CN115933885A - Control method of intelligent wearable device and related device - Google Patents

Abstract

The embodiment of the invention discloses a control method of intelligent wearable equipment and related equipment, wherein the method comprises the following steps: acquiring user request information and basic information of slave equipment of the intelligent wearable equipment; judging whether an adaptive key meeting the target application exists on the slave equipment or not based on target application information and basic information of the slave equipment; if the slave equipment has an adaptive key meeting the target application, determining a target interaction mode of the slave equipment and the intelligent wearable equipment based on user request information; if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode; and finishing the control of the intelligent wearable equipment according to the target interaction mode. The target interaction mode is determined based on the user request information and the basic information of the slave device, so that the interaction process is more suitable for the actual requirements of the user, and the problem of redundant interaction actions and further interactive information caused by the interaction mode which is not suitable for the actual requirements is avoided.

Description

Control method of intelligent wearable device and related device

Technical Field

The invention relates to the technical field of control of intelligent wearable equipment, in particular to a control method of intelligent wearable equipment and related equipment.

Background

The smart glasses are used as a new smart wearable terminal, which is different from a modern smart phone and a traditional wearable device in form, the difference between the smart glasses and the traditional wearable device is that the smart glasses and the traditional wearable device are different from a head wearing device, the mobile phones and the traditional wearable device are provided with basic display touch screens, and can be conveniently placed on hands to interact with interface elements by using finger touch gestures, the smart glasses are used as a head device, the display screens are different from the traditional smart device, generally, optical devices are displayed by relying on reflection or diffraction principles, which means that the glasses cannot be provided with the display touch screens of the traditional smart device in form.

Disclosure of Invention

In view of this, the invention provides a control method of an intelligent wearable device and a related device, which are used for solving the problem that an interaction mode more conforming to user experience cannot be selected in the prior art. In order to achieve one or a part of or all of the above or other objects, the present invention provides a method for controlling an intelligent wearable device, including: acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information;

whether an adaptive key meeting the target application exists on the slave equipment is judged based on the target application information and the basic information of the slave equipment;

if the slave device has an adaptive key meeting the target application, determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptive key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing user actions;

and if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode, and finishing the control of the intelligent wearable equipment according to the target interaction mode.

Optionally, before the step of determining whether an adapted key meeting the target application exists on the slave device based on the target application information and the basic information of the slave device, the method further includes:

determining a target application based on the target application information, and acquiring functional data of the target application;

determining an event flow for realizing each function of the target application according to the function data;

and marking the implementation of the required specific keys in the event flow, and recording the number of the specific keys and the identifier of each specific key, wherein the identifier is set through a key function.

Optionally, the step of determining, based on the target application information and the basic information of the slave device, whether an adaptation key meeting a target application exists on the slave device includes:

matching the identifier of each specific key with basic information of the slave equipment, and judging whether a target key corresponding to each specific key exists on the slave equipment to obtain a judgment result;

and confirming whether an adaptive key meeting the target application exists on the slave equipment or not based on the judgment result.

Optionally, if an adaptation key meeting a target application exists on the slave device, the step of determining a target interaction mode between the slave device and the smart wearable device based on the operation information includes:

if the slave equipment has an adaptive key meeting the target application, a target event process based on the operation information and a target function corresponding to the operation information is performed;

setting different preset values and weight values for different types of steps in the target event flow to obtain a complexity degree value when the target event flow is finished by means of the adaptive key;

if the complexity degree value is larger than or equal to a complexity degree threshold value, selecting the 3Dof mode as a target interaction mode;

and if the complexity degree value is smaller than a complexity degree threshold value, selecting the key mode as a target interaction mode.

Optionally, after the step of selecting the 3Dof mode as the target interaction mode after the slave device does not have an adaptation key meeting the target application, the method further includes:

acquiring key information of an idle key which does not meet the target application and exists on the slave equipment, wherein the key information comprises position information and function information;

generating a key function changing request based on the key information and the identifier of the specific key, wherein the key function changing request is used for confirming whether a user needs to change the function of the adaptive key which does not meet the target application into the function of the specific key;

acquiring user indication information according to the key function changing request, wherein the user indication information is YES or NO;

if the user indication information is YES, changing the function of the adaptive key which does not meet the target application into the function of the specific key;

and if the user indication information is NO, continuing to select the 3Dof mode as the target interaction mode.

