CN110572428A - Method for remotely controlling wearable equipment - Google Patents

Abstract

the invention relates to a method for remotely controlling wearable equipment, which comprises the following steps: after receiving an external remote control instruction, the server detects the networking state of the wearable device; if the wearable equipment is in the networking state, the server sends the remote control instruction to the wearable equipment; the wearable device receives and executes the remote control instruction, and feeds back an execution result to the server, and the server feeds back the execution result to the outside; by the method, the parent equipment can be connected with the child wearing equipment unilaterally, and the wearing equipment is controlled to execute functions such as photographing, recording and the like according to requirements, so that the requirement that parents know the current state of the child is met.

Description

method for remotely controlling wearable equipment

Technical Field

the invention relates to the technical field of wearable equipment, in particular to a method for remotely controlling the wearable equipment.

Background

The wearable devices comprise helmets, watches, necklaces, waistbands and the like, and with the development of scientific technology, more and more wearable devices are provided with network, shooting, recording and telephone communication functions;

Wearing equipment that supplies children to use at present does not operate wearing equipment at child, produces under the condition of answering, and parent's equipment can not establish with child's wearing equipment and is connected, if: when a child is not receiving a phone call, is unwilling to receive a phone call, or for any number of reasons is unable to receive a phone call, the parent has no way to obtain the current status of the child by establishing communication with the wearable device of the child via the device.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method for remotely controlling a wearable device, aiming at the above-mentioned defects of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a method for constructing a remote control wearable device is realized by the following steps:

The first step is as follows: after receiving an external remote control instruction, the server detects the networking state of the wearable device;

The second step is that: if the wearable equipment is in the networking state, the server sends the remote control instruction to the wearable equipment;

the third step: the wearable device receives and executes the remote control instruction, the execution result is fed back to the server, and the server feeds back the execution result to the outside.

The method for remotely controlling the wearable device comprises the step of remotely controlling one or more of photographing, sound recording and video recording.

In the second step, if the server detects that the wearable device is not networked, the server marks the wearable device, and feeds back networking information of the wearable device to the outside after the marked wearable device is networked.

The method for remotely controlling the wearable equipment comprises the steps that the server acquires and records the networking state and the position information of the wearable equipment at intervals of a set time, and feeds back the information of the non-networking state of the wearable equipment and/or the latest networking time and the position information in the record to the outside when the fact that the wearable equipment is not networked is detected.

The method for remotely controlling the wearable equipment comprises the steps that after the wearable equipment receives a remote control instruction, the state of the remote control instruction and instruction execution equipment which is carried by the wearable equipment and is related to the remote control instruction is detected;

The wearable device divides the remote control instruction into an executable remote control instruction and a non-executable remote control instruction according to the state of the instruction execution device, executes the executable remote control instruction to generate an execution file, does not execute the non-executable remote control instruction and generates instruction non-executable information;

the wearable device collects the execution file and the instruction non-executable information into an instruction execution result and feeds the instruction execution result back to the server.

according to the method for remotely controlling the wearable device, after the wearable device receives the remote control instruction, a use prompting task of the wearable device is set in the background, and when the operation and use of the wearable device are detected, the use information of the wearable device is sent to the server.

the method for remotely controlling the wearable device, provided by the invention, does not respond to the operation and control instruction of the wearable device to the instruction execution device when the instruction execution device is in the state of executing the remote control instruction.

The method for remotely controlling the wearable device comprises the steps that when the wearable device cannot execute a remote control instruction, a task for carrying out self-checking on the state of the relevant instruction execution device is set at a background interval for a set time, and when the condition that the instruction execution device is idle or all the instruction execution devices are idle is detected, idle instruction execution device information is fed back to a server.

The method for remotely controlling the wearable device comprises the steps that the wearable device compresses an execution result and uploads the execution result; the execution result is in a hidden state, cannot be viewed locally on the wearable device, and is deleted after the uploading is successful.

The method for remotely controlling the wearable device comprises the steps that a time mark is attached to an execution result, the execution result cannot be deleted when the execution result is not uploaded or a wearable device network is interrupted in the uploading process, the wearable device locally records an event, the event triggers network connection detection once every set time, and after the fact that the network is normally connected is found, the execution result is uploaded to a server, and meanwhile, a local file is deleted.

