JP2004302993A - Information input system and input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To input further many kinds of information while suppressing the increase in manufacturing cost. <P>SOLUTION: A base 13 capable of attaching and detaching various phicons comprises a connection part 61 connectable with a control device and a connection part 62 connected to the connection part 61 and connectable with a phicon. A request from the control device is supplied to the phicon through the connection parts 61 and 62. A position measurement part 64 and an attitude measurement part 65 measure the position and attitude of the base 13 in the coordinate system (Xm, Ym, Zm) of a magnetic field generator by use of the magnetic field generated by the magnetic field generator, and supply the respective measurement values to a measurement value output control part 63. The measurement value output control part 63 supplies the measurement values to the control device through the connection part 61 to calculate the position information and attitude information of the base 13 (phicon). This invention is applicable to an information input system. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information input system and an input device, and more particularly to an information input system and an input device that can input more types of information while suppressing an increase in manufacturing cost.
[0002]
[Prior art]
Conventionally, a mouse, a tablet, or the like has been used as an input device serving as a user interface. In these cases, an object operation in the real world and an operation in a virtual world in a GUI (Graphical User Interface) displayed on the display are used. And the operation was not intuitive.
[0003]
For example, in a game or the like, when a user operates a character in the virtual world using a mouse, the operation method in the real world is completely different from the action of the character in the virtual world.
[0004]
On the other hand, there is a method of using a user interface based on a real object icon (hereinafter referred to as fine control) representing a character in the virtual world in the real world.
[0005]
The fikon is configured with the same design as the character in the virtual world, and reproduces the motion and behavior of the character in the virtual space in the real space and inputs the motion. For example, by operating a fine control in the shape of a spray can, the user operates a virtual spray can existing in the virtual world, and performs a paint operation or the like. Further, the user operates a virtual bear character that exists in the virtual world by operating a phicon in the shape of a bear doll.
[0006]
In this way, the shape of the fine control needs to be similar to the shape of the character or the like in the virtual space that is the operation target, and the user selects and operates the fine control having the shape corresponding to the character that is the operation target. Manipulate world characters.
[0007]
Therefore, in this case, at least the same number of fine controls as the type of operation target must be prepared. In such a case, for example, all functions such as a function of inputting the position and inclination of the fine control etc. The functions common to the fine control have to be provided in each fine control, and the production cost of the fine control may increase more than necessary.
[0008]
By the way, there is a method that allows a user to change color information input by operating the electronic pen body by mounting cartridges having color information of different colors on the electronic pen body (for example, , See Patent Document 1).
[0009]
In this way, the user can automatically change the color information to be input simply by replacing the cartridge.
[0010]
[Patent Document 1]
JP-A-11-259985 (page 3-5, FIG. 1)
[0011]
[Problems to be solved by the invention]
However, even in this method, there is a problem that it is not possible to cope with, for example, when a character in the virtual world is changed only by changing input color information.
[0012]
Various types of information such as audio information, image information, operation information, position information, analog information, or digital information can be considered as information input by the fine control. However, the electronic pen method described above only corresponds to a change in input information within the range of a pen input device, and does not correspond to a change in input information at such a level. An increase in manufacturing cost may not be suppressed.
[0013]
Further, in this case, unless the cartridge is connected to a writing device different from the electronic pen body, information stored in the cartridge cannot be rewritten, and there is a problem that a complicated operation is required.
[0014]
The present invention has been made in view of such a situation, and allows more types of information to be input while suppressing an increase in manufacturing cost.
[0015]
[Means for Solving the Problems]
An information input system of the present invention includes a first input device that inputs first information, a second input device that is detachable from the first input device and inputs second information, An information input system comprising a first input device and a control device that controls a second input device, wherein the first input device measures a first information and a first measured by the measuring means. 1st supply means which supplies the measured value of 1 information to a control apparatus, and 1st connection means which electrically connects the mounted 2nd input device to a control apparatus, The 2nd input device Comprises storage means for storing the second information and second supply means for supplying the second information stored in the storage means to the control device. The control device is supplied by the first supply means. Obtained by the first obtaining means for obtaining the measured value and the first obtaining means. Based on the measurement value, a calculation unit that calculates information about the first input device, a second acquisition unit that acquires the second information supplied by the second supply unit, and a second calculation unit that is calculated by the calculation unit. And a third supply unit that supplies the information related to one input device or the second information acquired by the second acquisition unit to another information processing device.
[0016]
The first information may be information related to the position or inclination of the first input device at a predetermined three-dimensional coordinate.
[0017]
The control device further includes magnetic field generation means for generating a magnetic field for generating three-dimensional coordinates, and the measurement means relates to the position or inclination of the first input device based on the magnetic field generated by the magnetic field generation means. Information can be measured.
[0018]
The first input device can be mounted with a plurality of second input devices, and the first connecting means can electrically connect the plurality of second input devices mounted on the first input device to the control device. Can be connected.
[0019]
The second information is identification information for identifying the second input device or information indicating the state of the second input device, and includes additional information added to the identification information. it can.
[0020]
The second input device further includes input accepting means for accepting an input of third information from the outside, and the second supply means sends the third information received by the input accepting means to the control device. Furthermore, it can be made to supply.
[0021]
The third information may include audio information, image information, temperature information, pressure information, control information, or information indicating a change amount of a predetermined parameter.
[0022]
The control device further includes fourth supply means for supplying fourth information supplied from another information processing apparatus to the second input device, and the second input device is provided by the fourth supply means. An output means for outputting the fourth information supplied from the control device can be further provided.
[0023]
The fourth information may include audio information, image information, or control information.
[0024]
The second input device may further include second connection means for electrically connecting another second input device to the control device in a state where the second input device is attached to the first input device. it can.
[0025]
The second input device may further include communication control means for controlling communication with the control device.
[0026]
An input device according to the present invention is detachable from an input device, a measuring unit that measures first information, a supply unit that supplies a measured value of the first information measured by the measuring unit to an information processing device. And another connection device that is attached to the input device and that inputs the second information is electrically connected to the information processing device.
[0027]
The first information is information relating to the position of the input device in predetermined three-dimensional coordinates, the measuring means measures the position of the input device, and the supplying means relates to the position of the input device measured by the measuring means. The measurement value can be supplied to the information processing apparatus.
[0028]
The first information is information relating to the inclination of the input device at a predetermined three-dimensional coordinate, the measuring means measures the inclination of the input device, and the supply means relates to the inclination of the input device measured by the measuring means. The measurement value can be supplied to the information processing apparatus.
[0029]
The connection means may electrically connect another input device having a storage unit for storing second information to the information processing device.
[0030]
The second information may include identification information for identifying another input device.
[0031]
The second information is information indicating a state of another input device, and can further include additional information added to the identification information.
[0032]
The connection unit includes an input receiving unit that receives an input of third information from the outside, and another input device that supplies the third information received by the input receiving unit to the information processing device, Can be electrically connected.
[0033]
The third information may include audio information, image information, temperature information, pressure information, control information, or information indicating a change amount of a predetermined parameter.
[0034]
The connection means can electrically connect another input device having an output unit that outputs the fourth information supplied from the information processing device to the information processing device.
[0035]
The fourth information may include audio information, image information, or control information.
[0036]
The connection means can connect a plurality of other input devices to the information processing device.
[0037]
The apparatus may further include power supply means for supplying power to another input device electrically connected to the information processing apparatus by the connection means.
[0038]
In the information input system of the present invention, a first input device that inputs first information, a second input device that is detachable from the first input device and inputs second information, And a control device that controls the first input device and the second input device. In the first input device, the first information is measured, and the measured value of the measured first information is the control device. The second input device supplied and attached to the control device is electrically connected to the control device. In the second input device, the second information is stored, and the stored second information is stored in the control device. In the control device, a measured value is acquired, information on the first input device is calculated based on the acquired measured value, second information is acquired, and the calculated first input Information related to the device or the second information is another information processing device. It is supplied.
[0039]
In the input device of the present invention, the first information is measured, the measured value of the measured first information is supplied to the information processing device, is detachable from the input device, and is attached to the input device. Another input device that inputs the second information is electrically connected to the information processing device.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration example of an information input system using an input device to which the present invention is applied.
[0041]
In FIG. 1, the information input system operates as a control device 11 that controls each device, a magnetic field generator 12 that generates a magnetic field in a predetermined space, a receiver for the magnetic field generator 12, and from various fine control devices 14. It is comprised by the base 13 which is an input device which supplies the input information to the control apparatus 11, and the fine control 14.
[0042]
In FIG. 1, a personal computer 21 serving as an output device that processes and outputs information supplied from the control device 11 is connected to the control device 11 of the information input system.
[0043]
Further, the fine control 14 includes various fine controls such as the doll fine controls 14-1 and 14-2 and the car fine control 14-3 as shown in FIG. If there is not, it is referred to as fine control 14.
[0044]
As shown in FIG. 2A, the base 13 has, for example, a cubic shape. It can be electrically connected to the fine control 14 shown in FIG.
[0045]
As shown in FIG. 2A, the connection portion 31 is provided with a plurality of connection terminals 32-1 to 32-5 made of conductive metal, and as will be described later, the connection terminals 32-1 to 32-32. -5 comes into contact with a connection terminal provided on the fine control 14, whereby the base 13 and the fine control 14 are electrically connected.
[0046]
In FIG. 2A, the number of connection terminals is five, but the number of connection terminals may be any number.
[0047]
Further, as shown in FIG. 2B, a cable 33 for electrically connecting to the control device 11 is provided on the surface 13-5 facing the surface 13-1 of the base 13. That is, the fine control 14 connected to the base 13 is also connected to the control device 11.
