runs on the moving object server.

Carry out the client computer subsystem:

Be installed in the software of client computer on accessing terminal, can provide the service of distribution by the Internet.

Carry out server subsystem:

Be installed in the software on moving object server and the founder's server, can provide the service of distribution by the Internet.

Registration clothes industry subsystem:

Software by the registration of WWW process user.

The reporting software subsystem:

According to the software that produces report and analyze by the professional use data that produce of profile.

Server console is in system:

Be used to control terminal user's software of LOIS.It runs on the toy manufacturer worktable.

The software upgrading classification:

A kind of message of delivering to the implementation client computer from founder's server by implementation software.It comprises the renewal to client software.

Office worker's workstation subsystem:

A kind of computing machine at toy manufacturer or advertiser's website operation action deviser/server console/reporting software and any developing webs instrument.

The toy manufacturer tissue:

A kind of marketing activity object and based on operation, create and distribute the tissue of behavior management subscription fee/advertising income.

Class of subscriber:

The object that the imitation client computer is installed, and be that the moving object server is intrinsic.

WWW shop subsystem:

A kind of former generation of permission and filial generation are browsed, are taken a sample and buy the WWW website of content.Its content is ordered purchased as behavior.

A kind of feasible way of realization of LOIS system will be described now.

1.1. the target of first kind of way of realization

First kind of way of realization of LOIS is target to want to manage concentratedly the toy manufacturer that is in the action toy in the user family.Below these are high-level targets of project:

^*Easily install and be used in former generation and children

^*Toy manufacturer and/or toy content supplier control the moving object behavior easily, but also high resolving power will be arranged simultaneously

^*Lever is regulated the up-to-date commercial intensity of carrying out software.

^*Be provided for the basic framework of future products plan, more specifically say, if we can provide such software then be best: when this software is highly integrated in future, do not need to utilize the management activity object the behavior tree founder's software and carry out any modification to source code.

1.2. various services and operating position analysis thereof

Product should provide following service, and these are served by the user grouping as service goal, and these users comprise: children, former generation and major company.Below we will describe various services, and analyze relevant operating position.

1.2.1. children's service

The main service that offers children is the transparent refreshing of crawler behavior, and these children are end users of moving object.

Title

The client-side that moving object is upgraded.

The participant

Children only involve him can trigger operating position, but also has other to trigger the mode of operating position.Children are participants that this operating position is being served.

Target

Moving object can be upgraded automatically.

Scope of authority (Forces in Context)

1) automatic, transparent

2) mistake is handled on graceization, peace and quietization ground

3) error recovery, guaranteed transmission

4) bandwidth ' desirable (niceness) '

5) maintain secrecy safely

6) each object for appreciation has several providers

Trigger

Depend on definite configuration.

1) common, upgrade with specific interval when the user will carry out the operation of client configuration one-tenth, thereby triggering is a scheduler program

2) user can manually boot download

Sum up

This operating position is caught client requests and is received the plot (scenario) that new moving object is upgraded

1) client computer is to the new renewal of server requirement

2) new renewal sends to client computer

3) when each complete moving object is upgraded end, notify founder's software precondition

1), then do not download and to take place if client computer is by complete ' refreshing '

2) carrying out client computer must at first be mounted

3) client computer must at first be registered postcondition

1) current just having a new moving object completely to upgrade at user HD

2) notify the founder client software

Relevant operating position

1) registration is a request

2) tectonic activity object renewal process determines what to upgrade

1.2.2. former generation's business

The former generation is responsible in their family operation and upgrades aspect all of moving object, and these aspects are that filial generation is inexecutable.

1.2.2.1. install

Product should be safety and be easy to install, so the former generation can install new toy easily.

Title

Carry out the installation of client computer

The participant

The former generation

Target

Carry out client computer and correctly installed, thereby registration can begin.

Scope of authority

1) installation of protecting (installshield) type is installed

2) can have previous installation, i.e. this installation can be the installation of moving objects such as the 2nd, 3

3) several dissimilar win32 OS can be arranged

4) client computer itself must present uniqueness, and can reflect some identity of company, never is that the 3rd side carries out software marker's identity

Trigger

The user manually boots installation process from CD or from file in download

Sum up

This operating position is caught the first time and the last installation of LOIS client computer.

1) the several configuration parameters of customer requirements perhaps, if this is not first toy, then use old parameter

2) user enters the registration operating position

Precondition

The user's download software package perhaps has a CD

Postcondition

Everything all is established to be used for registration

Relevant operating position

1) next should register immediately, perhaps register and postponed till user side's 1.2.2.2. registration constantly afterwards just

These services comprise every thing feelings that relate to registration and do accounts.

Title

Registration

The participant

The former generation

Target

The specific activities object of up-to-date purchase is registered in central database, perhaps is modified in the information of importing in advance in the registration

Scope of authority

1) user's sensation should be similar to the Web site registration

2) safety, secret

3) the definite characteristic of the log-on message that is connected is unfixing, and is determined by major company

4) layout and style are very important

5) may need optional log-on message

6) changing log-on message should be consistent with user's experience type

7) have the information need be delivered to server, these servers should manually not produced, but fire (burnt) when CDROM is installed

Trigger

1) user has finished the installation of carrying out client computer, even exist side by side in that the time forwarded registration to afterwards

2) user wants to refresh his any registration attribute

Sum up

This operating position is caught user's registration or is revised the plot of its log-on message.

1) user is taken to the registration Web site automatically

2) user fills in list (form) or changes a kind of list with existing value

3) user's submission form

4) if list is complete, then the user is expressed thanks

5) the sub-mail of user power utilization is sent out a receipt

Precondition

The implementation client computer is mounted

Postcondition

Moving object just is registered, and the user has received receipt

Relevant operating position

1) installation of implementation client computer should be done

2) each details of structure registration process deterministic process

Title

Reexamine charging information

The participant

The former generation

Target

The participant can at any time reexamine his record keeping state, i.e. his order situation, history or the like.

Scope of authority

1) should be simple web page

2) should comprise option, and comprise the record keeping support of major company with technical communication

3) safety, secret

4) support of multiple currency

Trigger

The user starts operating position by entering safe URL.This finishes by click ' checking bill (review billing) again ' button in carrying out client computer or on major company's Web site.

Sum up

This operating position is caught the plot of its record keeping state of subscriber checking

1) user signs in to the page or leaf of keeping accounts

2) all information all are presented on one page

3) user must cancel any debatable order

4) user can or obtain technical support by described webpage contact bill

Precondition

The user has a moving object of installing and registering at least

Postcondition

The user has just known and his (or she) involved relevant joint that chops up really of any bill now

Relevant operating position

1) registration should be done

1.2.2.3. purchase various actions

This service allows the former generation to buy order product, behavior and moving object behavior group by the foreground, WWW shop of safety.

Title

Buying behavior

The participant

The former generation

Target

The participant wants to be his moving target buying behavior

Scope of authority

1) safety, secret

2) should have the appearance and the sensation on foreground, normal WWW shop

3) each behavior should can be used as single renewal, order or one group of renewal

4) support multiple currency

Trigger

The user can perhaps by carrying out alternately with moving object, come to arrive the WWW shop by major company's Web site by clicking ' checking out new behavior (check out newbehaviors) ' button of carrying out in the client computer

Sum up

This operating position is caught the plot that the user buys various actions

1) user signs in to the WWW shop

2) user " surfing (surf) " in the shop, and required kinds of goods are added in the shopping bag

3) user is shown bill information

4) user reexamines bill, and, in case he (or she) approval, the notice central server is about this user's strategy change

Precondition

The user has the moving object of at least one installation and registration

Postcondition

Server should just make great efforts new behavior is promoted to the user

Relevant operating position

1) registration should be done

1.2.3. major company's service

Initial way of realization concentrates on and provides service to major company.The target of these services is to allow them to provide regular more new behavior to domestic consumer's moving object, is complementary with the preference of guaranteeing these behaviors and domestic consumer, and by the Internet sale various actions.Need the COS of various services to support these targets.We do not check ' build-in services device software (install server software) ' operating position, because supposition founder technician can carry out this task.

1.2.3.1. (Narrow-Casting) broadcast in control among a small circle

The service that we provide to major company preferably can allow these major companies to carry out meticulous especially resolution control aspect moving object renewal process personalized, thereby they can be broadcast among the personal user effectively among a small circle.The very important requirement of another of these services is that their scale can arrive 100,000 users.

Title

The structure registration process

The participant

Major company

Target

The participant should be able to construct registration process

Scope of authority

1) safety

2) company wants to understand as far as possible the user

3) company does not want to allow the user be fully aware that project 2

4) company wants according to their hobby process to be carried out allocation plan and style design

5) each company requires different log-on messages

6) have the questionnaire problem of some general common aspect, these questionnaire problems are such as being ' user's name ', ' user email ' etc.We just can give one of user " jump (jump) " the beginning mode by several default questionnaire problems are provided like this

Trigger

Major company has allows them enter the button of the web page of construction process

Sum up

This operating position is caught the plot that the user determines registration details

1) user increases/removes an existing problem from enrollment form

Is 2) user edits an existing problem: this problem optionally or desired? what is its text? is this problem selection problem or text box? must this problem be a numerical value?

3) user's step 1 of getting back to capable of circulation

4) from the template by the automatic generation of registration details definition, the user is designed for the html template of questionnaire problem

Precondition

Major company's server software is mounted

Postcondition

Major company is current to have the registration web page that is used for its moving object user

Relevant operating position

1) registration is by result's decision of this operating position

2) utilize log-on message tectonic activity object renewal process

Title

Collect user profile data

The participant

Major company's server

Target

The participant should be able to collect all profile datas automatically, and is placed in the correct environment, that is, the expression user produces in the user object of data

Scope of authority

1) confidentiality

2) company wants to understand as far as possible the user

3) company does not want to allow the user be fully aware that the 2nd

4) purchase of the server log that can download from: behavior of profile data, moving object, registration, behavior

5) these data may be enormous amount potentially, and we must make it through some filtrations, compression or summary, to control its amount

6) data are in must the centering database in the correct context, analyze supporting

Trigger

1) server registration is downloaded

2) moving object sends profile data

3) log-on data is accepted

4) purchase in the WWW shop takes place

Sum up

This operating position is caught server automatic plot of collecting and classifying profile data from multiple source.This is an automated procedure, and wherein the user only can control and collect what data (should all be default),, has the list with check box that is, and altogether middle user can stop the server gather data from the particular aspects of system

Precondition

Registration is configured

Postcondition

The current all possible data that have about its all users of major company

Relevant operating position

1) structure registration process operating position determines that according to registration scenarios what data is available

2) server side of renewal process operating position provides data

3) the processing server side of purchase operating position provides data

Title

Tectonic activity object renewal process

The participant

Major company

Target

The participant should be able to upgrade by the tectonic activity object

Scope of authority

1) safety

2) company wants according to their ' coupling (match) ' design each user and each behavior to be complementary

3) company can be to ' coupling ' how it feels and have different designs definitely

4) in all ' coupling ' designs, some are arranged is common, be the vector that they are described as rule best, everyone may be with several rules that have of using, and these rules are such as being ' by the age decision ', ' by the ordering information decision ', ' by place decision ' or the like

5) described coupling should be (if necessary) determined at all available profile datas

6) the nontechnical user rule that should utilize us to provide in base data bag (base package) is constructed extraordinary renewal process

7) each moving object should have the formation rule set of himself

8) exist the viewpoint (upgrading by profile, toy, moving object) of several design update processes, the user wants and can select it

Trigger

Major company has allows them enter the button of the web page of construction process

Sum up

This operating position is caught the plot that the user determines the details of moving object renewal process

Give one example herein:

1) user selects the specific activities object that will construct

2) user increases/removes each rule during the course.Rule is to select from available regular classification

3) the existing rule of user's modification.Each available regular classification has constructing variable

4) user's rearrangement, copy and paste rule

5) user's step 2 of getting back to capable of circulation

6) user test he (or she) be the renewal process of moving object structure, and watch the result of prototype

Precondition

1) moving object is defined in central server

2) register format is configured

Postcondition

The current moving object renewal process with structure of major company, this process will show himself in each the renewal

Relevant operating position

1) increasing new moving object renewal is a requirement

1.2.3.2.

Title

The server side of renewal process

The participant

Major company's server

Target

The participant should be able to realize the renewal process of previous definition

Scope of authority

1) safety, secret

2) can arrive 100,000 users at most, wherein 100 among them can once upgrade

3) server is very expensive, thereby process should be best as far as possible

4) company should increase its struck capacity with scalable mode (scalable manner),, need not do many work that is

5) renewal process itself can be constructed by the mode with any number

6) we must register the everything feelings

7) process can be interrupted (be user's disconnecting, or the like) in operational process, thereby to preserve definite state be very important

8) when overload (overloaded), must defaultly set up behavior, thereby we can not finish with non-steady state (limbo state)

Trigger

LOIS carries out client computer and is connected to server and request renewal

Sum up

This operating position is caught the plot that server is refreshing client computer

1) server receives a update request

2) server causes the current renewal that is passed to any number of client computer by the rule operation of previous structure

3) server is delivered to client computer with renewal

Precondition

1) client computer of registration exists

2) the moving object renewal process is defined fully

Postcondition

Client computer is updated, perhaps by partial update

Relevant operating position

1) increasing new moving object renewal is a requirement

2) tectonic activity object renewal process is a requirement

1.2.3.3. control moving object behavior database

The target of these services is to allow major company to create the manageable big storehouse (store) that is used for moving object

Title

Increase new moving object to database

The participant

Major company

Target

The participant should be able to be increased to new moving object in the moving object database of server

Scope of authority

1) security

2) moving object can have very big difference each other

3) all moving objects can share a lot-and they upgrade control by many moving objects all, but once only control one

Trigger

The participant pushes and makes it enter a button of ' increase moving object ' example (wizard)

Sum up

This operating position is caught the participant and is told system that it must discern the plot of a new moving object

1) user fills in the minimum details that needs the new moving object of definition one

2) server is created the new object of imitation moving object

Precondition

Major company's server software is mounted

Postcondition

Server it is now know that new moving object

Relevant operating position

1) increasing new moving object renewal is next logic step

Title

Increasing new moving object upgrades

The participant

Major company and advertiser thereof

Target

The participant should be able to increase new moving object to server and upgrade

Scope of authority

1) security

2) can there be polytype renewal: text, script, multimedia, executable program, or the like

3) this process is one of the most general process, thereby it should be handled by pipelining as far as possible

4) this is the simplest place of writing interface between the software the founder who produces behavior bag (behavior packs)

5) finish in these different places in the Internet

Trigger

The participant pushes and makes it enter a button of ' increasing moving object upgrades ' example

Sum up

This operating position is caught the participant and is told system to increase the plot that a new moving object is upgraded to specific activities

1) user selects a moving object

2) user uploads more new data packets

3) server should be notified all relevant objects of observation of this new renewal

Precondition

1) moving object is defined in central server

2) participant has the specific file that upgrades in order to the activity of constructing object.The establishment of these renewals is the scope of presents head and shoulders above

Postcondition

It is now know that new moving object is upgraded for server, and it will use in WWW shop, rule management and analyzing subsystem

Relevant operating position

1) increasing new moving object to database is a requirement

1.2.3.4.

Title

The management activity object upgrades

The participant

Major company

Target

The participant should be able to upgrade by the management activity object

Scope of authority

1) security

2) can there be polytype renewal: text, script, multimedia, executable program, or the like

3) this process is one of the most general process, thereby it should be handled by pipelining as far as possible

4) can exist hundreds of moving objects to upgrade, thereby the user must find out the renewal that they need manage very soon

5) we can not manage the inside of a update package, are very important but the basis with founder's software interfaces is provided in this operating position

Trigger

The participant pushes and makes it enter a button of ' renewal of management activity object ' example

Sum up

This operating position is caught the participant and is told system to remove moving object renewal, changes its characteristic or it is upgraded the plot of replacing with another

1) user selects a moving object

2) user selects a moving object to upgrade

3) user removes moving object and upgrades, and perhaps edits its characteristic, perhaps use he (or she) previous prepare another more newly arrive and replace current renewal

Precondition

Moving object is defined in central server

Postcondition

Moving object is current different with its original state in a renewal

Relevant operating position

1) increasing new moving object renewal is a requirement

1.2.3.5. control WWW behavior shop

Company wants the sales behavior of making money on WWW.This just means that a kind of instrument of their needs creates the shop (store) with administration behaviour.

Title

Allocation plan and style design are carried out in WWW behavior shop

The participant

Major company

Target

The shop that the participant should be able to the firm sale moving object upgrades looks like anything

Scope of authority

1) security

2) major company wants to make their shop to seem very unique

3) much in common is arranged in all shops: they are searchable basically, handle classification easily

4) thus we default template can be provided

5) operation to template must be simple, only needs HTML knowledge

6) user wants to make shop and their WWW information system integrated

7) user's (and will be) shop, accounting system with their some type, or the like, as their part of Web site

Trigger

The participant pushes and makes it enter a button of ' the style design is carried out in WWW behavior shop ' example

Sum up

This operating position is caught the plot that the participant manages all aspects in WWW shop

1) user selects one page in the shop, i.e. search results pages (results page), product page, or the like

2) user selects a template

3) user is by previewing the effect that (previewing) checks system's cope match-plate pattern

4) user will work as front template and replace and submit this change with new template

Precondition

1) moving object is upgraded and is configured

2) user has the html file with the template that acts on the shop.Please note that these may derive from our default template, perhaps they are write by the documentation according to us

Postcondition

The shop is current is just being carried out the style design according to user's hobby

Relevant operating position

1) renewal of management activity object is that major company is that moving object is upgraded the situation of determining price, ordering information etc.

2) server side of handle buying is a server interpolation shop template in HTML page or leaf completely, and sends it to the situation of user's Web-browser

1.2.3.6.

Title

Handle the server side of buying

The participant

Major company's server

Target

The participant should be able to correctly respond the WWW order form that moving object is upgraded, and correct response is used for the page turning request of sorted table

Scope of authority

1) security

2) many users may about 100 commodity of single purchase

3) record keeping, tax

Trigger

The Web-browser client computer enters the shop and begins to carry out with it mutual

Sum up

This only is a normal WWW shop active procedure, as many other processes

Precondition

1) is configured to the template in WWW shop

2) moving object is upgraded and is existed

3) user of registration exists

Postcondition

Purchase is registered, and bill particulars is updated, and moving object is upgraded

Relevant operating position

1) design of allocation plan and style being carried out in WWW behavior shop is that major company determines that the HTML page or leaf looks like and so on situation

2) renewal of management activity object is that major company is that moving object is upgraded the situation of determining price, ordering information etc.

1.2.3.7. control user

Major company need allow the service groups of their leading subscriber databases and relevant information, and these customer data bases and relevant information are: bill and profile data.

Title

Leading subscriber

The participant

Major company

Target

The participant should be able to manually control customer data base

Scope of authority

1) security

2) 100,000 users

3) major company has the personnel of the enough RDBMS of energy by access way work

4) our user is the object that needs to seal (encapsulate) many different kinds of information, and we can not know these information in advance.This comprises all profile datas

Trigger

The participant pushes and makes him enter the button of subscriber management application

Sum up

This only is to use the normal increase/deletion/modification type of situation

Precondition

The user is registered

Postcondition

User object is modified

Relevant operating position

1) the structure registration process has been determined the numerous characteristics of corporate user's object

2) almost each other operating position all is dumped to user object to the login situation

1.2.3.8. analyze professional

For helping them to determine such as ' we should create the behavior of which kind of type today? ' and other decision situation, major company need analyze use pattern and profile.They produce and watch report these professional permissions.

