CN101369181A - Inertia sensing input controller and receiving device and its interactive system - Google Patents
Inertia sensing input controller and receiving device and its interactive system Download PDFInfo
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- CN101369181A CN101369181A CN 200710145226 CN200710145226A CN101369181A CN 101369181 A CN101369181 A CN 101369181A CN 200710145226 CN200710145226 CN 200710145226 CN 200710145226 A CN200710145226 A CN 200710145226A CN 101369181 A CN101369181 A CN 101369181A
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Abstract
The invention provides an inertial sensing input control device that can capture body movements for facilitating an electronic device to identify, a receiving device and an interactive system. The inertial sensing input control device comprises an inertial sensing module group that can sense parameters of limbs when in continuous actions with time and transmit the parameters to the receiving device. In addition, the inertial sensing input control device furthermore integrates a plurality of different input modes, and the electronic device can enter different operation modes according to the input modes after the receiving device receives the action parameters. On the other hand, the parameters produced by the inertial sensing input control device can also be directly transmitted to the electronic device to make the electronic device judge the actions or conditions further according to the parameters, so as to increase the interactive diversity.
Description
Technical field
The present invention is about a kind of input and receiving trap, refers in particular to that a kind of have can the sensing limb action and can switch different input patterns to produce interactive a kind of inertia sensing input control device and receiving trap with electronic installation.
Background technology
The development of multimedia game is existing for many years, in recent years because the development rapidly of semiconductor industry has more driven the growth and the progress of electronic industry, makes the calculation process ability of relevant electronic installation also significantly promote.Also,, make the player when playing multimedia game, can immerse and incorporate in the dreamland of acousto-optic, enjoy the pleasant sensation of multimedia game no matter be that sound, image or animation all have great breakthrough in the development of multimedia game because so.
The effect although the audio-visual enjoyment for recreation of multimedia game has greatly improved, but generally speaking, in the most multimedia recreation, the interface of linking up between player and recreation all is existing input interface, as: keyboard, mouse or rocking bar etc.No matter be the multimedia game of what kind therefore, the player still only can come to carry out interaction with recreation by the existing input interface of operation by human hand, thus, will reduce the enjoyment of recreation.
For allow the player can and recreation between produce interactive, disclosed a kind of game control device of prior art such as U.S. publication US.Pub.No.20070072680 and games system, just disclose revolutionary control mode, utilized user's action that recreation is controlled.The representative of the games system of this type is with headed by time generation game machine Wii of recent Nintendo, and the intuition action that utilizes the sensing of limbs or brandish substitutes the rocking bar operation of many push buttons, has therefore driven the new trend of game control.
But, in the middle of the aforesaid technology, lack the technology of integrating polynary input interface, though at U.S. bulletin patent US.Pat.NO.6,782,245 have the wireless peripheral interface that discloses a kind of USB of having, and can receive different input interfaces wirelessly simultaneously, again signal are transferred to electronic installation by USB.But this technology still needs various input media, and all input medias can't be integrated into one.
Comprehensively above-mentioned, therefore need a kind of inertia sensing input control device and receiving trap and interaction systems thereof badly, the operation-interface that provides the user to integrate also can reach the effect of interactive operation.
Summary of the invention
The purpose of this invention is to provide a kind of inertia sensing input control device and receiving trap and interaction systems thereof, it is can utilize the action parameter that inertia sensing module sensing limb action produced and transfer to receiving trap to carry out computing picking out the action of human body, and then identification result is transferred to electronic installation produces interaction with the user.
Another object of the present invention provides a kind of inertia sensing input control device and receiving trap and interaction systems thereof, this inertia sensing input control device is integrated most input interfaces of planting, and will select the signal of input interface to transfer to receiving trap, receiving trap makes electronic installation enter different operator schemes according to selecting, and allows the user can use single control interface can carry out the input of different demands.
Another purpose of the present invention provides a kind of inertia sensing input control device and receiving trap and interaction systems thereof, wherein, the inertia sensing input control device can directly transfer to electronic installation with the action parameter that produces, electronic installation is further moved or the judgement of situation according to parameter, to increase interactive diversity.
In one embodiment, the invention provides a kind of inertia sensing input control device, comprising: an inertia sensing module, it is to have at least one inertia sensing device, produces at least one inertia sensing parameter with at least one operational motion of sensing; One interface unit, it is to produce at least one input signal; One switches the unit, and it is to select to switch most input patterns; An and wireless transmission control unit, it is to connect by chance mutually with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can produce and transmits a control signal according to this at least one inertia sensing parameter, this at least one input signal and this at least one input pattern.
