CN105407166A - Communication implementation method and system for wearable equipment - Google Patents

Abstract

The invention discloses a communication implementation method and system for wearable equipment. The method comprises the following steps that: the wearable equipment detects a communication request in real time, and uploads the communication request to a cloud intelligent terminal virtual machine through a wireless communication module when the communication request is detected; and the intelligent terminal virtual machine feeds back corresponding communication data according to the communication request, and transmits the communication data to the wearable equipment. Through adoption of the communication implementation method and system, functions of the wearable equipment can be used under the situation that the wearable equipment is not paired with any intelligent terminal carrying an operating system through a wireless connection, and convenience is brought to a user.

Description

A communication implementation method and system for a wearable device

technical field

The present invention relates to the technical field of wearable devices, in particular to a communication implementation method and system for wearable devices.

Background technique

At present, wearable devices (such as smart watches) are all positioned as accessory devices of smartphones. They are connected through Bluetooth. Once they are out of the connection range, many functions of wearable devices cannot be used normally. But if you want to support long-distance wireless connections such as 3G/LTE, without the support of operating system manufacturers, OEM manufacturers are basically powerless.

Therefore, the prior art still needs to be improved and developed.

Contents of the invention

Aiming at the above-mentioned defects of the prior art, the present invention provides a communication implementation method and system of a wearable device, aiming at solving the problem that the wearable device in the prior art is only used as an accessory device of a smart phone, and if it exceeds the Bluetooth connection range, the wearable The problem that none of the functions of the device can be used normally.

The technical solution adopted by the present invention to solve technical problems is as follows:

A method for realizing communication of a wearable device, wherein the method includes the steps of:

A. The wearable device detects the communication request in real time, and when the communication request is detected, it is uploaded to the intelligent terminal virtual machine in the cloud through the wireless communication module;

B. The smart terminal virtual machine feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device.

The communication implementation method of the wearable device, wherein the wireless communication module is a 3G/LTE module capable of 3G communication or 4G communication.

The communication implementation method of the wearable device, wherein the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request, and a video data transmission request.

The communication implementation method of the wearable device, wherein the step A specifically includes:

A1. The wearable device detects the communication request in real time;

A2. When a communication request is detected, the data packet of the communication request is converted into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module;

A3. Upload the 3G/LTE data packet to the smart terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module.

The communication implementation method of the wearable device, wherein the step B specifically includes:

B1. The smart terminal virtual machine receives the 3G/LTE data packet, and parses the 3G/LTE data, and obtains the parsed 3G/LTE data packet;

B2. Feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device.

A communication implementation system for a wearable device, including:

The wearable device is used for real-time detection of communication requests, and when a communication request is detected, it is uploaded to the smart terminal virtual machine in the cloud through the wireless communication module;

The cloud server is used for the intelligent terminal virtual machine to feed back corresponding communication data according to the communication request, and send the communication data to the wearable device.

The communication realization system of the wearable device, wherein, the wireless communication module is a 3G/LTE module capable of 3G communication or 4G communication.

The communication realization system of the wearable device, wherein the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request and a video data transmission request.

The communication realization system of the wearable device, wherein the wearable device specifically includes:

The real-time detection module is used for real-time detection of communication requests by wearable devices;

The encoding module is used to convert the data packet of the communication request into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module when the communication request is detected;

The upload module is used to upload the 3G/LTE data packet to the intelligent terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module.

The communication implementation system of the wearable device, wherein the cloud server specifically includes:

An analysis module is used for the intelligent terminal virtual machine to receive the 3G/LTE data packet, and analyze the 3G/LTE data, and obtain the resolved 3G/LTE data packet;

The feedback module is configured to feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device.

The present invention provides a communication implementation method and system of a wearable device. The method includes: the wearable device detects the communication request in real time, and when the communication request is detected, it uploads to the intelligent terminal virtual machine in the cloud through the wireless communication module; The terminal virtual machine feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device. The present invention realizes that the wearable device can also use its own functions without performing wireless connection and pairing with an intelligent terminal equipped with an operating system, which is convenient for users.

Description of drawings

Fig. 1 is a flow chart of a preferred embodiment of a communication implementation method of a wearable device according to the present invention.

Fig. 2 is a specific flow chart of the wearable device sending a communication request to the smart terminal virtual machine in the communication implementation method of the wearable device according to the present invention.