[0048]
For example, in the case of the fine control 14-1, as shown in FIG. 3A, a base receiving hole 41 into which the base 13 is mounted is provided on the back portion. Further, in the base receiving hole, when the base 13 is correctly installed in the base receiving hole 41, a connecting terminal made of a conductive metal at a position where the connecting terminals 32-1 to 32-5 of the connecting portion 31 come into contact. 42-1 to 42-5 are provided.
[0049]
The base receiving hole 41 has such a shape that the base 13 can be mounted. When the base 13 is inserted into the base receiving hole 41 as shown by an arrow in a posture as shown in FIG. 3A, it is shown in FIG. 3B. Thus, the base 13 is mounted inside the doll fine control 14-1. When the base 13 is inserted into the base receiving hole 41 to the end, the depth of the base receiving hole 41 is adjusted so that the unevenness due to the base 13 is eliminated.
[0050]
At this time, the connection terminals 32-1 to 32-5 provided in the connection portion 31 of the base 13 are in contact with the connection terminals 42-1 to 42-5 provided in the doll fine control 14-1, as described above. The doll fine control 14-1 and the base 13 are connected.
[0051]
The number of connection terminals provided on the fine control 14 may be any number as long as the number of connection terminals provided on the base 13 is the same.
[0052]
Although illustration is omitted, when the doll fine control 14-1 and the base 13 are connected to the doll fine control 14-1 or the base 13, the base 13 can be easily removed from the base receiving hole 41 by vibration or the like. You may make it provide the fixing mechanism of the base 13 using a clasp, a spring, or a magnet so that it may not remove.
[0053]
Further, as will be described later, the base 13 includes a position sensor and an inclination sensor that measure the position and inclination of the base 13 (mounted fine control 14) in a three-dimensional space using the magnetic field generated by the magnetic field generator 12. The base 13 supplies information obtained by these sensors to the control device 11 via the cable 33.
[0054]
Returning to FIG. 1, the fine control 14 includes various shapes of fine control such as the doll fine control 14-1, the doll fine control 14-2, and the car fine control 14-3. Each fine control corresponds to a different character in the virtual world expressed in the personal computer 21.
[0055]
The magnetic field generator 12 is controlled by the control device 11 to generate a predetermined magnetic field in a space around the magnetic field generator 12. By this magnetic field, a current is induced in a coil such as a position sensor or a tilt sensor built in the base 13, and the induced current is processed by the control device 11, whereby the coordinate system (Xm) of the magnetic field generator 12 is processed. The coordinates (position) and angle (posture) of the base 13 in Ym Zm) are measured.
[0056]
The control device 11 controls the operation of the magnetic field generator 12 and the base 13 (or fine control 14 connected to the base 13), and based on the position measurement value and the posture measurement value supplied from the base 13, Position information and posture information are generated and supplied to the personal computer 21. Further, the control device 11 supplies information to the base 13 (or the fine computer 14 connected to the base 13) based on a request from the personal computer 21, or acquires input information in the fine computer 14 to the personal computer 21. Or supply.
[0057]
The personal computer 21 executes an application for performing a game or a service using information input by the base 13 or the fine computer 14 connected to the base 13. For example, the personal computer 21 displays a character corresponding to the fine control 14 connected to the base 13 on the display, and the position of the base 13 (the fine control 14 connected to the base 13) input via the control device 11. Based on the information and the posture information, the character is moved in the virtual space. Thereby, the user can control the movement of the character in the virtual space by operating the fine control 14 in the real space.
[0058]
The doll fine control 14-2 and the car fine control 14-3 in FIG. 1 are also provided with a base receiving hole 41 as shown in FIG. Detachable.
[0059]
Therefore, the user can connect the doll phicon 14-1 as shown in FIG. 4A to the same base 13, or the doll phicon 14-2 as shown in FIG. 4B. As shown in FIG. 4C, the vehicle fine control 14-3 can also be connected.
[0060]
Further, as will be described later, ID information is stored in each fine control, and the control device 11 identifies the fine control connected to the base 13 based on the ID information. Therefore, the user can select a character in the virtual space to be controlled by selecting a fine control connected to the base 13.
[0061]
Next, an internal configuration example of each device of the information input system in FIG. 1 will be described.
[0062]
FIG. 5 is a diagram illustrating an internal configuration example of the fine control 14.
[0063]
The fine control 14 has a connection unit 51 for connecting the base 13 and a storage unit 52 for storing ID information and the like.
[0064]
The connection unit 51 is an interface unit including connection terminals 42-1 to 42-5 and the like. As described above, the base 13 can be connected to the connecting portion 51. In addition, the connection unit 51 is connected to the storage unit 52 inside the fine control 14.
[0065]
The storage unit 52 includes an SRAM (Static Random Access Memory), a DRAM (Dynamic Random Access Memory), an EEPROM (Electronically Erasable Memory and Programmable Read Memory), and an EEPROM (Electronically Erasable Memory and Programmable Read Memory). Predetermined ID information (identification information) and the like for identification are stored.
[0066]
In addition to the above, the storage unit 52 may store the ID information of the fine control 14 in an electrical short pattern, a physical shape pattern, or an image pattern such as a barcode. Good.
[0067]
Although not shown, the power supply unit such as a battery or a dry cell may be provided in the fine control unit 14, and necessary power may be supplied to the fine control unit 14 or the base 13 from the power supply unit. Of course, power may be supplied from another device such as the base 13 or the control device 11.
[0068]
FIG. 6 is a diagram illustrating an internal configuration example of the base 13.
[0069]
The base 13 includes a connection unit 61 to which the control device 11 is connected, a connection unit 62 to which the fine control 14 is connected, a measurement value output control unit 63 that controls the output of measurement values, and a position measurement unit 64 that measures the position of the base 13. And a posture measuring unit 65 that measures the inclination (posture).
[0070]
The connection unit 61 is an interface to which the control device 11 is connected via the cable 33, and is also connected to the connection unit 62 and the measurement value output control unit 63 inside the base 13.
[0071]
The connection unit 62 is an interface including the connection unit 31 and the connection terminals 32-1 to 32-5 shown in FIG. Further, the connection part 62 is connected to the connection part 61 inside the base 13.
[0072]
In other words, a request for the fine control 14 from the control device 11 is supplied to the fine control 14 via the connection units 61 and 62.
[0073]
The measurement value output control unit 63 controls the output of the measurement values supplied from the position measurement unit 64 or the posture measurement unit 65, and sends these measurement values to the control device 11 via the connection unit 61 by a predetermined communication method. Supply.
[0074]
The position measurement unit 64 is a sensor that measures the position of the base 13 in the coordinate system (Xm Ym Zm) of the magnetic field generator 12 by using the magnetic field generated by the magnetic field generator 12, and the measurement value is a measured value. This is supplied to the output control unit 63. The posture measuring unit 65 is a sensor that measures the inclination (posture) of the base 13 in the coordinate system (Xm Ym Zm) of the magnetic field generator 12 using the magnetic field generated by the magnetic field generator 12, and the measured value Is supplied to the measured value output control unit 63.
[0075]
Although not shown, the base 13 may be provided with a power supply unit such as a battery or a dry cell, and the power necessary for the base 13 or the fine control 14 may be supplied from the power supply unit. Of course, power may be supplied from another device such as the fine control 14 or the control device 11.
[0076]
FIG. 7 is a diagram illustrating an internal configuration example of the control device 11.
[0077]
A CPU (Central Processing Unit) 71 of the control device 11 executes various processes according to a program stored in the ROM 72. A RAM 73 (Random Access Memory) appropriately stores data and programs necessary for the CPU 71 to execute various processes.
[0078]
The CPU 71, ROM 72, and RAM 73 are connected to each other via a bus 74. The bus 74 also has a fine control unit 74 for managing the fine control 14 connected to the base 13 and exchanging ID information and the like with the fine control 14, and the base 13 supplied from the base 13. A position / orientation information calculation unit 75 that calculates position information and attitude information of the fine control 14 connected to the base 13 based on the position measurement value and the attitude measurement value is connected.
[0079]
Further, an input / output interface 80 is also connected to the bus 74.
[0080]
The input / output interface 80 is connected to an input unit 81 including a keyboard and a mouse, and outputs a signal input to the input unit 81 to the CPU 81. The input / output interface 80 is also connected to an output unit 82 including a display, a speaker, and the like.
[0081]
In addition, the input / output interface 80 is also connected to a storage unit 83 configured from a hard disk or the like, and a communication unit 84 for communicating with the magnetic field generator 12, the base 13, the personal computer 21, and the like. The drive 85 is used when data is read from or written to a removable medium 91 formed of a recording medium such as a magnetic disk, an optical disk, a magneto-optical disk, or a semiconductor memory.
[0082]
FIG. 8 is a diagram illustrating an internal configuration example of the personal computer 21.
[0083]
The CPU 101 of the personal computer 21 executes various processes according to programs stored in the ROM 102. The RAM 103 appropriately stores data and programs necessary for the CPU 101 to execute various processes.
[0084]
The CPU 101, ROM 102, and RAM 103 are connected to each other via a bus 104. An input / output interface 110 is also connected to the bus 104.
[0085]
The input / output interface 110 is connected to an input unit 111 including a keyboard and a mouse, and outputs a signal input to the input unit 111 to the CPU 101. The input / output interface 110 is also connected to an output unit 112 including a display and a speaker.
[0086]
Further, a storage unit 113 configured by a hard disk or the like and a communication unit 114 that performs data communication with other devices via a network such as the Internet are connected to the input / output interface 110. The drive 115 is used when data is read from or written to a removable medium 121 formed of a recording medium such as a magnetic disk, an optical disk, a magneto-optical disk, or a semiconductor memory.