In another embodiment, the invention provides a kind of inertia sensing input control device, comprising: an inertia sensing module, it is to have at least one first inertia sensing device, produces at least one first inertia sensing parameter with at least one operational motion of sensing; One interface unit, it is to produce at least one input signal; One switches the unit, and it is to select to switch to a few input pattern; Most the second inertia sensing devices, it is can at least one operational motion of sensing and produce one second inertia sensing parameter; One wireless transmission control unit, it is to connect by chance mutually with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can produce and transmits a control signal and this inertia sensing parameter according to this at least one first and second inertia sensing parameter, this at least one input signal and this at least one input pattern; And an electronic installation, it is can receive this inertia sensing parameter to perform calculations.
In another embodiment, the invention provides a kind of receiving trap, comprising: a receiving element, it is to receive a control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern; One arithmetic element, it is to connect by chance mutually with this receiving element, and this at least one inertia sensing parameter is performed calculations parsing at least one actuating signal, and produces one according to this at least one input signal and this at least one input pattern and control signal; And a connecting interface unit, it is this at least one actuating signal and this can be controlled signal to transfer to an electronic installation.
In another embodiment, the invention provides a kind of interaction systems, bag
Draw together: an inertia sensing module, it is to have at least one first inertia sensing device, produces at least one first inertia sensing parameter with at least one operational motion of sensing; One interface unit, it is to produce at least one input signal; One switches the unit, and it is to select to switch to a few input pattern; Most the second inertia sensing devices, it is can at least one operational motion of sensing and produce one second inertia sensing parameter; One wireless transmission control unit, it is to connect by chance mutually with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can produce and transmits a control signal according to this at least one first and second inertia sensing parameter, this at least one input signal and this at least one input pattern; One receiving trap, it is to receive this control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern; And an electronic installation, it is to perform calculations according to this at least one inertia sensing parameter, at least one input signal and at least one input pattern.
Description of drawings
For making the auditor further cognitive and understanding be arranged to feature of the present invention, purpose and function, hereinafter the spy describes the relevant thin portion structure of device of the present invention and the theory reason of design, so that the auditor can understand characteristics of the present invention, detailed description is presented below, wherein:
Fig. 1 is the interaction systems first embodiment synoptic diagram for utilizing inertia sensing input control device of the present invention and receiving trap to form.
Fig. 2 is inertia sensing input control device of the present invention and the receiving trap first embodiment block schematic diagram.
Fig. 3 selects decision flow chart for input pattern of the present invention.
Fig. 4 is input pattern combination synoptic diagram.
Fig. 5 A to Fig. 5 C is the defeated corresponding different input interface synoptic diagram of inertia sensing input control device during for the mouse input pattern.
Fig. 6 is inertia sensing input control device of the present invention and the receiving trap second embodiment block schematic diagram.
Fig. 7 A is the interaction systems second embodiment synoptic diagram for utilizing inertia sensing input control device of the present invention and receiving trap to form.
Fig. 7 B is inertia sensing input control device of the present invention and receiving trap the 3rd embodiment block schematic diagram.
Embodiment
See also shown in Figure 1ly, this figure is the interaction systems first embodiment synoptic diagram for utilizing inertia sensing input control device of the present invention and receiving trap to form.This interaction systems 2 comprises an electronic installation 20, a receiving trap 21 and an inertia sensing input control device 23.This interaction systems 2 can allow the user carry out interaction by the multimedia software in inertia sensing input control device 23 and receiving trap 21 and this electronic installation 20.This electronic installation 20 is to can be computing machine or other has the game machine of calculation process ability and the combination of flat-panel screens.In the present embodiment, this electronic installation 20 is to be computing machine.It is to connect with a coupling assembling 213 and this electronic installation 20 idols for this receiving trap 21.In the present embodiment, the mode that connects of idol be for use the general-purpose sequence port (universal seria lbus, USB), but not as limit.
This inertia sensing input control device 23, the mode of then utilizing wireless telecommunications with information transmission to this receiving trap 21.This wireless communication mode be may be selected to be bluetooth communication or radio-frequency communication one of them, but not as limit.These inertia sensing input control device 23 front ends have power switch 230, have most buttons in addition on its surface, as: cross button 231, preceding key 232, A key 233, operating key group 2
34 and B key 235 etc.Aforesaid control-key combinations is can design at needs to increase or reduce, and does not exceed with embodiment of the present invention.Side at this inertia sensing input control device 23 can provide electric battery 24 to put, to supply required power supply.In addition, also be provided with a charging inlet 25, make that the user can be at any time by this charging inlet 25 chargings at the tail end of these inertia sensing input control device 23 housings.Mode as for charging is not do at this for existing technology to give unnecessary details.
