CN105739708A - Information processing method and wearable device - Google Patents

Abstract

The invention discloses an information processing method and a wearable device.The method comprises the following steps that first status information is obtained, wherein the first status information comprises first sub-device status information of a first wearable sub-device in the wearable device and/or second sub-device status information of a second wearable sub-device in the wearable device; on the basis of the first status information, first key information is determined, wherein the first key information corresponds to an input device of a third device; the first key information is transmitted to the third device so that the third device can generate and execute a first instruction on the basis of the first key information.The information processing method and the wearable device are used for solving the technical problem that an existing wearable device is not convenient to use, and achieving the technical effect of improving the using convenience of the wearable device.

Description

A kind of information processing method and Wearable

Technical field

The present invention relates to electronic technology field, particularly to a kind of information processing method and Wearable.

Background technology

Along with the development of science and technology, electronic technology have also been obtained development at full speed, and the kind of electronic product also gets more and more, and people have enjoyed the various facilities that development in science and technology brings, and experiences abundant entertainment life by various electronic equipments.Such as, see a film by virtual reality and augmented reality equipment, play game etc..

In the prior art, virtual reality and augmented reality equipment are generally manipulated by equipment such as remote sensor or joystick devices.When playing game with virtual reality and augmented reality equipment, the step that the operation of remote sensor or joystick device is manually simulated role by user is moved.As, press simultaneously and joystick device showing that the personage controlled in game is to front jumping etc. to the left with upwardly direction key table.

Visible, Wearable of the prior art is when playing, it is necessary to rocking bar device etc. control equipment so that user do not carry these control equipment time just cannot be carried out game, so, Wearable of the prior art exist in-convenience in use technical problem.

Summary of the invention

The embodiment of the present application provides a kind of information processing method and Wearable, for solve Wearable of the prior art exist in-convenience in use technical problem, it is achieved improve the technique effect of the property easy to use of Wearable.

The embodiment of the present application provides a kind of information processing method on the one hand, including:

Obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

Optionally, when described first status information includes the movable information of described first sub-wearable device, described based on described first status information, it is determined that the first key information, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

Optionally, when described first status information includes the pressure information of described second sub-wearable device, described based on described first status information, it is determined that the first key information, including:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

Optionally, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, described based on described first status information, it is determined that the first key information, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

Optionally, described described first key information is transferred to described 3rd equipment after, described method also includes:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

The embodiment of the present application provides a kind of Wearable on the other hand, including:

First acquiring unit, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

First determines unit, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

First communication unit, for being transferred to described 3rd equipment by described first key information, so that described 3rd equipment generates and perform the first instruction based on described first key information.

The embodiment of the present application also provides for a kind of Wearable, including:

Housing；

Sensor, it is arranged in described housing, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Processor, is arranged in described housing, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

R-T unit, is arranged in described housing, for described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

Optionally, when described first status information includes the movable information of described first sub-wearable device, described processor specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

Optionally, when described first status information includes the pressure information of described second sub-wearable device, described processor specifically for:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

Optionally, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, described processor specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

Optionally, described R-T unit is additionally operable to:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

Correspondingly, described processor is additionally operable to:

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

Said one in the embodiment of the present application or multiple technical scheme, at least have one or more technique effects following:

One, due to the technical scheme in the embodiment of the present application, adopt and obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates based on described first key information and performs the technological means of the first instruction, so, directly the status information of the first sub-wearable device and the second sub-wearable device is converted to the key information of the input equipment of virtual reality/augmented reality equipment, make user virtual reality/augmented reality equipment also can be utilized to play when there is no the input equipments such as rocking bar device, thus efficiently solve Wearable of the prior art exist in-convenience in use technical problem, realize improving the technique effect of the simple operation of Wearable.

Two, due to the technical scheme in the embodiment of the present application, adopt and obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates based on described first key information and performs the technological means of the first instruction, so, user can realize the manipulation to virtual reality/augmented reality equipment either directly through the first sub-wearable device and the second sub-wearable device, if the first sub-wearable device can be the left foot of intelligent shoe, second sub-wearable device can be the right crus of diaphragm of intelligent shoe, when user wants to realize footwork in gaming, directly make corresponding action, without the hand motion that footwork is converted to rocking bar device, achieve the technique effect of the game feeling of immersion of the mode of operation simplifying Wearable and raising user.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present application or technical scheme of the prior art, below the accompanying drawing used required during embodiment is described is briefly described, it should be apparent that, the accompanying drawing in the following describes is only some embodiments of the present invention.