[0087]
Next, the operation of the information input system in FIG. 1 will be described.
[0088]
When input of information using the fine control 14 is requested by an application executed in the personal computer 21, the CPU 71 of the control device 11 controls the fine control unit 74 to detect the fine control 14 connected to the base 13. Or the fine control process for acquiring the ID information of the fine control 14 is executed.
[0089]
The fine control process by the fine control unit 74 of the control device 11 will be described with reference to the flowchart of FIG.
[0090]
First, the fine control unit 74 controls the communication unit 84 to request ID information from the fine control 14 connected to the base 13 in step S1.
[0091]
The storage unit 52 of the fine control unit 14 is connected to a predetermined terminal of the connection unit 51. When the fine control unit 14 is connected to the base 13, the control device is connected to the base 13 via a predetermined dedicated wiring. 11 communication units 84. That is, the communication unit 84 is controlled by the fine control unit 74 and requests ID information from the storage unit 52 of the fine control 14 via a dedicated wire among a plurality of wires connected to the base 13.
[0092]
When the fine control 14 is connected to the base 13, the request is supplied to the storage unit 52 of the fine control 14. Based on the request, the storage unit 52 of the fine control 14 supplies ID information stored in advance to the control device 11. When the fine control device 14 is not connected to the base 13, the request is not supplied to the storage unit 52 of the fine control device 14, and thus the control device 11 cannot obtain the ID information of the fine control device 14.
[0093]
In step S2, the fine control unit 74 determines whether or not the ID information supplied from the fine control 14 is acquired based on the request. If it is determined that the ID information is acquired, the fine control 14 is connected to the base 13. At the same time, the process proceeds to step S3, and the acquired ID information is held in the RAM 73 or the like.
[0094]
In step S <b> 4, the fine control unit 74 further supplies the acquired ID information to the personal computer 21. Thus, the personal computer 21 (an application executed on the personal computer 21) can identify the fine control 14 connected to the base 13.
[0095]
The fine control unit 74 that has confirmed that the fine control 14 is connected to the base 13 proceeds to step S5 after a predetermined time, and controls the communication unit 84 to control the communication unit 84 in the same manner as in step S1. The ID information is requested to the connected fine control 14.
[0096]
In step S6, the fine control unit 74 determines whether or not ID information has been acquired, as in step S2, and confirms that the fine control 14 is connected to the base 13 if determined to have been acquired. At the same time, the process proceeds to step S7, and it is determined whether or not the acquired ID information is the same as the held ID information.
[0097]
If it is determined that the acquired ID information is the same, the fine control unit 74 confirms that the fine control 14 connected to the base 13 has not been changed. In step S8, the fine control control process is performed. It is determined whether or not to end. If it is determined that the process is to be ended, the fine control unit 74 performs an end process in step S9 and ends the fine control process.
[0098]
If it is determined in step S2 that ID information has not been acquired, since the fine control 14 is not connected to the base 13, the fine control unit 74 proceeds to step S10 and determines whether or not the fine control control process is terminated. Determine. When it determines with complete | finishing, the fine control part 74 returns a process to step S9, and repeats the process after it. If it is determined not to end, the fine control unit 74 returns the process to step S1 and repeats the subsequent processes.
[0099]
If it is determined in step S6 that ID information has not been acquired, the fine control unit 74 recognizes that the fine control 14 has been removed from the base 13, proceeds to step S11, and passes the communication unit 84 to the personal computer 21. Request deletion of ID information. The fine control unit 74 that has requested the deletion of the ID information returns the process to step S1, and repeats the subsequent processes.
[0100]
If it is determined in step S7 that the acquired ID information is different from the held ID information, the fine control unit 74 returns the process to step S3 and repeats the subsequent processes.
[0101]
If it is determined in step S8 that the fine control process is not terminated, the fine control unit 74 returns the process to step S5 and repeats the subsequent processes.
[0102]
That is, the fine control unit 74 detects that the fine control 14 is connected to the base 13 by repeating the processes of steps S1 and S2 and step S10. If it is determined that the fine control 14 is connected to the base 13, the fine control unit 74 executes the processes of steps S3 and S4 and registers the acquired ID information.
[0103]
The fine control unit 74 that detects the connection of the fine control 14 repeats the processes of steps S5 to S8 to determine whether or not the fine control 14 connected to the base 13 is removed, or to connect another fine control after the removal. It is determined whether or not it has been done.
[0104]
If it is determined that the fine control 14 connected to the base 13 has been removed, after performing the process of step S11, the process returns to step S1 to perform the process of detecting the fine control 14 connected to the base 13. .
[0105]
If it is determined that the fine control 14 connected to the base 13 is removed and another fine control is connected after that, the process returns to step S3, and the newly acquired ID information is registered.
[0106]
As described above, the fine control unit 74 of the control device 11 can monitor the connection between the fine control 14 and the base 13, detect the fine control 14 connected to the base 13, and acquire the ID information.
[0107]
Of course, other methods may be used as a method of detecting that the fine control 14 is connected to the base 13. For example, the fine control device 14 connected to the base 13 periodically sends ID information at a predetermined interval, and the control device 11 connects the fine control device 14 to the base 13 depending on whether or not the ID information is acquired. The control device 11 periodically sends a dedicated confirmation signal at a predetermined interval, and the fine control 14 connected to the base 13 responds to the confirmation signal. Depending on whether or not 11 acquires the response, it may be detected that the fine control 14 is connected to the base 13.
[0108]
Further, when a power supply line for supplying power to the fine control 14 connected to the base 13 is wired from the control device 11, the control device 11 monitors the power supply line and determines whether power is supplied. Thus, it may be detected that the fine control 14 is connected to the base 13.
[0109]
In these cases, the control device 11 requests ID information from the fine control 14 after it is confirmed that the fine control 14 connected to the base 13 exists.
[0110]
The CPU 71 of the control device 11 controls the fine control unit 74 to start fine control control processing, acquires the fine ID 14 ID information, and controls the position / orientation information calculation unit 75 to start position / posture information calculation processing. The position information or the posture information is calculated from the position measurement value or the posture measurement value supplied from the base 13.
[0111]
The position / orientation information calculation processing by the control device 11 will be described with reference to the flowchart of FIG.
[0112]
The position / orientation information calculation unit 75, which is controlled by the CPU 71 and starts the position / orientation information calculation process, first performs an initial setting process in step S31 and performs a process such as adjustment of a measurement error. After completing the initial setting process, the position / orientation information calculation unit 75 proceeds to step S32, controls the communication unit 84, and starts acquiring measurement values from the base 13.
[0113]
The measurement value output control unit 63 of the base 13 supplies the position measurement value supplied from the position measurement unit 64 or the posture measurement value supplied from the posture measurement unit 65 to the control device 11 via the connection unit 61. . The communication unit 84 of the control device 11 supplies the acquired position measurement value or posture measurement value to the position / orientation information calculation unit 75.
[0114]
The position / orientation information calculation unit 75 that has started acquiring the measurement value determines whether or not the position measurement value measured by the position measurement unit 64 of the base 13 has been acquired in step S33.
[0115]
When it is determined that the position measurement value has been acquired, the position / orientation information calculation unit 75 performs a calculation process based on the acquired position measurement value in step S34, and the base in the coordinate system (Xm Ym Zm) of the magnetic field generator 12 is obtained. 13 position information is calculated. In step S35, the position / orientation information calculation unit 75 that has calculated the position information supplies the calculated position information to the personal computer 21 via the communication unit 84, and the process proceeds to step S36.
[0116]
If it is determined in step S33 that the position measurement value has not been acquired, the position / orientation information calculation unit 75 omits steps S34 and S35 and proceeds to step S36.
[0117]
In step S <b> 36, the position / orientation information calculation unit 75 determines whether or not the orientation measurement value measured by the orientation measurement unit 65 of the base 13 has been acquired.
[0118]
When it is determined that the orientation measurement value has been acquired, the position / orientation information calculation unit 75 performs arithmetic processing based on the acquired orientation measurement value in step S37, and performs a base in the coordinate system (Xm Ym Zm) of the magnetic field generator 12. 13 posture information is calculated. In step S38, the position / orientation information calculation unit 75 that has calculated the orientation information supplies the calculated orientation information to the personal computer 21 via the communication unit 84, and the process proceeds to step S39.
[0119]
If it is determined in step S36 that the orientation measurement value has not been acquired, the position / orientation information calculation unit 75 omits steps S37 and S38 and proceeds to step S39.
[0120]
In step S39, the position / orientation information calculation unit 75 determines whether to end the position / orientation information calculation process based on a user instruction or the like. If it determines not to end the process, the process returns to step S33. The subsequent processing is repeated.
[0121]
In other words, the position / orientation information calculation unit 75 repeats the processes of steps S33 to S39, so that the coordinate system (Xm Ym Zm) of the magnetic field generator 12 is based on the position measurement value or the attitude measurement value supplied from the base 13. The process of calculating the position information or posture information of the base 13 and supplying it to the personal computer 21 is repeated.
[0122]
If it is determined in step S39 that the position / orientation information calculation process is to be ended, the position / orientation information calculation unit 75 ends the position / orientation information calculation process after performing the end process in step S40.
[0123]
As described above, the control device 11 can calculate the position information or the posture information based on the measurement value supplied from the base 13 and supply it to the personal computer 21.
[0124]
As described above, by using the base 13 which is an input device to which the present invention is applied, the information input system of FIG. 1 can use a fine control with reduced manufacturing cost. It can be easily replaced and can correspond to a plurality of characters in a virtual space generated by an application executed on the personal computer 21.