Title

Analyze operating position

The participant

Major company

Target

The participant should be able to produce and watch the report about the complexity of system's operating position

Scope of authority

1) big data

2) company has standard report form and instrument

3) we do not know all Report Types of needs in advance, but we can suppose must need several

Trigger

Advertising management person is (Disney) beginning reports on the implementation instrument from the Disney

Sum up

This depends on the instrument of use.In general it should be:

1) time period of definition

2) user segment of definition

3) they are inquired about, refine

4) Query Result is placed template and send to the supvr

Precondition

1) there are use data in the database

Postcondition

One report is produced

Relevant operating position

1) server side of renewal process is the place that the data of aftertreatment are here created

2) collect user profile data and determine that also what content is logined

Below the LOIS ad system will be described

1) segmentation

Can obtain overall segmentation by the television advertising merchant by the definition of following constraint condition:

* the big girl in 5-9 year, they see TV in afternoon on ordinary days

The content provider of TV station broadcasts and is considered to the attractive performance to the spectators of mentioned kind, and it is sold to interested advertiser.There are several indeterminable problems in this system: segmentation is accurate never, and advertiser is restricted to very simple restriction range, and effectively market feedback is untimely, and the time of advertisement can not be selected to broadcast by advertiser.In LOIS, the constraint of existence is such as being:

^*Like 8 years old boy of science fiction type material

^*Like 8 years old boy of illusion type material

^*Like 8 years old boy of army's type material

This just can allow point-device target localization.Because children are very different each other, advertisers can organize some suitable activities now.LOIS action space management system allows advertisers to carry out following work:

^*Segmentation form activity of constructing with any complexity

^*With very high resolution control activity in real time

^*Automatically collect correct report

^*Select any time in one day to be used for their advertisement

LOIS also supports the classification and matching of advertisement and content type certainly.Toy manufacturer can be to the timeslice of advertiser sells in patronage/free content, as in TV/radio broadcasting/WWW.

2) content and advertisement

Content and advertisement are resolved in behavior.Father and mother and children can not recognize this decomposition.The behavior that they receive does not contain its information.This is as TV.Broadcast technology is transparent for the inside story of institute's promotional content.Video editing software can be known its difference.Can be provided for particular tool according to advertisement and content composition video.The LOIS design also is similar.At toy manufacturer and advertiser's website, content is distinguished mutually with advertisement: the registration that each self-sustaining is different, content are normally bought as the behavior reservation, and advertisement is not, and also have other difference.But this information can not enter Toy Maker (toy manufacturer)＜=Client Installations (client computer mounting portion) extranets.This does not also mean that children and father and mother know never what is that advertisement and what are contents.When TV station can switch between the two optionally (most cases is like this) tell spectators.This situation is considered to suitable, and also is considered to the Right Thing (r) (correct incident) in the LOIS content.The advertisement of more careful form can be observed by toy manufacturer and advertiser, but these can not be too careful, and perhaps they can make father and mother and children's worry.

An embodiment of LOIS system is described below now:

(Living Objects Internet Services LOIS) is the adopted name of one group of software product to moving object (tm) internet service, the part of the broad sense family of moving object (tm) technology that this group software product is the founder.Resemble whole family, LOIS is the technology of enabling.LOIS can make founder's client set up complicated internet service.LOIS offers its client by the founder, and this is because following two obvious cause:

^*Exploitation is effectively professional easily and reliably to help the client.

^*Help the founder to set up its leading stratum and the competitive edge on market.

Have two types LOIS product design to become two types application (and market) service:

^*INTERNET (the Internet) business is used for retailer's trade debtor product, such as toy and intelligent domestic utensil.

^*INTRANET (in-house network) is engaged in, and is used for the operator of amusement and shopping website.

Two kinds of products all are made of two parts: server product and client product.

There is abundant product can make company develop and provide polytype internet service.The founder does not plan and these product competitions, and the feature that LOIS is designed to not have with other places is replenished these enabled productions.

2.1. the advantage of the Internet

Under the in-house network application scenario of moving object, client-side is that PC moves several programs simultaneously.Each program in these programs is all controlled one or more devices, such as toy or intelligent domestic utensil.These devices can be from different retailers with their control program.Therefore, this situation is called " many retailers environment ".For making these all programs all share required peripheral hardware such as the wireless base station, computer screen and the Internet founder provide executable program.This executable program is responsible for moving control program and is provided all essential peripheral hardware business to them, comprises that the Internet inserts.

2.2. the advantage of in-house network

Moving object in-house network business is that the big website with several wireless base stations in radio communication is finished, and this radio communication has many moving objects.Each wireless base station covers a part of website, and moving object is the transfer table that passes through website.Therefore, moving object can be roamed between each wireless base station, and these base stations keep the continuous communiction with central computer.It is unique that this situation is used for in-house network, and can not be supported by available in-house network software package.

2.3.LOIS advantage

An advantage using shared LOIS with all is LOIS SDK.This part SDK product can make the founder client development moving object technology fast, expensive and reliable, not complicated application program.LOIS SDK is at the specific characteristic of the available developing instrument that is used for internet applications and other moving object product and carry out comprehensive between requiring.

3. qualification of the present invention

Moving object (tm) internet service (LOIS) is a software product, is a member of moving object (tm) family of founder's product.Moving object is one group and enables technology, and it allows easily to develop " robot (robots) ", should " robot " has the ability with human natural interaction.Moving object is a product family, comprises hardware, Control Software, applied software development tool box and Internet service software.

Each multiple market of moving object face.The principal market is:

^*Toy

^*Wired home

^*The amusement park

^*Retail channel-point of sale

The moving object technology is to be introduced to the market to the retailer of the product of finishing by the founder.The retailer utilizes the moving object technology to come to be the more perfect product of their market development.

The moving object Internet server is used under following two kinds of occasions:

^*The retailer of the commodity of finishing provides service by the Internet to their client.

^*Operator (operators of amusement park, retail channel etc.) communicates between their website.

Typically the business based on the Internet is:

^*Customer support/central site management

^*The compartment system software upgrading

^*Sell new software product

^*The centre management of individual/site information and distribution

^*Operating position by final user (end-user) research and analysis system features and preference

^*Advertisement

The moving object Internet server can make retailer and operator set up their internet service easily, reliably and apace.

4. founder's target

LOIS develops anticipating under the situation of competing in the future with founder's moving object.Founder's plan is to guarantee its leader position as the supplier of " moving object " technology by the best item that following three aspects are provided to market:

^*Cost mainly is a hardware cost

^*Complicacy mainly is the complicacy of application development instrument

^*The breath of moving object product family (breath)

Use the Internet provides service from some type to the product relevant with computing machine and software today very general (if not essential words).Therefore, founder supposition can be sought by client (retailer) or website (operator) the approach that service be provided of the Internet to them based on the retailer of the product of action toy technology and operator.Provide the Internet solution to create certain market advantage as the part of moving object family.

The moving object Internet server provides the service of following target for the founder:

Competitive advantage

(captive) client who is attracted

Market information

Although income and income-LOIS are a kind of auxiliary products in the moving object family, it is considered to revenue center, and wishes about 10% of gross income that it provides moving object family.

5. the ownership goal of awaring

5.1. toy retailer's target

The moving object technology be based upon toy (one or more) with control this toy contiguous personal computer radio communication in conceptual foundation on.This personal computer can carry out with the Internet server of the manufacturer of toy continuously or dialcom.The toy retailer will buy and use LOIS for underlying cause:

^*Customer support

^*Push up sales by online sales

^*Separate software marketing (previewing, finish product, renewal and expansion)

^*Fan club orders

^*Game on line

^*Electronic coupons (coupons)

^*Advertisement

^*Collection and analysis purchasing model and user's demography

5.2. wired home retailer's target

^*Customer support

^*Keep brand name and customer loyalty

^*Electronic coupons

^*Advertisement

^*Collection and analysis purchasing model and user's demography

5.3. amusement park operator's target

^*Website is supported

^*Communicate by letter between website

^*Beholder's identification between website

^*Fan club orders

^*Family and game on line

^*Electronic coupons

^*Advertisement

^*Collection and analysis purchasing model and user's demography

5.4. retail operations person's target

^*Website is supported

^*Communicate by letter between website

^*Client's identification between website

^*Keep customer loyalty by buyer club

^*Push up sales by online sales

^*Electronic coupons

^*Advertisement

^*Collection and analysis purchasing model and user's demography

6. system architecture

LOIS is made of following two major parts: server side and client-side constitute with following two kinds of basic structures:

The Internet or server/client-

Typical toy and wired home market, client software resides in the personal computer, this personal computer non-frequently with server communication.

In-house network or server/node

Typical public place of entertainment and retail channel market, client software resides in the central computer of website, is used as the in-house network node with the server continuous communiction.

The retailer who sells to toy market and wired home market who please notes product can also adopt server-node structure to communicate by letter with retail channel, and the operator of public place of entertainment and retail channel also can adopt server-client structure and their family's client communication.

The remainder of presents is devoted to the description to the Internet-server/client structure and toy and wired home application.

6.1. client architecture

6.1.1. operating system support

The LOIS client software should run on following all platforms.

^*WindoWs95(WindoWs98)

^*Windows?NT?Client

^*Windows?CE

^*Macintosh

^*Java/NC

Expect that also a kind of pure software based on Java can run on all these platforms.

6.1.2. many retailers environment

The founder is to its client's marketing technique.The client utilizes this technological development device (toy, intelligent domestic utensil, or the like) and runs on PC software on these devices.Most basic conditions is the program that has a device and this device of control.Many device context are the situations when existing by single programme controlled several devices.The multiprogram environment is when situation about existing by several devices of several distinct program controls.On the one hand, all programs are independent operating all, and all on the other hand programs all insert identical computer radio interface (CRI is also referred to as wireless Hub or wireless base station).This has just created a kind of complex situations that require senior mechanism to support.Complicated situation is the situation that runs on identical PC simultaneously from several programs of several retailers when existing, the different device of this PC control.This is general for toy, and is necessary for the intelligent domestic utensil.

The Internet is used and is created even more complicated many retailers environment.LOIS must support to exist several programs to want to insert the situation of several different Web sites, and some in wherein said several programs are from different retailers.

There are two kinds of basic possibilities of supporting many retailers environment:

Collaborative tools

Control Software Package is an autonomous type, and separate.The founder provides one section software in the software package that is included in the retailer to its client.This section software can allow the mutual cooperation between several programs to carry out and be linked into shared peripheral hardware simultaneously, such as CRI and the Internet.All of control program all are by calling of collaborative tools carried out to the access request of sharing peripheral hardware.The instrument that is linked to various programs can cooperated each other, and inserts when providing required peripheral hardware.

General executable program

The founder provides an executable program, and this program start moves all control programs.It all is to be proposed to required peripheral hardware to executable program with by this executable program by control program that all accesses of sharing peripheral hardware are asked.

It is the operation that LOIS does not disturb any shared manual browser and other the Internet software product that another one requires, and this Internet software product is such as being " implementation technology (push technology) ", technique of internet, or the like.

The method of executable program is general scheme (an operating system scheme).It supports cooperation between each program by executable program very simply.It also supports downward compatibility (wherein new procedures can be enjoyed new feature, and old program still can be moved) at an easy rate.This executable program method has great sale power for the founder.This advantage for the founder can threaten (intimidate) a large amount of retailer.

6.1.3. dialer (Dialer) is supported

Client software can be created the Internet automatically and connect.Therefore, client software can be moved the Internet dialer and carry out all required actions (such as the password input) to set up and ISP (Internet Service Provider, connection ISP).Owing to exist many ISP and many dialing persons, client software can make and himself be adapted to user's internet environment automatically.

The preferred advertisement that is used for moving object Internet service (LOIS) system distributes and management (Advertising distribution And Management, ADAM) system description is as follows:

The present invention

Generator is used for by computerized toy and doll advertisement being set.These devices can allow:

Carry out advertisement by personage with the target audience close friend

Sharply concentrated target audience

Make ad content customization (sex, age, position, hobby) to the user

Provide the ad content of variation to same user, thereby avoid being weary of

Share the advertising space between each advertisement

Make this situation advertiserization of (day of the week) such as daytime (time of day) and on ordinary days

The advertisement that changes in time and develop is provided

After being sold to the user, toy or doll change advertisement

Observing system

(from now on, the term toy refers generally to toy and doll)

Moving object (tm) is that a kind of can the permission realized by computing machine (LO), the technology of the toy of particularly conventional home computer control.These toys and their user can play senior recreation, imitate human behavior effectively.The user can be mutual with toy on people's meaning, and toy can adopt required especially game content user's this moment.

Recreation is to realize as the software program of being carried out by computing machine.Games Software can distribute with the toy binding or distribute separately as after-market product.For available toy on the market, recreation can be by retailer's exploitation of toy or by independent game developer's exploitation.Recreation normally utilizes computer disk or CD-ROM to distribute.

Toy can provide ad content to the user, mainly by language form with providing.Advertising space can be used by the retailer and the Games Software of toy, and the products ﹠ services that they control oneself with sales promotion perhaps can be sold to other each side by the retailer.

Computing machine can be connected to the Internet and be connected to various internet sites (Web site) through the Internet.The main cause that is connected to the Internet is the renewal version from founder's Web site download system software, and from the renewal version of retailer's website downloading game software.This mechanism also can be used for to distributing and the downloads ad content service.The advertisement internet site can be the founder Web site, toy and recreation retailer website and be exclusively used in website (website of advertising company) to moving object toy distribution ad content.

Ad content mainly is the sound that has or do not have music and relevant action (for example singing and dancing), i.e. language content.The advertisement project can be after particular game within or be provided with separately.

The ADAM that is used for the LOIS technology mainly comprises 4 following main subsystems with the configuration ADAM that is used for LOIS:

The moving object custom system

The moving object custom system is architecture basics software (and hardware), can make computing machine execution Games Software and control the moving object toy.The moving object custom system comprises the LOIS client software, can make computing machine be connected to the Internet and be connected to various retailers' website, and communicate by letter with them as required.ADAM user's client computer is the software module that can make computing machine and internet site exchange ad data and content.

Retailer's LOIS server

Retailer's LOIS server is founder's product of a kind of founder's of offering client (developer of moving object toy and recreation and distributor), can make them keep being connected with their the continuous of client.Retailer LOIS server is a kind of software package that is used for the Internet server of communicating by letter with LOIS user's client software.The ADAM module support that is used for retailer LOIS server is by required all communication requirements and the programing facility of the Internet assignment advertisement.

Gray ADAM client computer

Advertiser's ADAM client computer is the software program that can make advertiser and various LOIS server and their ADAM module communication, and can also carry out following work:

^*Study and select suitable advertizing means (vehicles) (being toy and the recreation in the market)

^*Prepare ad content with suitable form

^*To suitable LOIS server-assignment ad content

^*Further control advertisement process

The ADAM of advertiser client computer can be used for designing and realizing the advertisement of other products by the retailer, and is used for by LOIS server-assignment ad content by other advertiser (perhaps advertising agent).The advertiser that is not the retailer can have their the LOIS server that is used for distributing ad content, but unlikely makes user's LOIS (ADAM) client computer will start direct contact the with advertiser's website.

Founder's LOIS server

Founder's LOIS server is supported whole LOIS network, and especially ADAM uses.Founder's Web site provides software upgrading and supports other all three entities: user, retailer and advertiser.

The ADAM characteristic

ADAM is a kind of unique mechanism that is used for advertisement.ADAM collects the details about each user.This information is to be collected and passed to retailer's server by custom system.Therefore, advertiser sends to the appropriate spectators that concentrate with advertisement.Advertiser can make advertisement and particular case interrelate, such as particular game situation (discussion clothes) or ambient conditions when dinner (when waking up).Advertisement can represent to different users under different situations.All these is to utilize a kind of distributed data base of following data object to provide and manage, and is communicated and handled by four subsystems of the ADAM that is used for the LOIS system.

Be appreciated that software ingredient of the present invention can realize with ROM (ROM (read-only memory)) form when needed.In general this software ingredient can utilize conventional art to realize with hardware when needed.

Be appreciated that specific embodiment described in each appendix only is intended for use to provide to the disclosing of blow by blow of the present invention, but be not intended for use to limit the present invention.

Be appreciated that the of the present invention various features in the context that for clarity sake is described in each independent embodiment also can array configuration be provided among the single embodiment.On the contrary, the of the present invention various features that are described in for simplicity's sake in the context of single embodiment also can provide separatedly, are perhaps provided with any suitable sub-portfolio form.

Those skilled in the art can see, the content of special diagram of institute and description above the present invention is not limited to herein.Scope of the present invention is only by limiting with the claims after appendix.