The invention has the beneficial effects that: parents can send remote control instructions to a server through devices such as mobile phones, tablets and computers, the server detects the networking state of wearable devices worn by children after receiving external remote control instructions, if the wearable devices are not networked, the server marks the wearable devices, and after the marked wearable devices are networked, networking information is fed back to the devices of the parents; if the wearable equipment is in a networking state, the server sends the remote control instruction to the wearable equipment and executes the remote control instruction, and the wearable equipment executes the remote control instruction, feeds back a generated execution result to the server and feeds back the execution result to the equipment of the parent; by the method, the parent equipment can be unilaterally connected with the child wearable equipment, and the wearable equipment is controlled to execute functions such as photographing, recording and the like according to requirements, so that the requirement that parents know the current state of the child is met.

Drawings

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a flow chart of a method for remotely controlling a wearable device in accordance with a preferred embodiment of the present invention;

Fig. 2 is a schematic block diagram of a system for remotely controlling a wearable device according to a preferred embodiment of the present invention.

Detailed Description

in order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

As shown in fig. 1, the method for remotely controlling a wearable device according to a preferred embodiment of the present invention is implemented as follows:

S01: after receiving an external remote control instruction, the server detects the networking state of the wearable device;

S02: if the wearable equipment is in the networking state, the server sends the remote control instruction to the wearable equipment;

S03: the wearable device executes the remote control instruction, feeds back an execution result to the server, and feeds back the execution result to the outside through the server.

By the method, the parent equipment can be unilaterally connected with the child wearable equipment, and the wearable equipment is controlled to execute functions such as photographing, recording and the like according to requirements, so that the requirement that parents know the current state of the child is met.

Preferably, in the first step S01, the remote control command includes one or more secondary function commands. The secondary functional instructions include: a photographing instruction, a recording instruction, a video recording instruction, and other functional instructions.

Preferably, the remote control instruction setting comprises: and setting a secondary function instruction, namely setting a remote control instruction to contain one or more secondary function instructions.

Preferably, the remote control instruction setting further comprises: and setting function details, namely setting recording time of sound recording and video recording, the number of times of photographing and other function details.

Preferably, the remote control instruction setting further comprises: and (4) setting an execution mode, namely setting the execution mode when the wearable device executes the secondary function instruction. The execution mode includes: silent mode execution, prompt mode, and other modes. The silent mode is that when the wearable device executes a remote control instruction, no prompt is given to the child, and the silent mode is directly executed without disturbing the child. The embodiment takes silent photographing as an example: the silent photographing is to directly photograph the children without any prompt when photographing. The prompt mode is that the wearable device will perform a series of prompts on the child before executing the remote control instruction, such as performing voice, text, ringing, display screen lighting, vibration and other prompt modes on the child, and the prompt may be one or more of the prompt modes. This embodiment takes prompting to take a photo as an example: the prompting photographing is a text prompting that the screen of the wearable device is lightened and continues for a period of time, if the screen is lightened, the 10-second photographing countdown is started, and the photographing is carried out after 10 seconds. The suggestion is shot mainly used and is reminded children, lets children adjust the camera and shoots the angle or keep the stability of camera, shoots the scene of agreeing with the head of a family or shoots more clear picture quality.

It will be appreciated that the remote control instruction set includes a secondary functional instruction set, optionally including or not including: function detail setting and/or execution mode setting.

and after the parent equipment edits or selects the remote control instruction, uploading the set remote control instruction to a server.

Preferably, the second step S02 includes step S021: if the server detects that the wearable equipment is not networked, the server marks the wearable equipment, sets a networking detection task for the marked wearable equipment, and feeds back networking information of the wearable equipment to the outside after the marked wearable equipment is detected to be networked;

Preferably, the second step S02 further includes step S022, when the server detects that the wearable device is not networked, feeding back information of the wearable device that is not networked to the outside; it is convenient for parents to know that the wearing equipment of the child is not networked at the moment.

Preferably, the server acquires and records the networking state and the position information of the wearable device every set time; in the second step S02, the method further includes step S023, when the server detects that the wearable device is not networked, the server further feeds back the latest networking time and the location information in the record to the outside.

It is understood that in the second step S02, either: step S022 and/or S023.

in the third step S03, S031: after the wearable device receives the remote control instruction, the wearable device detects a secondary function instruction contained in the remote control instruction, and detects the state of an instruction execution device which is carried by the wearable device and is related to the remote control instruction according to the remote control instruction. The instruction execution apparatus includes an image pickup apparatus, a sound recording apparatus, and a video recording apparatus (including an image pickup apparatus and a sound recording apparatus), among others. The instruction execution device states include idle and occupied.

in the third step S03, S032 is further included: the wearable device divides a secondary function instruction in the remote control instruction into an executable remote control instruction and a non-executable remote control instruction according to the state of the instruction execution device; .