[0125]
In the above, the control device 11 has been described as connected to the personal computer 21 that uses information input by the information input system. However, the present invention is not limited to this, and the device that uses information input by the information input system is used. Any device may be used, and for example, a display device 131 may be connected as shown in FIG.
[0126]
In FIG. 11, a display device 131 is connected to the control device 11 instead of the personal computer 21. A coordinate system (Xm Ym Zm) of the magnetic field generator 12 is formed on the display device 131 including the display for displaying the virtual space (on the display).
[0127]
The display device 131 displays a virtual space on the display and has the same function as the personal computer 21, and the virtual space displayed on the display based on the position information and the posture information of the fine control 14 supplied from the control device 11. Change the display position of.
[0128]
For example, as shown in FIG. 11, when the user connects the doll ficon 14-2 to the base 13 and places the doll ficon 14-2 on the display of the display device 131, the control device 11 supplies from the base 13. Based on the measured values, position information of the doll fine control 14-2 is calculated and supplied to the display device 131. The display device 131 displays a part of the virtual space corresponding to the supplied position information on the display.
[0129]
When the user moves the doll fine control 14-2 on the display, the control device 11 calculates new position information of the doll fine control 14-2 based on the new measurement value supplied from the base 13, and displays the display. It supplies to the apparatus 131. The display device 131 moves the display position of the virtual space based on the supplied new position information.
[0130]
When the user removes the doll fine control 14-2 from the base 13 and connects another fine control such as the doll fine control 14-1 or the car fine control 14-3 to the base 13, the control device 11 causes the fine control connected to the base 13 to 14 obtains ID information and supplies it to the display device 131. The display device 131 changes the virtual space to be displayed or changes the movement of the display position of the virtual space based on the acquired ID information (according to the type of the fine control 14 connected to the base 13). Can do.
[0131]
Thus, the information input system using the base 13 to which the present invention is applied is connected to various devices and can input information to the devices.
[0132]
In the above description, the puppets Ficon 14-1 and 14-2 and the car icon 14-3 are given as examples of the Ficon 14. However, the Ficon 14 is not limited to this, and is any Ficon. Also good.
[0133]
Next, another example of the fine control 14 used in the information input system will be described.
[0134]
The fine control 14 may have an input function, such as a spray fine control 141, a gripping fine control 142, a modified fine control 143, and a microphone fine control 144 shown in FIG. Further, the fine control unit 14 may have an output function like the monitor fine control unit 146, or may have an input function and an output function like the headset fine control unit 147.
[0135]
In FIG. 12, the spray fine control 141 is provided with an analog switch 141 </ b> A in the upper part of the drawing, and the analog switch 141 detects the amount pressed by the user and supplies the information to the control device 11. The control device 11 supplies the information to the personal computer 21 or the like on which the application is operating and reflects it in the virtual space.
[0136]
By pressing the analog switch 141A, the user can perform a paint operation in which the paint amount is adjusted in accordance with the pressed amount in the virtual space.
[0137]
That is, for example, the user can perform a narrow range of painting in the virtual space by pressing the analog switch 141A weakly, and by pressing the analog switch 141A strongly, the user can perform a wide range of painting in the virtual space. As can be done, the virtual space paint operation can be performed at the same interval as when a real spray is used in the real space.
[0138]
The gripping fine control 142 is, for example, a fine control for gripping, moving and rotating an object in the virtual space, and a button 142A which is a digital switch for selecting whether or not to grip the object in the virtual space when operated by the user. Have. The button 142 detects that the user has pressed the button 142 and supplies the information to the control device 11. The control device 11 supplies the information to the personal computer 21 or the like on which the application is operating and reflects it in the virtual space.
[0139]
For example, the user operates the gripping fine control 142 to move the position of the “hand” that is the character corresponding to the gripping fine control in the virtual space. When the user operates the button 142A of the gripping fine control unit 142 with the “hand” of the virtual space positioned at the target object, the “hand” grips the object in the virtual space.
[0140]
When the user moves the gripping fine control 142 from that state, the “hand” in the virtual space moves while holding the object. Then, when the user operates the button 142A of the gripping fine control 142 again, the “hand” releases the gripped object in the virtual space.
[0141]
The deformed fine control 143 is a fine control that performs a deformation operation of the object in the virtual space, and the two movable fingers 143A and 143B that sandwich the object rotate so as to grasp the object with the hinge part 143C as an axis. The hinge part 143C is provided with an angle sensor, and the angle sensor detects the closing state of the movable fingers 143A and 143B and supplies the information to the control device 11. The control device 11 supplies the information to the personal computer 21 or the like on which the application is operating and reflects it in the virtual space.
[0142]
For example, the user operates the deformed fine control 143 so that the character “scissors” corresponding to the deformed fine control 143 is positioned on the target object in the virtual space, and the movable finger 143A or 143B of the deformed fine control 143 is closed. When operated as described above, the scissors in the virtual space deform the object.
[0143]
The microphone fine control 144 is a fine control capable of inputting sound information, and has a sound input unit 144A capable of inputting sound. The voice input unit 144A converts voice input by a user or the like into an electrical signal and supplies the electrical signal to the control device 11 as voice information. The control device 11 supplies the audio information to the personal computer 21 or the like on which the application is operating and reflects it in the virtual space.
[0144]
For example, when the user moves the microphone fine control 144 and inputs voice at a predetermined position, the character corresponding to the microphone fine control 144 moves to the predetermined position in the virtual space and outputs the input voice, A phenomenon corresponding to the content of the voice occurs in the virtual space.
[0145]
The speaker fine control 145 has an audio output unit 145A that outputs the supplied audio information. For example, when the user moves the speaker fine control 145 to a predetermined position, audio information corresponding to the position is supplied to the speaker fine control 145 from the personal computer 21 or the like on which the application is executed via the control device 11. Then, a sound corresponding to the sound information is output from the sound output unit 145A.
[0146]
Similarly, the monitor fine control 146 includes a display 146A that outputs the supplied image information. For example, when the user moves the monitor fine control 145 to a predetermined position, an application is executed on the monitor fine control 145. The image information corresponding to the position is supplied from the personal computer 21 or the like via the control device 11, and the image corresponding to the image information is displayed on the display 146.
[0147]
The headset fine control 147 is a fine control combining the microphone fine control 144, the speaker fine control 145, and the monitor fine control 146, and has stereo speakers 147R and 147L, a display 147A, and a microphone 147B.
[0148]
When the user moves the headset fine control 147, sound corresponding to the location is output from the stereo speakers 147R and 147L, or an image corresponding to the location is displayed on the display 147A. Further, when the user inputs voice through the microphone 147B, the voice information is reflected in the virtual space.
[0149]
As described above, by using the base 13, an input function and an output function can be provided in the fine control 14, and the information input system in FIG. 1 can add various functions. In this case, if the application executed by the personal computer 21 or the like is compatible with the information input system, it is only necessary to attach the fine control 14 to the base 13, so that functions can be easily added and In addition, it is not necessary to prepare the position measuring unit 64 and the posture measuring unit 65, and functions can be added while suppressing an increase in manufacturing cost.
[0150]
Next, an example of the internal configuration of the various fine control devices 14 shown in FIG. 12 will be described using the headset fine control device 147 as an example.
[0151]
FIG. 13 is a diagram illustrating an internal configuration example of the headset fine control 147.
[0152]
As shown in FIG. 13, in addition to the storage unit 52 shown in FIG. 5, the headset fine control 147 includes an input unit 151 including a microphone 147B, and an output unit including stereo speakers 147R and 147L and a display 147A. 152 is provided. The storage unit 52, the input unit 151, and the output unit 152 are connected to a connection unit 153 to which the base 13 is connected, and are controlled by the control device 11 through the base 13.
[0153]
The input unit 151 may be anything as long as it has an input function for inputting real space information, such as a switch, jog dial, camera, optical sensor, temperature sensor, or pressure sensor. It is also possible to have a plurality of these functions at the same time.
[0154]
The output unit 152 may be any other device that outputs information to the real space, such as an actuator, an LED (Light Emitting Diode), or a three-dimensional hologram generator, A plurality of functions may be simultaneously provided.
[0155]
Note that unnecessary parts (input unit 151 or output unit 152) are also provided in the case of the spray fine control 141, the gripping fine control 142, the modified fine control 143, the microphone fine control 144, the speaker fine control 145, and the monitor fine control 146 shown in FIG. However, since it is basically the same as the configuration example shown in FIG.
[0156]
Next, as a specific example of the information input system using the fine control 14 as described above, a case where the monitor fine control 146 of FIG. 12 is used will be described with reference to FIG.
[0157]
In FIG. 14, the information input system includes a control device 11, a magnetic field generator 12, and a monitor fine control 146 (base 13).
[0158]
The control device 11 controls the magnetic field generator 12 to generate a magnetic field. The base 13 (not shown) to which the monitor fine control 146 is connected measures the position and orientation (tilt) of the magnetic field generator 12 in the coordinate system (Xm Ym Zm), and supplies the measured value to the control device 11.
[0159]
Based on the measurement value supplied from the base 13, the control device 11 calculates position information and posture information of the monitor fine computer 146 (base 13) and supplies it to the personal computer 21.
[0160]
The personal computer 21 executes an application that performs processing using information input by the information input system, and sets a virtual space corresponding to the coordinate system (Xm Ym Zm) of the magnetic field generator 12 by the application. In the virtual space, virtual buildings 162 and 163 that are virtual objects are set.
[0161]
The personal computer 21 calculates the position and posture of the monitor fine computer 146 in the virtual space based on the position information and posture information supplied from the control device 11, generates image information with the position as a viewpoint, and generates the control device 11. To supply. The control device 11 supplies the supplied image information to the monitor fine control 146.