Appendix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

Appendix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

Appendix C EC FE DS FE CS FE B4 FE A4 FE 90 FE 80 FE 6C FE 5C FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 5C FE 0B 00 03 00 1D 25 0C 31 6C FE 0B 00 01 00 D2 1D A2 43 58 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 50 FE 0A 00 03 00 1D 25 0C 31 90 FE 0B 00 01 00 D2 1D A2 43 7C FE 5D 4C A2 43 A0 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 A4 FE 09 00 03 00 1D 25 0C 31 B4 FE 0B 00 01 00 D2 1D A2 43 C4 FE SD 4C A2 43 ES FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 CS FE 08 00 03 00 1D 25 0C 31 DS FE 0B 00 01 00 D2 1D A2 43 0C FF 8D 4C A2 43 20 FF C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 EC FE 07 00 03 00 1D 25 0C 31 FC FE 0B 00 01 00 D2 1D A2 43 24 FF SD 4C A2 43 28 FF C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 10 FF 06 00 03 00 1D 25 0C 31 30 FF 0B 00 01 00 D2 1D A2 43 44 FE 8D 4C A2 43 40 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 40 FF 05 00 03 00 1D 25 0C 31 50 FF 0B 00 01 00 D2 1D A2 43 3C FE 8D 4C A2 43 38 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 60 FF 04 00 03 00 1D 25 0C 31 70 FF 0B 00 01 00 D2 1D A2 43 34 FE 8D 4C A2 43 30 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 80 FF 03 00 03 00 1D 25 0C 31 90 FF 0B 00 01 00 D2 1D A2 43 2C F3 8D 4C A2 43 28 FE 3F 24 48 FE 0A 1C 4B 19 46 20 46 20 A2 43 24 FE 8D 4C A2 43 20 FE F7 35 F0 1E A2 43 1C FE 8D 4C 6F 1E FC FD 4F 47 0C FE C2 25 28 00 58 FE 7C FE A0 FE C4 FE E8 FE 0C FF 20 FF 24 FF 28 FF 44 FE 40 FE 3C FE 38 FE 34 FE 30 FE 2C FE 28 FE 24 FE 20 FE 1C FE AE 25 24 00 5C FE 6C FE 80 FE 90 FE A4 FE B4 FE C8 FE D8 FE EC FE FC FE 10 FF 30 FF 40 FF 50 FF 60 FF 70 FF S0 FF 90 FF 3F 24 0C FE BE 1D 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD 11 00 03 00 1D 25 A6 31 00 00 01 00 AE 25 04 00 FC FD 5C FE 3F 24 48 FE 0A 1C 4B 19 92 17 92 17 A2 43 1C FE F7 35 F0 1E A2 43 20 FE 5D 4C 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD OF 00 03 00 1D 25 A6 31 00 00 01 00 C2 25 04 00 1C FE 20 FE AE 25 04 00 FC FD 5C FE 3F 24 0C FE BE 1D 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD 0C 00 03 00 1D 25 A6 31 11 00 01 00 AE 25 04 00 FC FD 5C FE A7 14 04 00 B4 01 44 07 20 00 00 00 00 00 14 00 00 00 03 00 00 00 2C FF 01 00 0C FE 02 00 48 FE 02 00 A4 00 00 00 27 00 00 00 1C FE 01 00 20 FE 01 00 24 FE 01 00 28 FE 01 00 2C FE 01 00 30 FE 01 00 34 FE 01 00 38 FE 01 00 3C FE 01 00 40 FE 01 00 44 FE 01 00 58 FE 01 00 7C FE 01 00 A0 FE 01 00 C4 FE 01 00 E5 FE 01 00 0C FF 01 00 20 FF 01 00 24 FF 01 00 28 FF 01 00 FC FD 02 00 5C FE 02 00 6C FE 02 00 80 FE 02 00 90 FE 02 00 A4 FE 02 00 84 FE 02 00 C8 FE 02 00 D5 FE 02 00 EC FE 02 00 FC FE 02 00 10 FF 02 00 80 FF 02 00 40 FF 02 00 50 FF 02 00 60 FF 02 00 70 FF 02 00 80 FF 02 00 80 FF 02 00 7C 42 06 00 6C 30 A0 FF 0B 00 03 00 06 00 0C 81 90 FF 0G 00 01 00 D2 1D 6F 1E 70 FF CD 1E S9 36 80 FF C0 2C 60 FF 7C 42 06 00 6C 30 S0 FF 0A CC 4D 5A 80 01 05 00 00 00 20 00 00 00 FF FF 00 00 00 00 00 00 00 00 00 00 4,000,000,001,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 06 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 8C D8 33 DB 8E D0 8B E3 53 50 B8 0F 01 50 CB B1 20 B8 01 00 D3 D8 83 F8 01 74 0D BA 1E 03 B4 09 CD 21 B0 01 B4 4C CD 21 B4 30 CD 21 3C 03 73 05 BA 1E 03 EB E9 8E 06 2C 00 33 C0 8B F8 B9 FF FF 26 81 3D 50 41 75 16 26 81 7D 02 54 48 75 0E 26 80 7D 04 3D 75 07 8D 75 05 89 36 9B 03 26 81 3D 77 69 75 1C 26 81 7D 02 6E 64 75 14 26 81 7D 04 69 72 75 0C 26 80 7D 06 3D 75 05 BA 49 03 EB 9E F2 AE 26 38 05 75 B9 8D 7D 03 89 3E 9D 03 B4 19 CD 21 04 41 BE D8 02 88 04 46 C6 04 3A 46 C6 04 5C 46 B4 47 B2 00 CD 21 8C D8 8E C0 BF D8 02 32 C0 B9 46 00 F2 AE 4F 80 7D FF 5C 74 04 C6 05 5C 47 BE D0 02 8B 0F CE 02 F3 A4 BA D8 02 B8 00 3D CD 21 72 0F A3 9F 03 EB 48 8C D0 8E D8 BA 1E 03 E9 0B FF 8B 36 9B 03 83 FE FF 74 ED 8E 1E 2C 00 8B FE 80 3C 00 74 E2 AC 3C 3B 74 040A C0 75 F7 8B CH 2B CF 83 F9 01 74 H7 8B F7 BF D8 02 F3 A4 4F 8C D0 8E D8 89 36 9B 03 EB 9C BA 76 03 E9 FD FE 8E 06 2C 00 8B 3E 9D 03 32 C0 B9 FF FF F2 AE F7 D1 8B D9 8B D1 8C D8 8E C0 BE 81 00 26 8A 4C FF 8A C1 02 C3 3C 7E 77 D2 26 88 44 FF 32 ED 03 F1 8D 38 41 FD F3 A4 FC BF 81 00 26 C6 05 20 47 8B 36 90 03 8E 1E 2C 00 8B CB 49 F3 A4 BF D8 02 32 C0 B9 FF FF F2 AE F7 D1 8C D8 8E C0 8C D0 8E D8 A1 9D 03 03 C2 2B D1 73 08 24 0F 04 F1 38 C2 72 89 8B 3E 9D 03 BE D8 02 F3 A4 8C D8 8E C0 8B 1E 9F 03 BE 5C 00 C7 04 BC FE C7 44 02 FF CD C7 44 04 21 B4 C7 44 06 3E CD C7 44 08 21 E9 C7 44 0A 98 00 B4 3F B9 FF FF BA 00 01 1E 56 CB 08 00 77 69 61 2E 63 6F 6D 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,546,869,732,070 72 6F 67 72 61 6D 20 72 65 71 75 69 72 65 73 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 59 6F 75 20 61 72 65 20 61 6C 72 65 61 64 79 20 72 75 6E 6E 69 6E 67 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 55 6E 61 62 6C 65 20 74 6F 20 73 74 61 72 74 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 FF FF 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 4E 45 05 0A FE 00 02 00 54 48 55 4E 0A 03 01 00 00 04 00 80 08 00 02 00 00 00 01 00 04 00 01 00 0B 00 40 00 60 00 E8 00 F3 00 F5 00 00 07 00 00 00 00 04 00 06 00 02 08 71 00 4A 00 00 00 0A 03 00 00 00 00 11 0C 02 00 71 00 5C 03 50 1D 5C 03 A9 00 08 01 50 1D 08 01 BB 00 DC 06 10 1D DC 06 04 00 10 80 01 00 00 00 00 00 2B 01 13 00 30 1C 01 80 00 00 00 00 0E 80 01 00 00 00 00 00 3E 01 03 00 30 1C 01 80 00 00 00 00 03 80 02 00 00 00 00 00 41 01 2F 00 30 1C 32 F5 00 00 00 00 70 01 13 00 30 1C 31 F5 00 00 00 00 7C 00 01 00 00 00 00 00 83 01 02 00 30 1C 01 80 00 00 00 00 74 00 01 00 00 00 00 00 85 01 5A 00 30 1C 02 80 00 00 00 00 00 00 07 74 79 70 65 6C 69 62 0A 5F 49 49 44 5F 46 6F 72 6D 31 00 07 50 41 54 45 4E 54 31 00 00 00 01 00 00 07 56 42 34 30 30 31 36 00 00 07 50 41 54 45 4E 54 31 00 00 00 00 00 00 00 00 E0 00 4A 01 00 00 00 00 9A FF FF FF FF 40 00 FF FF 00 00 00 09 04 00 00 04 00 00 00 00 00 01 00 00 00 00 00 00 00 2E 00 00 00 CA 01 04 00 FF FF 01 00 00 00 00 00 00 00 00 00 00 00 01 00 95 4D 03 00 6F 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 02 00 03 00 10 00 88 01 26 00 00 00 00 00 00 00 00 00 00 00 00 00 64 00 FF FF 00 00 01 00 00 00 20 00 2C 00 28 00 A3 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 41 4E 49 4D 31 00 00 00 00 00 00 00 00 00 00 00 03 00 A2 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 FF FF FF FF 28 00 30 01 5A 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 3C 00 6A 00 52 00 D6 00 68 00 DA 00 04 00 9C 00 B6 00 10 00 DE 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 7A 00 A2 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 95 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 01 00 68 00 6C 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 03 00 20 16 89 E9 DA 45 1B 10 B1 76 08 00 2B 33 6F 60 01 00 03 00 3C 00 40 00 E4 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 03 00 97 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 FF FF FF FF 70 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 4E 00 E8 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 FF CC 2D 00 02 43 01 00 00 59 00 00 00 00 05 00 46 6F 72 6D 31 00 0D 05 D0 05 00 00 D8 06 00 00 98 13 00 00 24 03 00 00 FF 00 0D 00 43 52 45 41 54 4F 52 20 20 44 45 4D 4F 00 19 01 00 42 00 23 FF FF FF FF 24 05 00 46 6F 72 6D 31 00 35 D0 05 00 00 36 D8 06 00 00 37 98 13 00 00 38 24 03 00 00 FF 01 93 00 00 00 02 05 00 4D 69 64 69 31 00 FF 08 00 56 42 58 2E 4D 49 44 49 00 02 C8 0A 08 07 50 01 50 01 FF 06 00 0B 02 00 0C 02 00 0D 29 00 56 6F 79 65 74 72 61 20 53 75 70 65 72 20 53 61 70 69 20 46 4D 20 44 72 69 76 65 72 7C 53 42 31 36 20 4D 49 44 49 20 49 6E 00 0E 2A 00 56 6F 79 65 74 72 61 20 53 75 70 65 72 20 53 61 70 69 20 46 4D 20 44 72 69 76 65 72 7C 53 42 31 36 20 4D 49 44 49 20 4F 75 74 00 0F 02 00 10 02 00 11 00 00 12 07 00 FF 03 4F 00 00 00 01 06 00 4C 61 62 65 6C 31 00 01 05 E0 04 F0 00 CC 09 20 01 FF 00 11 00 50 4C 45 41 53 45 20 20 54 4F 55 43 48 20 20 4D 45 00 12 00 00 14 02 18 FF 25 01 01 00 04 BC 02 E0 A5 01 00 0D 4D 53 20 53 61 6E 75 20 53 65 72 69 66 FF 02 04 04 00 02 00 2A 00 04 00 00 00 03 01 09 00 01 00 64 00 02 00 0F 00 03 00 00 00 02 00 02 00 02 00 00 00 00 00 95 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,014,004,801 00 00 00 00 14 02 64 00 DE 05 56 42 34 45 4E 31 36 2E 44 4C 4C 00 00 00 7E 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 14 00 8,200,080,008,000,100 0,600,010,001,000,000 00 00 7A 00 9C 00 FF FF 00 00 76 00 6C 00 FF FF 50 41 54 45 4E 54 31 00 50 41 54 45 4E 54 31 00 00 41 4E 49 4D 31 00 00 6C 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6D 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6E 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6F 31 64 98 CA F5 1C 10 8B 7B 9A 18 C4 8E 68 E6 70 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 09 00 0C 00 56 42 58 2E 4D 49 44 49 00 4D 49 44 49 56 42 58 2E 56 42 58 00 00 02 00 02 00 7E 00 03 00 00 00 02 00 3E 00 02 00 00 00 00 00 00 00 00 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 28 00 62 00 01 00 01 00 40 00 05 00 FF FF 02 00 01 00 12 08 10 00 00 00 00 00 00 00 00 00 00 00 15 00 00 00 00 00 00 00 B9 00 40 3D 33 C9 B8 B6 06 BA 0E 02 EA 71 00 71 00 00 00 00 00 00 B9 72 00 3D 33 C9 B8 C0 00 BA FF FF EA FF FF FF FF 00 00 00 00 00 B9 6A 00 3D 33 C9 B8 58 02 BA 58 00 EA 5B 00 5B 00 00 00 00 00 00 00 00 D7 35 59 3C 06 00 58 00 BC 36 1C 00 90 FF 14 00 00 00 30 31 30 30 30 30 30 35 30 31 30 31 30 30 30 30 30 30 30 30 00 00 7B 41 7C 42 06 00 6C 30 A0 FF 02 00 03 00 06 00 A6 31 11 00 01 00 A5 25 A0 FF A7 14 04 00 20 00 44 00 14 00 00 00 00 00 08 00 00 00 00 00 00 00 0C 00 00 00 01 00 00 00 A0 FF 02 00 70 0E 0E 00 51 1E 7E FF CD 1E 3F 24 8E FF C0 2C 6E FF 70 2D 0E 00 51 1E 4E FF CD 1E 3F 24 5E FF C0 2C 3E FF 37 2D 2E FF 70 2D 0E 00 51 1E 0E FF CD 1E 3F 24 1E FF C0 2C FE FE 37 2D EE FE 70 2D 0E 00 51 1E CE FE CD 1E 3F 24 DE FE C0 2C BE FE 37 2D AE FE 70 2D 0E 00 51 1E 8E FE CD 1E 3F 24 9E FE C0 2C 7E FE 37 2D 6E FE 85 18 34 00 70 2D 0E 00 51 1E 8E FE CD 1E 3F 24 5E FF C0 2C 6E FE 3F 24 5E FE E0 36 CE FE 00 00 CD 1E C0 2C 7E FE 32 2D AE FE 85 18 0A 00 3F 24 8E FF D5 1B D1 2D 0E 00 A6 3B 06 00 58 00 68 24 5C FE EB 23 5C FE C7 35 14 00 FD 49 4F 18 84 00 70 2D 16 00 51 1E 8E FE A6 3B 06 00 58 00 DF 1B 2C 3C 06 00 40 00 7C 48 D7 35 3F 24 9E FF C7 35 14 00 CC 26 58 FE 40 00 F5 23 54 FE 6F 1E 8E FE EB 23 9E FF DF 1B 2C 3C 06 00 40 00 96 15 EA 3C 6E FE 2E 19 FF FF FF FF 3F 24 6E FE 9D 4C 7E FE D2 1D AB 43 54 FE AE 25 04 00 6E FE 7E FE 3F 24 9E FF E7 26 58 FE C0 FF 3F 24 54 FE DB 19 08 00 1C 00 00 00 6E 00 D7 35 59 3C 06 00 58 00 A7 14 38 18 28 00 EB 23 5C FE D7 35 C7 35 13 00 C7 4B 4F 18 18 00 70 2D 16 00 51 1E 8E FE A6 3B 06 00 58 00 DF 1B 2C 3C 06 00 40 00 7C 48 A6 3B 06 00 58 00 D7 35 FB 38 59 3C 06 00 58 00 A7 14 18 00 5C 01 78 01 34 00 00 00 00 00 28 00 00 00 08 00 00 00 8E FF 02 00 54 FE 01 00 A0 FF 02 00 DE FE 02 00 1E FF 02 00 5E FF 02 00 5E FE 02 00 9E FE 02 00 2C 00 00 00 09 00 00 00 6E FE 02 00 7E FE 02 00 AE FE 02 00 BE FE 02 00 EE FE 02 00 FE FE 02 00 2E FF 02 00 3E FF 02 00 6E FF 02 00 7D 2D 0A 00 1F 43 AC FF F3 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 2,030,203,130,203,020 3,020,302,031,203,020 31 20 31 35 20 31 31 20 30 20 30 00 DB 49 4F 18 41 00 BC 36 22 00 8C FF 1A 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 48 41 4E 44 00 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 6E 03 F5 23 AC FF 7C 36 30 00 2A 00 00 00 20 30 20 31 20 30 2,036,203,020,362,030 2,035,203,020,313,020 30 20 30 20 3,020,312,030,203,120 3,135,203,720,302,030 00 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 40 59 20 20 4C 45 46 54 20 20 48 41 4E 44 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 EE 02 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 20 30 2,031,302,030,203,020 3,020,312,030,203,120 31 35 20 31 34 20 30 20 30 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4E 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 4C 45 47 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 6E 02 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 2,036,203,020,352,030 2,031,302,030,203,020 30 20 31 20 30 20 31 20 31 35 20 31 33 20 30 20 30 00 DB 49 4F 18 40 00 BC 38 1E 00 8C FF 17 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4C 45 46 54 20 20 4C 45 47 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 F0 01 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 2,030,203,620,302,036 2,030,203,520,302,031 30 20 30 20 3,020,302,031,203,020 3,120,313,320,313,520 30 20 30 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 45 41 52 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 45 25 9C FF 38 18 70 01 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 2,030,203,130,203,020 3,020,302,031,203,020 31 20 31 34 20 31 35 20 30 20 30 00 DB 49 4F 18 40 00 BC 36 1E 00 8C FF 17 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4C 45 46 54 20 20 45 41 52 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 F2 00 F5 23 AC FF 7C 36 30 00 2A 00 00 00 20 30 20 31 20 30 20 36 20 30 2,036,203,020,352,030 2,031,302,030,203,020 30 20 31 20 30 20 31 20 37 20 31 35 20 30 20 30 00 00 DB 49 4F 18 3C 00 BC 36 1A 00 8C FF 13 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4D 4F 55 54 48 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 78 00 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 2,030,203,620,302,035 2,030,203,130,203,020 30 20 30 20 3,120,302,031,203,131 2,031,352,030,203,000 DB 49 4F 18 3A 00 BC 36 1C 00 8C FF 15 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 46 4F 52 48 45 41 44 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 0C A6 31 00 00 01 00 A5 25 9C FF CB 25 AC FF A7 14 08 00 24 00 FE 03 18 00 00 00 00 00 0C 00 00 00 01 00 00 00 AC FF 01 00 0C 00 00 00 01 00 00 00 9C FF 02 00 00 00 03 00 03 01 DE 01 01 00 65 02 02 00 42 00 04 00 00 00 03 01 45 00 01 00 C7 00 00 00 00 00 00 00 00 00 00 00 30 01 34 00 56 53 5F 56 45 52 53 49 4F 4E 5F 49 4E 46 4F 00 BD 04 EF FE 00 00 01 00 00 00 01 00 00 00 00 00 00 00 01 00 0,000,000,000,000,000 0,000,000,001,000,100 01 00 00 00 0,000,000,000,000,000 0,000,000,024,000,000 56 61 72 46 69 6C 65 49 6E 66 6F 00 14 00 04 00 54 72 61 6E 73 6C 61 74 69 6F 6E 00 09 08 E4 04 C4 00 00 00 53 74 72 69 6E 67 46 69 6C 65 49 6E 66 6F 00 00 B0 00 00 00 30 38 30 39 30 34 45 34 00 00 00 00 14 00 02 00 43 6F 6D 70 61 6E 79 4E 61 6D 65 00 20 00 00 00 18 00 08 00 50 72 6F 64 75 63 74 4E 61 6D 65 00 50 41 54 45 4E 54 31 00 18 00 05 00 46 69 6C 65 56 65 72 73 69 6F 6E 00 31 2E 30 30 00 00 00 00 1C 00 05 00 50 72 6F 64 75 63 74 56 65 72 73 69 6F 6E 00 00 31 2E 30 30 00 00 00 00 1C 00 08 00 49 6E 74 65 72 6E 61 6C 4E 61 6D 65 00 00 00 00 50 41 54 45 4E 54 31 00 24 00 0C 00 4F 72 69 67 69 6E 61 6C 46 69 6C 65 6E 61 6D 65 00 00 00 00 50 41 54 45 4E 54 31 2E 45 58 45 00 00 00 01 00 02 00 20 20 02 00 01 00 01 00 30 01 00 00 31 75 20 20 10 00 01 00 04 00 E8 02 00 00 32 75 00 00 0,000,000,000,000,000 0,000,000,028,000,000 20 00 00 00 4,000,000,001,000,400 0,000,000,080,020,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 80 00 0,080,000,000,808,000 8,000,000,080,008,000 80 80 00 00 80 80 80 00 C0 C0 C0 00 00 00 FF 00 00 00 00 00 00 FF FF 00 FF 00 00 00 FF 00 FF 00 FF FF 00 00 FF FF FF 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 8F FF 07 70 00 00 00 00 00 00 00 00 00 00 8F FF FF FF 07 77 70 00 00 00 00 00 00 08 FF FF FF FF FF FF 07 77 77 70 00 00 00 00 FF FF FF FF FF FF FF FF 07 77 70 00 00 00 00 00 FF FF FF FF FF FF FF FF 07 70 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF 88 88 00 00 00 00 00 00 00 00 FF FF FF FF 88 88 00 00 00 00 00 00 00 00 00 00 FF FF 88 88 00 00 EE EE 00 00 00 00 00 00 00 00 88 88 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 00 7F FF 80 00 1F F8 00 00 07 F8 00 00 1F F8 00 00 7F F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 3F FF F8 03 FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 00 00 0,000,000,028,000,000 2,000,000,040,000,000 01 00 01 00 0,000,000,000,010,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 3C 7E FF C3 FC 1F F8 3F FC 07 FB FF FC 1F FB FF FC 7F FB FF FD FE FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF C1 FF FB FC 3D FF FB C8 C1 FF F8 8C 8F FF FB CJ FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 00 7F FF C0 00 1F F8 00 00 07 F8 00 00 1F F8 00 00 7F F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 3F FF F8 03 FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 10 00 00 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 00 00 00 00 00 00 00 00 53 4C 54 47 03 00 09 00 18 00 01 00 FF 04 02 00 00 00 00 00 C0 00 00 00 00 00 00 46 34 00 00 00 00 00 FF FF DD 00 00 00 0D 00 02 00 36 04 00 00 09 00 00 00 01 43 6F 5D 70 4F 62 6A 00 64 69 72 00 31 31 62 34 34 32 61 63 37 33 00 00 00 00 00 00 00 00 00 00 01 05 22 00 00 00 FF FF FF FF 84 00 00 00 FF FF FF FF 01 00 00 00 00 00 FC FF 82 00 02 03 28 00 00 00 DF 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 08 00 00 00 01 00 02 80 FF FF 0A 00 FF FF 01 00 00 00 00 08 00 2A 5C 52 61 38 2A 23 34 DF 05 00 FF FF 01 1A 00 00 00 4A 00 FF FF FF FF 00 80 12 00 00 00 02 40 FE FF FF FF 1D 00 00 00 FF FF FF FF 00 00 00 00 01 00 00 00 FF FF FF FF 00 00 FF FF FF FF 00 00 FF FF FF FF 00 00 00 00 01 00 00 00 04 00 01 00 00 00 00 00 1C 00 FF FF FF FF FF FF FF FF 01 00 16 00 CC 51 04 00 00 00 FF FF FF FF FF FF 00 00 00 00 00 00 09 04 00 00 01 00 00 00 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 01 00 0A 00 31 31 62 34 34 32 61 63 37 33 0A 00 31 30 62 34 34 32 61 63 37 33 FF FF 0E 00 00 00 FF FF 00 00 00 00 FF FF A1 31 64 98 CA F5 1C 10 83 7B 9A F8 C4 8E 68 E6 04 00 B2 00 00 00 00 00 00 00 00 00 00 02 01 20 02 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF A8 C0 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF ...