Seeing also this figure shown in Figure 2 is to be inertia sensing input control device of the present invention and the receiving trap first embodiment block schematic diagram.This inertia sensing input control device 23 has an inertia sensing module 236, and switches unit 238, a wireless transmission control unit 239 and an interface unit 237.This inertia sensing module 236, it is to have at least one inertia sensing device, produces at least one inertia sensing parameter with at least one operational motion of sensing.This inertia sensing device can be chosen as gyroscope or acceleration sensor.Since this inertia sensing device can sensing user limbs action, therefore this inertia sensing device the position is set in can being arranged on this inertia sensing control device, the particular portion that can also be arranged at human body limb is, for example: positions such as belly, preceding arm, thigh, but not as limit.In the present embodiment, this inertia sensing device is to be arranged in this inertia sensing input control device 23.
This interface unit 237, it is to produce at least one input signal, this interface unit 237 be with Fig. 1 in control-key combinations electrically connect.When the user pressed any key on the inertia sensing control device 2 or key combination, this interface unit 237 can receive all signals, and signal is passed to this wireless transmission control unit 239.This switch unit 238, its be with Fig. 1 in mode switch build 2343 and electrically connect, to select to switch at least one input pattern.Aforesaid input pattern is meant the input pattern of user's input interface I/O, for example: and keyboard, mouse or rocking bar, do not exceed with aforementioned certainly.This wireless transmission control unit 239, it is to connect with this inertia sensing module 236, this interface unit 237 and this switch unit 238 are even mutually.This wireless transmission control unit 239 can produce and transmit a control signal according to this at least one inertia sensing parameter, this at least one input signal and this at least one input pattern gives this receiving trap 21.This wireless transmission control unit 239 can select to utilize the mode of less radio-frequency, as the mode and the mutual communication of receiving trap of RFID etc. or bluetooth communication.
This receiving trap 21 has a receiving element 210, an arithmetic element 211 and a connecting interface unit 212.This receiving element 210, it is to receive a control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern.This arithmetic element 211, its be with this receiving element 210 mutually idol connect, and this at least one inertia sensing parameter is performed calculations parsing at least one actuating signal, and according to this at least one input signal and should at least one input pattern generation one control signal.This connecting interface unit 212, it is this at least one actuating signal and this can be controlled signal to transfer to this electronic installation 20.Idol between this connecting interface unit 212 and this electronic installation 20 connects mode can utilize wireless or wired mode.Wherein wireless mode can select to utilize bluetooth or radio-frequency communication, as: the radio frequency identification communication (radio frequencyidentificaiton, RFID); (universal serial bus, USB), but not as limit, the connectivity port of other connectivity port such as RS232 or SCSI also can use can to select the general-purpose sequence port as for limited mode.
Next running between inertia sensing input control device of the present invention and the receiving trap is described, as Fig. 1 and shown in Figure 2, when the user when using multimedia game or interaction software, the user can operate this inertia sensing input control device 23 by limbs, and this inertia sensing module 236 can sense the action of limbs and produce the inertia sensing parameter then.Certainly in the process that recreation or software carry out, the user can pass through operating key, as: cross button 231, A key 233 or B key 235 wait to be controlled to increase the diversity of interaction.
In the process of interaction, this switch unit 238 can the sensing user be selected the combination of input pattern by the switching of mode switching key.As shown in Figure 3, this figure selects decision flow chart for input pattern of the present invention.At first in the step 30, switch unit 238 enters the input pattern switching according to the selection of mode switching key 2343.This switch unit 238 can be judged mouse input pattern flag, rocking bar input pattern flag and keyboard input pattern flag target value, selects and carry out input pattern.Relation between input pattern and each flag value as shown in Figure 4.Return shown in Figure 3ly, carry out step 31 afterwards, the arithmetic element 211 of receiving trap 21 detects after the switch mode, carry out step 32 again, gives electronic installation 20 according to the switch mode that detects with information transmission.For example,, then can select rocking bar to add the combination of keyboard input pattern, as the basis of linking up with electronic installation if judge rocking bar input pattern flag and keyboard input pattern flag target value is 1.