[0162]
The monitor fine control 146 displays an image corresponding to the acquired image information on the display. Thereby, the virtual buildings 162 and 163 that do not exist in the real space are displayed on the display of the monitor fine control 146 as if they existed behind the monitor fine control 146.
[0163]
When the user moves the monitor fine control 146, the position measurement value and the posture measurement value supplied by the base 13 change. Therefore, the image information generated by the personal computer 21 also changes corresponding to the movement, and a new viewpoint is obtained. Image information from the position is supplied to the monitor fine control 146. As a result, a virtual space image with the position of the monitor fine control 146 as the viewpoint position is displayed on the display of the monitor fine control 146.
[0164]
That is, in this example, the virtual space is set at the same position as the real space, and the user can view the virtual space that is not visible to the naked eye (or the virtual object that exists in the virtual space) via the display of the monitor fine control 146. You can see.
[0165]
As described above, the input / output information control process executed by the control device 11 when the fine control 14 having the input unit or the output unit is used will be described with reference to the flowchart of FIG. The CPU 71 of the control device 11 causes the fine control unit 74 to start input / output information control processing based on a request from the personal computer 21 or the like.
[0166]
In step S61, the fine control unit 74 that has started the input / output information control process controls the communication unit 84 to determine whether or not input information has been acquired from the fine control unit 14 connected to the base 13 and having the input unit. To do.
[0167]
If it is determined that it has been acquired, the fine control unit 74 supplies the acquired input information to the personal computer 21 together with the ID information of the fine control 14 that is held in step S62, and the process proceeds to step S63.
[0168]
If it is determined in step S61 that input information has not been acquired from the fine control 14 connected to the base 13, the fine control control unit 74 skips the process of step S62 and advances the process to step S63.
[0169]
In step S <b> 63, the fine control unit 74 of the control device 11 controls the communication unit 84 to determine whether or not output information has been acquired from the personal computer 21.
[0170]
If it is determined that the output information has been acquired, the fine control unit 74 analyzes the acquired output information in step S64, and outputs the output information to the output unit of the fine control 14 corresponding to the acquired output information in step S65. Supply.
[0171]
Based on the ID information included in the acquired output information, the content of the output information, etc., the fine control unit 74 determines which output unit of which fine control 14 the output information is supplied to, and its output destination Supply output information.
[0172]
The fine control unit 74 that has supplied the output information proceeds to step S66.
[0173]
If it is determined in step S63 that output information has not been acquired from the personal computer 21, the fine control unit 74 of the control device 11 skips steps S64 and S65 and proceeds to step S66.
[0174]
In step S66, the fine control unit 74 determines whether or not to end the input / output information control process based on the user's instruction or the like. If it is determined that the input / output information control process is not ended, the process returns to step S61. Repeat the process.
[0175]
If it is determined in step S66 that the input / output information control process is to be ended based on a user instruction or the like, the fine control unit 74 performs the end process in step S67 and then ends the input / output control process.
[0176]
As described above, the control device 11 supplies the input information supplied from the fine control 14 to the personal computer 14 together with the ID information of the fine control 14, so the fine control 14 identifies the fine control 14 that supplied the input information. can do.
[0177]
In addition, since the control device 11 analyzes the output information supplied from the personal computer 21 and supplies it to the fine control device 14, for example, when a plurality of fine control devices 14 (a plurality of bases 13) are connected to the control device 11. Even when the fine control 14 has a plurality of types of output functions, the acquired output information can be supplied to the correct output destination.
[0178]
In the above, it demonstrated so that the control apparatus 11 might control each part of the fine control 14. FIG. That is, the control device 11 and the fine control 14 (base 13) are connected by a plurality of wires. For example, when acquiring ID information from the fine control 14, the control device 11 is connected to the storage unit of the fine control 14. A read signal of ID information is supplied to the storage unit 52 of the fine control 14 via a predetermined wiring, and the ID information is acquired.
[0179]
When acquiring the input information from the fine control 14, the control device 11 acquires the input information through a predetermined wiring different from the above-described wiring, and when supplying the output information to the fine control 14, the control device 11 further passes through the predetermined predetermined wiring. Output information.
[0180]
Therefore, in the case of the method as described above, it is necessary to assign different wirings for each function provided in the fine control 14. In other words, the number of functions provided in the fine control 14 may be limited by the number of wirings (or the number of connection terminals of the base 13).
[0181]
In order to avoid this limitation, a control unit may be provided in the fine control unit 14 to manage input / output of information in each unit of the fine control unit 14 and to perform communication between the fine control unit 14 and the control device 11 using a predetermined protocol. Good.
[0182]
Below, the case where the control part is provided in the fine control 14 is demonstrated.
[0183]
FIG. 16 is a diagram illustrating still another configuration example inside the fine control 14.
[0184]
The input unit 151, the storage unit 52, and the output unit 152 provided in the fine control 14 are connected to a control unit 171 that controls each part of the fine control 14. The control unit 171 is connected to a connection unit 172 connected to the base 13 and communicates with the control device 11 via the base 13 using a predetermined protocol.
[0185]
The connection part 172 is the same as the connection part 51 of FIG. 5 and has a connection terminal connected to the connection terminal of the base 13.
[0186]
The fine control process by the control device 11 in such a case will be described with reference to the flowchart of FIG.
[0187]
First, the fine control unit 74 controls the communication unit 84 in step S81 to perform a connection confirmation process for the fine control 14 connected to the base 13.
[0188]
The fine control unit 74 controls the communication unit 84 as a connection confirmation process, and outputs a connection confirmation request. When the fine control 14 is connected to the base 13, the request output from the communication unit 84 is supplied to the control unit 171 of the fine control 14 via the base 13. When the request is acquired, the control unit 171 acquires ID information from the storage unit 52 and supplies it to the control device 11 via the base 13 as a connection confirmation response together with other information.
[0189]
When the fine control 14 is not connected to the base 13, the request is not supplied to the control unit 171 of the fine control 14, so the control device 11 cannot obtain a connection confirmation response from the fine control 14.
[0190]
In step S82, the fine control unit 74 determines whether the fine control 14 is connected to the base 13 based on whether or not the connection confirmation response supplied from the fine control 14 is acquired based on the request. If it is determined that the ID is included, the process proceeds to step S83, and the ID information included in the acquired connection response is stored in the RAM 73 or the like.
[0191]
In step S <b> 84, the fine control unit 74 supplies the acquired ID information to the personal computer 21. Thus, the personal computer 21 (an application executed on the personal computer 21) can identify the fine control 14 connected to the base 13.
[0192]
The fine control unit 74 that has confirmed that the fine control unit 14 is connected to the base 13 proceeds to step S85 after a predetermined time, and controls the communication unit 84 to control the communication unit 84 in the same manner as in step S81. The ID information is requested to the connected fine control 14.
[0193]
In step S86, the fine control unit 74 determines whether or not the connection with the fine control is disconnected based on whether or not the connection confirmation response (ID information) is acquired, and the connection between the fine control 14 and the base 13 is established. If it is determined that the connection is not disconnected, the process proceeds to step S87, the ID information included in the acquired connection confirmation response is compared with the held ID information, and the fine control 14 connected to the base 13 is changed. It is determined whether or not it has been done.
[0194]
If it is determined that the ID information included in the acquired connection confirmation response is the same as the held ID information and the fine control 14 connected to the base 13 has not been changed, the fine control control unit 74 In S88, it is determined whether or not the fine control process is to be terminated based on a user instruction or the like. If it is determined that the process is to be ended, the fine control unit 74 performs an end process in step S89 and ends the fine control process.
[0195]
In step S82, if the connection confirmation response has not been acquired and it is determined that the fine control 14 is not connected to the base 13, the fine control unit 74 proceeds to step S90, and based on a user instruction or the like, It is determined whether or not to end the fine control process. When it determines with complete | finishing, the fine control part 74 returns a process to step S89, and repeats the process after it. If it is determined not to end, the fine control unit 74 returns the process to step S81 and repeats the subsequent processes.
[0196]
If it is determined in step S86 that a connection confirmation response has not been acquired and the connection between the fine control 14 and the base 13 has been disconnected, the fine control unit 74 advances the process to step S91 and performs personal communication via the communication unit 84. Request the computer 21 to delete the ID information. The fine control unit 74 that has requested the deletion of the ID information returns the process to step S81 and repeats the subsequent processes.
[0197]
If it is determined in step S87 that the ID information included in the acquired connection confirmation response is different from the ID information held and the fine control 14 connected to the base 13 has been changed, the fine control control unit 74 The processing is returned to S83, and the subsequent processing is repeated.
[0198]
If it is determined in step S88 that the fine control process is not terminated, the fine control unit 74 returns the process to step S85 and repeats the subsequent processes.
[0199]
As described above, the fine control unit 74 of the control device 11 communicates with the control unit 171 of the fine control 14, detects the fine control 14 connected to the base 13, and acquires ID information of the fine control 14. it can.
[0200]
Next, input / output information control processing by the control device 11 in such a case will be described with reference to the flowchart of FIG.
[0201]
In step S111, the fine control unit 74 that has started the input / output information control process controls the communication unit 84 to determine whether or not input information has been acquired from the fine control 14 having the input unit 151 connected to the base 13. judge.
[0202]
When the communication unit 84 communicates with the control unit 171 of the fine control 14 and determines that the information input in the input unit 151 of the fine control 14 is acquired, the fine control unit 74 determines the acquired input information in step S112. The information is supplied to the personal computer 21 together with the held ID information of the fine control 14, and the process proceeds to step S113.