Appendix C EC FE DS FE CS FE B4 FE A4 FE 90 FE 80 FE 6C FE 5C FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 5C FE 0B 00 03 00 1D 25 0C 31 6C FE 0B 00 01 00 D2 1D A2 43 58 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 50 FE 0A 00 03 00 1D 25 0C 31 90 FE 0B 00 01 00 D2 1D A2 43 7C FE 5D 4C A2 43 A0 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 A4 FE 09 00 03 00 1D 25 0C 31 B4 FE 0B 00 01 00 D2 1D A2 43 C4 FE SD 4C A2 43 ES FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 CS FE 08 00 03 00 1D 25 0C 31 DS FE 0B 00 01 00 D2 1D A2 43 0C FF 8D 4C A2 43 20 FF C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 EC FE 07 00 03 00 1D 25 0C 31 FC FE 0B 00 01 00 D2 1D A2 43 24 FF SD 4C A2 43 28 FF C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 10 FF 06 00 03 00 1D 25 0C 31 30 FF 0B 00 01 00 D2 1D A2 43 44 FE 8D 4C A2 43 40 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 40 FF 05 00 03 00 1D 25 0C 31 50 FF 0B 00 01 00 D2 1D A2 43 3C FE 8D 4C A2 43 38 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 60 FF 04 00 03 00 1D 25 0C 31 70 FF 0B 00 01 00 D2 1D A2 43 34 FE 8D 4C A2 43 30 FE C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 80 FF 03 00 03 00 1D 25 0C 31 90 FF 0B 00 01 00 D2 1D A2 43 2C F3 8D 4C A2 43 28 FE 3F 24 48 FE 0A 1C 4B 19 46 20 46 20 A2 43 24 FE 8D 4C A2 43 20 FE F7 35 F0 1E A2 43 1C FE 8D 4C 6F 1E FC FD 4F 47 0C FE C2 25 28 00 58 FE 7C FE A0 FE C4 FE E8 FE 0C FF 20 FF 24 FF 28 FF 44 FE 40 FE 3C FE 38 FE 34 FE 30 FE 2C FE 28 FE 24 FE 20 FE 1C FE AE 25 24 00 5C FE 6C FE 80 FE 90 FE A4 FE B4 FE C8 FE D8 FE EC FE FC FE 10 FF 30 FF 40 FF 50 FF 60 FF 70 FF S0 FF 90 FF 3F 24 0C FE BE 1D 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD 11 00 03 00 1D 25 A6 31 00 00 01 00 AE 25 04 00 FC FD 5C FE 3F 24 48 FE 0A 1C 4B 19 92 17 92 17 A2 43 1C FE F7 35 F0 1E A2 43 20 FE 5D 4C 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD OF 00 03 00 1D 25 A6 31 00 00 01 00 C2 25 04 00 1C FE 20 FE AE 25 04 00 FC FD 5C FE 3F 24 0C FE BE 1D 6F 1E 5C FE 7B 41 C5 42 06 00 00 00 11 3B 00 00 94 3E 00 00 00 00 0C 31 FC FD 0C 00 03 00 1D 25 A6 31 11 00 01 00 AE 25 04 00 FC FD 5C FE A7 14 04 00 B4 01 44 07 20 00 00 00 00 00 14 00 00 00 03 00 00 00 2C FF 01 00 0C FE 02 00 48 FE 02 00 A4 00 00 00 27 00 00 00 1C FE 01 00 20 FE 01 00 24 FE 01 00 28 FE 01 00 2C FE 01 00 30 FE 01 00 34 FE 01 00 38 FE 01 00 3C FE 01 00 40 FE 01 00 44 FE 01 00 58 FE 01 00 7C FE 01 00 A0 FE 01 00 C4 FE 01 00 E5 FE 01 00 0C FF 01 00 20 FF 01 00 24 FF 01 00 28 FF 01 00 FC FD 02 00 5C FE 02 00 6C FE 02 00 80 FE 02 00 90 FE 02 00 A4 FE 02 00 84 FE 02 00 C8 FE 02 00 D5 FE 02 00 EC FE 02 00 FC FE 02 00 10 FF 02 00 80 FF 02 00 40 FF 02 00 50 FF 02 00 60 FF 02 00 70 FF 02 00 80 FF 02 00 80 FF 02 00 7C 42 06 00 6C 30 A0 FF 0B 00 03 00 06 00 0C 81 90 FF 0G 00 01 00 D2 1D 6F 1E 70 FF CD 1E S9 36 80 FF C0 2C 60 FF 7C 42 06 00 6C 30 S0 FF 0A CC 4D 5A 80 01 05 00 00 00 20 00 00 00 FF FF 00 00 00 00 00 00 00 00 00 00 4,000,000,001,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 06 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 8C D8 33 DB 8E D0 8B E3 53 50 B8 0F 01 50 CB B1 20 B8 01 00 D3 D8 83 F8 01 74 0D BA 1E 03 B4 09 CD 21 B0 01 B4 4C CD 21 B4 30 CD 21 3C 03 73 05 BA 1E 03 EB E9 8E 06 2C 00 33 C0 8B F8 B9 FF FF 26 81 3D 50 41 75 16 26 81 7D 02 54 48 75 0E 26 80 7D 04 3D 75 07 8D 75 05 89 36 9B 03 26 81 3D 77 69 75 1C 26 81 7D 02 6E 64 75 14 26 81 7D 04 69 72 75 0C 26 80 7D 06 3D 75 05 BA 49 03 EB 9E F2 AE 26 38 05 75 B9 8D 7D 03 89 3E 9D 03 B4 19 CD 21 04 41 BE D8 02 88 04 46 C6 04 3A 46 C6 04 5C 46 B4 47 B2 00 CD 21 8C D8 8E C0 BF D8 02 32 C0 B9 46 00 F2 AE 4F 80 7D FF 5C 74 04 C6 05 5C 47 BE D0 02 8B 0F CE 02 F3 A4 BA D8 02 B8 00 3D CD 21 72 0F A3 9F 03 EB 48 8C D0 8E D8 BA 1E 03 E9 0B FF 8B 36 9B 03 83 FE FF 74 ED 8E 1E 2C 00 8B FE 80 3C 00 74 E2 AC 3C 3B 74 040A C0 75 F7 8B CH 2B CF 83 F9 01 74 H7 8B F7 BF D8 02 F3 A4 4F 8C D0 8E D8 89 36 9B 03 EB 9C BA 76 03 E9 FD FE 8E 06 2C 00 8B 3E 9D 03 32 C0 B9 FF FF F2 AE F7 D1 8B D9 8B D1 8C D8 8E C0 BE 81 00 26 8A 4C FF 8A C1 02 C3 3C 7E 77 D2 26 88 44 FF 32 ED 03 F1 8D 38 41 FD F3 A4 FC BF 81 00 26 C6 05 20 47 8B 36 90 03 8E 1E 2C 00 8B CB 49 F3 A4 BF D8 02 32 C0 B9 FF FF F2 AE F7 D1 8C D8 8E C0 8C D0 8E D8 A1 9D 03 03 C2 2B D1 73 08 24 0F 04 F1 38 C2 72 89 8B 3E 9D 03 BE D8 02 F3 A4 8C D8 8E C0 8B 1E 9F 03 BE 5C 00 C7 04 BC FE C7 44 02 FF CD C7 44 04 21 B4 C7 44 06 3E CD C7 44 08 21 E9 C7 44 0A 98 00 B4 3F B9 FF FF BA 00 01 1E 56 CB 08 00 77 69 61 2E 63 6F 6D 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,546,869,732,070 72 6F 67 72 61 6D 20 72 65 71 75 69 72 65 73 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 59 6F 75 20 61 72 65 20 61 6C 72 65 61 64 79 20 72 75 6E 6E 69 6E 67 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 55 6E 61 62 6C 65 20 74 6F 20 73 74 61 72 74 20 4D 69 63 72 6F 73 6F 66 74 20 57 69 6E 64 6F 77 73 2E 0D 0A 24 FF FF 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 4E 45 05 0A FE 00 02 00 54 48 55 4E 0A 03 01 00 00 04 00 80 08 00 02 00 00 00 01 00 04 00 01 00 0B 00 40 00 60 00 E8 00 F3 00 F5 00 00 07 00 00 00 00 04 00 06 00 02 08 71 00 4A 00 00 00 0A 03 00 00 00 00 11 0C 02 00 71 00 5C 03 50 1D 5C 03 A9 00 08 01 50 1D 08 01 BB 00 DC 06 10 1D DC 06 04 00 10 80 01 00 00 00 00 00 2B 01 13 00 30 1C 01 80 00 00 00 00 0E 80 01 00 00 00 00 00 3E 01 03 00 30 1C 01 80 00 00 00 00 03 80 02 00 00 00 00 00 41 01 2F 00 30 1C 32 F5 00 00 00 00 70 01 13 00 30 1C 31 F5 00 00 00 00 7C 00 01 00 00 00 00 00 83 01 02 00 30 1C 01 80 00 00 00 00 74 00 01 00 00 00 00 00 85 01 5A 00 30 1C 02 80 00 00 00 00 00 00 07 74 79 70 65 6C 69 62 0A 5F 49 49 44 5F 46 6F 72 6D 31 00 07 50 41 54 45 4E 54 31 00 00 00 01 00 00 07 56 42 34 30 30 31 36 00 00 07 50 41 54 45 4E 54 31 00 00 00 00 00 00 00 00 E0 00 4A 01 00 00 00 00 9A FF FF FF FF 40 00 FF FF 00 00 00 09 04 00 00 04 00 00 00 00 00 01 00 00 00 00 00 00 00 2E 00 00 00 CA 01 04 00 FF FF 01 00 00 00 00 00 00 00 00 00 00 00 01 00 95 4D 03 00 6F 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 02 00 03 00 10 00 88 01 26 00 00 00 00 00 00 00 00 00 00 00 00 00 64 00 FF FF 00 00 01 00 00 00 20 00 2C 00 28 00 A3 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 41 4E 49 4D 31 00 00 00 00 00 00 00 00 00 00 00 03 00 A2 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 FF FF FF FF 28 00 30 01 5A 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 3C 00 6A 00 52 00 D6 00 68 00 DA 00 04 00 9C 00 B6 00 10 00 DE 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 7A 00 A2 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 95 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 01 00 68 00 6C 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 03 00 20 16 89 E9 DA 45 1B 10 B1 76 08 00 2B 33 6F 60 01 00 03 00 3C 00 40 00 E4 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 03 00 97 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 FF FF FF FF 70 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 4E 00 E8 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 FF CC 2D 00 02 43 01 00 00 59 00 00 00 00 05 00 46 6F 72 6D 31 00 0D 05 D0 05 00 00 D8 06 00 00 98 13 00 00 24 03 00 00 FF 00 0D 00 43 52 45 41 54 4F 52 20 20 44 45 4D 4F 00 19 01 00 42 00 23 FF FF FF FF 24 05 00 46 6F 72 6D 31 00 35 D0 05 00 00 36 D8 06 00 00 37 98 13 00 00 38 24 03 00 00 FF 01 93 00 00 00 02 05 00 4D 69 64 69 31 00 FF 08 00 56 42 58 2E 4D 49 44 49 00 02 C8 0A 08 07 50 01 50 01 FF 06 00 0B 02 00 0C 02 00 0D 29 00 56 6F 79 65 74 72 61 20 53 75 70 65 72 20 53 61 70 69 20 46 4D 20 44 72 69 76 65 72 7C 53 42 31 36 20 4D 49 44 49 20 49 6E 00 0E 2A 00 56 6F 79 65 74 72 61 20 53 75 70 65 72 20 53 61 70 69 20 46 4D 20 44 72 69 76 65 72 7C 53 42 31 36 20 4D 49 44 49 20 4F 75 74 00 0F 02 00 10 02 00 11 00 00 12 07 00 FF 03 4F 00 00 00 01 06 00 4C 61 62 65 6C 31 00 01 05 E0 04 F0 00 CC 09 20 01 FF 00 11 00 50 4C 45 41 53 45 20 20 54 4F 55 43 48 20 20 4D 45 00 12 00 00 14 02 18 FF 25 01 01 00 04 BC 02 E0 A5 01 00 0D 4D 53 20 53 61 6E 75 20 53 65 72 69 66 FF 02 04 04 00 02 00 2A 00 04 00 00 00 03 01 09 00 01 00 64 00 02 00 0F 00 03 00 00 00 02 00 02 00 02 00 00 00 00 00 95 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,014,004,801 00 00 00 00 14 02 64 00 DE 05 56 42 34 45 4E 31 36 2E 44 4C 4C 00 00 00 7E 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 14 00 8,200,080,008,000,100 0,600,010,001,000,000 00 00 7A 00 9C 00 FF FF 00 00 76 00 6C 00 FF FF 50 41 54 45 4E 54 31 00 50 41 54 45 4E 54 31 00 00 41 4E 49 4D 31 00 00 6C 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6D 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6E 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 6F 31 64 98 CA F5 1C 10 8B 7B 9A 18 C4 8E 68 E6 70 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 09 00 0C 00 56 42 58 2E 4D 49 44 49 00 4D 49 44 49 56 42 58 2E 56 42 58 00 00 02 00 02 00 7E 00 03 00 00 00 02 00 3E 00 02 00 00 00 00 00 00 00 00 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 28 00 62 00 01 00 01 00 40 00 05 00 FF FF 02 00 01 00 12 08 10 00 00 00 00 00 00 00 00 00 00 00 15 00 00 00 00 00 00 00 B9 00 40 3D 33 C9 B8 B6 06 BA 0E 02 EA 71 00 71 00 00 00 00 00 00 B9 72 00 3D 33 C9 B8 C0 00 BA FF FF EA FF FF FF FF 00 00 00 00 00 B9 6A 00 3D 33 C9 B8 58 02 BA 58 00 EA 5B 00 5B 00 00 00 00 00 00 00 00 D7 35 59 3C 06 00 58 00 BC 36 1C 00 90 FF 14 00 00 00 30 31 30 30 30 30 30 35 30 31 30 31 30 30 30 30 30 30 30 30 00 00 7B 41 7C 42 06 00 6C 30 A0 FF 02 00 03 00 06 00 A6 31 11 00 01 00 A5 25 A0 FF A7 14 04 00 20 00 44 00 14 00 00 00 00 00 08 00 00 00 00 00 00 00 0C 00 00 00 01 00 00 00 A0 FF 02 00 70 0E 0E 00 51 1E 7E FF CD 1E 3F 24 8E FF C0 2C 6E FF 70 2D 0E 00 51 1E 4E FF CD 1E 3F 24 5E FF C0 2C 3E FF 37 2D 2E FF 70 2D 0E 00 51 1E 0E FF CD 1E 3F 24 1E FF C0 2C FE FE 37 2D EE FE 70 2D 0E 00 51 1E CE FE CD 1E 3F 24 DE FE C0 2C BE FE 37 2D AE FE 70 2D 0E 00 51 1E 8E FE CD 1E 3F 24 9E FE C0 2C 7E FE 37 2D 6E FE 85 18 34 00 70 2D 0E 00 51 1E 8E FE CD 1E 3F 24 5E FF C0 2C 6E FE 3F 24 5E FE E0 36 CE FE 00 00 CD 1E C0 2C 7E FE 32 2D AE FE 85 18 0A 00 3F 24 8E FF D5 1B D1 2D 0E 00 A6 3B 06 00 58 00 68 24 5C FE EB 23 5C FE C7 35 14 00 FD 49 4F 18 84 00 70 2D 16 00 51 1E 8E FE A6 3B 06 00 58 00 DF 1B 2C 3C 06 00 40 00 7C 48 D7 35 3F 24 9E FF C7 35 14 00 CC 26 58 FE 40 00 F5 23 54 FE 6F 1E 8E FE EB 23 9E FF DF 1B 2C 3C 06 00 40 00 96 15 EA 3C 6E FE 2E 19 FF FF FF FF 3F 24 6E FE 9D 4C 7E FE D2 1D AB 43 54 FE AE 25 04 00 6E FE 7E FE 3F 24 9E FF E7 26 58 FE C0 FF 3F 24 54 FE DB 19 08 00 1C 00 00 00 6E 00 D7 35 59 3C 06 00 58 00 A7 14 38 18 28 00 EB 23 5C FE D7 35 C7 35 13 00 C7 4B 4F 18 18 00 70 2D 16 00 51 1E 8E FE A6 3B 06 00 58 00 DF 1B 2C 3C 06 00 40 00 7C 48 A6 3B 06 00 58 00 D7 35 FB 38 59 3C 06 00 58 00 A7 14 18 00 5C 01 78 01 34 00 00 00 00 00 28 00 00 00 08 00 00 00 8E FF 02 00 54 FE 01 00 A0 FF 02 00 DE FE 02 00 1E FF 02 00 5E FF 02 00 5E FE 02 00 9E FE 02 00 2C 00 00 00 09 00 00 00 6E FE 02 00 7E FE 02 00 AE FE 02 00 BE FE 02 00 EE FE 02 00 FE FE 02 00 2E FF 02 00 3E FF 02 00 6E FF 02 00 7D 2D 0A 00 1F 43 AC FF F3 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 2,030,203,130,203,020 3,020,302,031,203,020 31 20 31 35 20 31 31 20 30 20 30 00 DB 49 4F 18 41 00 BC 36 22 00 8C FF 1A 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 48 41 4E 44 00 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 6E 03 F5 23 AC FF 7C 36 30 00 2A 00 00 00 20 30 20 31 20 30 2,036,203,020,362,030 2,035,203,020,313,020 30 20 30 20 3,020,312,030,203,120 3,135,203,720,302,030 00 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 40 59 20 20 4C 45 46 54 20 20 48 41 4E 44 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 EE 02 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 20 30 2,031,302,030,203,020 3,020,312,030,203,120 31 35 20 31 34 20 30 20 30 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4E 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 4C 45 47 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 6E 02 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 2,036,203,020,352,030 2,031,302,030,203,020 30 20 31 20 30 20 31 20 31 35 20 31 33 20 30 20 30 00 DB 49 4F 18 40 00 BC 38 1E 00 8C FF 17 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4C 45 46 54 20 20 4C 45 47 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 F0 01 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 2,030,203,620,302,036 2,030,203,520,302,031 30 20 30 20 3,020,302,031,203,020 3,120,313,320,313,520 30 20 30 00 DB 49 4F 18 42 00 BC 36 20 00 8C FF 19 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 20 52 49 47 48 54 20 20 45 41 52 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 45 25 9C FF 38 18 70 01 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 20 30 20 36 20 30 20 35 2,030,203,130,203,020 3,020,302,031,203,020 31 20 31 34 20 31 35 20 30 20 30 00 DB 49 4F 18 40 00 BC 36 1E 00 8C FF 17 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4C 45 46 54 20 20 45 41 52 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 F2 00 F5 23 AC FF 7C 36 30 00 2A 00 00 00 20 30 20 31 20 30 20 36 20 30 2,036,203,020,352,030 2,031,302,030,203,020 30 20 31 20 30 20 31 20 37 20 31 35 20 30 20 30 00 00 DB 49 4F 18 3C 00 BC 36 1A 00 8C FF 13 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 4D 4F 55 54 48 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 00 A6 31 00 00 01 00 A5 25 9C FF 38 18 78 00 F5 23 AC FF 7C 36 30 00 2B 00 00 00 20 30 20 31 20 30 20 36 2,030,203,620,302,035 2,030,203,130,203,020 30 20 30 20 3,120,302,031,203,131 2,031,352,030,203,000 DB 49 4F 18 3A 00 BC 36 1C 00 8C FF 15 00 00 00 59 4F 55 20 54 4F 55 43 48 20 20 4D 59 20 46 4F 52 48 45 41 44 00 7B 41 7C 42 06 00 6C 30 9C FF 01 00 03 00 06 0C A6 31 00 00 01 00 A5 25 9C FF CB 25 AC FF A7 14 08 00 24 00 FE 03 18 00 00 00 00 00 0C 00 00 00 01 00 00 00 AC FF 01 00 0C 00 00 00 01 00 00 00 9C FF 02 00 00 00 03 00 03 01 DE 01 01 00 65 02 02 00 42 00 04 00 00 00 03 01 45 00 01 00 C7 00 00 00 00 00 00 00 00 00 00 00 30 01 34 00 56 53 5F 56 45 52 53 49 4F 4E 5F 49 4E 46 4F 00 BD 04 EF FE 00 00 01 00 00 00 01 00 00 00 00 00 00 00 01 00 0,000,000,000,000,000 0,000,000,001,000,100 01 00 00 00 0,000,000,000,000,000 0,000,000,024,000,000 56 61 72 46 69 6C 65 49 6E 66 6F 00 14 00 04 00 54 72 61 6E 73 6C 61 74 69 6F 6E 00 09 08 E4 04 C4 00 00 00 53 74 72 69 6E 67 46 69 6C 65 49 6E 66 6F 00 00 B0 00 00 00 30 38 30 39 30 34 45 34 00 00 00 00 14 00 02 00 43 6F 6D 70 61 6E 79 4E 61 6D 65 00 20 00 00 00 18 00 08 00 50 72 6F 64 75 63 74 4E 61 6D 65 00 50 41 54 45 4E 54 31 00 18 00 05 00 46 69 6C 65 56 65 72 73 69 6F 6E 00 31 2E 30 30 00 00 00 00 1C 00 05 00 50 72 6F 64 75 63 74 56 65 72 73 69 6F 6E 00 00 31 2E 30 30 00 00 00 00 1C 00 08 00 49 6E 74 65 72 6E 61 6C 4E 61 6D 65 00 00 00 00 50 41 54 45 4E 54 31 00 24 00 0C 00 4F 72 69 67 69 6E 61 6C 46 69 6C 65 6E 61 6D 65 00 00 00 00 50 41 54 45 4E 54 31 2E 45 58 45 00 00 00 01 00 02 00 20 20 02 00 01 00 01 00 30 01 00 00 31 75 20 20 10 00 01 00 04 00 E8 02 00 00 32 75 00 00 0,000,000,000,000,000 0,000,000,028,000,000 20 00 00 00 4,000,000,001,000,400 0,000,000,080,020,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 80 00 0,080,000,000,808,000 8,000,000,080,008,000 80 80 00 00 80 80 80 00 C0 C0 C0 00 00 00 FF 00 00 00 00 00 00 FF FF 00 FF 00 00 00 FF 00 FF 00 FF FF 00 00 FF FF FF 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 8F FF 07 70 00 00 00 00 00 00 00 00 00 00 8F FF FF FF 07 77 70 00 00 00 00 00 00 08 FF FF FF FF FF FF 07 77 77 70 00 00 00 00 FF FF FF FF FF FF FF FF 07 77 70 00 00 00 00 00 FF FF FF FF FF FF FF FF 07 70 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 FF FF FF FF FF FF 88 88 00 00 00 00 00 00 00 00 FF FF FF FF 88 88 00 00 00 00 00 00 00 00 00 00 FF FF 88 88 00 00 EE EE 00 00 00 00 00 00 00 00 88 88 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 00 EE EE 00 00 00 00 00 00 00 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 0,000,000,000,000,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 00 7F FF 80 00 1F F8 00 00 07 F8 00 00 1F F8 00 00 7F F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 3F FF F8 03 FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 00 00 0,000,000,028,000,000 2,000,000,040,000,000 01 00 01 00 0,000,000,000,010,000 0,000,000,000,000,000 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 3C 7E FF C3 FC 1F F8 3F FC 07 FB FF FC 1F FB FF FC 7F FB FF FD FE FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF FD FF FB FF C1 FF FB FC 3D FF FB C8 C1 FF F8 8C 8F FF FB CJ FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C1 FF FF FC 00 7F FF C0 00 1F F8 00 00 07 F8 00 00 1F F8 00 00 7F F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 01 FF F8 00 3F FF F8 03 FF FF F8 3F FF FF FB FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 10 00 00 00 A1 31 64 98 CA F5 1C 10 8B 7B 9A F8 C4 8E 68 E6 00 00 00 00 00 00 00 00 00 00 00 00 53 4C 54 47 03 00 09 00 18 00 01 00 FF 04 02 00 00 00 00 00 C0 00 00 00 00 00 00 46 34 00 00 00 00 00 FF FF DD 00 00 00 0D 00 02 00 36 04 00 00 09 00 00 00 01 43 6F 5D 70 4F 62 6A 00 64 69 72 00 31 31 62 34 34 32 61 63 37 33 00 00 00 00 00 00 00 00 00 00 01 05 22 00 00 00 FF FF FF FF 84 00 00 00 FF FF FF FF 01 00 00 00 00 00 FC FF 82 00 02 03 28 00 00 00 DF 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 08 00 00 00 01 00 02 80 FF FF 0A 00 FF FF 01 00 00 00 00 08 00 2A 5C 52 61 38 2A 23 34 DF 05 00 FF FF 01 1A 00 00 00 4A 00 FF FF FF FF 00 80 12 00 00 00 02 40 FE FF FF FF 1D 00 00 00 FF FF FF FF 00 00 00 00 01 00 00 00 FF FF FF FF 00 00 FF FF FF FF 00 00 FF FF FF FF 00 00 00 00 01 00 00 00 04 00 01 00 00 00 00 00 1C 00 FF FF FF FF FF FF FF FF 01 00 16 00 CC 51 04 00 00 00 FF FF FF FF FF FF 00 00 00 00 00 00 09 04 00 00 01 00 00 00 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 01 00 0A 00 31 31 62 34 34 32 61 63 37 33 0A 00 31 30 62 34 34 32 61 63 37 33 FF FF 0E 00 00 00 FF FF 00 00 00 00 FF FF A1 31 64 98 CA F5 1C 10 83 7B 9A F8 C4 8E 68 E6 04 00 B2 00 00 00 00 00 00 00 00 00 00 02 01 20 02 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF A8 C0 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF ...