Optionally, the method further includes:

when the target interaction mode is the 3Dof mode, setting the maximum angle of the user movement according to the resolution of the virtual screen of the intelligent wearable device;

and calculating a conversion coefficient of the user motion angle and the screen movement angle based on the maximum angle.

Optionally, the step of completing the control of the intelligent wearable device according to the target interaction mode includes:

and when the target interaction mode is the 3Dof mode, determining control information of the intelligent wearable device according to the conversion coefficient and the combination of the gyroscope sensor variation data and the geomagnetic sensor variation data of the slave device so as to complete the control process of the intelligent wearable device.

On the other hand, this application provides a controlling means of intelligence wearing equipment, controlling means includes:

the data acquisition module is used for acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information;

the matching module is used for judging whether an adaptive key meeting the target application exists on the slave equipment or not based on the target application information and the basic information of the slave equipment;

the mode selection module is used for determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information if an adaptation key meeting a target application exists on the slave device, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptation key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing a user action;

the mode selection module is further configured to select a 3Dof mode as a target interaction mode if no adaptation key meeting a target application exists on the slave device, and complete control of the intelligent wearable device according to the target interaction mode.

In a third aspect, an embodiment of the present application provides an electronic device, including: the intelligent wearable device comprises a processor, a memory and a bus, wherein the memory stores machine readable instructions executable by the processor, when the electronic device runs, the processor and the memory are communicated through the bus, and the machine readable instructions are executed by the processor to execute the steps of the control method of the intelligent wearable device.

In a fourth aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, performs the steps of the control method for an intelligent wearable device as described above.

The embodiment of the invention has the following beneficial effects:

acquiring user request information and basic information of slave equipment of the intelligent wearable equipment; judging whether an adaptive key meeting the target application exists on the slave equipment or not based on target application information and basic information of the slave equipment; if the slave equipment has an adaptive key meeting the target application, determining a target interaction mode of the slave equipment and the intelligent wearable equipment based on the user request information; if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode; and finishing the control of the intelligent wearable equipment according to the target interaction mode. The target interaction mode is determined based on the user request information and the basic information of the slave device, so that the interaction process is more suitable for the actual requirements of the user, and the problem of redundant interaction action and further interactive information redundancy caused by the interaction mode which is not suitable for the actual requirements is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a flowchart of a control method of an intelligent wearable device according to an embodiment of the present application;

fig. 2 is a flowchart of a control method of another intelligent wearable device provided in the embodiment of the present application;

fig. 3 is a schematic structural diagram of a control device of an intelligent wearable device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an electronic device provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a storage medium according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present application provides a control method for an intelligent wearable device, including:

s101, user request information and basic information of slave equipment of the intelligent wearable equipment are obtained, wherein the user request information comprises target application information and operation information;

in a possible implementation manner, before the step of determining whether there is an adapted key satisfying the target application on the slave device based on the target application information and the basic information of the slave device, the method further includes:

determining a target application based on the target application information, and acquiring functional data of the target application;

determining an event flow for realizing each function of the target application according to the function data;

and marking the implementation of the required specific keys in the event flow, and recording the number of the specific keys and the identifier of each specific key, wherein the identifier is set through a key function.

Illustratively, a user needs to open a target application for browsing pictures, where the target application has a picture display function and a picture magnification function, and then obtains a browsing event flow and a picture magnification event flow of the target application, marks a step that can be realized only by a specific key, e.g., a next key/a previous key, in the picture display flow, and marks a step that can be realized only by a specific key, e.g., a magnification/recovery key, in the picture magnification event flow, and records the number of the specific keys and identifiers of the specific keys, where the identifiers are set through a key function.

S102, judging whether an adaptive key meeting the target application exists on the slave equipment or not based on the target application information and the basic information of the slave equipment;

in a possible implementation manner, the step of determining whether an adapted key meeting a target application exists on the slave device based on the target application information and the basic information of the slave device includes:

matching the identifier of each specific key with the basic information of the slave equipment, and judging whether a target key corresponding to each specific key exists on the slave equipment or not to obtain a judgment result;

and confirming whether an adaptive key meeting the target application exists on the slave equipment or not based on the judgment result.

