CN112788592A - Data sending processing method and device for adding wake-up time - Google Patents

Abstract

The embodiment of the invention discloses a data transmission processing method and a data transmission processing device for adding wake-up time, wherein the method comprises the following steps: when the terminal equipment of the Internet of things generates service data, adding a wake-up period identifier in the service data; the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment; the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server; and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time. According to the scheme, efficient data processing is realized, the awakening period is optimized, and meanwhile the power consumption of the Internet of things equipment is reduced.

Description

Data sending processing method and device for adding wake-up time

Technical Field

The embodiment of the application relates to the technical field of internet of things, in particular to a data sending and processing method and device for adding wake-up time.

Background

With the popularization of the internet of things technology and the powerful functions of intelligent equipment, the internet of things equipment plays an increasingly important role in daily life of people. Various kinds of intelligent physical network terminal devices are applied to various fields. Generally, the internet of things connects articles with the internet through various information sensing devices, so that information exchange can be realized for all common physical objects which can be independently addressed, and the purposes of intelligent identification, positioning, tracking, monitoring and management are finally achieved.

How to reduce the power consumption of the internet of things equipment so as to achieve more stable and long-term operation is a key point of current attention. In the prior art, the terminal device of the internet of things adopts a mode of awakening to receive downlink data periodically, and the device does not monitor a downlink channel in a dormant period, so that the power consumption of the terminal device is reduced.

Disclosure of Invention

The embodiment of the invention provides a data sending and processing method and device for adding wake-up time, which realize high-efficiency data processing and reduce the power consumption of Internet of things equipment.

In a first aspect, an embodiment of the present invention provides a data transmission processing method for adding wakeup time, where the method includes:

when the terminal equipment of the Internet of things generates service data, adding a wake-up period identifier in the service data;

the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment;

the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server;

and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time.

Optionally, when the terminal device of the internet of things generates service data, adding a wake-up period identifier to the service data, including:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

Optionally, before adding the wake-up period identifier in the service data, the method further includes:

the method comprises the steps that the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period mark is added or not is determined according to a statistical analysis result, if yes, the awakening period mark is added to the service data, wherein the feedback type of all the service data is counted, if the feedback type is a feedback type, the time delay time of the feedback type service data is determined, and the condition that the time delay time meets the mark adding condition is judged.

Optionally, the forwarding device receives service data sent by each terminal device of the internet of things, and performs grouping according to the type of the service data to obtain grouped service data, including:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

In a second aspect, an embodiment of the present invention further provides a data transmission processing apparatus for adding a wakeup time, including:

the identification adding module is used for adding a wake-up period identification in the service data when the terminal equipment of the Internet of things generates the service data;

the data sending module is used for sending the service data added with the awakening period identifier to the transfer equipment by the terminal equipment of the Internet of things;

the data grouping module is used for receiving the service data sent by each Internet of things terminal device by the transfer device, grouping the service data according to the type of the service data to obtain grouped service data, and sending the service data to the server;

and the time adding module is used for adding corresponding awakening time for each group of service data, sending the awakening time to corresponding Internet of things terminal equipment and the server, and carrying out data communication between the Internet of things terminal and the server in the corresponding awakening time.

Optionally, the identifier adding module is specifically configured to:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

Optionally, the identifier adding module is further configured to:

before adding the awakening period identifier in the service data, the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether the awakening period identifier is added or not is determined according to the statistical analysis result, if so, the awakening period identifier is added to the service data, wherein the method comprises the steps of counting the feedback types of all the service data, if the feedback types are feedback types, determining the time delay time of the feedback type service data, and judging that the time delay time meets the identifier adding condition.

Optionally, the data grouping module is specifically configured to:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

In a third aspect, an embodiment of the present invention further provides a data sending and processing device for adding an awake time, where the device includes:

one or more processors;

a storage device for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the data transmission processing method for adding the wakeup time according to the embodiment of the present invention.

In a fourth aspect, the present invention further provides a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform the data transmission processing method with added wake-up time according to the present invention.

In the embodiment of the invention, when the service data is generated through the terminal equipment of the Internet of things, the awakening period identifier is added into the service data; the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment; the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server; and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time. According to the scheme, efficient data processing is realized, the awakening period is optimized, and meanwhile the power consumption of the Internet of things equipment is reduced.

Drawings

Fig. 1 is a flowchart of a data transmission processing method for adding wakeup time according to an embodiment of the present invention;

fig. 2 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention;

fig. 3 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention;

fig. 4 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention;

fig. 5 is a block diagram of a data transmission processing apparatus for adding wakeup time according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an apparatus according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of a data sending and processing method for adding wakeup time according to an embodiment of the present invention, which is suitable for data transmission of internet of things devices. The scheme of one embodiment of the application specifically comprises the following steps:

step S101, when the terminal equipment of the Internet of things generates service data, adding a wake-up period identifier in the service data.