Appendix E

#include＜windows!!＞#include＜io,h＞#include＜strtng.h＞#include＜stdlib.h＞#include＜time.h＞#include＜fentl.h＞#include＜mmsystem.h＞#include″creator.h″#include″crmidi.h″Function Get_File_Size*/long get_file_size(char*filename){int handlc.long size；if((handle=oper(Glename,O_RDONLY))=-1){return-1；}size=filelcngth(handle)；close(handle)；return(size)；}/*Funcuon SendByte*/void SendByte(long FitstByte long SecondiByte){DWORD SendMsg；SendMsg=(DWORD)(SecondByte*256-FirstByte)；eErrorOut=midiOutShortMsg(hMidiOut SendMsg)；if(uErrorOut)ErrorShowOut(uErrorOut)；}/*Funcuon SeadStringToMidi*/void SendStringToMidi(char SendString[255]){intlooo.char sendbvtc[255]=....intx=i)v=1).<!-- SIPO <DP n="170"> --><dp n="d170"/>int wordcount；int FirstByte=0；tnt SecondByte=0；wordcount=1；strcat(SendString,″″)；for(loop=O:loop＜(int)(strlern SendString))；loop-){    if(SendString[loop]!= ″)∥if this is not space continue to read the number    {sendbyte[x]=SendString[loop].    x-；    }    else         ∥if you finish to read the number →    {           ∥Beginif(wordcount=1)∥and this is the first byte{            ∥Beginwordcount+-.             ∥continue to read the second byteFirstByte=atoi(sendbyte)； ∥store the first byte into FirstByte vanable        freet sendbyte)；        ∥MessageBox(NULL.sendbye″Msgl ″,MB_OK)；        for(y=0:y＜x:y-)sendbyte[y]=0；∥reset sendbyte vanable    x=0；}else            ∥and thus is the second byte{            ∥Beginwordcount=1；         ∥after sending the 2bytes to the port counnue witch the next first byteSecondByte=atoi(sdndbyte)； ∥store the second byte into SecondByte variablefree(sendbyte)；        ∥MessageBox(NULL,sendbyte″Msg2″,MB_OK)；        for(y=0:y＜x:y-)snedbye[y]=0； ∥reset sendbyte vanablex=0；        SendByte(FirstByte.SecondByte)；  ∥Send the first byte and then the second byteto the midi        }    }}}/*Procedure CR_Proc_Send_Toy_Message*/void tar Send_Message(char*SendMessage){  char SendMsg[255]；∥    MessageBox(NULL.SeadMessage. ″SendMessage″,MB_OK)；  strcpy(SendMsg.SendMessage)；  SendStringToMidi(SendMsg)；}/*Funcuon ReceiveStringFromMidi*/<!-- SIPO <DP n="171"> --><dp n="d171"/>char*ReceiveStringFromsMidi(){tine_t T；time_t TEnd；strcpy(StringReceive.Recttr)；free(ReeStr)；∥MessageBox(NULL.RecStr.″Rective RecStr″.MB_OK)；RecrStr[0]=0；∥return(xtbl→tring_New(TempRecStr))；if(RecBytes=20){ RecBytes=0； TimeOut=0； returnStringRective)；}else{time(&amp;T)；               ∥DelayTEnd=T-3；              ∥Delay3secondswhile((T＜TEnd)&amp;&amp;(T＞0)&amp;&amp;(RecBytes＜20)){time(&amp;T)；}                 ∥End Delayif(RecBytes=20){RecBytes=0；strcpy(StringReceive.RecStr)；free(RecStr)；RecStr[0]=0；TimeOut=0；return(StringReceive)；}else{RecBytes=0；TineOut=1；return(″Time Out″)；}/*Function Get_Sensor_Numberlong far Get_Sensor_Number(){int msbint 1sb；char*MidiStr；char trnp[255],MidiStr=StringReceive；<!-- SIPO <DP n="172"> --><dp n="d172"/>strcpy(trnp.MidiStr-51)；∥the msb locztion55trnp[2]=1)；lsb=atot(trnp)；strcpy(trnp.MidiStr-54)；∥ the lsb location58trnp(2]=0；msb=atot(trmp)；∥if(StringRecctiveve!=Time Out″if(TimeOut=1)     return(255)；else     returnilsb-msb*16)；/*Funcuon Get_Toy_Numbervoid far Get_Toy_Number(char*ToyNum){char*MidiStr；char trnp[255]；∥MessageBox(NULL.ToyNum,″ToyNum″.MB_OK)；MidiStr=StringReceivestrcpy.MidiStr+12)；∥29)；∥the msb locationtrnp[12]=0；strcpy(ToyNum.trnp)；      ∥MessageBox(NULL,ToyNum,″ToyNum″.MB_OK)；}/*Function CR_Func_Wait_For_Toy_Message*/void far Wait_For_Toy_Message(char*Msg){char Messg[255]；     ∥MessageBox(NULL.Msg.″0″.MB_OK)；     strcpy(MessgMsg)；     ∥MessageBox(NULL.Messg,″1″.MB_OK)；     strcpy(MessgReceiveStringFrontMidi())；     ∥MessageBox(NULL.Messg,″2″.MB_OK)；     strcpy(Msg,Messg)；}/*Function Toy_Tranceive<!-- SIPO <DP n="173"> --><dp n="d173"/>char*Toy_Tranceive(char*Message){       char   Toy_Command[255]；char      Toy_Command_Ack[255]；int    Err=0；char      *ACKOK=″ACK.OK″；       char       Msg[255]；       strcpy(Msg,Message)；∥free(Toy_Command)；if(strlen(Msg)＞=59){    Strcpy_CommandMsg-24)；    Toy_Command[11]=0；    SendStringToMidi(Msg)；∥ free(Msg)；           ∥MessageBox(NULL.″Receive OK″.″Tranceivel″.MB_OK)；    strcpy(Msg,ReceiveStringFrornMidi())；           ∥MessageBox(NULL.″Receive OK″.″Tranceive2″.MB_OK)；    if(Msg!=″Time Out″)∥check the ack.    {    strcpy(Toy_Command_AckMsg+36)；    Toy_Command_Ack[11]=0；    }             ∥MessageBox(NULL.″Receive OK″.″Tranceive2″.MB_OK)；    Err=strcrnp(Toy_Command.Toy_Command_Ack)；∥check the ack(s)strings             Message=Msg；             ∥MessageBox(NULL.″Receive OK″,″Tranceives″.MB_OK)；             if(Err!=0)return(Message)；     ∥Message))；    if(Err=0)retrun(ACKOK)；      ∥Toy_Command_Ack))；}else{return″String error...″)；}}/*Procedure CR_PROC_Toy_Tranceivevoid far Cr_Proc_Toy_Tranceive(char*TrancResulchar*Toy_Number.char*SendMessage){char   Res[255]；char   *Message；char              *ToyNum；char       Result[255]；char   SendString[255].   strcpy(Res.TrancResuit).<!-- SIPO <DP n="174"> --><dp n="d174"/>∥MessageBox(NULLRes.″Tranceive Result″.MB_OK)；∥      MessageBox(NULLToy_Number.Toy_Number″.MB_OK)；    ∥MessageBox(NULL.SendMessage.″Send_Message″_MB_OK)；    Message=SendMessage；ToyNum=Toy_Number；strcpy(SendString.″00 01 00 00″)；strncat(SendString.ToyNumstrlen(ToyNum))；strncat(SendString,″″.strlen(″″))；strncat(SendStrng,Message.strlen(Message))；strcpy(Result Toy_Tranceive(SendString))；    ∥MessaggeBox(NULL,Result″Trancetive Result″.MB_OK)；    strcpy(TrancResult Result)；}/*Procedure CR_PROC_Toy_ Resetvoid far Cr_Proc_Toy_Reset(cbar*Rmsg,char*Toy_Number){char  Message[255]；char     ToyNum[255]；char   *FirstCommand=*00 01 00 00″；char     *SecondCommand=″00 04 00 15 00 00 00 00 00 00 00 00″；  char  Trmsg[255]；∥    strcpy(Rmsg,″″)；∥strcpy(Toy_Number.″00 00 00 14″)；   ∥MessagBox(NULL.Rmsg,″Rmsg″MB_OK)；   ∥MessageBox(NULL.Toy_Number.″Toy_Number″.MB_OK)；   strcpy(ToyNum,Toy_Number)；strcpy(Message,FirstCommand)；strncatMessage.ToyNum.strlen(ToyNum))；strncat(Message.SecondCommandstren(SecondCommand))；    strcpy(Trmsg,Toy_Tranceive(Message))；    strcpy(Rmsg,TRmsg)；/*Procedure Set_IO_To_!*/void far Set_IO_To_ 1(char*IOMsg,char*IO.char*Toy_Number){char    Mrssage[255].char        *ToyNum.char    *TemplO.<!-- SIPO <DP n="175"> --><dp n="d175"/>char    *FirstCommand=″00 01 00 00″；char      *SecondCommand=″00 00 00 01 00 ″；char    *ThirdCommand=″00 01 00 00 00 00″；ToyNum=Toy_Number；TempIO=IO；strepy(Message.FirstCommand)；strncat(Message.ToyNum.strlen(ToyNum))；strncat(Message.SecondCommand.strlen(SecondCommand))；strncat(Message.TempIO.strlen(TempIO))；strncat(Message.ThirdCommand.strlen(ThirdCommand))；    strcpy(IOMsg.Message)；/*Procedure Set_IO_To_0*/void far Set_IO_To_0(char*IOMsg,char*IO.char*Toy_Number){char  Message{255]；char      *ToyNum；char   *TempIO；char   *FirstCommand=″00 01 00 00″；char       *SecondCommand″00 00 00 01 00″；char    *ThirdCommand=″00 00 00 00 00 00″；ToyNum=Toy_Number；TempIO=IO；strcpy(Message.FirstCommmnd)；strncat(Messagee.ToyNum.strlen(ToyNum))；strcat(Message.SecondCommand.strlen(SecondCommand))；strncat(Message.TempIO.strien(TempIO))；strncat(MessageTnirdCommand strlen(ThindCommand))；    strcpy(IOMsg.Message)；/*Procedure Go_To_Sleep_Modevoid far Go_To_Sleep_Mode 1char*SleepMsg.char*Toy_Number){char   Message[255]；char       ToyNum[255]；char    *FirstCommand=″00 01 00 00″；char       *SecondCommand=″00 00 04 01 00 00 00 00 00 00 00 00″；strcpy(ToyNum.Toy_Number)；strcpy(Message.FirstCand).   strncat(Message.Toy Num.strlen(ToyNuml)；   strncat(Message.SecondCommand.strlen(SecondCommand))；<!-- SIPO <DP n="176"> --><dp n="d176"/>strcpy(SleepMsg.Toy_Tranceive(Message))；}Procedure Prepare_Toy_Talk/*void far Prepare_Toy_Talk(char*TTalkMsg,char*Toy_Number.char *WaveFile){char   temp[255]；long   wavelength；char  Message[255]；char   *FirstCommand=″00 01 00 00″.char   *SecondCommand=″00 02 00 04″；char  *ThirdCommand″10 01 03 00 00″；char   wavelengthto16bitstr[100]=″″；char   wavelengthto16bitstr2[100]=″″； int    stg=15；char   wlngth[25]；long  y.z；∥RecStr=NULL.free(RecStr)； ∥ClearRecStr[0]=0； ∥TheRecBytes=0； ∥Last Messagestrcpy(temp. WaveFile)；∥MessageBox(NULL.WaveFile.″WaveFile″.MB_OK)；∥MessageBox(NULL.Toy_Number.″ToyNum″.MB_OK)；∥MessageBox(NULL.TTalkMsg,″TalkMsg″.MB_OK)；wavelength=get_file_size(temp)；wavelength=(long)((((wavelength/2)*45.35)(100000)-1)；while(wave!ength!=0){y=wavelength/16.z=wavelength％16.wavelength=y；if(z＞=10)gcvt(z.stg.wlngth)；∥transfrom the length to strnng lengthwlngth[strlen(wingth)-1}=0； ∥delete the″″strncat(wavelengthto16b)tstr.wlngth.strien(wlngth))；}else{   gcvt(z.sig.wlngth)；∥transfrom the length to string leagth   wingth[strlentwlngth)-1]=0；∥delete the ′″   strncat(wavelengthto16bitstr.″0″1)；   strncat((wavelengetto16bitstr.wlngth.strlen(wlngth))；；<!-- SIPO <DP n="177"> --><dp n="d177"/>strncat(waveiengthto16bitstr.″″1)；}if(strlen(waveiengthto16bitstr)=9){strncat(wavelengthto16bitstr.″00″.3).}if(strlen(wavelengthto16bitstr)=6){strncat(wavelengthto16birstt.″00 00″.6)；}if(strlen(wavelengtho16bitstr)=3){stracat(wavelengthto16bitstr″00 00 00″.9)；}strcpy(temp.Toy_Number)；strcpy(wavelengthto16birstr2.waveiengthto16birstr-3)；wavelengthto16birstr2[3]=0；strcat(wavelengthto16birstr2.wavelengthto16bitstr)：wavelengthto16birstr2[6]=0：strcat(waveleagthto16bitstr.2.wavelengthto16bitstr+9)：wavelengthto16bitstr2[9]=0：strcpy(Message,FirstCommand)；    ∥add to the string the first commandstrncat(Message.temp,strlen(temp))；    ∥the toy mumberstrncat(Mesage,SecondCommandstrlen(SecondCommand))；∥add to the string the second commandstrncat(Message,wavelengthto16bitstr2,strlen(wavelengthtol6bitstr2))；∥the wave lengthstrncat(Message,ThirdCommand.strlen(ThirdCommand))；∥add to the string the rest of the commandstrcpy(TTalkMsg,Toy_Tranceive(Message))；}