Fig. 3 is a specific flow chart of the intelligent terminal virtual machine feeding back communication data to the wearable device in the communication implementation method of the wearable device according to the present invention.

Fig. 4 is a structural block diagram of a preferred embodiment of the communication implementation system of the wearable device according to the present invention.

detailed description

In order to make the object, technical solution and advantages of the present invention more clear and definite, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

Please refer to FIG. 1 . FIG. 1 is a flowchart of a preferred embodiment of a communication implementation method of a wearable device according to the present invention. As shown in Figure 1, the communication implementation method of the wearable device includes steps:

Step S100, the wearable device detects the communication request in real time, and uploads to the smart terminal virtual machine in the cloud through the wireless communication module when the communication request is detected.

In the embodiment of the present invention, the wearable device communicates with the smart terminal virtual machine in the cloud through the wireless communication module, and the physical smart phone in the prior art is replaced by the smart terminal virtual machine in the cloud. In this way, even when the user does not carry a smart terminal that can be connected to the wearable device, the smart terminal virtual machine in the cloud can simulate the smart terminal of the entity to perform various data processing.

During specific implementation, the wearable device is a smart watch, a smart bracelet, smart glasses, smart running shoes, or a smart ring.

Step S200, the smart terminal virtual machine feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device.

When the smart terminal virtual machine in the cloud receives a communication request from the wearable device, it feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device. During specific implementation, the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request, and a video data transmission request. That is, wearable devices equipped with 3G/LTE modules can also make calls, send messages, send pictures, and video chat when they are separated from the smart terminal.

Further, as shown in FIG. 2, the specific process of the wearable device sending a communication request to the smart terminal virtual machine in step S100 includes:

Step S101, the wearable device detects the communication request in real time;

Step S102, when a communication request is detected, the data packet of the communication request is converted into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module;

Step S103, uploading the 3G/LTE data packet to the smart terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module.

During specific implementation, the step S102 includes:

Step S1021. When a communication request is detected, determine the communication option of the wearable device. When the communication option is 3G/LTE module communication, execute step S1022. When the communication option is Bluetooth module communication, execute step S1023;

Step S1022, if the communication option of the wearable device is 3G/LTE module communication, convert the data packet of the communication request into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module;

Step S1023, if the communication option of the wearable device is Bluetooth module communication, convert the data packet of the communication request into a Bluetooth data packet through the Bluetooth protocol corresponding to the Bluetooth module.

The step S103 includes:

Step S1031, determine the data type corresponding to the data packet of the communication request, when the data packet of the communication request is a 3G/LTE data packet, then perform step S1032, and when the data packet of the communication request is a Bluetooth data packet, then perform step S1033;

Step S1032, uploading the 3G/LTE data packet to the smart terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module;

Step S1033, upload the Bluetooth data packet to the smart terminal virtual machine corresponding to the wearable device in the cloud through the Bluetooth module.

It can be seen that both a 3G/LTE module and a Bluetooth module can be set in the wearable device. Determine whether to start the 3G/LTE module or the Bluetooth module by setting the communication options of the wearable device. When the user carries a smart terminal paired with the wearable device, the Bluetooth module is selected for communication, and when the user does not carry a smart terminal paired with the wearable device, the 3G/LTE module is selected for communication.

Since the present invention focuses on a communication implementation method in which a 3G/LTE module can be set in a wearable device, the case of setting a 3G/LTE module in a wearable device is mainly considered.

Further, as shown in FIG. 3 , in the step S200, the specific process for the smart terminal virtual machine to feed back communication data to the wearable device includes:

Step S201, the smart terminal virtual machine receives the 3G/LTE data packet, and parses the 3G/LTE data to obtain the parsed 3G/LTE data packet;

Step S202. Feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device.

It can be seen that the present invention realizes that the wearable device can also use its own functions without performing wireless connection and pairing with the smart terminal equipped with an operating system, which is convenient for users.

Based on the above method embodiments, the present invention also provides a communication implementation system for wearable devices, as shown in FIG. 4 , the communication implementation system for wearable devices includes:

The wearable device 100 is used to detect the communication request in real time, and when the communication request is detected, it is uploaded to the intelligent terminal virtual machine in the cloud through the wireless communication module;

The cloud server 200 is used for the smart terminal virtual machine to feed back corresponding communication data according to the communication request, and send the communication data to the wearable device.