The flow chart of the Fig. 1 a kind of information processing method for providing in the embodiment of the present application one；

Fig. 2 is the flow chart of the first specific implementation of step 102 in the embodiment of the present application one；

Fig. 3 is the schematic diagram of the first specific implementation of step 102 in the embodiment of the present application one；

Fig. 4 is the flow chart of the second specific implementation of step 102 in the embodiment of the present application one；

Fig. 5 is the flow chart of the third specific implementation of step 102 in the embodiment of the present application one；

The structured flowchart of the Fig. 6 a kind of Wearable for providing in the embodiment of the present application two；

The structural representation of a kind of Wearable that Fig. 7 provides for the embodiment of the present application three kinds.

Detailed description of the invention

The embodiment of the present application provides a kind of information processing method and Wearable, for solve Wearable of the prior art exist in-convenience in use technical problem, it is achieved improve the technique effect of the property easy to use of Wearable.

Technical scheme in the embodiment of the present application is solve above-mentioned technical problem, and general thought is as follows:

Obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

In technique scheme, adopt and obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates based on described first key information and performs the technological means of the first instruction, so, directly the status information of the first sub-wearable device and the second sub-wearable device is converted to the key information of the input equipment of virtual reality/augmented reality equipment, make user virtual reality/augmented reality equipment also can be utilized to play when there is no the input equipments such as rocking bar device, thus efficiently solve Wearable of the prior art exist in-convenience in use technical problem, realize improving the technique effect of the simple operation of Wearable.

In order to be better understood from technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical solution of the present invention, rather than the restriction to technical solution of the present invention, when not conflicting, the embodiment of the present application and the technical characteristic in embodiment can be combined with each other.

Embodiment one

Refer to Fig. 1, the flow chart of a kind of information processing method for providing in the embodiment of the present application one, described method includes:

101: obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

102: based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

103: described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and performs the first instruction based on described first key information.

In specific implementation process, described Wearable can be intelligent shoe, Intelligent glove or Intelligent bracelet etc., is not limited as in the embodiment of the present application.In the embodiment of the present application, first sub-wearable device and the second sub-wearable device can use simultaneously, as, can be wherein one of a pair of intelligent shoe respectively, first sub-wearable device can be any one therein, or such as, can be wherein one of a pair of Intelligent glove respectively, first sub-wearable device can be any one therein, or for example, it is possible to be wherein of a pair Intelligent bracelet respectively, the first sub-wearable device can be any one therein, etc., it is not limited as in the embodiment of the present application.

When method in adopting the embodiment of the present application carries out information processing, step 101 is first carried out, that is: the first status information is obtained, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable.

Term "and/or" in the application, is only a kind of incidence relation describing affiliated partner, and expression can exist three kinds of relations, for instance, A and/or B, it is possible to represent: individualism A, there is A and B, individualism B these three situation simultaneously.It addition, character "/" herein, if no special instructions, typically represent forward-backward correlation to as if the relation of a kind of "or".

In specific implementation process, described first status information can be the first sub-wearable device and/or the movable information of the second sub-wearable device, vibration information, pressure information etc., as, first subset status information and the second subset status information are likely to all include movable information, or the first subset status information and the second subset status information are likely to all include pressure information, or the first subset status information and the second subset status information are likely to all both include pressure information and also include movable information, first status information can be configured by those skilled in the art according to actually used demand, it is not limited as in the embodiment of the present application.

In the embodiment of the present application, the movable information of described first sub-wearable device and/or the pressure information of described second sub-wearable device is included for described first status information.

Movable information, it is possible to be used for characterizing the kinestate that electronic equipment is current.Such as, movable information can include the information such as the current position of electronic equipment, speed, acceleration, or can also include the information of other kinestates for characterizing electronic equipment.In the embodiment of the present application, the method for obtaining movable information is not construed as limiting.Such as, some sensors such as acceleration transducer (accelerationtransducer), gravity sensor (Gravity-sensor) can be set in the electronic device, thus obtaining the first sub-wearable device at the position in each moment and acceleration information.