[0203]
If it is determined in step S111 that the communication unit 84 is not communicating with the control unit 171 of the fine control 14 and the input information is not acquired from the control unit 171 of the fine control 14 connected to the base 13, the fine control unit In step 74, the process of step S112 is omitted, and the process proceeds to step S113.
[0204]
In step S113, the fine control unit 74 of the control device 11 controls the communication unit 84 to determine whether or not output information has been acquired from the personal computer 21.
[0205]
If it is determined that the output information has been acquired, the fine control unit 74 supplies the output information to the control unit 171 of the fine control 14 corresponding to the output information based on the ID information included in the acquired output information in step S114. To do.
[0206]
The fine control unit 74 that has supplied the output information proceeds to step S115.
[0207]
If it is determined in step S113 that output information has not been acquired from the personal computer 21, the fine control unit 74 of the control device 11 skips step S114 and proceeds to step S115.
[0208]
In step S115, the fine control unit 74 determines whether or not to end the input / output information control process based on a user instruction or the like. If it is determined that the input / output information control process is not ended, the process returns to step S111. Repeat the process.
[0209]
If it is determined in step S115 that the input / output information control process is to be ended based on a user instruction or the like, the fine control unit 74 performs the end process in step S116 and then ends the input / output control process.
[0210]
The control unit 171 of the fine control 14 connected to the base 13 responds to the processing by the control device 11 as described above by performing communication control processing. With reference to the flowchart of FIG. 19, the communication control process by the fine control 14 will be described.
[0211]
First, in step S131, the control unit 171 of the fine control 14 determines whether or not the connection confirmation request supplied in the connection confirmation process in step S81 of FIG. If it is determined that it has been acquired, the control unit 171 proceeds to step S132 and refers to a cache (not shown) built in the control unit 171 in order to supply a connection confirmation response based on the request. It is determined whether or not information is held.
[0212]
If it is determined that the ID information is not held, the control unit 171 reads out and acquires the ID information from the storage unit 52 in step S133, and holds the ID information in a cache containing the ID information in step S134. The control unit 171 having the ID information advances the process to step S135.
[0213]
If it is determined in step S132 that the ID information is held in the cache, the control unit 171 omits the processes in steps S133 and 134 and advances the process to step S135.
[0214]
In step S135, the control unit 171 includes other information together with the ID information, and supplies it to the control device 11 via the connection unit 172 as a connection confirmation response. The control unit 171 having supplied the connection confirmation response proceeds to step S136.
[0215]
If it is determined in step S131 that a connection confirmation request has not been acquired, the control unit 171 omits steps S132 to S135 and proceeds to step S136.
[0216]
In step S136, the control unit 171 determines whether or not the output information supplied in the process of step S114 of FIG. 18 has been acquired. If it is determined that the output information has been acquired, the control unit 171 proceeds to the process of step S137 and acquires the acquired output information. And the output information is supplied to the output unit 152 corresponding to the output information. The control unit 171 that has supplied the output information to the output unit 152 advances the process to step S138.
[0217]
If it is determined in step S136 that output information has not been acquired, the control unit 171 omits the process of step S137 and advances the process to step S138.
[0218]
In step S138, the control unit 171 determines whether or not the input information has been acquired from the input unit 151. If the control unit 171 determines that the input information has been acquired, the control unit 171 proceeds to step S139 and transmits the acquired input information via the connection unit 172. Is supplied to the control device 11, and the process proceeds to step S140.
[0219]
If it is determined in step S138 that input information has not been acquired, the control unit 171 omits the process of step S139 and advances the process to step S140.
[0220]
In step S140, the control unit 171 determines whether to end the communication control process based on a user instruction or the like. If it is determined not to end the process, the control unit 171 returns the process to step S131 and repeats the subsequent processes. .
[0221]
If it is determined in step S140 that the communication control process is to be ended, the control unit 171 ends the communication control process after performing the end process in step S141.
[0222]
As described above, the control unit 171 controls communication with the control device 11 and controls the input unit 151, the storage unit 52, and the output unit 152, and acquires and supplies necessary information. be able to.
[0223]
In the above description, the control unit 171 is provided in the fine control 14. However, the present invention is not limited to this. For example, the control unit 171 may be provided in the base 13 as shown in FIG.
[0224]
In FIG. 20, the base 13 includes a communication control unit 181 in addition to the units described with reference to FIG. The communication control unit 181 is connected to the connection units 61 and 62, and communicates with the control device 11 through the connection unit 61 in a predetermined communication method, and each unit of the fine control 14 through the connection unit 62. To control the operation.
[0225]
Further, the communication control unit 181 acquires the position measurement value and the posture measurement value supplied from the measurement value output control unit 63 and supplies them to the control device 11.
[0226]
The communication control process by the communication control unit 181 is basically the same as that described with reference to the flowchart of FIG. 19, and the flowchart of FIG. 19 can be applied.
[0227]
As described above, the information input system using the base 13 to which the present invention is applied can apply more types of fine control 14.
[0228]
In the above description, it has been described that the ID information for identifying the fine control 14 is stored in the storage unit 52 of the fine control 14, but this ID information identifies the type of fine control 14 (or the function of the fine control 14). It is also possible to identify each fine control 14. Further, for example, ID information defined for each application executed in the personal computer 21 in the case of FIG. 1 may be stored in the storage unit 52 of the fine control 14.
[0229]
Note that the storage unit 52 of the fine control unit 14 may be configured by a removable medium that is removable from the fine control unit 14, and the storage unit 52 may be replaceable. The ID information stored in the storage unit 52 of the fine control 14 may be rewritable by an instruction from the control device 11 or the like.
[0230]
In addition, for example, as illustrated in FIG. 21A, the storage unit 52 of the fine control unit 14 may associate additional information other than the ID information in association with the ID information. A case where the fine control 14 stores additional information in the storage unit 52 in association with the ID information will be described below.
[0231]
In FIG. 21A, additional information 192 that is information other than the ID information 191 related to the ID information 191 is added to the ID information 191 stored in the storage unit 52 of the fine control 14.
[0232]
The additional information 192 added to the ID information 191 may be basically any information. For example, as shown in FIG. 21B, the hunger degree 193 and fatigue of the character in the virtual space to which the fine control 14 corresponds. It may be a parameter indicating the progress of the game in the virtual space, such as a parameter indicating the state of the character such as degree 194, or item information 195 and 196 that is information related to the item acquired by the character.
[0233]
Further, as shown in FIG. 21C, the additional information 192 is a parameter indicating the state of the virtual object affected by the character corresponding to the fine control 14 in the virtual space, such as the deformation method 197 and the deformation amount 198. There may be.
[0234]
Note that the number of such additional information (data amount) may be determined in advance or may be a variable length. Further, when the fine control 14 corresponds to a plurality of characters, the additional information may be managed for each character, for example, by including the information of the character corresponding to the additional information in each additional information. In addition, when the FICOM 14 corresponds to a plurality of applications, the additional information is managed for each application by, for example, including information on the application corresponding to the additional information in each additional information. Also good.
[0235]
In addition, as shown in FIG. 21D, ID information 191 includes type ID information 201 for identifying the type of fine control 14 (functions possessed by fine control 14), and individual ID information 202 for identifying individual fine controls. Both of them may be included. Of course, three or more pieces of ID information corresponding to the same fine control 14 may be included.
[0236]
As shown in FIGS. 21A to 21C, by storing the additional information together with the ID information in the storage unit 52 of the fine control unit 14, for example, as shown in FIG. 22, one fine control unit 14 is connected to a different information input system. Even in this case, the parameters stored in the storage unit 52 can be used.
[0237]
In FIG. 22, in a system comprising an information input system comprising a control device 11-1, a magnetic field generator 12-1, and a base 13-1, and a personal computer 21-1 connected to the control device 11-1, a personal computer 21 It is assumed that the hunger degree 193, the fatigue degree 194, and the item information 195 are stored as the additional information 192 in the storage unit 52 of the doll ficon 14-2 connected to the base 13-1 by the application executed at -1.
[0238]
The user removes the doll ficon 14-2 from the base 13-1, and connects it to the base 13-2 of another information input system including the control device 11-2, the magnetic field generator 12-2, and the base 13-2. In this case, an application executed in the personal computer 21-2 connected to the control device 11-2 can use the additional information stored in the storage unit 52 of the doll fine control 14-2.
[0239]
21D, when the type ID information 201 and the individual ID information 202 are stored as ID information in the storage unit 52 of the fine computer 14, for example, as shown in FIG. 23, the additional information is associated with the ID information. By using a server to be managed, additional information corresponding to the fine control 14 can be used in a plurality of systems.
[0240]
In FIG. 23, personal computers 21-1 and 2 are connected to a network 211 typified by the Internet.
[0241]
A server 212 is further connected to the network 211. Since the server 212 has the same configuration as the personal computer 21 shown in FIG. 8 and has the same function, the internal configuration example shown in FIG. 8 can be applied. Further, the server 212 has an additional information database 213 in its storage unit 113, and parameters related to characters in applications executed in the personal computers 21-1 and 2 connected via the network 211 are stored in the fine control 14. It is stored in association with ID information.
[0242]
In the personal computer 21-1, when the application corresponding to the server 212 is executed, the user bases on the doll fine control 14-2 in which the type ID information 201 and the individual ID information 202 are stored in the storage unit 52. When connected to 1, the control device 11-1 acquires the type ID information 201 and the individual ID information 202 and supplies them to the personal computer 21-1.
[0243]
The personal computer 21-1 recognizes the type of the doll fine control 14-2 based on the type ID information 201 by the application being executed, and causes the corresponding character to appear in the virtual space. Further, the personal computer 21-1 supplies the ID information to the server 212 via the network 211 and causes the individual ID information 202 to be registered in the additional information database 213.