The executable remote control instruction is that all execution devices related to a certain secondary function instruction in the remote control instruction are in an idle state, and the instruction execution device can execute the secondary function instruction. The wearable device executes the executable remote control instruction and generates an execution file.

the non-executable remote control instruction is that all instruction execution devices related to a certain secondary function instruction in the remote control instruction are not in an idle state, and the instruction execution devices cannot execute the secondary function instruction. The wearable device executes the non-executable remote control instruction and generates instruction non-executable information. Such as: when the remote control instruction only comprises a video recording instruction, the wearable device detects that the camera (such as a camera) carried by the wearable device is in use and the audio recording device (such as a microphone) is in an idle state after receiving the remote control instruction, and the wearable device cannot execute the remote control instruction because the video recording instruction needs the camera and the audio recording device to be matched together, at the moment, the remote control instruction is a non-executable remote control instruction, and the wearable device feeds back non-executable information of the remote control instruction to the server aiming at the non-executable remote control instruction. The instruction non-executable information includes instruction execution device information in a non-idle state, such as: "the camera is being occupied, please retry later". Preferably, when all the instruction execution devices related to the non-executable remote control instruction are not in the idle state, the instruction non-executable information further includes the instruction execution device information in the idle state, so as to suggest that the parent re-edits the remote control instruction for the idle instruction execution device, so that the wearable device can execute the remote control instruction and feed back the execution result to know the condition of the child.

In the third step S03, S033 is further included: the wearable device collects the remote control instruction execution conditions into instruction execution results and feeds the instruction execution results back to the server, and the server feeds the instruction execution results back to the parent device.

When the remote control instructions are all executable remote control instructions, the wearable device collects execution files generated by executing the executable remote control instructions into instruction execution results and sends the instruction execution results to the server.

When the remote control instruction comprises an executable remote control instruction and a non-executable remote control instruction, the wearable device executes the executable remote control instruction and skips the non-executable remote control instruction. The wearable device collects the execution file generated by executing the executable remote control instruction and the instruction non-executable information generated by not executing the non-executable instruction remote control into an instruction execution result and sends the instruction execution result to the server.

When the remote control instructions are all non-executable remote control instructions, the wearable device collects the generated non-executable instructions into instruction execution results and sends the instruction execution results to the server.

preferably, in step S031, after receiving the remote control instruction, the wearable device will also set a local use prompt task of the wearable device at the background, and when detecting that the wearable device is operated and used by a child, send information that the child is using the wearable device to the server, and the server forwards the information to the parent device, so that a parent who needs to contact the child knows that the child is using the wearable device, thereby contacting in time, and avoiding a situation that non-subjective factors of the child are not connected to the telephone or video of the parent all the time, and the parent is not connected to the child. Preferably, if the instruction execution device is enabled to execute the remote control instruction, the device detects that the child is using the wearable device, then the wearable device adds information that the child is using the wearable device in the feedback instruction execution result, so that a parent of the child needs to be contacted to know that the child is using the wearable device, and timely contact is facilitated.

Preferably, in step S032, when the instruction execution device is in a state of executing the remote control instruction, the operation and control instruction of the wearable device to the instruction execution device is not responded; and avoids program errors caused by the fact that children use related instruction execution equipment at the same time. Such as: wearing equipment is carrying out the recording under the control of remote control instruction, when shooing, video recording function, if child uses corresponding function in the operation, then can feed back: the device is busy asking for a retry at a later time. To avoid logic control errors.

Preferably, in step S032, when the wearable device cannot execute the remote control instruction, a task of performing self-check on the state of the relevant instruction execution device is set in the local background of the wearable device at an interval of a set time, and when detecting that there is an idle instruction execution device or all instruction execution devices are idle, information of the idle instruction execution device is fed back to the server; the head of a family of being convenient for can be timely master wearing equipment instruction execution device's user state, the resend remote control instruction of being convenient for.

Preferably, in step S033, the wearable device compresses the execution result of the remote control instruction first and then uploads the execution result, so that the occupation amount of network bandwidth of the wearable device can be reduced, and the communication traffic can be saved.

preferably, in step S033, the execution result of the remote control instruction is hidden in the wearable device, cannot be viewed locally on the wearable device, and is deleted after the uploading is successful, so that the execution result only occupies the storage space of the wearable device temporarily, and the storage space is released immediately after the execution result is used, thereby avoiding that the storage space of the wearable device is occupied for a long time, and the storage capacity and the use of the wearable device are affected.