Pressure information, it is possible to be used for characterizing the force value that electronic equipment is current born.In the embodiment of the present application, the method for obtaining pressure information is not construed as limiting.For example, it is possible to arrange pressure transducer, graphene sensor etc. on the sole of intelligent shoe, when user dresses intelligent shoe, will know, by detecting the state of sensor, the pressure information that intelligent shoe is born.

In specific implementation process, for described first sub-wearable device be intelligent shoe right crus of diaphragm, the second sub-wearable device be intelligent shoe left foot, the first subset status information be right crus of diaphragm movable information and the second subset status information be left foot pressure information, by arranging acceleration transducer on the right crus of diaphragm of intelligent shoe, obtain position and the acceleration information of right crus of diaphragm in real time；By arranging pressure transducer on the left foot of intelligent shoe, obtain the force value born of intelligent shoe left foot in real time.

After having performed step 101, the method in the embodiment of the present application just performs step 102, it may be assumed that based on described first status information, it is determined that the first key information, wherein, and described first key information is the key information corresponding with the input equipment of the 3rd equipment.

In the embodiment of the present application, due to the difference of the first status information, the implementation of step 102 also can change accordingly, illustrates for following three kinds of situations:

The first situation, refer to Fig. 2, and when described first status information includes the movable information of described first sub-wearable device, step 102 includes:

201: determine the current kinetic direction of described first sub-wearable device based on described movable information；

202: based on the first corresponding relation of the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

In specific implementation process, continue to use above-mentioned example, after the processor of intelligent shoe right crus of diaphragm receives position and the acceleration information of the right crus of diaphragm sent by the acceleration transducer being arranged on intelligent shoe right crus of diaphragm, the direction of motion of right crus of diaphragm then determined by the processor of right crus of diaphragm according to the information obtained.As, right crus of diaphragm is moved to position b by the position a in Fig. 3, and accekeration is positive number in the moving process of right crus of diaphragm always, the moving direction then determining right crus of diaphragm is a → b, owing to position b is on the right of position a, thus the processor of right crus of diaphragm determines that the direction of motion of current intelligent shoe right crus of diaphragm is for moving right.In the memorizer of intelligent shoe right crus of diaphragm, storage has the corresponding relation of the direction of motion and the key code value pre-set, and e.g., the corresponding relation prestored is: " move right: 39；To left movement: 37；Move upward: 38；Move downward: 40 ", now, the processor of right crus of diaphragm judges that current kinetic direction is for moving right, it is determined that going out the key code value corresponding with current motion information is 39.

The second situation, refer to Fig. 4, and when described first status information includes the pressure information of described second sub-wearable device, step 102 includes:

401: determine the current pressure rank of described second sub-wearable device based on described pressure information；

402: based on the second corresponding relation of default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

In specific implementation process, continue to use above-mentioned example, after the processor of intelligent shoe left foot receives the pressure value information of the left foot sent by the pressure transducer being arranged on intelligent shoe left foot, the current pressure rank of left foot then determined by the processor of left foot according to the information obtained.As, the memorizer of intelligent shoe left foot is previously stored with the corresponding relation of pressure rank and key code value: " force value is 10N-15N: cancel key, 3；Force value is 15.1N-20N: determine key, 13 ".The current pressure values obtained for the pressure transducer of intelligent shoe left foot is for 16N, owing to 16N is between force value 15.1N-20N, then the corresponding relation according to the pressure rank prestored with key code value, it is determined that going out key code value corresponding to current pressure values 16N is 13.

The third situation, refer to Fig. 5, and when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, step 102 includes:

501: determine the current kinetic direction of described first sub-wearable device based on described movable information；

502: determine the current pressure rank of described second sub-wearable device based on described pressure information；