For example, whether a target key corresponding to each specific key exists on the slave device is searched based on the function of the specific key, and then whether an adaptive key meeting a target application exists on the slave device is determined.

S103, if an adaptive key meeting a target application exists on the slave device, determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptive key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing a user action;

and S104, if the slave device does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode, and finishing the control of the intelligent wearable device according to the target interaction mode.

The method comprises the steps of obtaining user request information and basic information of slave equipment of the intelligent wearable equipment; judging whether an adaptive key meeting the target application exists on the slave equipment or not based on target application information and basic information of the slave equipment; if the slave equipment has an adaptive key meeting the target application, determining a target interaction mode of the slave equipment and the intelligent wearable equipment based on the user request information; if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode; and finishing the control of the intelligent wearable equipment according to the target interaction mode. The target interaction mode is determined based on the user request information and the basic information of the slave device, so that the interaction process is more suitable for the actual requirements of the user, and the problem of redundant interaction action and further interactive information redundancy caused by the interaction mode which is not suitable for the actual requirements is solved.

In a possible embodiment, the step of determining, based on the operation information, a target interaction mode of the slave device with the smart wearable device if there is an adapted key on the slave device that satisfies a target application includes:

if the slave equipment has an adaptive key meeting the target application, a target event process based on the operation information and a target function corresponding to the operation information is performed;

setting different preset values and weight values for different types of steps in the target event flow to obtain a fussy degree value when the target event flow is finished by the adaptive key;

if the complexity degree value is larger than or equal to a complexity degree threshold value, selecting the 3Dof mode as a target interaction mode;

and if the complexity degree value is smaller than a complexity degree threshold value, selecting the key mode as a target interaction mode.

For example, if an adaptive key meeting a target application exists on the slave device, different preset values and weight values are set for different types of steps in the target event flow, for example, a picture switching step, that is, a step of pressing a next key/a previous key is preset value a, weight is Y, a step of amplifying a picture is preset value B, and weight is X, so as to obtain a complexity value when the target event flow is completed by the adaptive key, and if the complexity value is greater than or equal to a complexity threshold, the target event is completed in a key interaction manner, that is, the target event is too cumbersome when a user requirement is met, the 3Dof mode is selected as a target interaction mode; and if the complexity degree value is smaller than the complexity degree threshold value, representing that the target event is completed in a key interaction mode, namely, the key mode is not complex when the user requirement is met, and selecting the key mode as the target interaction mode.

In a possible implementation manner, after the step of selecting the 3Dof mode as the target interaction mode, before the step of selecting the 3Dof mode as the target interaction mode, after the step of selecting the 3Dof mode as the target interaction mode if there is no adaptive key satisfying the target application on the slave device, the method further includes:

acquiring key information of an idle key which does not meet the target application and exists on the slave equipment, wherein the key information comprises position information and function information;

generating a change key function request based on the key information and the identifier of the specific key, wherein the change key function request is used for confirming whether a user needs to change the function of the adaptive key which does not meet the target application into the function of the specific key;

acquiring user indication information according to the key function changing request, wherein the user indication information is YES or NO;

if the user indication information is YES, changing the function of the adaptive key which does not meet the target application into the function of the specific key;

and if the user indication information is NO, continuing to select the 3Dof mode as the target interaction mode.

For example, when there is NO adaptation key satisfying the target application and there is an idle key not satisfying the target application on the slave device, it may be considered that the idle key is set as the adaptation key satisfying the target application, so that when the key interaction manner is simpler and more convenient, the idle key is not affected by a specific key, that is, user indication information is obtained, where the user indication information is YES or NO; if the user indication information is YES, changing the function of the adaptive key which does not meet the target application into the function of the specific key; and if the user indication information is NO, continuing to select the 3Dof mode as the target interaction mode.

In one possible embodiment, the method further includes:

when the target interaction mode is the 3Dof mode, setting the maximum angle of the user movement according to the resolution of the virtual screen of the intelligent wearable device;

and calculating a conversion coefficient of the user motion angle and the screen movement angle based on the maximum angle.