Return Fig. 1 and shown in Figure 2, in the present embodiment, having selected the mouse input pattern with the user is example, and the control relation figure of the corresponding actual mouse of each button on its inertia sensing input control device is shown in Fig. 5 A.That is to say, when the user has selected the mouse input pattern, though do not operate mouse, by this inertia sensing input control device 23 promptly can the emulation mouse control, on this electronic installation 20, produce interactive effect.For example: when the user presses left button 2340, middle key 2341, the right button 2342 of inertia sensing input control device 23 merely, then can correspond to the left button of true mouse, middle key, right button.As for if the mouse beacon cursor time, then can control the sensing of cursor in the electronic installation 20 by moving this inertia sensing input control device 23.
In addition shown in Fig. 5 B and Fig. 5 C, wherein Fig. 5 B is that inertia sensing input control device input combination is imported corresponding synoptic diagram with rocking bar during for the rocking bar input pattern; Fig. 5 C is that inertia sensing input control device input combination is imported corresponding synoptic diagram with keyboard during for the keyboard input pattern.Shown in Figure 1 with Fig. 5 B cooperation, the user can utilize left button 2340, right button 2342 or the middle key 2341 etc. of inertia sensing input control device 23 to correspond to the input button of rocking bar.And for example among Fig. 5 C, the user can utilize how different actions, allows the different inertia sensing parameter that action produced of these inertia sensing input control device 23 sensings, to make up more pattern, corresponds to the button of keyboard.Make the user can switch input pattern arbitrarily, create more interactive situation electronic installation 20.
See also shown in Figure 6ly, this figure is inertia sensing input control device of the present invention and the receiving trap second embodiment block schematic diagram.In the present embodiment, basically same as shown in Figure 2, the place of difference is that the inertia sensing parameter that this wireless transmission control unit can also directly be sensed inertia sensing module 239 directly passes to this electronic installation 20, this electronic installation 20 can directly be performed calculations, judge and interactive situation to trigger the more action of multimedia software or recreation.
Shown in Fig. 7 A, this figure is the interaction systems second embodiment synoptic diagram for utilizing inertia sensing input control device of the present invention and receiving trap to form.In the present embodiment, this interaction systems 2 has a multimedia device 26, a receiving trap 21, an inertia sensing control device 23 and the second inertia sensing module 27.In the present embodiment, this multimedia device 26 is to be the game machine with calculation process ability and the combination of flat-panel screens.This receiving trap 21 is as Fig. 1 and the described structure of Fig. 2 with this inertia sensing input control device 23, does not do at this and gives unnecessary details.
This second inertia sensing module 27, it is to have most second inertia sensing devices 271-275, it is to be arranged at the action that movable object can the sensing movable object on one's body and to produce most the second inertia sensing parameters.In the present embodiment, this movable object is to be human body, and the position that is provided with is on each limbs of human body and belly.Shown in Fig. 7 B, this figure is for utilizing the second inertia sensing device synoptic diagram of the present invention.In the present embodiment, also have a wireless launcher 2710 on this second inertia sensing device 271-275, the second inertia sensing parameter that senses can be reached on this inertia sensing input control device 23.
Running between this inertia sensing input control device and this receiving trap as previously mentioned, is not done at this and to be given unnecessary details.Next the function mode of second inertia sensing input module 27 in the interaction systems is described, shown in Fig. 7 A and Fig. 7 B, when sensing the second inertia sensing parameter, the second inertia sensing device 271-275 in this second inertia sensing module 27 is sent to the reception module 2391 of this inertia sensing input control device 23 by wireless launcher 2710, this reception module 2391 can transmit signals to this wireless transmission control unit 239 after receiving then, and running subsequently as previously mentioned.In addition, owing in the present embodiment, most the second inertia sensing devices 271-275 are set on user's limbs, the situation when therefore allowing the user again with the electronic installation interaction is more polynary.Certainly in the embodiment of Fig. 7 A and Fig. 7 B, button and combination of actions that the selection of the switch unit 238 by inertia sensing input control device 23 also can allow the inertia sensing input control device 23 and the second inertia sensing module 27 be produced, corresponding to the different input interface of Fig. 5 A to Fig. 5 C.