Preferably, in step S033, a time identifier is attached to the execution result of the remote control instruction, the execution result is not deleted when the execution result is not uploaded or the network of the wearable device is interrupted during uploading, the wearable device locally records the event, the event triggers network connection detection once every set time, and after the network is found to be normally connected, the execution result is uploaded to the server, and the local file is deleted; the effective return of the execution result is guaranteed, and meanwhile, the time for generating the execution result can be accurately identified through the time identification when the return is not in time.

A system for remotely controlling a wearable device, according to the method for remotely controlling a wearable device, as shown in FIG. 2, includes a wearable device 1 and a server 2;

the server 2 acquires and records the networking state and the position information of the wearable device 1 at intervals of a set time, detects the networking state of the wearable device 1 after receiving an external remote control instruction, feeds back the latest networking time and the position information in the record to the outside and marks the wearable device 1 if the wearable device 1 is not networked, and then networks the networking information after the marked wearable device 1 is networked; if the wearable device 1 is in the networking state, sending the remote control instruction to the wearable device and executing the remote control instruction by the wearable device;

A wearable device 1 including a function instruction execution unit 100;

the functional instruction execution unit 100 is configured to execute a remote control instruction, detect and feed back a working state of a related instruction execution device, compress, hide and upload an execution result, perform network detection after an execution result upload failure, and perform upload of an execution result when network connectivity is detected.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. a method for remotely controlling wearable equipment is characterized by comprising the following steps:

The first step is as follows: after receiving an external remote control instruction, the server detects the networking state of the wearable device;

The second step is that: if the wearable equipment is in the networking state, the server sends the remote control instruction to the wearable equipment;

The third step: the wearable device receives and executes the remote control instruction, the execution result is fed back to the server, and the server feeds back the execution result to the outside.

2. The method of claim 1, wherein the remote control instruction comprises one or more of a photograph, an audio recording, and a video recording.

3. The method of claim 1, wherein in the second step, if the server detects that the wearable device is not networked, the server marks the wearable device and feeds back networking information of the wearable device to the outside after the marked wearable device is networked.

4. the method for remotely controlling the wearable device according to claim 1, wherein the server acquires and records the networking state and the position information of the wearable device every set time, and when detecting that the wearable device is not networked, feeds back the non-networking information of the wearable device and/or the latest networking time and position information in the record to the outside.

5. The method for remotely controlling the wearable device according to claim 1, wherein after receiving the remote control instruction, the wearable device detects the state of the remote control instruction and an instruction execution device which is carried by the wearable device and is related to the remote control instruction;

The wearable device divides the remote control instruction into an executable remote control instruction and a non-executable remote control instruction according to the state of the instruction execution device, executes the executable remote control instruction to generate an execution file, does not execute the non-executable remote control instruction and generates instruction non-executable information;

The wearable device collects the execution file and the instruction non-executable information into an instruction execution result and feeds the instruction execution result back to the server.

6. The method for remotely controlling the wearable device according to claim 5, wherein after receiving the remote control instruction, the wearable device further sets a wearable device use prompting task in a background, and when detecting that the wearable device is operated and used, the wearable device use prompting task sends information to the server that the wearable device is in use.

7. The method for remotely controlling the wearable device according to claim 5, wherein the instruction execution device does not respond to the operation and control instruction of the wearable device to the instruction execution device when the instruction execution device is in a state of executing the remote control instruction.

8. The method for remotely controlling the wearable device according to claim 5, wherein when the wearable device cannot execute the remote control command, a task of performing self-checking on the state of the relevant command execution device is set at a background interval for a set time, and when detecting that the command execution device is idle or all the command execution devices are idle, idle command execution device information is fed back to the server.

9. The method for remotely controlling the wearable device according to claim 1, wherein the wearable device compresses an execution result before uploading; the execution result is in a hidden state, cannot be viewed locally on the wearable device, and is deleted after the uploading is successful.

10. The method for remotely controlling the wearable device according to claim 1, wherein a time identifier is attached to the execution result, the execution result is not deleted when the execution result is not uploaded or the network of the wearable device is interrupted in the uploading process, the wearable device locally records the event, the event triggers network connection detection once every set time, and after the network is normally connected, the execution result is uploaded to the server, and the local file is deleted.