Illustratively, the step of completing the control of the intelligent wearable device according to the target interaction mode includes:

and when the target interaction mode is the 3Dof mode, determining control information of the intelligent wearable device according to the conversion coefficient and the combination of the gyroscope sensor variation data and the geomagnetic sensor variation data of the slave device so as to complete the control process of the intelligent wearable device.

Illustratively, when the interaction mode is a 3Dof mode, an embodiment of the present application provides a control method for an intelligent wearable device, including:

acquiring target selection data, wherein the target selection data is generated according to user actions;

illustratively, target selection data is acquired through a slave device at the smart glasses end, the slave device at the smart glasses end, such as a ring, a bracelet and the like, is provided with a low-power bluetooth module, a gyroscope, a geomagnetic sensor chip and the like to capture user actions, the gesture of the current user motion is obtained through relevant sensor data fusion calculation, and data of the user gesture is transmitted to the glasses end through bluetooth.

Updating the position of a virtual pointer on a virtual screen of the intelligent glasses according to the target selection data;

illustratively, the movement area mapped to the virtual cursor of the smart glasses is calculated by the data of the user gesture, and is updated to the virtual screen of the glasses, that is, the position of the virtual pointer on the virtual screen of the smart glasses is updated.

And after receiving the operation data of the user, stopping updating the position of the virtual pointer on the virtual screen of the intelligent glasses, and responding the operation data based on the current position of the virtual pointer on the virtual screen of the intelligent glasses so as to complete the control of the intelligent glasses.

Illustratively, the purpose of interaction between the peripheral and the intelligent glasses is achieved by customizing the function corresponding to the gesture of the related gesture, the function corresponding to the body gesture of the related user and the function corresponding to the key, namely, the control of the intelligent glasses is completed.

Acquiring target selection data, wherein the target selection data is generated according to a user action; updating the position of a virtual pointer on a virtual screen of the intelligent glasses according to the target selection data; and after receiving the operation data of the user, stopping updating the position of the virtual pointer on the virtual screen of the intelligent glasses, and responding the operation data based on the current position of the virtual pointer on the virtual screen of the intelligent glasses so as to complete the control of the intelligent glasses. Through handling the target selection data that produce based on user's action, the position of virtual pointer on the virtual screen of update intelligence glasses, and then accomplish the control to intelligent glasses, do not need the demonstration touch-sensitive screen of traditional smart machine, realize the show and the switching of element focus on the virtual screen of intelligent glasses to corresponding function is realized to accurate control intelligent glasses.

In one possible embodiment, the step of obtaining target selection data includes:

acquiring target data of the smart glasses slave equipment, wherein the target data is generated by the smart glasses slave equipment following a user action and comprises gyroscope sensor change data and geomagnetic sensor change data representing the user action;

and taking the target data as the target selection data.

Illustratively, monitoring the data changes of a gyroscope and a geomagnetic sensor of the ring device, and acquiring fused sensor data event.

In a possible implementation manner, the step of updating the position of the virtual pointer on the virtual screen of the smart glasses according to the target selection data includes:

performing matrix inversion processing on the target data to obtain matrix data, and converting the matrix data into coordinate data on a virtual screen of the intelligent glasses according to a preset mapping relation by the matrix data;

acquiring angle data generated due to a user action based on the coordinate data;

and updating the position of the virtual pointer on the virtual screen of the intelligent glasses according to the angle data.

Illustratively, matrix inversion processing is performed on the target selection data event.sensor () method to obtain matrix data, a sensor manager.remap coordinationsystem () method is used to take a gesture corresponding to a z-axis to move horizontally, a gesture corresponding to a Y-axis to move vertically, coordinate mapping is performed on the matrix data to obtain data after coordinate mapping, and a yaw angle of a pitch angle of pitch and an azimuth angle, that is, angle data, is taken to update the position of a virtual pointer on a virtual screen of the smart glasses according to the angle data.