503: based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

In specific implementation process, continue to use above-mentioned example, after the processor of intelligent shoe right crus of diaphragm receives the position of right crus of diaphragm sent by the acceleration transducer that is arranged on intelligent shoe right crus of diaphragm and the processor of acceleration information and intelligent shoe left foot receives the pressure value information of the left foot sent by the pressure transducer being arranged on intelligent shoe left foot, the direction of motion of right crus of diaphragm then determined by the processor of right crus of diaphragm according to the movable information obtained, and the current pressure rank of left foot then determined by the processor of left foot according to the pressure information obtained simultaneously.As, right crus of diaphragm is moved to position b by the position a in Fig. 3, and accekeration is positive number in the moving process of right crus of diaphragm always, the moving direction then determining right crus of diaphragm is a → b, owing to position b is on the right of position a, thus the processor of right crus of diaphragm determines that the direction of motion of current intelligent shoe right crus of diaphragm is for moving right；The memorizer of intelligent shoe left foot is previously stored with force value and the other corresponding relation of pressure stage: " force value is 10N-15N: first level；Force value is 15.1N-20N: second level ".The current pressure values obtained for the pressure transducer of intelligent shoe left foot is for 16N, owing to 16N is between force value 15.1N-20N, it is determined that going out current pressure rank is second level.Then the pressure class information that left foot can be determined by the processor of intelligent shoe left foot sends the processor to intelligent shoe right crus of diaphragm, the processor of intelligent shoe right crus of diaphragm determine the key code value corresponding with current state based on the direction of motion and pressure rank.In the memorizer of intelligent shoe right crus of diaphragm, storage has the corresponding relation of kinestate and the key code value pre-set, and e.g., the corresponding relation prestored is: " move right, first level: 16；Move right, second level: 19 ", now, due to the direction of motion for the right and pressure rank be second level, then the processor of right crus of diaphragm determines that the key code value corresponding with current motion state is 19.

After having performed step 102, in the embodiment of the present application, method just performs step 103, it may be assumed that described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

In specific implementation process, continuing to use above-mentioned example, after the key code value corresponding with current motion state determined by the processor of the left/right foot of intelligent shoe, the processor of the left/right foot of intelligent shoe will be sent to the 3rd equipment this key code value.Wherein, described 3rd equipment specifically can be able to receive any appliance of the information that intelligent shoe sends, e.g., AR/VR game machine, personal computer, mobile phone etc., it is not limited as in the embodiment of the present application.3rd equipment is after receiving described key code value information, it is possible to generate corresponding instruction according to key code value information, by performing this instruction, thus completing the first function.

With described 3rd equipment for AR/VR game machine, the code value that the processor of intelligent shoe right crus of diaphragm is determined is 39 is example, before intelligent shoe is in the state of the movable information detecting user in real time, intelligent shoe can pass through bluetooth, infrared wireless transmission method, wireless connections have been carried out with AR/VR game machine, then, the code value of acquisition is then sent to AR/VR game machine by the processor of intelligent shoe right crus of diaphragm, if AR/VR game machine is currently running dancing and game, then AR/VR game machine is just based on the key code value information received, generate corresponding control instruction, dancing and game software completes dance movement 1 by performing this instruction.

After having performed above-mentioned steps, the method in the embodiment of the present application also includes:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

In specific implementation process, continue to continue to use above-mentioned example, after the key code value information determined is sent to the 3rd equipment by intelligent shoe, after the 3rd equipment has performed instruction corresponding with described key code value, the right crus of diaphragm processor of intelligent shoe will receive the feedback information sent by the 3rd equipment.As, after AR/VR game machine completes the dance movement 1 corresponding with key code value 39, the processor of intelligent shoe right crus of diaphragm completes the feedback message of dance movement 1 by receiving the confirmation sent by AR/VR game machine, then the processor of intelligent shoe right crus of diaphragm judges that key code value 39 is that the state of the right crus of diaphragm according to intelligent shoe is determined, now, the processor of intelligent shoe right crus of diaphragm then controls the right crus of diaphragm output information of intelligent shoe, described information can be specifically shaken one second by the right crus of diaphragm of intelligent shoe, or the LED of the right crus of diaphragm of intelligent shoe is lighted one second, or the right crus of diaphragm controlling intelligent shoe sends sound etc., it is not limited as in the embodiment of the present application.After user observes the information of intelligent shoe right crus of diaphragm, just it is aware of AR/VR game machine and has been successfully completed dance movement 1.

If after AR/VR game machine completes the dance movement 2 corresponding with key code value 13, the processor of intelligent shoe right crus of diaphragm will receive the confirmation sent by AR/VR game machine and complete the feedback message of dance movement 2 equally, then the processor of intelligent shoe right crus of diaphragm judges that key code value 13 is that the state of the left foot according to intelligent shoe is determined, now, the processor of intelligent shoe right crus of diaphragm then generates the instruction controlling intelligent shoe left foot output information, and by the processor of described instruction transmission to the left foot of intelligent shoe, so that intelligent shoe left foot output information.When the right crus of diaphragm of intelligent shoe judges that the key code value that current feedback information is corresponding is that the state according to left and right two feet is determined, then the right crus of diaphragm of intelligent shoe will generate the instruction simultaneously controlling intelligent shoe left foot and intelligent shoe right crus of diaphragm output information.