In one embodiment, the terminal device of the internet of things generates service data which is communicated with the server in a transmission mode so as to realize the function of the internet of things. For the generated service data, the response time of the service data can be adjusted by adding the wake-up period identifier, so that the reasonable wake-up time is determined, and the low-power consumption processing is ensured. Optionally, when the terminal device of the internet of things generates service data, it is determined whether the service data needs to be added with an awake cycle identifier, and if so, the awake cycle identifier is added to the service data.

And S102, the terminal equipment of the Internet of things sends the service data added with the awakening period identifier to transfer equipment.

In one embodiment, the internet of things terminal device realizes service data transmission communication with the server through the relay device in the network, that is, the internet of things terminal device sends the service data to the relay device for forwarding. When the service data is sent to the transfer device, the service data that needs to be periodically adjusted automatically carries the wakeup period identifier added in step S101.

Step S103, the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server.

In one embodiment, after grouping the types of the received multiple service data, the relay device divides the service data into corresponding groups to obtain group service data, and sends each group of group service data to the server as a whole. Illustratively, the types of traffic data include a sensing data type and a positioning data type.

In another embodiment, the content may be obtained for grouping according to the message obtained corresponding to the service data. Specifically, the service data sent by the internet of things device is data for acquiring relevant data information in the server, and the specific information acquisition content may be classified into query content, data processing content, and notification change content. The transfer device divides the service data into different service groups according to different contents of the service data acquisition message, and then the service data are used for obtaining corresponding awakening time subsequently.

Step S104, adding corresponding awakening time for each group of service data, and sending the awakening time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the corresponding awakening time.

In one embodiment, the manner of adding the corresponding wake-up time to each packet service data may be: and determining the corresponding wake-up time according to the sending time and the maximum time delay of each packet service data. Specifically, the sending time of each service data is used as an initial time, the maximum time delay is a time upper limit for obtaining response data which is finally required, an awakening time interval of each service data is obtained according to the initial time and the time upper limit, and then the awakening time interval corresponding to each service data under the grouped service data is clustered to obtain a clustering result. If the clustering result is unique, determining the clustering result interval as the wakeup time corresponding to each service data in the grouped service data, namely, the terminal equipment wakes up at the allocated wakeup time to receive the response data of the server for the service data. And if the clustering result is not unique, determining the nearest clustering result interval according to the sending time of each service data, and taking the clustering result interval as the corresponding allocated wake-up time of the service data.

Therefore, when the service data is generated through the terminal equipment of the internet of things, the awakening period identifier is added into the service data; the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment; the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server; and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time. According to the scheme, efficient data processing is realized, the awakening period is optimized, and meanwhile the power consumption of the Internet of things equipment is reduced.

Fig. 2 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention. On the basis of the technical scheme, when the terminal device of the internet of things generates service data, adding an awakening period identifier in the service data, including:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data. The method specifically comprises the following steps:

step S201, determining whether a calling interface for sending the service data defines a custom wakeup time, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data, and if so, adding a wakeup period identifier in the service data.

Specifically, when the terminal device of the internet of things generates service data, it is determined whether a calling interface for sending the service data defines a custom wake-up time, that is, for the service data of which the wake-up time is required to be controlled in a development stage, a calling interface for the custom wake-up time is defined, and when the service data is generated, if it is determined that the calling interface for sending the service data defines the custom wake-up time, a wake-up period identifier is correspondingly added to the service data. In another embodiment, the determination of whether to be a recorded custom time course is based on the system process that initiated the business data. And for each created process, when the process is created, if the process needs to be subjected to wakeup period distribution, recording the process as a custom time process.

Step S202, the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment.

Step S203, the transfer equipment receives the service data sent by each terminal equipment of the Internet of things, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server.

Step S204, adding corresponding awakening time for each group of service data, and sending the awakening time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the corresponding awakening time.

According to the method, the generation mode of the service data is optimized and the adding and distribution of the wakeup time are facilitated by determining whether the calling interface for sending the service data defines the custom wakeup time or not or determining whether the calling interface for sending the service data corresponds to the recorded custom time according to the system process for initiating the service data, and if so, adding the wakeup period identifier into the service data.

Fig. 3 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention. On the basis of the above technical solution, before adding the wake-up period identifier to the service data, the method further includes:

the method comprises the steps that the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period mark is added or not is determined according to a statistical analysis result, if yes, the awakening period mark is added to the service data, wherein the feedback type of all the service data is counted, if the feedback type is a feedback type, the time delay time of the feedback type service data is determined, and the condition that the time delay time meets the mark adding condition is judged. The method specifically comprises the following steps:

step S301, the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period identifier is added or not is determined according to the statistical analysis result, if yes, the awakening period identifier is added to the service data, wherein the awakening period identifier comprises feedback types of all the service data, if the feedback types are feedback types, the time delay time of the feedback type service data is determined, and the time delay time is judged to meet the identifier adding condition.