Further, in the communication implementation system of the wearable device, the wireless communication module is a 3G/LTE module capable of 3G communication or 4G communication.

Further, in the communication implementation system of the wearable device, the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request, and a video data transmission request.

Further, in the communication implementation system of the wearable device, the wearable device 100 specifically includes:

The real-time detection module is used for real-time detection of communication requests by wearable devices;

The encoding module is used to convert the data packet of the communication request into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module when the communication request is detected;

The upload module is used to upload the 3G/LTE data packet to the intelligent terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module.

Further, in the communication implementation system of the wearable device, the cloud server 200 specifically includes:

An analysis module is used for the intelligent terminal virtual machine to receive the 3G/LTE data packet, and analyze the 3G/LTE data, and obtain the resolved 3G/LTE data packet;

The feedback module is configured to feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device. .

To sum up, the present invention provides a communication implementation method and system for a wearable device. The method includes: the wearable device detects the communication request in real time, and when the communication request is detected, it uploads the communication request to the smart device in the cloud through the wireless communication module. The terminal virtual machine; the intelligent terminal virtual machine feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device. The present invention realizes that the wearable device can also use its own functions without performing wireless connection and pairing with an intelligent terminal equipped with an operating system, which is convenient for users.

It should be understood that the application of the present invention is not limited to the above examples, and those skilled in the art can make improvements or transformations according to the above descriptions, and all these improvements and transformations should belong to the protection scope of the appended claims of the present invention.

Claims (10)

1. A method for realizing communication of a wearable device, characterized in that, the method comprises steps: A. The wearable device detects the communication request in real time, and when the communication request is detected, it is uploaded to the intelligent terminal virtual machine in the cloud through the wireless communication module; B. The smart terminal virtual machine feeds back corresponding communication data according to the communication request, and sends the communication data to the wearable device. 2. The communication implementation method of the wearable device according to claim 1, wherein the wireless communication module is a 3G/LTE module capable of 3G communication or 4G communication. 3. The communication implementation method of the wearable device according to claim 1, wherein the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request and a video data transmission request . 4. The communication implementation method of the wearable device according to claim 2, wherein the step A specifically includes: A1. The wearable device detects the communication request in real time; A2. When a communication request is detected, the data packet of the communication request is converted into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module; A3. Upload the 3G/LTE data packet to the smart terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module. 5. The communication implementation method of the wearable device according to claim 4, wherein the step B specifically includes: B1. The smart terminal virtual machine receives the 3G/LTE data packet, and parses the 3G/LTE data, and obtains the parsed 3G/LTE data packet; B2. Feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device. 6. A communication realization system of a wearable device, characterized in that, comprising: The wearable device is used for real-time detection of communication requests, and when a communication request is detected, it is uploaded to the smart terminal virtual machine in the cloud through the wireless communication module; The cloud server is used for the intelligent terminal virtual machine to feed back corresponding communication data according to the communication request, and send the communication data to the wearable device. 7. The communication implementation system for wearable devices according to claim 6, wherein the wireless communication module is a 3G/LTE module capable of 3G communication or 4G communication. 8. The communication implementation system of the wearable device according to claim 6, wherein the communication request includes one or more of a voice call request, a text data transmission request, a picture data transmission request and a video data transmission request . 9. The communication realization system of the wearable device according to claim 7, wherein the wearable device specifically comprises: The real-time detection module is used for real-time detection of communication requests by wearable devices; The encoding module is used to convert the data packet of the communication request into a 3G/LTE data packet through the 3G/LTE protocol corresponding to the 3G/LTE module when the communication request is detected; The upload module is used to upload the 3G/LTE data packet to the intelligent terminal virtual machine corresponding to the wearable device in the cloud through the 3G/LTE module. 10. The communication realization system of the wearable device according to claim 9, wherein the cloud server specifically includes: An analysis module is used for the intelligent terminal virtual machine to receive the 3G/LTE data packet, and analyze the 3G/LTE data, and obtain the resolved 3G/LTE data packet; A feedback module, configured to feed back corresponding communication data according to the analyzed 3G/LTE data packet, and send the communication data to the wearable device.