Only above-described, only be preferred embodiment of the present invention, when can not with the restriction scope of the invention.Be that every equalization of doing according to claim of the present invention changes and modification, will do not lose main idea of the present invention place, also do not break away from the spirit and scope of the present invention, the former capital should be considered as further enforcement situation of the present invention.For example: though Fig. 5 A to Fig. 5 C indivedual corresponding keyboard, mouse or rocking bar, can Fig. 5 A to Fig. 5 C can be carried out combination in any according to explanation of the present invention for the people who is familiar with this technology.That is to say, as long as utilize the combination of an inertia sensing control device or inertia sensing control device and other inertia sensing device can corresponding any input interface according to the person of being used in combination shown in Figure 4, therefore can exempt the puzzlement that needs different input interfaces under the different situations.Allow the user can utilize single control device to carry out the input of various different demands.
Comprehensively above-mentioned, inertia sensing input control device provided by the invention and receiving trap, the parameter of can the sensing limbs making continuous action in time, and integrate majority and plant different input patterns, make receiving trap after receiving action parameter, can make electronic installation enter into different operator schemes according to this input pattern.Therefore can satisfy the demand of industry, so improve the competitive power of this industry and drive arround the development of industry, really met the required condition that possesses of Patent Law defined application invention, so propose the application of patent of invention in accordance with the law.
Claims (22)
1. an inertia sensing input control device is characterized in that, comprising:
One inertia sensing module, it has at least one inertia sensing device, produces at least one inertia sensing parameter with at least one operational motion of sensing;
One interface unit, it can produce at least one input signal;
One switches the unit, and it can select to switch to a few input pattern; And
One wireless transmission control unit, it connects mutually by chance with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can produce and transmits a control signal according to this at least one inertia sensing parameter, this at least one input signal and this at least one input pattern.
2. inertia sensing input control device as claimed in claim 1 is characterized in that, wherein this at least one inertia sensing device may be selected to be at least one gyroscope, at least one accelerometer and aforementioned combination one of them.
3. inertia sensing input control device as claimed in claim 1 is characterized in that, wherein this at least one input pattern may be selected to be mouse input pattern, rocking bar input pattern, keyboard input pattern and aforesaid combination in any one of them.
4. inertia sensing input control device as claimed in claim 1 is characterized in that, wherein this interface unit also is connected at least one input module by chance, this at least one input module may be selected to be cross key, most operation push-buttons and aforesaid combination one of them.
5. inertia sensing input control device as claimed in claim 1 is characterized in that it also has a receiving trap, and this receiving trap comprises:
One receiving element, it can receive this control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern;
One arithmetic element, it connects mutually by chance with this receiving element, and this at least one inertia sensing parameter is performed calculations parsing at least one actuating signal, and produces one according to this at least one input signal and this at least one input pattern and control signal; And
One connecting interface unit, it can be controlled signal with this at least one actuating signal and this and transfer to an electronic installation.
6. inertia sensing input control device as claimed in claim 5 is characterized in that, wherein this electronic installation can select microcomputer, interactive game device and multimedia interaction device one of them.
7. inertia sensing input control device as claimed in claim 5, it is characterized in that, wherein this connecting interface unit can select a wireline interface and a wave point one of them, this wireline interface is a USB interface, this wave point may be selected to be bluetooth communication and radio-frequency communication one of them.
8. inertia sensing input control device as claimed in claim 5 is characterized in that, wherein this wireless transmission control unit can also directly directly be transferred to this electronic installation with at least one inertia sensing parameter.
9. inertia sensing input control device as claimed in claim 5 is characterized in that wherein this switch unit can switch input pattern, and the input pattern of this arithmetic element detecting switching is transferred to this electronic installation according to the input pattern that detects at last then.
10. an inertia sensing input control device is characterized in that, comprising:
One inertia sensing module, it has at least one first inertia sensing device, produces at least one first inertia sensing parameter with at least one operational motion of sensing;
One interface unit, it can produce at least one input signal;
One switches the unit, and it can select to switch to a few input pattern;
Most the second inertia sensing devices, it can at least one operational motion of sensing and produce one second inertia sensing parameter;
One wireless transmission control unit, it connects mutually by chance with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can receive this second inertia sensing parameter and produce and transmit a control signal according to this at least one first and second inertia sensing parameter, this at least one input signal and this at least one input pattern; And an electronic installation, it can perform calculations according to the content of this control signal representative.
11. inertia sensing input control device as claimed in claim 10 is characterized in that, wherein this at least one inertia sensing device may be selected to be at least one gyroscope, at least one accelerometer and aforesaid combination one of them.
12. inertia sensing input control device as claimed in claim 10, wherein this at least one input pattern may be selected to be mouse input pattern, rocking bar input pattern, keyboard input pattern and aforesaid combination in any one of them.