Appendix F

void ErrorShowOut(UINT ErrorNumber){   char str[255]；   uErrorOut=midiOutGet ErrorText(ErrorNumber,str,sizeof(str))；   if(uErrorOut=10)   MessageBox(NULL.str,″ERROR MIDIOUT″.MB_ICONSTOP)；   else   MessageBox(NULL,″ERROR!!!″,″″,MB_ICONSTOP)；}void GetNunDevCapsFromMidiOut(){uErrorOut=midiOutGetDevCaps(uDeviceIDOut,&amp;mocOut,sizeof(mocOut))；if(uErrorOut) ErrorShowOut(uErrorOut)；}long far Numb_MidiOut(){   return((long)midiOutGetNumDevs())；}long far MidiOutOpenDevice(long Device)(∥char buffer[50]；UINT wDeviceIDOut；wDeviceIDOut=(UTNT)Device；∥uErrorOut=midiOutOpen(&amp;ThMidiOut,wDeviceIDOut,NULL,NULL,NULL)；∥gcvt(Device.7.buffer)；∥MessageBox((NULL.buffer,″Device Variables is:″,MB_OK)；uErrorOut=midiOutOpen(&amp;hMidiOut,wDeviceIDOut,0,0,0)；if(uErrorOut)ErrorShowOut(uErrorOut)；/*else{hMidiOut=ThMidiOut；}*/return((long)uErrorOut)；}long far MidiOutCloseDevice(){<!-- SIPO <DP n="179"> --><dp n="d179"/>u. ErrorOut=midiOutClose(hMidiOut)；if(uErrorOut)ErrorShowOut(uErrorOut)；return((long)uErrorOut)；}long far MidiOutResetDevice(){uEtrorOut=midiOutReset(hMidiOut)；if(uErrorOut)ErrorShowOut(uErrorOut)；retrrn((long)uErrorOut)；}long far SendData(long SendByte){DWORD SendMsg；SendMsg=(DWORD)SendByte；∥To send2bytes to the midi；∥MidiOutSendMsg(SecondByte*256+FirstByte)；∥∥printf(″\Sending:％d″,SendMsg)；uErrorOut=midiOutShortMsg(hMidiOut, SendMsg)；if(uErrorOur)ErrorShowOut(uErrorOut)；return((long)uErrOut)；∥*****************************************************************************∥******************************Midi In Functions:  ***************************∥*****************************************************************************void far CALLBACK MyMidiIn(HMIDIIN hMidiIn. ULNT wMsg,DWORD dwInstanceDWORD dwParam1.DWORD dwParam2){char temp[25]；int sig=10；if(wMsg=MIM_DATA){  ∥t=(int)(*((char*)&amp;dwParam1))；∥***********************************************************************int a.b.if(RecBytes=20){free(RecStr).RecStr[0]=0.<!-- SIPO <DP n="180"> --><dp n="d180"/>    RecBytes=0；    }dwParam1=dwParam1-144；b=(int)(dwParam1/655536)；a=(int)((dwParam1％65536)/256)；gcvt(a.sig,temp)；if(a＜10)strncat.(Recstr″0″,1)；}strncat(RecStr.temp(strlen(temp)-1))；strncat(RecStr.″″.1)；if(b＜10){strncat(RecStr″0″,1)；}gcvt((double,sig,temp)；strncat(RecStr.temp.(strlen(temp)-1))；strncat(RecStr.″″.1)；RecBytes=Recbytes-2；∥***************************************************************}}void ErrorShowIn ErrorNumber){char str[255]；uErrorIn=midiInGetErrorText(ErrorNumber,str.sizeof(str))；  if(uErrorIn=10)  MessageBox(NuLL.str.″ERROR MIDIIN″.MB_ICONSTOP)；  MessageBox(NULL″ERROR!!!″.″″,MB_ICONSTOP)；}UINT GetNumDevsFromMidiIn(){return(midiInGetNumDevs())；}void GetNumDevCapsFromMdiIn(){uErrorIn=midiInGetcaps(uDeviceIDIn.&amp;mocIn.sizeof(mocIn))；if(uErrorIn)ErrorShowIn(uErrorIn)；}long far MidiInOpen The Devicet long Device){∥char buff[255]；<!-- SIPO <DP n="181"> --><dp n="d181"/>wDeviceIDIn=(UINT)Device；uErrorIn=midiInOpen(&amp;ThMidiIn.wDeviceIDIn,(DWORD)&amp;MyMidiIn.O,CALLBACK_FUNCTION)；∥hWnd,NULL,CALLBACK_WINDOW)；∥gcvt(Device,7,buff)；    ∥MessageBox(NULL,buff.″Midi In″,MB_OK)；                           0,CALLBACK_FUNCTION)；∥hWnd,NULL.CALLBACK_WINDOW)；if(uErrorIn)ErrorShowIn(uErrorIn)；/*else   {hMidiIn=ThMidiIn；   }   */   retum((long)uErrorIn)；}long far MidiInCloseTheDevice(){uErrorIn=midiInClose(hMidiIn)；if(uErrorIn)ErrorShowIn(uErrorIn)；return((long)uErrorIn)；}long far MidiInResetTheDevice(){uErrorIn=midiInReset(hMidiIn)；if(uErrorIn)ErrorShowIn(uErrorIn)；return((long)uErrorIn)；long far MidiInStartTheDevice(){uErrorIn=midiInStart(hMidiIn)；if(uErrorIn)ErrorShowIn(uErrorIn)；return((long)uErrorIn)；}long far MidiInStopTheDevice(){uErrorIn=midiInStop(hMidiIn).if(uErrorln)<!-- SIPO <DP n="182"> --><dp n="d182"/>ErrorShowIn(uErrorIn)；  return((long)uErrorIn)；}∥***********************************************************************∥***************************End Midi In*********************************∥***********************************************************************

Appendix G

∥variables for MidiOutUINT uDeviceIDOut；MIDIOUTCAPS mocOut；UINT uErrorOut；HMIDIOUT hMidiOut；　∥end of variables　∥variables for MidiInUINT uDeviceIDIn；MIDIINCAPS mocIn；UINT uErrorIn；HMIDIIN hMidiIn；  ∥end off variableschar RecStr[255]；int RecBytes；int TimeOut=1；∥0=false,1=truechar StringReceive[255]=″″；long far Get_Sensor_Number()；void far Send_Message(char*SendMessage)；long far Numb_MidiOut()；long far MidiOutOperDevice(long Device)；long far MidiOutCloseDevice()；long far MidiOutResetDevice()；long far SendData(long SendByte)；void far CALLBACK MyMidiln(HMIDIIN hMidiIn,UINT wMsg, DWORD dwInstance,DWORDdwParam1,DWORD dwParam2)；long far MidiInOpenTheDevice(long Device)；long far MidiInCloseTheDevice()；long far MidiInResetTheDevice()；long far MidiInStartTheDevice()；long far MidiInStopTheDevice()；void far Get_Toy_Number(char*ToyNum)；void far Wait_Fot Toy Message(char*Msg)；void far Cr_Proc_Toy_Tranceive(char*TrancResult,char*Toy_Number,char*SendMessage)；void far Cr_Proc_Toy_Reset(char*Rmsg,char*Toy_Number)；void far Set_IO_To_1(char*IOMsg,char*IO,char*Toy_Number)；void far Set_IO_To_0(char*IOMsg,char*IO,char*Toy_Number)；void far Go_To_Sleep_Mode(char*SleepMsg,char*Toy_Number)；void far Prepare_Toy_Talk(char*TTalkMsg,char*Toy_Number,char *WaveFile),

Appendix H

EXPORTS

Numb_MidiOut          @1MidiOutOpenDevice     @2MidiOutCloseDevice    @3MidiOutResetDevice    @4SendData         @5Wait_For_Toy_Message  @6Get_Sensor_Number    @7Get_Toy_Number      @8Send_Message       @9Cr_Proc_Toy_Reset     @10Cr_Proc_Toy_Tranceive  @11Prepare_Toy_Talk      @12MidiInOpenTheDevice    @13MidiInCloseTheDevice   @14MidiInResetiTheDevice  @15MidiInStartTheDevice   @16MidiInStopTheDevice    @17Set_IO_To_0        @19Set_I0_To_1        @20Go_To_Sleep_Mode       @21

Appendix I

#Microsoft Visual C++ generated build script-Do not modifyPROJ=CREATORDEBUG=1PROGTYPE=1CALLER=ARGS=DLLS=D_RCDEFINES=-d_DEBUGR_RCDEFINES=-dNDEBUGORIGIN=MSVCORIGIN_VER=1.00PROJPATH=C:\XOBJECT\USEMFC=1CC=c1CPP=.c1CXX=c1CCREATEPCHFLAG=CPPCREATEPCHFLAG=CUSEPCHFLAG=CPPUSEPCHFLAG=FLRSTC=FIRTCPP=RC=rcCFLAGS_D_WDLL=/nologo/W3/FR/G2/Zi/D_DEBUG/Od/GD/ALw/Fd″CREATOR_PDB″CFLAGS_R_WDIL=/nologo/WE/FR/O1/DNDEBUG/GD/ALwLFLAGS_D_WDLL=/NOLOGO/ONERROR:NOEXE/NOD/PACKC:61440/CO/NOE/ALIGN:16/MAP:FULLLFLAGS_R_WDLL=/NOLOGO/ONERROR:NOEXE/NOD/PACKC:61440/NOE/ALIGH:16/MAP:FULLLIBS_D_WDLL=lafxdwd oldnames libw commdlg shell olecli olesvr ldllcewLIBS_R_WDLL=lafxdw oldnames libw commdlg shell olecli olesvr ldllcewRCFLAGS=/nolgoRESFLAGS=/nologoRUNFLAGS=DEFILE=CREATOR.DEFOBJS_EXT=LIBS_EXT=MMSYSTEM.LIBif″S(DEBUG)″==″1″CFLAGS=S(CFLAGS_D_WDLL)LFLAGS=S(LFLAGS_D_WDLL)LIBS=S(LIBS_D_WDLL)MAPFILE=nulRCDEFINES=S(D_RCDEFINES)!elseCFLAGS=S(CFLAGS_R_WDLL)LFLAGS=S(LFLAGS_R_WDLL)LIBS=S(LIBS_R_WDLL)MAPFILE=nulRCDEFINES=S(R_RCDEFINES)endif<!-- SIPO <DP n="186"> --><dp n="d186"/>SBRS=CREATOR.SBRMMSYSTEM_DEP=CREATOR_DEP=c:\xobject\xobject.h\c:\xobject\creator.h\c:\xobject\crmidi.hCREATOR_RCDEP=all:$(PROJ).DLL$(PROJ).BSCCREATOR.OBJ:CREATOR.C$(CREATOR_DEP)$(CC)$(CFLAGS)$(CUSEPCHFLAG)/cCREATOR.CCREATOR.RES:CREATOR.RC$(CREATOR_RCDEP)$(RC)$(RCFLAGS)$(RCDEFINES)-rCREATOR.RC$(PROJ).DLL::CREATOR.RES$(PROJ).DLL::CREATOR.OBJ$(OBJS_EXT)$(DEFFILE)echo＞NUL(@＜＜$(PROJ).CRFCREATOR.OBJ +$(OBJS_EXT)$(PROJ).DLL$(MA.PFILE)c:\msvc\lib\+c:\msvc\mfc\lib\+MMSYSTEM.LIB+$(LIBS)$(DEFFILE)；＜＜link$(LFLAGS)@$(PROJ).CRF$(RC)$(RESFLAGS)CREATOR.RES$@@copy$(PROJ).CRF MSVC.BNDimplib/nowep$(PROJ).LIB$(PROJ).DLL$(PROJ).DLL::CREATOR.RESif not exist MSVC.BND$(RC)$(RESFLAGS) CREATOR.RES $@run:$(PROJ).DLL$(PROJ)$(RUNFLAGS)$(PROJ).BSC:$(SBRS)    bscmake@＜＜/o$@$(SBRS)＜＜<!-- SIPO <DP n="187"> --><dp n="d187"/>!if[if exist MSVC.BND del MSVC.BND]!endif

Appendix J

#include＜windows.h＞#include＜io.h＞#include＜string.h＞#include＜stdlib.h＞#include＜time.h＞#include＜fcntl.h＞#include＜mmsystem.h＞#include″XObject.h″#include″creator.h″#include″crmidi.h″/*Function Get_File_SizeReturn the size of a file*/long get_file_size(char*filenarne){  int handle；  long size；  if((handle=open(filenarne、O_RDONLY))=-1)  {  return-1；  }  size=filelength(handle)；  close(handle)；  return(size)；}/*Function SendByteSend2bytes to the midi*/void SendByte(long FirstByte,long SecondByte){  DWORD SendMsg；  SendMsg=(DWORD)(SecondByte*256+First Byte)；  uErrorOut=midiOutShortMsg(hMidiOut,SendMsg)；  if(uErrorOut)ErrorShowOut(uErrorOut)；}<!-- SIPO <DP n="189"> --><dp n="d189"/>/*Function SendStringToMidiThis function send a string of bytes to the midi*/void SendStringToMidi(char SendString[255]){int loop；char sendbyte[255]=″″；int x=0,y=0；int wordcount；int FirstByte=0；int SecondByte=0；wordcount=1；strcat(SendString,″″)；for(loop=0；loop＜(int)(strlen(SendString))；loop++){if(SendString[loop]!=″)  ∥if this isn′t space                         ∥continue to read the number    {    sendbyte[x]=SendString[loop]；    x++；    }else      ∥if you finish to read the number→{        ∥Begin if(wordcount===1)∥and this is the first byte {      ∥Begin wordcount++；    ∥ continue to read the second byte FirstByte=atoi(sendbyte)；∥store the first byte                          ∥into FirstByte variable for(y=0；y＜x；y++) sendbyte[y]=NULL；∥reset sendbyte                                      ∥variable     x=0；}else    ∥and this is the second byte{      ∥Beginwordcount= 1；∥after sending2bytes to the             ∥port continue with the next first byteSecondByte=atoi(sendbyte)；∥store the second             ∥byte into SecondByte variablefor(y=0；y＜x；y++) sendbyte[y]=NULL；∥reset sendbyte                                    ∥variable    x=0；SendByte(FirstByte, SecondByte)；∥Send the first           ∥byte and then the second byte to the midi      }}    }}}<!-- SIPO <DP n="190"> --><dp n="d190"/>/*----------------------------------------------------Procedure CR_Proc_Send_Toy_Message----------------------------------------------------*/long_far_pascal_export_Creator_mSend_Message( LxMemHandle SendMessage.LxProcTableptr xtbl,LxMemHandle hCreator){   char    *Message；   char    *SendMsg；   Message=xtbl-＞mem_Lock(SendMessage)；    strcpy(SendMsg,Message)；   SendStringToMidi(SendMsg)；   return(1)；/*--------------------------------------------Function ReceiveStringFromMidiThis function return the toy message---------------------------------------------*/char *ReceiveStringFromMidi(){time_t T；time_t TEnd；strcpy(StringReceive,RecStr)；free(RecStr)；RecStr[0]=NULL；   if(RecBytes=20)   {   RecBytes=0；   TimeOut=0；   return(StringReceive)；   else   {   time(&amp;T)；                    //Delay   TEnd=T+3；                   //Delay 3 seconds   while((T＜TEnd) &amp;&amp; (T＞0) &amp;&amp; (RecBytes＜20))   {  time(&amp;T)；}                          //End Delayif (RecBytes==20){    RecBytes=0；    strcpy(StringReceive,RecStr)；    free(RecStr)；<!-- SIPO <DP n="191"> --><dp n="d191"/>     RecStr[0]=NULL；     TimeOut=0；     return(StringReceive)； } eise {    RecBvtes=0；    TimeOut=1；    return("Time Out")；}}/*----------------------------------Funcrion Get_Sensor_NumberThis function return the last sensor-----------------------------------long_far_pascal_expon_Creator_mGet_Sensor_Number(                LxProcTablePtr xtbl,LxMemHandle hCreator)  {  int msb；  int lsb；  char *MidiStr；  char tmp[255]；  Midistr=StringReceive；  strcpy(tmp,MidiStr+51),tmp[2]=NULL；lsb=atoi(tmp)；strcpy(tmp,MidiStr+54)；tmp[2]=NULL；msb=atoi(tmp)；  if(TimeOut=1)   return(255)；  else    return(lsb-msb* 16)；}/*------------------------------------------Function Get_Toy_NumberThis function return the toy number-------------------------------------------*/LxMemHandle_tar_pascal_expon_Creator_mGet_Toy_Number( LxProcTablePtr xtbl LxMemHandle hCreator){ char *MidiStr； char tmp[255].   MidiStr=StringReceive:<!-- SIPO <DP n="192"> --><dp n="d192"/>strcpy(tmp.MidiStr+12)；tmp[12]=NULL:  rerurnt xtbi_＞string_New(tmp))；/*-----------------------------------------------------Function CR_Func_Wait_For_Toy_Message------------------------------------------------------*/LxMemHandle_far_pascal_export_Creator_mWait_For_Toy_Message(  LxProcTablePtr xtbl,LxMemHandle hCreator){   return(xtbl_＞string_New(ReceiveStringFromMidi()))；/*-------------------------------------------------------Function Toy_TranceiveThis function Tranceive a message to the toy,and wait for ACK--------------------------------------------------------*/char*Toy_Tranceive(char *Message){  char   Toy_Command[255)；  char       Toy_Cormmand_Ack[255]；  int   Err=0；  char       *ACKOK="ACK.OK"；  free(Toy_Command)；  if(strlemMessage)＞=59)  {   strcpy(Toy_CommandMessage-24)；   Toy_Command[11]=NULL；   SendStringToMidi(Message)；   Message=NULL；   Message=ReceiveStringFromMidi()；   if(Message；="Time Out")//check the ack.      strcpy(Toy_Command_Ack Message-36)；      Toy_Command_Ack[11]=NULL；  Err=strcmp(Toy_Command.Toy_Command_Ack)；//check the ack(s) strings  if(Err!=0)return(Message)；  if(Err=0)return(ACKOK)；else；<!-- SIPO <DP n="193"> --><dp n="d193"/>     return("String error…")./*-----------------------------------------------Procedure CR_PROC_Toy_Tranceive----------------------------------------------- LxMemHandle_far_pascai_export_Creator_mCr_Proc_Toy_Tranceive(   LxMemHandle Toy_Number,LxMemHandle SendMessage,LxProcTableprt xtbl, LxMemHandle hCreator) {   char    *Message；   char       *ToyNum；   char       Result[255]；   char    SendString[255]；              Message=xtbl_＞mem_Lock(SendMessage)；   ToyNum=xtbl_＞mem_Lock(Toy_Number)；   strcpy(SendString,"00 01 00 00")；   stmcat(SendString,ToyNum,strlen(ToyNum))；  strncat(SendString," ",strlen(" "))；  strncat(SendString,Message,strlen(Message))；   strcpy(Result,Toy_Tranceive(SendString))；   return(xtbl_＞string_New(Result))；/*----------------------------------------------------Procedure CR_PROC_Toy_ResetSend the reset string to the toy*/ LxMemHandle_far_pascal_export_Creator_mCr_Proc_Toy_Reset(  LxMemHandle Toy_Number.LxProcTablePtr xtbl,LxMemHandle hCreator) {   char   Message[255]；   char       *ToyNum.   char    *FirstCommand="00 01 00 00 "；   char       *SecondCommand=" 00 04 00 15 00 00 00 00 00 00 00 00"；   ToyNum=xtbl_＞mem_Lock(Toy_Number)；   strcpy(Message,FirstCommand).   strncat(Message,ToyNum.strlen(ToyNum))；   strncat(Message,SecondCommand.strlen(SecondCommand))；   return(xtbl_＞string_New(Toy_Tranceive(Message)))；}/*<!-- SIPO <DP n="194"> --><dp n="d194"/>-----------------------------------------------Procedure Set IO To l------------------------------------------------ */ LxMemHandle_iar_pascai_export_Creator_Set_IO_To_l(   LxMemHandle IO.LxMemHandle Toy_Numbe.LxProcTablePtr xtbl.LxMenHandle hCreator) {   char    Message[255]；   char    Message[255] ；   char         *ToyNum；   char   *TempIO；   char   *FirstCommand="00 01 00 00 "；   char        *SecondCommand=" 00 00 00 01 00 "；   char   *ThirdCommand=" 00 01 00 00 00 00"；   ToyNum=xtbl_＞mem_Lock(Toy_Numbet)；   TempIO=xtbl_＞mem_Lock(IO)   strcpy(Message.FirstCommand)；   strncat(Message.ToyNum.strlen(ToyNum))；   strncat(Message.SecondCommand.strlen(SecondCommand))；   strncat(Message,TempIO.strlen(TempIO))；   strncat(Message.ThirdCommand.strlen(ThirdCommand))；   return(xtbl_＞string_New(Toy_Tranceive(Message)))；/*-----------------------------------------------------------Procedure Set_IO_To_0------------------------------------------------------------*/LxMemHanile_far_pascal_export_Creator_Set_IO_To_0(  LxMemHandle IO,LxMenHandle Toy_Number,LxProcTablePtr xtbl.LxMemHandlehCreator){  char   Message[255]；  char        *ToyNum；  char   *TempIO:  char    *FirstCommand="00 01 00 00"；  char          *SecondCormmand="00 00 00 01 00"；  char   *ThirdCommand="00 00 00 00 00 00"；  ToyNum=xtbl_＞mem_Lock(Toy_Number)；  TempIO=xtbl_＞mem_Lock(IO).  strcpy(Message.FirstCommand).  strncat(Message.ToyNum.strlen(ToyNum)): strncat(Message.SecondCommand.strien(SecondCommand))； strncat(Message.TempIO.strien(TempIO))； strncat(Message.TnirdCommanc.strlen(ThirdCommand))；<!-- SIPO <DP n="195"> --><dp n="d195"/>   return(xtbl_＞string_New(Toy_Tranceive(Message)))；/*-----------------------------------------------------------------Procedure Go_To_Sleep_Mode------------------------------------------------------------------*/------------------------------------------------------------------Procedure Prepare_Toy_TalkSend the talk message to the toy-------------------------------------------------------------------*/LxMemHandle_far_pascal_export_Creator_mPrepare_Toy_Talk( LxMemHandle Toy_Number,LxMemHandle WaveFile,LxProcTableptr xtbl,LxMemHandlehCreator){  char    *temp；  long    wavelength；  char   Message[255]；  char   *FirstCommand="00 01 00 00"；  char   *SecondCommand="00 02 00 04"  char     *ThirdCommand="10 01 03 00 00"；  char   wavelengthto16bitstr[100]=""；  char   wavelengthto 16bitstr2[100]=""；  int      sig=15:  char   wingth[25].  long     y.z:free(RecStr)；RecStr[0]=NULL.RecBytes=0；<!-- SIPO <DP n="196"> --><dp n="d196"/>  temp=xtbl_＞mern_Lock(WaveFile)；  wavelength=get file size(temp):  wavelength=(long)((((wavelength/2)*45.35)/100000)+1)；  while(wavelength!=0)  {  y=wavelengrh/16；  z=wavelength％16；  wavelengrh=y；  if(z＞=10)  {  gcvt(z,sig,wingth)；∥transfrom the length to string length  wingth(strlen(wingth)-l]=NULL；∥delete the"."  strncat(wavelengthto 16bitstr,wingth.strlen(wlngth))；  }  else  {  gcvt(z.sig,wlngth)；∥transfrom the length to string length  wingth[strlen(wingth)-1]=NULL；∥delete the"."  strncat(wavelengthto 16bitstr,"0", 1)；  strncat(wavelengthto16bitstr,wingth,strfen(wingth))；  }  strncat(wavelengthto16bitstr," ",1)；  if(strlen(wavelengthto16bitstr)=9)  {  strncat(wavelengthto16bitstr,"00",3)；  }  if(strlen(wavelengthto16bitstr)=6)  {  strncat(wavelengthto16bitstr,"00 00",6)；  }  if(strien(wavelengthto 16bitstr)=3 )  {  strncat(wavelengthto 16bitstr,"00 00 00",9)；  } temp=xtbl_＞mem_Lock(Toy_Number)； strcpy(wavelengthto16bitstr2,waveiengthto16bitstr-3)； wavelengthto16bitstr2[3]=NULL. strcat(wavelengthto16bitstr2.waveiengthto16bitstr)； wavelengthto16bitstr2[6]=NULL: strcat(wavelengthto16bitstr2.waveiengthto16bitstr-9)； wavelengthto16bitstr2[9]=NULL. strcpy(Message.FirstCommand)；             ∥add to the string the first command strncat(Message.temp.strien(temp))；      ∥the toy number strncat(Message.SecondCommand.strlen(SecondCommand))；    ∥add to the string the secondcommand strncatiMessage.wavelengthto16bitstr2.strleniwavelengthto16bitstr2))；∥the wave length<!-- SIPO <DP n="197"> --><dp n="d197"/> strncat(Message.ThirdCommand.stden(ThirdCommand))；∥add to the string the rest of thecommand return(xtbl_＞string_New(Toy_Tranceive(Message)))；}/*MessageReadyReturn true if there is a message from toy, false if not----------------------------------------------------------*/long_far_pascal_expon_Creator_MessageReady(               LxProcTablePtr xtbl,LxMemHandle hCreator){   if(RecBytes20)  { RecBytes=0； return(1)；  }  else  {  TimeOut=1；   return(o)；  }}