Certainly, when the key code value generated is sent to the 3rd equipment by intelligent shoe right crus of diaphragm, the 3rd equipment is judged in its memorizer and is absent from the control instruction corresponding with current key code value, then the 3rd equipment generation error feedback information.After the processor of intelligent shoe right crus of diaphragm receives described error feedback information, it is determined that go out to obtain the sub-wearable device of missed keys code value, and control described sub-wearable device output prompting user and carried out the information of faulty operation.

Embodiment two

Based on the inventive concept identical with the embodiment of the present application one, the embodiment of the present application two provides a kind of Wearable, refer to Fig. 6, including:

First acquiring unit 101, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

First determines unit 102, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

First communication unit 103, for being transferred to described 3rd equipment by described first key information, so that described 3rd equipment generates and perform the first instruction based on described first key information.

In the embodiment of the present application two, when described first status information includes the movable information of described first sub-wearable device, first determines that unit 102 includes:

First determines module, for determining the current kinetic direction of described first sub-wearable device based on described movable information；

Second determines module, for the first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

In the embodiment of the present application two, when described first status information includes the pressure information of described second sub-wearable device, first determines that unit 102 includes:

3rd determines module, for determining the current pressure rank of described second sub-wearable device based on described pressure information；

4th determines module, for the second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

In the embodiment of the present application two, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, first determines that unit 102 includes:

5th determines module, for determining the current kinetic direction of described first sub-wearable device based on described movable information；

6th determines module, for determining the current pressure rank of described second sub-wearable device based on described pressure information；

7th determines module, for based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

In the embodiment of the present application two, described Wearable also includes:

Second communication unit 104, for receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

First performance element 105, for according to described feedback information, controls described first sub-wearable device and exports the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

Embodiment three

Based on the inventive concept identical with the embodiment of the present application one, the embodiment of the present application three provides a kind of Wearable, refer to Fig. 7, including:

Housing 10；

Sensor 20, it is arranged in housing 10, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Processor 30, is arranged in housing 10, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

R-T unit 40, is arranged in housing 10, for described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

In the embodiment of the present application three, when described first status information includes the movable information of described first sub-wearable device, processor 30 specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

In the embodiment of the present application three, when described first status information includes the pressure information of described second sub-wearable device, processor 30 specifically for:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

In the embodiment of the present application three, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, processor 30 specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

In the embodiment of the present application three, R-T unit 40 is additionally operable to:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

Correspondingly, processor 30 is additionally operable to:

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

By the one or more technical schemes in the embodiment of the present application, it is possible to achieve following one or more technique effects:

One, due to the technical scheme in the embodiment of the present application, adopt and obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates based on described first key information and performs the technological means of the first instruction, so, directly the status information of the first sub-wearable device and the second sub-wearable device is converted to the key information of the input equipment of virtual reality/augmented reality equipment, make user virtual reality/augmented reality equipment also can be utilized to play when there is no the input equipments such as rocking bar device, thus efficiently solve Wearable of the prior art exist in-convenience in use technical problem, realize improving the technique effect of the simple operation of Wearable.

Two, due to the technical scheme in the embodiment of the present application, adopt and obtain the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates based on described first key information and performs the technological means of the first instruction, so, user can realize the manipulation to virtual reality/augmented reality equipment either directly through the first sub-wearable device and the second sub-wearable device, if the first sub-wearable device can be the left foot of intelligent shoe, second sub-wearable device can be the right crus of diaphragm of intelligent shoe, when user wants to realize footwork in gaming, directly make corresponding action, without the hand motion that footwork is converted to rocking bar device, achieve the technique effect of the game feeling of immersion of the mode of operation simplifying Wearable and raising user.

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, complete software implementation or the embodiment in conjunction with software and hardware aspect.And, the present invention can adopt the form at one or more upper computer programs implemented of computer-usable storage medium (including but not limited to disk memory, CD-ROM, optical memory etc.) wherein including computer usable program code.