In a possible implementation manner, the step of performing matrix inversion processing on the target data to obtain matrix data, and converting the matrix data into coordinate data on a virtual screen of smart glasses according to a preset mapping relationship by using the matrix data includes:

matrix inversion processing is carried out on gyroscope sensor change data in the target data to obtain matrix data;

and carrying out coordinate mapping on the matrix data according to a preset mapping relation, wherein the z axis correspondingly moves horizontally, and the Y axis correspondingly moves up and down, so as to obtain coordinate data on the virtual screen of the intelligent glasses.

Illustratively, by:

private void updateOrientation(float[]rotationVector){

float[]rotationMatrix＝new float[16]；

// converting the rotation vector into a rotation matrix/`

Performing matrix inversion processing on gyroscope sensor change data, namely, rotation vectors in the target data to obtain matrix data;

by:

when the equipment is in a flat position, erecting a reference frame of the rotation vector by taking the vertical relation of X to east, Y to north and Z as a preset mapping relation, and performing coordinate mapping on the matrix data to obtain coordinate data on the virtual screen of the intelligent glasses.

By:

obtaining angle data generated due to user action based on the coordinate data is achieved.

In a possible implementation manner, before the step of updating the position of the virtual pointer on the virtual screen of the smart glasses according to the angle data, the method further includes:

setting the maximum angle of the user movement according to the resolution of the virtual screen of the intelligent glasses;

and calculating a conversion coefficient of the user motion angle and the screen movement angle based on the maximum angle.

Illustratively, according to the resolution of the virtual display screen of the intelligent glasses, the maximum angle which the hand can rotate towards each direction is set, and the pixel distance of the hand which moves corresponding to the virtual display screen when the hand rotates by one angle is calculated, namely, the conversion coefficient of the motion angle of the user and the screen movement angle is obtained.

In a possible implementation manner, the step of updating the position of the virtual pointer on the virtual screen of the smart glasses according to the angle data includes:

calculating target coordinate data of a virtual pointer on a virtual screen of the intelligent glasses based on the angle data and the conversion coefficient;

and updating the position of the virtual pointer on the virtual screen of the intelligent glasses based on the target coordinate data.

Exemplarily, target coordinate data of a virtual pointer on a virtual screen of the smart glasses are calculated based on the pitch angle, the roll angle, the azimuth angle and the conversion coefficient; and updating the position of the virtual pointer on the virtual screen of the intelligent glasses based on the target coordinate data.

In a possible implementation manner, the step of stopping updating the position of the virtual pointer on the virtual screen of the smart glasses after receiving the operation data of the user, and responding to the operation data based on the current position of the virtual pointer on the virtual screen of the smart glasses to complete the control of the smart glasses includes:

after receiving operation data of a user, assigning values to the target selection data to obtain target selection data with data content being a specific value, so that the position of a virtual pointer on a virtual screen of the intelligent glasses is not updated any more;

and responding the operation data based on the current position of the virtual pointer on the virtual screen of the intelligent glasses to complete the control of the intelligent glasses, wherein the operation data comprises first operation data acquired through an action recognition technology and/or second operation data acquired through a key.

Exemplarily, a characteristic value of peripheral equipment such as a Bluetooth intelligent ring is determined, the glasses end is connected with the peripheral equipment such as the ring through a low power consumption mode, the glasses end monitors the special characteristic value, and target selection data receiving and sending are realized through the characteristic value, namely, the position of a virtual pointer on a virtual screen of the intelligent glasses is not updated any more; the operation data can be obtained by simulating gesture interaction such as clicking double click, view transformation and the like of a mouse on the virtual screen, and interaction such as view transformation, focus selection, entering and exiting and the like can be correspondingly realized on the screen of the glasses by using entity keys on peripheral equipment such as a ring and the like.