[0244]
The user operates the character in the virtual space by operating the doll fine control 14-2 to change the character state. The personal computer 21-1 supplies parameters such as a change in the state to the server 212 via the network 211 and causes the additional information database 213 to register the parameters. The server 212 uses the additional information database 213 to register additional information such as supplied parameters in association with the individual ID information 202.
[0245]
When the user removes the doll fine control 14-2 from the base 13-1 and connects to the base 13-2, the control device 11-2 acquires the type ID information 201 and the individual ID information 202 from the doll fine control 14-2, The data is supplied to the personal computer 21-2.
[0246]
The personal computer 21-2 requests the server 212 for additional information corresponding to the acquired individual ID information 202 via the network 211. The server 212 searches the additional information database 213 for additional information corresponding to the individual ID information 202, and supplies it to the personal computer 21-2 via the network 211. The personal computer 21-2 uses the additional information acquired from the server 212 to reproduce the state of the character corresponding to the doll fine control 14-2 in the virtual space.
[0247]
By doing as shown in FIG. 22 or FIG. 23, even when the doll ficon 14-2 is moved to a different information input system, the state of the character corresponding to the doll ficon 14-2 can be reproduced. Further, in the case of the system shown in FIG. 23, only the type ID information 201 and the individual ID information 202 need only be stored in the storage unit 52 of the doll fine control 14-2. Compared to the case of FIG. The storage capacity of the storage unit 52 of the fine control 14 can be reduced, and the manufacturing cost of the fine control 14 can be suppressed.
[0248]
Although the case where ID information and additional information are stored in the storage unit 52 of the fine control 14 has been described above, the present invention is not limited to this, and an additional information database may be provided in the storage unit 83 of the control device 11.
[0249]
Further, as shown in FIG. 24, a storage unit may be provided in the base 13 to store ID information and additional information of the connected fine control 14. FIG. 24 is a diagram illustrating another configuration example inside the base 13.
[0250]
In FIG. 24, the communication control unit 181 is provided with a storage unit 221 in addition to the measurement value output control unit 63. The storage unit 221 is configured by a storage element such as a DRAM or an EEPROM, and stores ID information and additional information of the fine control 14 connected to the base 13.
[0251]
By doing so, for example, as will be described later, when a plurality of fine control devices 14 are connected to one base 13, ID information and additional information such as facilitating management of parameters for the entire fine control devices 14, etc. Information management methods can be diversified.
[0252]
In the above description, one fine control 14 is connected to one base 13. However, the present invention is not limited to this. For example, a plurality of bases 13 may be connected to the connection device 11 at the same time.
[0253]
Further, a plurality of fine control devices 14 may be connected to one base 13. The case will be described below.
[0254]
For example, as shown in FIG. 25, a plurality of fine capacitors 14 may be connected to the base 13 in series. In other words, the vehicle fine control 231 connected to the base 13 is provided with a connection portion to which another fine control 14 can be connected, and a doll fine control 232 that is another fine control 14 can be connected.
[0255]
FIG. 26 is a diagram showing an internal configuration example of the vehicle fine control 231 of FIG.
[0256]
As shown in FIG. 26, the vehicle fine control 231 is provided with a connection portion 233 that can be connected to the doll fine control 232 in addition to the components shown in FIG. The shape of the connection terminal of the connection part 233 and the connection method with the doll fine control 232 are the same as those of the connection part 62 of the base 13 described with reference to FIG. In this way, the car fine control 231 can connect the doll fine control 232 that can be connected to the base 13 to the connection portion 233.
[0257]
In this case, the control unit 171 determines whether the information supplied via the base 13 is information for the vehicle fine control 231 based on ID information included in the information. This information is also supplied to the doll ficon 232, and the control unit of the doll ficon 232 similarly determines whether the acquired information is information for the doll ficon.
[0258]
In addition, the shape of the connection terminal of the connection part 233 and the connection method with the doll fine control 232 are different from the case of the connection part 62 of the base 13 so that the doll fine control 232 can be connected only to the car fine control 231. The shape and method may be used. In this case, the connection part included in the doll fine control 232 has a shape corresponding to the connection part 233.
[0259]
Note that the connection part 233 of the car fine control 231 may be connectable to a plurality of doll fine control 232. Further, like the car fine control 231, the doll fine control 232 may have a plurality of connection portions so that another fine control can be connected to the doll fine control 232.
[0260]
In this way, a plurality of fine capacitors 14 may be connected to the base 13 in series, but a plurality of fine capacitors 14 may be connected to the base 13 in parallel.
[0261]
FIG. 27 is a diagram illustrating an internal configuration example of the base 13 when a plurality of fine control devices 14 can be connected in parallel.
[0262]
In FIG. 27, the base 13 is provided with a communication control unit 241 to which a connection unit 62A capable of connecting the fine control 14A and a connection unit 62B capable of connecting the fine control 14B are connected.
[0263]
The communication control unit 241 communicates with the control device 11 via the connection unit 61 and supplies the measurement value supplied from the measurement value output control unit 63 to the control device 11 or from the fine control 14A via the connection unit 62A. The supplied information or the information supplied from the fine control 14B through the connection unit 62B is supplied to the control device 11 through the connection unit 61, or the information supplied from the control device 11 through the connection unit 61 The fine control 14 corresponding to the information is selected from the fine control 14A or 14B, and the information is supplied through the connection unit 62A or 62B.
[0264]
Note that the number of connection units 62 connected to the communication control unit 241 may be any number, or three or more.
[0265]
As described above, by allowing the base 13 to connect a plurality of fine control units 14 in series or in parallel, the base 13 can easily cope with more types of fine control units 14 and users. Makes it possible to implement a modeling operation using both hands or an application in which many people participate simultaneously.
[0266]
In the above description, the electrical connection between the base 13 and the fine control 14 has been described as being performed by physical contact between the metal connection terminals provided on the base 13 and the fine control 14, but the present invention is not limited thereto. For example, a non-contact method using electromagnetic induction or electrostatic induction may be used.
[0267]
Further, even if the base 13 and the fine control 14 are not electrically connected, for example, as shown in FIG. 28, the base 13 and the fine control 14 may be structurally connected.
[0268]
28A, a plurality of buttons 251-1 and 251-9 having a predetermined shape are provided on the upper surface of the base 13 in the drawing.
[0269]
The fine control 14 that can be connected to the base 13 is provided with a button 253 as the input unit 151. The information input system using the base 13 is information indicating whether or not the user has pressed the button 253 of the fine control 14. Enter.
[0270]
The base 13 is provided with a convex portion 252 at a predetermined position, and the fine control 14 is provided with a concave portion 254 corresponding to the convex portion 252. Thereby, the fine control 14 can be connected to the base 13 only in a predetermined direction.
[0271]
As shown in FIG. 28B, convex portions 255-1 and 255-2, 255-4, and convex portions 255-6 are formed on the back surface of the fine control 14 which is the surface facing the button 253. To 255-9 are provided. When the fine control 14 is connected to the base 13, the buttons 251-1 and 251-2, 251-4 of the base 13 and the buttons 251-6 to 251-6 are provided. It is arranged to press 251-9.
[0272]
The buttons 251-1 to 251-9 are digital switches, and when the fine control 14 is connected to the base 13, some of these buttons are pressed.
[0273]
In the case shown in FIG. 28, the fine control 14 connected to the base 13 has buttons 251-1 and 251 by the convex portions 255-1 and 255-2, 255-4 and the convex portions 255-6 to 255-9. -2, 255-4, and buttons 255-6 to 255-9 are pressed.
[0274]
The base 13 supplies information indicating the pressed button to the control device 11, and the control device 11 determines the type of the fine control 14 connected by the pressed pattern and supplies the information to the personal computer 21 or the like. .
[0275]
Further, as shown in FIG. 28B, a movable portion 255-5 is provided on the back surface of the fine control 14 that is the surface opposite to the surface on which the button 253 is provided. The movable portion 255-5 is arranged at a position corresponding to the button 251-5 of the base 13 when the fine control 14 is connected to the base 13, and presses the button 251-5 in accordance with the movement of the button 253. To work.
[0276]
That is, as illustrated in FIG. 28C, when the user presses the button 253 in a state where the fine control 14 is connected to the base 13, the movable unit 255-5 moves to the button 251 in accordance with the pressed movement of the button 253. When the user releases the button 253, the movable unit 255-5 returns the button 251-5 to the original state in accordance with the movement of the button 253 to the original state. Operate.
[0277]
When the button 251-5 is pressed, the base 13 supplies information indicating that the button 251-5 has been pressed to the control device 11, and the control device 11 supplies the information to the personal computer 21 or the like.
[0278]
By doing so, an information input system can be realized even if the base 13 and the fine control 14 are not electrically connected.
[0279]
In the above, the control device 11 measures the magnetic field generated by the magnetic field generator 12, and generates information on the three-dimensional position and orientation of the base 13 (Ficon 14) based on the measured value. However, the present invention is not limited to this, and an image information input device such as a camera is provided separately from the magnetic field generator 12 and the base 13, and the control device 11 is based on information input from this device. You may make it correct | amend the information regarding the position and attitude | position of this.
[0280]
In addition, the position information and orientation information of the base 13 (Ficon 14) are not limited to the magnetic method described above, for example, a method using ultrasonic waves, a method using image information, a method using an optical sensor, or a gyroscope. May be used, and other methods may be used. A plurality of these methods may be combined.
[0281]
Furthermore, the information input by the base 13 is not limited to information related to the position and orientation of the base 13 (the fine control 14 connected to the base 13), and may be other information.