The present invention is that flow chart and/or block diagram with reference to method according to embodiments of the present invention, equipment (system) and computer program describe.It should be understood that can by the combination of the flow process in each flow process in computer program instructions flowchart and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can be provided to produce a machine to the processor of general purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device so that the instruction performed by the processor of computer or other programmable data processing device is produced for realizing the device of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and can guide in the computer-readable memory that computer or other programmable data processing device work in a specific way, the instruction making to be stored in this computer-readable memory produces to include the manufacture of command device, and this command device realizes the function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices provides for realizing the step of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

Specifically, the computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

Obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

Optionally, when described first status information includes the movable information of described first sub-wearable device, store in described storage medium and step: based on described first status information, it is determined that the first key information, corresponding computer program instructions when executed, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

Optionally, when described first status information includes the pressure information of described second sub-wearable device, store in described storage medium and step: based on described first status information, it is determined that the first key information, corresponding computer program instructions when executed, including:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

Optionally, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, in described storage medium storage and step: based on described first status information, determine the first key information, corresponding computer program instructions when executed, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

Optionally, in described storage medium, also storage has other computer program instructions, these computer program instructions with step: described first key information is transferred to after computer program instructions corresponding to described 3rd equipment performs and is performed, including:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

Although preferred embodiments of the present invention have been described, but those skilled in the art are once know basic creative concept, then these embodiments can be made other change and amendment.So, claims are intended to be construed to include preferred embodiment and fall into all changes and the amendment of the scope of the invention.

Obviously, the present invention can be carried out various change and modification without deviating from the spirit and scope of the present invention by those skilled in the art.So, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (11)

1. an information processing method, is applied to a Wearable, including:

Obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

Described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

2. the method for claim 1, it is characterised in that when described first status information includes the movable information of described first sub-wearable device, described based on described first status information, it is determined that the first key information, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

3. the method for claim 1, it is characterised in that when described first status information includes the pressure information of described second sub-wearable device, described based on described first status information, it is determined that the first key information, including:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

4. the method for claim 1, it is characterized in that, when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, described based on described first status information, determine the first key information, including:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

5. method as described in arbitrary claim in claim 1-4, it is characterised in that described described first key information is transferred to described 3rd equipment after, described method also includes:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.

6. a Wearable, including:

First acquiring unit, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

First determines unit, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

First communication unit, for being transferred to described 3rd equipment by described first key information, so that described 3rd equipment generates and perform the first instruction based on described first key information.

7. a Wearable, including:

Housing；

Sensor, it is arranged in described housing, for obtaining the first status information, wherein, described first status information includes the second subset status information of the second sub-wearable device in the first subset status information of the sub-wearable device of first in described Wearable and/or described Wearable；

Processor, is arranged in described housing, for based on described first status information, it is determined that the first key information, wherein, described first key information is the key information corresponding with the input equipment of the 3rd equipment；

R-T unit, is arranged in described housing, for described first key information is transferred to described 3rd equipment, so that described 3rd equipment generates and perform the first instruction based on described first key information.

8. Wearable as claimed in claim 7, it is characterised in that when described first status information includes the movable information of described first sub-wearable device, described processor specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The first corresponding relation based on the default direction of motion Yu key information, it is determined that first key information corresponding with described current kinetic direction.

9. Wearable as claimed in claim 7, it is characterised in that when described first status information includes the pressure information of described second sub-wearable device, described processor specifically for:

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

The second corresponding relation based on default pressure rank Yu key information, it is determined that first key information corresponding with described current pressure rank.

10. Wearable as claimed in claim 7, it is characterised in that when described first status information includes the pressure information of the movable information of described first sub-wearable device and described second sub-wearable device, described processor specifically for:

The current kinetic direction of described first sub-wearable device is determined based on described movable information；

The current pressure rank of described second sub-wearable device is determined based on described pressure information；

Based on the direction of motion, the 3rd corresponding relation between pressure rank and key information, it is determined that first key information corresponding with described current kinetic direction and described current pressure rank.

11. Wearable as described in arbitrary claim in claim 7-10, it is characterised in that described R-T unit is additionally operable to:

Receiving the feedback information that described 3rd equipment sends, wherein, described feedback information is used for indicating described 3rd equipment to perform described first instruction；

Correspondingly, described processor is additionally operable to:

According to described feedback information, control described first sub-wearable device and export the first feedback prompts information and/or control described second sub-wearable device and export the second feedback prompts information；Described first feedback prompts information and the second feedback prompts information are used for pointing out user, and described 3rd equipment has performed described first instruction.