In one possible implementation, as shown in fig. 2, the application provides a control method of an intelligent wearable device, when the interaction mode is a 3Dof mode, the method includes that the intelligent ring monitors data of a gyroscope and a geomagnetic sensor inside the intelligent ring, and a rotation vector is a sensor fusion combination of the gyroscope, a magnetometer and an accelerometer. When the device is in a flat position, the reference frame of the rotation vector is X towards east, Y towards north and Z is vertical, and if the finger ring device is supposed to move from left to right in the space, the sensor values of the movement start and the movement end are monitored, and the sensor values are converted into parameters required for acquiring the simulated action, such as a pitch angle, a roll angle, an azimuth angle and the like. The rotation vector is converted into a rotation matrix, the actual coordinate data of the sensor is mapped to a sensor coordinate system, the rotation matrix data is converted into a pitch angle, a roll angle and an azimuth angle, the angle value is transmitted to the glasses end, and the function of drawing a corresponding coordinate view is realized at the glasses end. The method comprises the steps of determining a characteristic value of the Bluetooth intelligent ring, enabling a glasses end to be connected with the ring through a low power consumption mode, monitoring the special characteristic value through the glasses end, achieving data receiving and sending through the characteristic value, calculating a central point of a coordinate value, defining a mapping range, regarding the range as a selected view, defining the central point of the view as a central point pressed by a mouse, obtaining a sliding trend from left to right through calculating coordinates of the mapping view when the start and the end of the calculation are carried out, achieving simulation of operation from left to right through an Android auxiliary function, and selecting the view on the right. Example codes are as follows:

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in one possible embodiment, as shown in fig. 3, the present application provides a control device of an intelligent wearable device, the control device including:

the data acquisition module 201 is configured to acquire user request information and basic information of a slave device of the intelligent wearable device, where the user request information includes target application information and operation information;

a matching module 202, configured to determine, based on the target application information and the basic information of the slave device, whether an adaptation key meeting a target application exists on the slave device;

a mode selection module 203, configured to determine, based on the operation information, a target interaction mode of the slave device and the smart wearable device if an adaptation key meeting a target application exists on the slave device, and complete control of the smart wearable device according to the target interaction mode, where the target interaction mode includes a key mode in which the slave device and the smart wearable device interact with each other through the adaptation key and/or a 3Dof mode in which the slave device and the smart wearable device interact with each other through recognizing a user action;

the mode selection module 203 is further configured to select a 3Dof mode as a target interaction mode if no adaptation key meeting a target application exists on the slave device, and complete control of the intelligent wearable device according to the target interaction mode.

In one possible implementation, as shown in fig. 4, an embodiment of the present application provides an electronic device 300, including: comprising a memory 310, a processor 320 and a computer program 311 stored on the memory 310 and executable on the processor 320, when executing the computer program 311, implements: acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information; judging whether an adaptive key meeting the target application exists on the slave equipment or not based on the target application information and the basic information of the slave equipment; if the slave device has an adaptive key meeting the target application, determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptive key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing user actions; and if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode, and finishing the control of the intelligent wearable equipment according to the target interaction mode.

In one possible implementation, as shown in fig. 5, the present application provides a computer-readable storage medium 400, on which a computer program 411 is stored, where the computer program 411 implements, when executed by a processor: acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information; whether an adaptive key meeting the target application exists on the slave equipment is judged based on the target application information and the basic information of the slave equipment; if the slave device has an adaptive key meeting the target application, determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptive key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing user actions; and if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode, and finishing the control of the intelligent wearable equipment according to the target interaction mode.

A computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.

Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations for aspects of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, smalltalk, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any type of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet service provider).

It will be understood by those skilled in the art that the modules or steps of the invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of computing devices, and optionally they may be implemented by program code executable by a computing device, such that it may be stored in a memory device and executed by a computing device, or it may be separately fabricated into various integrated circuit modules, or it may be fabricated by fabricating a plurality of modules or steps thereof into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in some detail by the above embodiments, the invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the invention, and the scope of the invention is determined by the scope of the appended claims.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. A control method of intelligent wearable equipment is characterized by comprising the following steps:

acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information;

whether an adaptive key meeting the target application exists on the slave equipment is judged based on the target application information and the basic information of the slave equipment;

if the slave device has an adaptive key meeting the target application, determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptive key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing user actions;

and if the slave equipment does not have an adaptive key meeting the target application, selecting a 3Dof mode as a target interaction mode, and finishing the control of the intelligent wearable equipment according to the target interaction mode.

2. The method for controlling an intelligent wearable device according to claim 1, wherein before the step of determining whether an adapted key satisfying a target application exists on the slave device based on the target application information and the base information of the slave device, the method further comprises:

determining a target application based on the target application information, and acquiring functional data of the target application;

determining an event process for realizing each function of the target application according to the function data;

and marking the implementation of the required specific keys in the event flow, and recording the number of the specific keys and the identifier of each specific key, wherein the identifier is set through a key function.