13. inertia sensing input control device as claimed in claim 10, it is characterized in that, wherein this interface unit also is connected at least one input module by chance, this at least one input module may be selected to be cross key, most operation push-buttons and aforesaid combination one of them.
14. inertia sensing input control device as claimed in claim 10 is characterized in that it also has a receiving trap, this receiving trap comprises:
One receiving element, it can receive this control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern;
One arithmetic element, it connects mutually by chance with this receiving element, and this at least one inertia sensing parameter is performed calculations parsing at least one actuating signal, and produces one according to this at least one input signal and this at least one input pattern and control signal; And
One connecting interface unit, it can be controlled signal with this at least one actuating signal and this and transfer to this electronic installation to perform calculations.
15. inertia sensing input control device as claimed in claim 14, it is characterized in that, wherein this connecting interface unit can select a wireline interface and a wave point one of them, this wireline interface is a USB interface, this wave point may be selected to be bluetooth communication and radio-frequency communication one of them.
16. inertia sensing input control device as claimed in claim 10 is characterized in that, wherein this electronic installation can select microcomputer, interactive game device and multimedia interaction device one of them.
17. inertia sensing input control device as claimed in claim 10 is characterized in that, wherein this wireless transmission control unit can also directly directly be transferred to this electronic installation with this at least one first and second inertia sensing parameter.
18. inertia sensing input control device as claimed in claim 14, it is characterized in that, wherein this switch unit can switch input pattern, and the input pattern of this arithmetic element detecting switching is transferred to this electronic installation according to the input pattern that detects at last then.
19. a receiving trap is characterized in that, comprising:
One receiving element, it can receive a control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern;
One arithmetic element, it connects mutually by chance with this receiving element, and this at least one inertia sensing parameter is performed calculations parsing at least one actuating signal, and produces one according to this at least one input signal and this at least one input pattern and control signal; And
One connecting interface unit, it can be controlled signal with this at least one actuating signal and this and transfer to an electronic installation.
20. receiving trap as claimed in claim 19, wherein this connecting interface unit can select a wireline interface and a wave point one of them, this wireline interface may be selected to be PS/2 interface and USB interface one of them, this wave point may be selected to be bluetooth communication and radio-frequency communication one of them.
21. receiving trap as claimed in claim 19 is characterized in that, wherein this electronic installation can select microcomputer, interactive game device and multimedia interaction device one of them.
22. an interaction systems is characterized in that, comprising:
One inertia sensing module, it has at least one first inertia sensing device, produces at least one first inertia sensing parameter with at least one operational motion of sensing;
One interface unit, it can produce at least one input signal;
One switches the unit, and it can select to switch to a few input pattern;
Most the second inertia sensing devices, it can at least one operational motion of sensing and produce one second inertia sensing parameter;
One wireless transmission control unit, it connects mutually by chance with this inertia sensing module, this interface unit and this switch unit, and this wireless transmission control unit can produce and transmits a control signal according to this at least one first and second inertia sensing parameter, this at least one input signal and this at least one input pattern;
One receiving trap, it can receive this control signal, and its decoding is reduced at least one inertia sensing parameter, at least one input signal and at least one input pattern; And
One electronic installation, it can perform calculations according to this at least one inertia sensing parameter, at least one input signal and at least one input pattern.
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| CN1867081A (en) * | 2005-05-18 | 2006-11-22 | 财团法人工业技术研究院 | Action sensing interaction system |
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| CN102402280A (en) * | 2010-09-17 | 2012-04-04 | 慧智网股份有限公司 | Method for portable device to control host to operate game |
| CN103443743A (en) * | 2011-01-31 | 2013-12-11 | 高通股份有限公司 | Context aware augmentation interactions |
| CN103443743B (en) * | 2011-01-31 | 2016-06-29 | 高通股份有限公司 | For the method and apparatus that the enhancing of context-aware is mutual |
| CN103083901A (en) * | 2011-10-31 | 2013-05-08 | 北京德信互动网络技术有限公司 | Holographic projection somatosensory interactive system and holographic projection somatosensory interactive method |
| CN104826331A (en) * | 2015-04-24 | 2015-08-12 | 广东欧珀移动通信有限公司 | Method and system for simulating game input |
| CN105169700A (en) * | 2015-09-16 | 2015-12-23 | 康佳集团股份有限公司 | Novel television game human-computer interaction method and system |
| CN105169700B (en) * | 2015-09-16 | 2019-04-16 | 康佳集团股份有限公司 | A kind of man-machine interaction method and system of Novel television game |
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