[0282]
Note that the control device 11, the magnetic field generator 12, or the base 13 of the information input system described above may be configured to be integrated with a part or all of other devices, or a part of each device. May be configured separately.
[0283]
The series of processes described above can be executed by hardware, or can be executed by software as described above. When a series of processing is executed by software, various functions can be executed by installing a computer in which the programs that make up the software are installed in dedicated hardware, or by installing various programs. For example, it is installed from a recording medium or the like into a general-purpose personal computer or the like.
[0284]
As shown in FIG. 7 or 8, the recording medium is distributed to provide a program to the user separately from the personal computer, and a magnetic disk (including a flexible disk) on which the program is recorded, an optical disk (CD) -Removable media including package media composed of ROM (Compact Disc-Read Only Memory), DVD (Digital Versatile Disc), magneto-optical disk (MD (Mini-Disc) (including registered trademark)), or semiconductor memory The ROM 72, the ROM 102, or the measured value output control unit 63, which is not only configured by the media 91 or 121 but is provided to the user in a state of being pre-installed in the computer, stores the program, A ROM (not shown) included in the control unit 74, the position information calculation unit 75, the control unit 171, the communication control unit 181, the communication control unit 241, or the like, the storage unit 52, the storage unit 83, the storage unit 113, or the storage unit 221. It is composed of a hard disk etc.
[0285]
In this specification, the steps for describing the program provided by the medium are performed in parallel or individually in accordance with the described order, as well as the processing performed in time series, not necessarily in time series. The process to be executed is also included.
[0286]
Further, in this specification, the system represents the entire apparatus constituted by a plurality of apparatuses.
[0287]
【The invention's effect】
As described above, according to the present invention, information can be input. In particular, it is possible to input more types of information while suppressing an increase in manufacturing cost.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of an information input system using an input device to which the present invention is applied.
FIG. 2 is a perspective view showing an example of the appearance of the base of FIG. 1;
FIG. 3 is a perspective view showing an example of a state in which the base of FIG. 1 is connected to a doll fikon.
4 is a diagram showing an example of a state in which the fine control unit of FIG. 1 is connected to the base. FIG.
FIG. 5 is a block diagram showing an example of the internal configuration of the fine control device of FIG. 1;
6 is a block diagram showing an example of the internal configuration of the base shown in FIG. 1. FIG.
7 is a block diagram showing an example of the internal configuration of the control device of FIG. 1;
8 is a block diagram illustrating an internal configuration example of the personal computer of FIG. 1;
FIG. 9 is a flowchart for describing fine control processing by the control device of FIG. 1;
FIG. 10 is a flowchart for describing position / orientation information calculation processing by the control device of FIG. 1;
11 is a diagram illustrating a case where the information input system of FIG. 1 is connected to a display device.
12 is a diagram for explaining another example of the fine control of FIG. 1. FIG.
13 is a diagram showing an example of the internal configuration of the headset fine control shown in FIG. 12. FIG.
14 is a diagram for explaining a case where the monitor fine control of FIG. 12 is connected to a base. FIG.
15 is a flowchart for describing input / output information control processing by the control device of FIG. 14;
16 is a block diagram showing another configuration example of the inside of the fine control device of FIG. 1; FIG.
FIG. 17 is a flowchart for explaining another example of fine control processing by the control device of FIG. 1;
FIG. 18 is a flowchart illustrating another example of input / output control processing by the control device of FIG. 14;
FIG. 19 is a flowchart for describing communication control processing by the fine control of FIG. 16;
20 is a block diagram showing another configuration example inside the base of FIG. 1;
FIG. 21 is a schematic diagram illustrating a configuration example of information stored in a storage unit in FIG. 5;
22 is a diagram for explaining a case where a fine control that stores information of FIG. 21 is connected to a base. FIG.
FIG. 23 is a diagram for explaining another example in the case where a fine control for storing the information of FIG. 21 is connected to the base.
FIG. 24 is a block diagram showing still another configuration example inside the base.
FIG. 25 is a diagram illustrating a connection example of fine control.
26 is a block diagram showing an example of the internal configuration of the vehicle fine control shown in FIG. 26. FIG.
FIG. 27 is a block diagram showing still another configuration example inside the base.
FIG. 28 is a diagram illustrating a configuration example and connection method of a base and a fine control.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 Control apparatus, 12 Magnetic field generator, 13 Base, 14 Ficon, 21 Personal computer, 31 Connection part, 32-1 thru | or 32-5 connection terminal, 41 Base receiving hole, 51 Connection part, 52 Storage part, 61 Connection part, 62 connection unit, 63 measurement value output control unit, 64 position measurement unit, 65 attitude measurement unit, 74 fine control unit, 75 position and orientation information calculation unit, 141 spray icon, 142 gripping fine control, 143 deformation fine control, 144 microphone fine control, 145 Speaker fine control, 146 monitor fine control, 147 headset fine control, 151 input section, 152 output section, 171 control section, 172 connection section, 181 communication control section, 191 ID information, 192 additional information, 193 hunger degree, 194 fatigue degree, 195 And 196 Item information, 197 deformation method, 198 deformation amount, 201 type ID information, 202 individual ID information, 211 network, 212 server, 213 additional information database, 221 storage unit, 231 car ficon, 232 doll ficon, 233 connection unit, 241 communication Control part, 251-1 to 251-9 button, 252 convex part, 253 button, 254 concave part, 255-1, 255-2, 255-4, and 255-6 to 255-9 convex part, 255-5 movable part

Claims (23)

A first input device for inputting first information;
A second input device that is detachable from the first input device and inputs second information;
An information input system comprising: a control device that controls the first input device and the second input device,
The first input device includes:
Measuring means for measuring the first information;
First supply means for supplying a measurement value of the first information measured by the measurement means to the control device;
First connecting means for electrically connecting the mounted second input device to the control device;
The second input device is:
Storage means for storing the second information;
A second supply means for supplying the second information stored in the storage means to the control device;
The control device includes:
First acquisition means for acquiring the measurement value supplied by the first supply means;
Calculation means for calculating information on the first input device based on the measurement value acquired by the first acquisition means;
Second acquisition means for acquiring the second information supplied by the second supply means;
Third supply means for supplying the information related to the first input device calculated by the calculation means or the second information acquired by the second acquisition means to another information processing apparatus; An information input system comprising: The information input system according to claim 1, wherein the first information is information related to a position or an inclination of the first input device at a predetermined three-dimensional coordinate. The control device further includes magnetic field generating means for generating a magnetic field for generating the three-dimensional coordinates,
The information input system according to claim 2, wherein the measurement unit measures information related to a position or an inclination of the first input device based on the magnetic field generated by the magnetic field generation unit. The first input device can be equipped with a plurality of the second input devices,
2. The information input according to claim 1, wherein the first connection unit electrically connects a plurality of the second input devices mounted on the first input device to the control device. system. The second information is identification information for identifying the second input device or information indicating the state of the second input device, and includes additional information added to the identification information. The information input system according to claim 1, wherein: The second input device further includes input receiving means for receiving input of third information from the outside,
The information input system according to claim 1, wherein the second supply unit further supplies the control unit with the third information whose input is received by the input reception unit. 7. The information input system according to claim 6, wherein the third information includes audio information, image information, temperature information, pressure information, control information, or information indicating a change amount of a predetermined parameter. The control device further includes fourth supply means for supplying fourth information supplied from the other information processing device to the second input device,
The information input system according to claim 1, wherein the second input device further includes an output unit that outputs the fourth information supplied from the control device by the fourth supply unit. The information input system according to claim 8, wherein the fourth information includes audio information, image information, or control information. The second input device further includes second connection means for electrically connecting another second input device to the control device in a state where the second input device is mounted on the first input device. The information input system according to claim 1. The information input system according to claim 1, wherein the second input device further includes a communication control unit that controls communication with the control device. An input device for inputting information to an information processing device,
Measuring means for measuring the first information;
Supply means for supplying a measurement value of the first information measured by the measurement means to the information processing apparatus;
Connection means detachably attached to the input device and connected to the information processing device for another input device for inputting second information attached to the input device. An input device. The first information is information regarding the position of the input device in predetermined three-dimensional coordinates,
The measuring means measures the position of the input device;
The input device according to claim 12, wherein the supply unit supplies the information processing device with a measurement value measured by the measurement unit and related to the position of the input device. The first information is information relating to the inclination of the input device at a predetermined three-dimensional coordinate,
The measuring means measures the inclination of the input device;
The input device according to claim 12, wherein the supply unit supplies the information processing apparatus with a measurement value measured by the measurement unit and related to the inclination of the input device. The input device according to claim 12, wherein the connection unit electrically connects the other input device having a storage unit that stores the second information to the information processing device. The input device according to claim 12, wherein the second information includes identification information for identifying the other input device. The input device according to claim 16, wherein the second information is information indicating a state of the other input device, and further includes additional information added to the identification information. The connection unit includes an input receiving unit that receives an input of third information from the outside, and the other input device that supplies the third information received by the input receiving unit to the information processing device. The input device according to claim 12, wherein the input device is electrically connected to the information processing device. The input device according to claim 18, wherein the third information includes audio information, image information, temperature information, pressure information, control information, or information indicating a change amount of a predetermined parameter. The said connection means electrically connects said other input device which has an output part which outputs the 4th information supplied from the said information processing apparatus to the said information processing apparatus. The input device described. The input device according to claim 20, wherein the fourth information includes audio information, image information, or control information. The input device according to claim 12, wherein the connection unit is capable of connecting a plurality of the other input devices to the information processing device. 13. The input device according to claim 12, further comprising power supply means for supplying power to the other input device electrically connected to the information processing apparatus by the connection means.

Images