Appendix K

∥vartaoles for MidiOut   UINT uDevicelDOut；   MIDIOUTCAPS mocOut；   UTNT uErrorOut；   HMIDIOUT hMidiOut:∥end of variables∥variables for Midiln  UINT uDeviceIDIn:  MIDINCAPS mocln:  UINT uErrorIn:  HMIDIIN hMidiIn；∥end of variables char RecStr[255]. int RecBytes； int TimeOut=1；∥0=faise. 1=true/*-------------------------------------------Constants: */#define Creator_SUCCESS    0   ∥Successful return code#define Creator_MEM_ALLOC    1   ∥Memory allocation error/*Macros*/#define get_data()  (inportb(InpPort) &amp; 0xF8)#define put_ctrl(Datas)outportb (CtrlPort,Datas)#define get_ctrl()  (inponb(CtrlPort)   )char StringReceive[255]="":∥#ifdef MK_FP∥#undet MK_FP∥#endif∥#detine NK_FP(seg.ofs) ((void far *) ((unsigned long) (seg)＜＜161(ofs)))/*----------------------------------------------------------------Types:----------------------------------------------------------------*/typedef struct/  LxXObjHeader    head:     ∥Required XObject header  LxMemHandle    hErrMsg；    ∥Sample instance data: handle  short        sfunk.     ∥Sample instance data: short<!-- SIPO <DP n="199"> --><dp n="d199"/>} CreatorType, FAR *pCreatorType:/*---------------------------------------------------Variables---------------------------------------------------*/long  ICreatorError=Creator_SUCCESS.HANDLE hinst:/* Globai Variables *//*---------------------------------------------------Method Function Prtotypes:--------------------------------------------------*/short_far_pascal_export LibMain(HANDLE hndInstance,WORD wDataSeg,WORDcbHeapSize.DWORD ignore)；long_far_pascal_export_Creator_mNew(LxprocTableptr xtbl,LxMemHandle hCreator)；long_far_pascal_export_Creator_mDisposeiLxProcTableptrxtbl,LxMemHandle hCreator)；long_far_pascal_export_Creator_mGet_Sensor_Number(LxProcTablePtr xrbl,LxMemHandlehCreator):LxMemHandle_far_pascal_export_Creator_mGet_Toy_Number(LxprocTablePtr xtbl.LxMemHandle hCreator)；long_far_pascal_export_Creator_MessageReady(LxProcTableptr xtbl.LxMemHandlehCreator):long_far_pascal_export_Creator_mSend_Message(LxMemHandle SendMessage.LxProcTablePtr xtbl,LxMemHandle hCreaxor)；long_far_pascal_export_Creator_Numb_MidiOut(LxprocTablePtr xtbl.LxMemHandlehCreator)long_far_pascal_export_Creator_MidiOutOpenDevice(long Device.LxprocTableptr xtbl,LxMemHandle hCreator)；long_far_pascal_export_Creator_MidiOutCloseDevice(LxProcTablePtr xtbl.LxMemHandlehCreator):long_far_pascal_export_Crearor_MidiOutResetDevice(LxProcTablePtr.xtbl.LxMemHandlehCreator)；long_far_pascal_export_Creator_mSendData(long SendByte.LxProcTablePtr xtbl.LxMemHandle hCreator)；void_far_pascai_export CALLBACK MyMidiIn(HMIDIIN hMidiIn.UINT wMsg,DWORDdwinstance.DWORD dwParam1.DWORD dwParam2).long_far_pascai_export_Creator_MidiInOpenTheDevice(long Device.LxProcTablePtr xtbl.LxMemHandle hCreator)；long_far_pascai_export_Creator_MidiInCloseTheDevice(LxProcTablePtr xtbl.LxMemHandlehCreator).<!-- SIPO <DP n="200"> --><dp n="d200"/> long_far_pascal_export_Creator_MidiInResetTheDevice(LxProcTablePtr xtbl,LxMemHandle hCreator)； long_far_pasci_export_Creator_MidiInStartTheDevice(LxProcTablePtr xtbl.LxMemHandle hCreator)； long_far_pascai_export_Creator_MidiInStopTheDevice(LxProcTablePtr xtbl,LxMemHandle hCreator)； LxMemHandle_far_pascal_export_Creator_Set_IO_To_1(LxMemHandle IO,LxMemHandle Toy_Number.LxProcTablePtr xtbl,LxMemHandle hCreator)；LxMemHandle_far_pascal_export_Creator_Set_IO_To_0(LxMemHandle IO,LxMemHandle Toy_Number.LxProcTablePtr xtbl,LxMemHandle hCreatr)；LxMemHandle_far_poascal_export_Creator_Go_To_Sleep_Mode(LxMemHandleToy_Number,LxprocTablePtr xtbl.LxMemHandle hCreator)；LxMemHandle_far_pascal_export_Creator_mTemp(LxProcTablePtr xtbl,LxMemHandlehCreator):LxMemHandle_far_poascal_export_Creator_mWait_For_Toy_Message(LxprocTablePtr xtbl,LxMemHandle hCreator)；LxMemHandle_far_pascal_export_Creator_mCr_Proc_Toy_Reset(LxMemHandleToy_Number,LxprocTablePtr xtbl,LxMemHandle hCreator)；LxMemHandle_far_pascal_export_Creator_mCr_Proc_Toy_Tranceive(LxMemHandleToy_Number,LxMemHandle SendMessage,LxProcTablePtr xtbl.LxMemHandle hCreator)；LxMemHandle_far_pascal_export_Creator_mPrepare_Toy_Talk(LxMemHandleToy_Number,LxMemHandle WaveFiie,LxProcTableptr xtbl.LxMemHandle hCreator)；/*FUNCTION  ‖  LibMain()Windows Entry Procedure for DLLs.Called by LibEntry routine.*/short_far_pascal_export LibMain(  HANDLE hndlnstance,WORD wDataSeg,WORD cbHeapSize,DWORD ignore){  if(cbHeapSize l=0)  {  if(! LocalInit((UINT)wDataSeg,(UINT)NULL,(UINT)cbHeapSize))  {  return(0),  }  hInst=hndInstance:  return(1):<!-- SIPO <DP n="201"> --><dp n="d201"/>/*---------------------------------------------------------------Internal Functions:---------------------------------------------------------------*/∥Log some useful debug info to message windowstatic void LogMessage(LxProcTablePtr xtbl,const char *format,…){  char buf[250]；      ∥!!@ No error check on size.  wvsprintf(buf format,((char *)&amp;format)+sizeof(char *))；  xtbl_＞showMsg(buf)；/*-----------------------------------------------------------------------------FUNCTION.  ‖  _Creator_mNewCreate a new instance of the Creator XObject.Initialize instance variables.-------------------------------------------------------------------------*/long_far_pascal_export_Creator_mNew(  LxProcTablePtr xtbl,LxMemHandle hCreator){  pCreatorType pCreator；  lCreatorError=Creator_SUCCESS；  if(xtbl_＞mem_SetSize(hCreator,(long) sizeof(CreatorType))!=NULL)  {  ∥Initialize instance data   pCreator=xtbl_＞mem_Lock(hCreator)；   pCreator_＞hErrMsg=NULL；   pCreator_＞sJunk=-1；   xtbl_＞mem_Unlock(hCreator)； }  else {   lCreatorError=Creator_MEM_ALLOC； }  return (lCreatorError):<!-- SIPO <DP n="202"> --><dp n="d202"/>-----------------------------------------------------------------------------FUNCTION   ‖   _Creator_mDisposeDispose of a Creator XObject instance. Free instance data (if any).---------------------------------------------------------------------*/long_far_pascal_export_Creator_mDispose(  LxProcTableptr xtbl,LxMemHandle hCreator){  pCreatorType pCreator；  lCreatorError=Creator_SUCCESS；  pCreator=xtbl_＞mem_Lock(hCreator)；  if(pCreator_＞hErrMsg!=NULL) {  ∥Dispose of saved error message:xtbl_＞mem_Dispose(pCreator_＞hErrMsg)； } xtbl_＞mem_Unlock(hCreator)； xtbl_＞xobj_Dispose(hCreator)； return(lCreatorError)；

Appendix L

∥********************************The MMSYSTEM Part: *******************************************************************************************************************************∥                                Functions for midiout:******************************************************************************************   void ErrorShowOut(UINT ErrorNumber)  {char str[255]；uErrorOut=midiOutGetErrorText(ErrorNumber,str,sizeof(str))；if(uErrorOut=!0)MessageBox(NULL,str,"ERROR MIDIOUT",MB_ICONSTOP)；elseMessageBox(NULL,"ERROR!!!".","MB_ICONSTOP)；}void GetNumDevCapsFromMidiOut(){uErrorOut=midiOutGetDevCaps(uDeviceIDOut.&amp;mocOut,sizeof(mocOut))；if(uErrorOut) ErrorShowOut(uErrorOut)； long_far_pascal_export_Creator_Numb_MidiOut(LxProcTablePtr xtbl,LxMemHandle hCreator) {  return((long)midiOutGetNumDevs())；  } long_far_pascal_export_Creator_MidiOutOpenDevice(long Device,LxprocTablePtr xtbl, LxMemHandle hCreator) {  UINT wDeviceIDOut:  wDevicelDOut=(UINT)Device；   uErrorOut=midiOutOpen(&amp;hMidiOut,wDeviceIDOut.NULL.NULL,NULL)；   if(uErrorOut)   ErrorShowOut(uErrorOut)；   return((long)uErrorOut)；}lonu_far_pascal_export_Creator_MidiOutCloseDevice(LxProcTablePtr,xtbl,LxMemHandle                                      hCreator)/  uErrorOut=midiOutClose(hMidiOut)；  if(uErrorOut)  ErrorShowOut(uErrorOut)；  return((long)uErrorOut)long_far_pascal_export_Creator_MidiOutResetDevice(LxProcTablePtr xtbl.LxMemHandlehCreator}:<!-- SIPO <DP n="204"> --><dp n="d204"/>   uErrorOut=midiOutReset(hMidiOut),   if(uErrorOut)ErrorShowOut(uErrorOut)；  return((long)uErrorOut)；long_far_pascai_export_Creator_mSendData(long SendByte.LxProcTablePtr xtbl,LxMemHandle hCreator){  DWORD SendMsg；  SendMsg=(DWORD)SendByte； uErrorOut=midiOutShortMsg(hMidiOut,SendMsg)； if(uErrorOut)   ErrorShowOut(uErrorOut)；return((long)uErrorOut):}∥*****************************************************************∥***********************Midi In Functions:**********************∥*****************************************************************void_far_pascal_export CALLBACK MyMidiIn(HMID IIN hMidiIn.UINT  wMsg,DWORDdwInstance,DWORD dwParaml,DWORD dwParam2){ char temp[25]；  int sig=10；  if(wMsg=MIM_DATA)  {∥  i=(int)(*((char*)&amp;dwParaml))；∥******************************************************int a.b；if(RecBytes==20)  {   free(RecStr):RecStr[0]=NULL.RecBytes=0:  }dwParaml=dwParaml-1+1；b=(int)(dwParaml/65536)；a=(int)((dwParam 1％65536)/256)gcvt(a,sig,temp)；if(a＜10){ strncat(RecStr."0".1).} strncat(RecStr.temp.lstrien(temp)-1))； strncat(RecStr," ",1).<!-- SIPO <DP n="205"> --><dp n="d205"/>if(b＜10)  strncat(RecStr,"0",1):}gcvt((double)b,sig,temp),strncat(RecStr,temp,(strlen(temp)-1))；strncat(RecStr," ",1)；RecBytes=RecBytes-2:∥******************************************* } void ErrorShowIn(UINT ErrorNumber) {  char str[255]；   uErrorIn=midiInGetErrorText(ErrorNumber,str,sizeof(str))；  if(uErrorIn=!0)   MessageBox(NULL.str."ERROR MIDIIN",MB_ICONSTOP)；   else   MessageBox(NULL."ERROR!!!"." ",MB_ICONSTOP)； } UINT GetNumDevsFromMidiIn() { return(midInGetNumDevs())； }void GetNumDevCapsFromMidiIn(){  uErrorIn=midiInGetDevaps(uDeviceIDIn,&amp;mocIn,sizeof(mocIn))；  if(uErrorIn)ErrorShowIn(uErrorIn):}long_far_pascal_export_Creator_MidiInOpenTheDevice(long Device,LxProcTablePtr xtbl,LxMemHandle hCreator){   UINT wDeviceIDIn:   wDeviceIDIn=(UINT)Device:                                      0,CALLBACK_FUNCTION)；   if(uErrorIn) ErrorShowIn(uErrorIn)；   return((long)uErrorIn)；}long_far_pascal_export_Creator_MidiInCloseTheDevice(LxProcTablePtr xtbl.LxMemHandlehCreator){   uErrorIn=midiInClose(hMidiIn)；<!-- SIPO <DP n="206"> --><dp n="d206"/> if(uErrorIn)  ErrorShowIn(uErrorIn)；return((long)uErrorIn)； long_far_pascal_export_Creator_MidiInResetTheDevice(LxprocTablePtr xtbl,LxMemHandle hCreator) {   uErrorIn=midiInReset(hMdiIn)；   if(uErrorIn)   ErrorShowIn(uErrorIn)； return((long)uErrorIn)； }long_far_pascal_export_Creator_MidiInStartTheDevice(LxProcTablePtr xtbl,LxMemHandlehCreator){   uErrorIn=midiInStart(hMidiIn)；   if(uErrorIn) ErrorShowIn(uErrorIn)；   return((long)uErrorIn)；long_far_pascal_export_Creator_MidiInStopTheDevice(LxProcTablePtr xtbl,LxemHandlehCreator){  uErrorIn=midiInStop(hMidiIn)；  if(uErrorIn)ErrorShowIn(uErrorIn)；   retum((long)uErrorIn)；}∥*********************************************************************∥******************End Midi In******************∥*********************************************************

Appendix M

#ifndef_XObject_#define _XObject_/*XObject inferface for Windows Lingo 3.024may94    JT   Added mem_ReverseBytes.05feb93    JT   Added more call backs.25aug92    JT   Resurrected from the dead-*//*---------------------------------------------------Constants:----------------------------------------------------*//*_Lingo data type codes.non-handles */#define TY_NULL       (0)  ∥Null Type#define TY_NOVALUE    (2)  ∥No Return Value("X")#define TY_LONGINT    (4)  ∥Integer("I")#define TY_SYMBOL     (8)  ∥Symbol Type#define TY_STRING_PTR (10) ∥String Poirnter Type/* _Lingo data type codes. handles */#define TY_STRING     (1)  ∥Null-terminated string handle ("S")#define TY_OBJECT     (3)  ∥XObject instance handle("O")#define TY_PICTURE    (5)  ∥Metafile handle("P")#define TY_FLOAT      (9)  ∥Long double handle Type/*Types:------------------------------------------------------------------------------------------------*//* - A typed value - *!typedef struct{ short ty:        /* _Type code - */ long  it:        /* _Some datum,handle if a TY_STRING_*/                                                       }    LxValue.*LxValuePtr；/* -- Memory management interface-- */typedef void *LxMemPtr；typedef void**LxMemHandle；typedef void(*LxMsgProcPtr)(void)；/*--Call backs to Lingo--*/typedef structlong  verston.void l_far_pascal *xobj_Dispose) (LxMemHandle xobj)；<!-- SIPO <DP n="208"> --><dp n="d208"/> LxMemHandle(_far_Pascal *mem_New)    (long size.                     BOOL zeroInit)； void  (_far_pascal *mem_Dispose)    (LxMemHandle hdl): LxemHandle(_far_pasal*mem_SetSize)   (LxMemHandle hdl,                     long newSize)； long (_far_pascal*mem_GetSize)    (LxMemHandle hdl)； LxMemptr(_far_pascal *mem_Lock)     (LxMemHandle hdl)； void (_far_pascal *mem_Unlock)    (LxMemHandle hdl)；LxMemHandle(_far_pascal *mem_Clone)    (LxMemHandle hdl)；LxMemHandle(_far_pascal*mem_AppendPtr)  (LxMemHandle hdl,                      LxMemPtr src.                      long count)；BOOL (_far_pascal *mem_Equal)    (LxMemHandle hdll,                      LxMemHandle hdl2)；void (_far_pascal *mem_Copy)     (LxMemPtr dest,                      LxMemPtr src,                      long count):void  (_far_pascal *mem_ZeroPtr)    (LxMemPtr dest,                      long count)；LxMemHandle(_far_pascal *string_New)   (LPSTR str)；void  (_far_pascal *showMsg)     (LPSTR str)；HWND (_far_pascal *getStageWindow)  (void)；long (_far_pascal *register_QTActor) (LxMemHandle me,                     LPSTR fileType,                     BOOL install)；long (_far_pascal *register_StageEar) (LxMemHandle me,                     long msg,                     BOOL install,)；BOOL (_far_pascal *fileDlg_SaveAs)  (LPSTR szTitleIn,                     LPSTR szDefSpec,                     LPSTR szFileNameIn)；BOOL (_far_pascal *fileDlg_OPen)  (LPSTR szTitleIn,                     LPSTR szDefSpec,                     LPSTR szFileNameIn)；void  (_far_pascal *ConvertMACToDosPath) (LPSTR macPath,                     LPSTR dosPath.                     short maxDosPathLen)；void  (_far_pascal *ConvertDosPathToMAC) (LPSTR path)；LxMemHandle(_far_pascal *GetLingoGlobal) (LPSTR symbolBuf)；void  (_far_pascal *SetLingoGlobal)  (LPSTR symbolBuf,                      LxMemHandle newValue)；void  (_far_pasca! *ConvertSymboiToStr) (long symbolid,                      LPSTR symbolBuf)；long  (_far_pascal *ConvertStrToSymboi) (LPSTR symbolBuf)；void  (_far_pascal *SendPerform)    (long nargs.<!-- SIPO <DP n="209"> --><dp n="d209"/>                        LxValuePtr argPtr,                        LxMemHandle obj)；   LxMemHandle(_far_pascal *FindFactory)   (LPSTR symbolBuf)；   char  (_far_pascal *SetOverrideDrive)  (char driveLetter)；   void  (_far_pascal *ResetPalette)    (void)；    void  (_far_pascal *mem_ReverseBytes)                      (void_huge * ptr,char* structDef,long entrySize,long len)；}    LxProcTable,*LxProcTablePtr；/* --The xobject header.All instance must start with this -- */typedef struct{   long  reserved1；     /* -- Reserved for interal use */   long  reserved2；     /* -- Reserved for interal use */   long  reserved3；     /* -- Reserved for interal use */   long  reserved4；     /* -- Reserved for interal use */}     LxXObjHeader, *LxXObjHeaderPtr,/*--------------------------------------------------------------Variables:--------------------------------------------------------------*//*--------------------------------------------------------------Functions:---------------------------------------------------------------*//*---------------------------------------------------------------Macros:---------------------------------------------------------------*/#endif