3. The method for controlling the intelligent wearable device according to claim 2, wherein the step of determining whether the slave device has an adaptive key meeting a target application based on the target application information and the base information of the slave device comprises:

matching the identifier of each specific key with the basic information of the slave equipment, and judging whether a target key corresponding to each specific key exists on the slave equipment or not to obtain a judgment result;

and confirming whether an adaptive key meeting the target application exists on the slave equipment or not based on the judgment result.

4. The method for controlling the smart wearable device according to claim 2, wherein the step of determining the target interaction mode of the slave device with the smart wearable device based on the operation information if there is an adaptive key on the slave device that satisfies the target application comprises:

if the slave equipment has an adaptive key meeting the target application, a target event process based on the operation information and a target function corresponding to the operation information is performed;

setting different preset values and weight values for different types of steps in the target event flow to obtain a complexity degree value when the target event flow is finished by means of the adaptive key;

if the complexity degree value is larger than or equal to a complexity degree threshold value, selecting the 3Dof mode as a target interaction mode;

and if the complexity degree value is smaller than a complexity degree threshold value, selecting the key mode as a target interaction mode.

5. The method for controlling an intelligent wearable device according to claim 2, wherein after the step of selecting the 3Dof mode as the target interaction mode if there is no adaptive key on the slave device that satisfies the target application, the method further comprises:

acquiring key information of an idle key which does not meet the target application and exists on the slave equipment, wherein the key information comprises position information and function information;

generating a key function changing request based on the key information and the identifier of the specific key, wherein the key function changing request is used for confirming whether a user needs to change the function of the adaptive key which does not meet the target application into the function of the specific key;

acquiring user indication information according to the key function changing request, wherein the user indication information is YES or NO;

if the user indication information is YES, changing the function of the adaptive key which does not meet the target application into the function of the specific key;

and if the user indication information is NO, continuing to select the 3Dof mode as the target interaction mode.

6. The method for controlling the intelligent wearable device as claimed in claim 1, further comprising:

when the target interaction mode is the 3Dof mode, setting the maximum angle of the user movement according to the resolution of the virtual screen of the intelligent wearable device;

and calculating a conversion coefficient of the user motion angle and the screen movement angle based on the maximum angle.

7. The method for controlling the intelligent wearable device according to the target interaction mode of claim 6, wherein the step of completing the control of the intelligent wearable device according to the target interaction mode comprises:

and when the target interaction mode is the 3Dof mode, determining control information of the intelligent wearable device according to the conversion coefficient and the combination of the gyroscope sensor variation data and the geomagnetic sensor variation data of the slave device so as to complete the control process of the intelligent wearable device.

8. The utility model provides a controlling means of intelligence wearing equipment which characterized in that, controlling means includes:

the data acquisition module is used for acquiring user request information and basic information of slave equipment of the intelligent wearable equipment, wherein the user request information comprises target application information and operation information;

the matching module is used for judging whether an adaptive key meeting the target application exists on the slave equipment or not based on the target application information and the basic information of the slave equipment;

the mode selection module is used for determining a target interaction mode of the slave device and the intelligent wearable device based on the operation information if an adaptation key meeting a target application exists on the slave device, and completing control of the intelligent wearable device according to the target interaction mode, wherein the target interaction mode comprises a key mode in which the slave device and the intelligent wearable device interact through the adaptation key and/or a 3Dof mode in which the slave device and the intelligent wearable device interact through recognizing a user action;

the mode selection module is further configured to select a 3Dof mode as a target interaction mode if no adaptation key meeting a target application exists on the slave device, and complete control of the intelligent wearable device according to the target interaction mode.

9. An electronic device, comprising: a processor, a memory and a bus, the memory storing machine readable instructions executable by the processor, the processor and the memory communicating over the bus when an electronic device is running, the machine readable instructions when executed by the processor performing the steps of the method of controlling a smart wearable device according to any one of claims 1 to 7.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when executed by a processor, performs the steps of the method of controlling a smart wearable device according to any one of claims 1 to 7.

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