Appendix N

∥FlLE NAME  CREATOR.DEFLIBRARY    CreatorDESCRIPTION  Creator SB DllEXETYPE   WINDOWSSTUB     WINSTUB.EXE＇CODE     MOVEABLE DISCARDABLELOADONCALLDATA     MOVEABLE SINGLEHEAPSIZE   128SEGMENTS   Creator_TEXT         MOVEABLE DISCARDABLELOADONCALLEXPORTS L1bEntry           @1   RESIDENTNAME WEP                @2   RESIDENTNAME _Creator_mNew      @3      _Creator_mDispose  @4_Creator_Numic_MidiOut       @5_Creator_MidiOutOpenDevice   @6_Creator_MidiOutCloseDevice  @7_Creator_MidiOutResetDevice  @8   _Creator_mSendData            @9_Creator_mWait_For_Toy_Message @10_Creator_mGet_Sensor_Number    @11_Creator_mGet_Toy_Number       @12_Creator_mSend_Message         @13_Creator_mCr_Proc_Toy_Reset    @14_Creator_mCr_Proc_Toy_Ttanceive@15_Creator_mprapare_Toy_Talk     @16_Creator_MidiInOpenTheDevice   @17_Creator_MidiInCloseTheDevc    @18_Creator_MidiInResetTheDevc    @19_Creator_MidiInStartTheDevice  @20_Creator_MidiInSpTheDevice     @21_Creator_Set_IO_To_0           @23_Creator_Set_IO_To_1           @24_Creator_Go_To_Sleep_Mode      @25_Creator_MessageReady          @26

Appendix O

 #include＜windows.h＞ XMethTable RCDATA BEGIN"- Creator Xobject \O","Creator\O","Ⅰ   mNew          - Creates a new instance of the XObject\O",   "X     mDispose       - Disposes of XObject instance\O","Ⅰ   Numb_MidiOut     - Return the numbers of midi out device\O","Ⅱ   MidiOutOpenDevice  - Open the Midi Out Device (Device ID)\O","Ⅰ   MidiOutCloseDevice  - Close the Midi Out Device\O","Ⅰ   MidiOutResetDevice  - Reset the Midi Out Device\O",   "Ⅱ    MidiInOpenTheDevice - Open the MidiIn Device (Device ID)\O",   "Ⅰ    MidiInCloseTheDevice - Close the MidiIn Device \O",   "Ⅰ    MidiInResetTheDevice - Send the reset string to the midi device \O",   "Ⅰ    MidiInStartTheDevice - Start the MidiIn Device \O",   "Ⅰ    MidiInStopTheDevice  - Stop the MidiIn Device \O",   "S     mWait For Toy_Message - Receive the 20bytes str\O",   "Ⅰ    mGet_Sensor_Number  - Return the sensor number\O",   "S     mGet_Toy_Number   - Return the toy number\O",   "ⅠS   mSend_Message    - Send a message to toy (Message)\O",   "SS    mCr_Proc_Toy_Reset  - Send the reset string to toy (Toy Number)\O",   "SSS   mCr_Proc_Toy_Tranceive - Tranceive a string to toy (Toy Number, Message)\O",   "SSS   mPrepare_Toy_Talk      - Prepare the toy for talking (Toy Number, Wave File)\O",   "SSS   Set_IO_To_1      - Set the IO number to 1 (IO Number, Toy Number) \O",   "SSS   Set_IO_To_0     - Set the IO number to 0 (IO Number, Toy Number) \O",   "SS    Go_To_Sleep_Mode   - Send to toy the sleep command (Toy Number)\O",   "Ⅰ    MessageReady     - Check if received 20 bytes fiom the toy \O".  "\O\O"END

Claims (89)

1, a kind of toy system of wireless computer control comprises:

One computer system can carry out sending the first time through first wireless transmitter when operation; With

At least one toy, this toy comprises first wireless receiver, described toy receives through described first wireless receiver and sends the described first time, and can carry out at least one action based on sending the described first time when operation.

2. the system as claimed in claim 1, wherein, described computer system comprises a computer game.

3. system as claimed in claim 2, wherein, the described transmission first time comprises: based on the operating result of described computer game, select a control command from a plurality of available control commands at least in part.

4. the system as claimed in claim 1, wherein, described at least one toy can carry out sending second time through second wireless transmitter when operation, and wherein said computer system can receive this through second wireless receiver and send for the second time when operating.

5. system as claimed in claim 4, wherein, the operation of described computer system is subjected to the control that send the described second time at least in part.

6. the system as claimed in claim 1, wherein, described at least one action comprises the motion of described toy.

7. the system as claimed in claim 1, wherein, described at least one action comprises the motion of the part of described toy.

8. the system as claimed in claim 1, wherein, described at least one action comprises output one sound.

9. system as claimed in claim 8, wherein, described sound comprises music.

10. system as claimed in claim 8, wherein, described sound comprises the sound of prerecording.

11. system as claimed in claim 8, wherein, described sound comprises voice.

12. system as claimed in claim 11, wherein, described voice comprise the voice of having recorded.

13. system as claimed in claim 11, wherein, described voice comprise synthetic voice.

14. the system as claimed in claim 1, wherein, described at least one toy comprises a plurality of toys.

15. the system as claimed in claim 1, wherein, described at least one action comprises a plurality of actions.

16. the system as claimed in claim 1, wherein, the described transmission first time comprises digital signal.

17. the system as claimed in claim 1, wherein, the described transmission first time comprises simulating signal.

18. system as claimed in claim 17, wherein, described simulating signal comprises sound.

19. the system as claimed in claim 1, wherein, described at least one toy has a plurality of states, and these states comprise at least one sleep state and a waking state, and,

The wherein said transmission first time comprises a state exchange order, and

Wherein said at least one action is included in the conversion between described sleep state and the described waking state.

20. system as claimed in claim 4, wherein, described computer system has a plurality of states, and these states comprise at least one sleep state and a waking state, and,

The wherein said transmission second time comprises a state exchange order, and

Wherein said computing machine is receiving when sending the described second time, can change between described sleep state and described waking state when operation.

21. system as claimed in claim 4, wherein, the described transmission second time comprises the toy logo data, and

Wherein said computer system can be discerned described at least one toy up to small part ground based on described toy logo data in operation.

22. system as claimed in claim 21, wherein, described computer system is come adaptive its operator scheme based on described toy logo data at least in part.

23. system as claimed in claim 4, wherein, described at least one toy comprises audio input device,

Send wherein said for the second time and comprise that voice signal, this voice signal represent the sound through described audio input device input.

24. system as claimed in claim 23, wherein, described sound comprises voice,

Wherein said computer system can be carried out speech recognition operation to described voice when operation.

25. a games system comprises:

One computer system, this computer system can be controlled a computer game and have a display when operation, and this display can show at least one display object when operation; With

At least one toy, this toy and described computer system are carried out radio communication,

Wherein said computer game comprises a plurality of game objects, and

Wherein said a plurality of game object comprises described at least one display object and described at least one toy.

26. games system as claimed in claim 25, wherein, described at least one toy can send the toy logo data to described computer system when operation, and

Wherein said computer system can be come the operator scheme of adaptive described computer game in operation based on described toy logo data up to small part ground.

27. a data transmitter comprises:

First wireless device, this equipment comprise music musical instrument data interface (MIDI) equipment, are used for sending between first wireless device and a MIDI device and receiving when operation the MIDI data; With

Second wireless device, this equipment comprises MIDI equipment, is used for sending between second wireless device and the 2nd MIDI device and receiving when operation the MIDI data;

Wherein said first wireless device can send the MIDI data that comprise from the data of described MIDI device reception to described second wireless device when operation, and to a described MIDI device send the MIDI data that comprise the data that receive from described second wireless device and

Wherein said second wireless device can send the MIDI data that comprise from the data of described the 2nd MIDI device reception to described first wireless device when operation, and sends the MIDI data that comprise from the data of described first wireless device reception to described the 2nd MIDI device.

28. data transmitter as claimed in claim 27 also comprises a plurality of MIDI devices,

Wherein said second wireless device comprises a plurality of wireless devices, each device all be associated with a device in described a plurality of MIDI devices respectively and

Each device in a plurality of wireless devices of wherein said second wireless device all can comprise from the MIDI data of the data of relevant MIDI device reception to described first wireless device transmission when operation, and send the MIDI data that comprise from the data of described first wireless device reception to relevant MIDI device.

29. data transmitter as claimed in claim 27, wherein, a described MIDI device comprises a computing machine.

30. data transmitter as claimed in claim 27, wherein, described the 2nd MIDI device comprises a toy.

31. data transmitter as claimed in claim 27, wherein, described first wireless device also comprises analog interface equipment, is used for receiving between described first wireless device and first analogue means and sending when operation simulating signal; And wherein

Described second wireless device also comprises analog interface equipment, is used for receiving between described second wireless device and second analogue means and sending when operation simulating signal, and

Wherein said first wireless device also sends the simulating signal that comprises from the signal of described first analogue means reception to described second wireless device when operation, and send the simulating signal that comprises from the signal of described second wireless device reception to described first analogue means, and

Wherein said second wireless device also sends the simulating signal that comprises from the signal of described second analogue means reception to described first wireless device when operation, and sends the simulating signal that comprises from the data of described first wireless device reception to described second analogue means.

32. a generation is used for the method for steering order of the toy system of wireless computer control, the method comprising the steps of:

Select a toy;

From a plurality of orders relevant, select at least one order with described toy; With

Generation is used for the steering order of described toy, and these instructions comprise described at least one order.

33. method as claimed in claim 32, wherein, the step of described at least one order of selection comprises:

Select an order; With

Specify at least one controlled variable relevant with the order of described selection.

34. method as claimed in claim 33, wherein, described at least one controlled variable comprises the condition that at least one depends on the result of a previous order.

35. method as claimed in claim 32, wherein, at least one step in the step of described selection one toy and the step of described at least one order of selection comprises the use to a graphical user interface.

36. method as claimed in claim 34, wherein, described previous order comprises that relevant with second toy one had before ordered.

37. method as claimed in claim 33, wherein, described at least one controlled variable comprises the executive condition of the execution of controlling described order.

38. method as claimed in claim 37, wherein, described executive condition comprises a moment of carrying out described order.

39. method as claimed in claim 33, wherein, described executive condition comprises a moment that stops to carry out described order.

40. method as claimed in claim 33, wherein, described executive condition comprises a state of described toy.

41. method as claimed in claim 33, wherein, described at least one controlled variable comprises an order modification symbol of the execution of revising described order.

42. method as claimed in claim 33, wherein, described at least one controlled variable comprises a condition that depends on a future event.

43. method as claimed in claim 32, wherein, described at least one order comprises an order that is used to cancel a previous order.

44. the system as claimed in claim 1, wherein, described computer system comprises a plurality of computing machines.

45. system as claimed in claim 25, wherein, described computer system comprises a plurality of computing machines.

46. a signal transmitter that combines use with a computing machine comprises:

One wireless transmitter; With

One signal processor comprises at least one parts in the lower member:

One analog/digital acoustic transducer, this converter can be converted to analoging sound signal digital audio signal, digital audio signal is converted to analoging sound signal when operation, and utilizes described wireless transmitter to send described signal between a described computing machine and an audio unit;

One peripheral control interface, this interface can utilize described wireless transmitter to transmit control signal between a described computing machine and an external device (ED) when operation; With

One midi interface, this interface can utilize described wireless transmitter to send midi signal between a described computing machine and a MIDI device when operation.

47. system as claimed in claim 4, wherein, the described transmission second time comprises a digital signal.

48. system as claimed in claim 4, wherein, the described transmission second time comprises a simulating signal.

49. a computer system comprises:

One computing machine;

One sound card, this sound card is operably connected to described computing machine, and has a MIDI connector and at least one simulation connector; With

One radio receiving-transmitting unit, this transceiver is operably connected to described sound card,

Wherein said computing machine can utilize described MIDI connector to send digital signal when operation, and utilizes described at least one simulation connector to send simulating signal.

50. system as claimed in claim 49, wherein, described computing machine also can utilize described MIDI connector receiving digital signals when operation, and utilizes described at least one simulation connector to receive simulating signal.

51. system as claimed in claim 4 also comprises at least one input media, and, send a state that comprises described at least one input media the wherein said second time.

52. system as claimed in claim 21, wherein, the described transmission first time comprises the toy logo data.

53. method as claimed in claim 44, wherein, the described transmission first time comprises the computer identity data.

54. method as claimed in claim 45, wherein, the described transmission first time comprises the computer identity data.

55. method as claimed in claim 44, wherein, the described transmission second time comprises the computer identity data.

56. method as claimed in claim 45, wherein, the described transmission second time comprises the computer identity data.

57. system as claimed in claim 16, wherein, described computer system comprises that one has the computing machine of midi port, and wherein said computing machine can utilize described midi port to send described digital signal when operation.

58. system as claimed in claim 8, wherein, described sound utilizes a MIDI agreement to send.

59. system as claimed in claim 23, wherein, described computer system can write down described voice signal when operation.

60. system as claimed in claim 59, wherein, described computer system also can be carried out at least one action in the following action when operation: handle described voice signal; And, play described voice signal.

61. system as claimed in claim 5, wherein, described computer system comprises a computer game, and

The operation of wherein said computer game is subjected to the control that send the described second time at least in part.

62. system as claimed in claim 4, wherein, described at least one toy comprises at least one first toy and one second toy, and

Wherein said first toy can, send to described second toy the toy send mode with toy through described second wireless transmitter when operation, and

Wherein said second toy can be carried out at least one action based on described toy to the toy transmission when operation.

63. as the described system of any one claim among the claim 1-24, wherein, described first wireless transmitter comprises at least one multi-channel wireless transmitter, and each multi-channel wireless transmitter all can send by a different channels in a plurality of channels when operation.

64. as the described system of claim 63, wherein, described at least one toy comprises a plurality of toys, and, wherein said at least one multi-channel wireless transmitter comprises a plurality of multi-channel wireless transmitters, provide thus with a plurality of toys in each synchronous communication of carrying out.

65. as the described system of any one claim among the claim 1-24, wherein, described first wireless receiver comprises at least one multi-channel wireless receiver, and each multi-channel wireless receiver all can receive by a selected channel in a plurality of channels when operation.

66. system as claimed in claim 4, wherein, described first and second transmitters send by first and second channels respectively, and, described first and second receivers receive by described first and second channels respectively, and coming thus to unify in described department of computer science provides the communication of full duplex between the described toy.

67. as the described system of claim 64, wherein, described computer system can be carried out a plurality of programs simultaneously when operation, wherein said a plurality of programs comprise a plurality of computer games of handling described a plurality of toys respectively through described a plurality of channels.

68. as the described system of claim 63, wherein, described computer system has only formerly identified after at least one individual channel in a plurality of channels can use, just when operation, send, allow thus operating simultaneously more than one computer system by described individual channel.

69. as the described system of claim 64, wherein, described a plurality of channels comprise at least one control channel, by this control channel, each toy in described computer system and the described a plurality of toy communicates, so that each toy is distributed to each channel in described a plurality of channel.

70. as the described system of any one claim among the claim 1-24, wherein, described computer system comprises a hobby computer proximity detector, is used for detecting when operation the degree of approach of described toy and described computing machine.

71. system as claimed in claim 4, wherein, described proximity detector comprises that a wireless energy level determines subsystem, is used for determining to send the described second time when operation the energy level that arrives described computer system.

72. system as claimed in claim 4, wherein, described proximity detector comprise with described toy and described computer system in a ultrasonic receiver that is associated, and with described toy and described computer system in another ultrasonic transmitter that is associated.

73. as the described system of any one claim among the claim 1-24, wherein, a described computer system and a remote game servers communicate, this remote game servers can provide service at least a portion at least one toy running game of operating described at least one toy when operation, and wherein said computer system can receive at least a portion in described at least one toy running game from described remote game servers when operation.

74. as the described system of claim 73, wherein, at least a portion of described recreation received from described remote game servers off-line before playing this recreation.

75. as the described system of claim 73, wherein, described computer system can be in when operation at least a portion in described at least one the toy running game of online reception from described remote game servers, at this time this recreation is played.

76. as the described system of any one claim among the claim 73-75, wherein, the described part of described recreation comprises at least a portion in the following recreation part:

One toy action script; With

One audio files.

77. the system as claimed in claim 1, wherein, described first wireless transmitter resides in the additional toy, and this additional toy can be controlled in wired mode by described computer system, and described wireless transmitter is connected to described computer system in wired mode.

78. a wireless toy system comprises:

At least one toy, this toy comprises first wireless receiver;

One network computer communicates with a remote game service computer network;

Wherein said remote game service computer network can be served at least a portion of at least one toy running game on this computer network when operation, described at least one toy of described toy running game operation, and, wherein said computer network comprises first wireless transmitter, this first wireless transmitter can carry out sending the first time to described first wireless receiver when operation, and wherein said toy can be carried out at least one action based on sending the described first time when operation.

79. method as claimed in claim 32 also comprises step: described steering order is sent to described toy.

80. MIDI (musical instrument digital interface) method that is used for the operate wireless control device, this method comprises:

The one department of computer science wave point of unifying is provided, and this wave point is the interface of unifying and forming between the described control device of wireless in described department of computer science; With

Pass through a connector by the described computer system of MIDI consultative management, unifying in described department of computer science sends MIDI control command and sound between the described wave point.

81. a method that is used for the operate wireless control device, this method comprises:

The one department of computer science wave point of unifying is provided, and this wave point is the interface of unifying and forming between the described control device of wireless in described department of computer science; With

Through a serial port of described computer system, at described department of computer science unify transmitting control commands and sound between the described wave point.

82. a method that is used for the operate wireless control device, this method comprises:

The one department of computer science wave point of unifying is provided, and this wave point is the interface of unifying and forming between the described control device of wireless in described department of computer science; With

Through a parallel port of described computer system, at described department of computer science unify transmitting control commands and sound between the described wave point.

83. as the described system of any one claim among the claim 73-75, wherein, the described part of described recreation comprises a text, and, wherein said computer system comprises one text-speech convertor, the text-speech convertor can be converted to voice document with described text when operation, so that send to described toy through described first wireless transmitter.

84. as the described system of claim 73, wherein, described computer system communicates through the Internet and described remote game servers.

85. an ad system comprises:

One computer-controlled toy, this toy is in the customer location place, and presents the advertisement communique in response to a control command when operation;

One computing machine, the described toy of this computer control is also relevant with a network, and can produce described control command when operation; With

Advertisement Server equipment, this equipment is relevant with described network, and to described downloaded advertisement communique.

86. as the described system of claim 85, also comprise described network, and wherein said network comprises the Internet.

87. as the described system of claim 85, wherein, described toy comprises a physics toy.

88. a computerized toy upgrades order system, relevant with a network when operation, described system comprises:

The diversified computerized toy relevant with a network; With

One toy renovator, this renovator is relevant with described network, and periodically the toy lastest imformation is issued to described diversified computerized toy when operation.

89. as the described system of claim 88, the operation of wherein said toy renovator is irrelevant with the periodicity intervention of the human user of described diversified computerize toy basically.

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