In one embodiment, another process of generating an add wake cycle identification is defined. And the terminal equipment of the Internet of things performs statistical analysis on all service data sent by the terminal equipment of the Internet of things, and determines whether to add the awakening period identification or not according to the statistical analysis result. Counting the feedback types of all the service data, if the feedback type is the feedback type, determining the time delay time of the feedback type service data, and judging that the time delay time meets the identifier adding condition. The service data which needs to receive the feedback information is defined as a feedback type, and the service data which only reports the sending data to the server is defined as a non-feedback type. For feedback data, a delay time is set for different response time requirements of different service data, and the delay time represents the time of latest receiving response data. In one embodiment, it is determined whether the delay time meets an identifier adding condition, and if so, an awake period identifier is added to the service data. For example, if the delay time is less than 2 hours, it is determined that the delay time meets the identifier adding condition, and adds the wakeup period identifier to the service data. Step S302, determining whether a calling interface for sending the service data defines a custom wake-up time, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data, and if so, adding a wake-up period identifier in the service data.

Step S303, the terminal equipment of the Internet of things sends the service data added with the awakening period identifier to transfer equipment.

Step S304, the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server.

Step S305, adding corresponding wake-up time for each packet service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server within the respective corresponding wake-up time.

According to the scheme, all service data sent by the terminal equipment of the internet of things are subjected to statistical analysis, whether the awakening period identification is added or not is determined according to the statistical analysis result, if yes, the awakening period identification is added to the service data, the feedback type of all the service data is counted, if the feedback type is the feedback type, the time delay time of the feedback type service data is determined, the time delay time meets the identification adding condition is judged, the targeted adding and distributing of the awakening period are achieved, efficient data processing is achieved, the awakening period is optimized, and meanwhile the power consumption of the equipment of the internet of things is reduced.

Fig. 4 is a flowchart of another data transmission processing method for adding wakeup time according to an embodiment of the present invention. On the basis of the technical scheme, the method for grouping the service data includes that the transfer equipment receives the service data sent by each terminal equipment of the internet of things, and groups the service data according to the type of the service data to obtain grouped service data, and the method includes the following steps:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data. The method specifically comprises the following steps:

step S401, the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period mark is added or not is determined according to the statistical analysis result, if yes, the awakening period mark is added to the service data, wherein the awakening period mark comprises feedback types of all the service data, if the feedback types are feedback types, the time delay time of the feedback type service data is determined, and the time delay time is judged to meet mark adding conditions.

Step S402, determining whether the calling interface for sending the service data defines the user-defined awakening time or not, or determining whether the calling interface is the recorded user-defined time process or not according to the system process for initiating the service data, and if so, adding an awakening period identifier in the service data.

Step S403, the internet of things terminal device sends the service data added with the wake-up period identifier to a transfer device.

Step S404, the transfer equipment receives the service data sent by each terminal equipment of the Internet of things, counts fields contained in the service data, determines the data type of each service data according to the statistical result, groups the service data according to the determined data type of each service data to obtain grouped service data, and sends the service data to the server.

In one embodiment, the mode of determining the service data type is to count fields contained in the service data, and determine the data type of each service data according to the statistical result. Specifically, the service data with the consistent data fields are classified into the same data type, and the content of the data fields can also be analyzed, and the service data types can be classified according to the analysis result. If the analyzed temperature data field and humidity data field are the sensing data type, and if the analyzed data field content is the query keyword, the data type is acquired for the message. Correspondingly, the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data, and sends the service data to the server.

Step S405, adding corresponding wake-up time based on the data field content of the service data in each group of service data, and sending the wake-up time to the corresponding terminal equipment of the Internet of things and the server for data communication between the terminal of the Internet of things and the server in the respective corresponding wake-up time.

In an embodiment, a specific way of allocating the wake-up time is provided, that is, the corresponding wake-up time is added based on the data field content of the service data in each packet of service data, and the wake-up time is sent to the corresponding terminal device of the internet of things and the server. Illustratively, for the same type of packet service data, that is, each grouped packet service data is assigned with the same wake-up time period, so that the terminal devices of the internet of things are woken up in the wake-up time period to collectively process the response data of the server obtained by the same type of service data, and in response, the server sends the response data corresponding to the service data of each terminal device of the internet of things in the wake-up time period after receiving the wake-up time.

It can be known from the above that, the service data sent by each terminal device of the internet of things is received through the transfer device, the fields contained in the service data are counted, the data type of each service data is determined according to the counting result, the transfer device groups the service data according to the determined data type of each service data to obtain grouped service data, and sends the service data to the server, meanwhile, the corresponding wake-up time is added based on the data field content of the service data in each grouped service data, and the wake-up time is sent to the corresponding terminal device of the internet of things and the server for the data communication between the terminal of the internet of things and the server in the respective wake-up time, so that the wake-up mechanism of the terminal device of the internet of things is optimized, the efficient data processing is realized, and the wake-up period is optimized, meanwhile, the power consumption of the equipment of the Internet of things is reduced.

Fig. 5 is a block diagram of a data sending and processing device for adding wake-up time according to an embodiment of the present invention, where the device is configured to execute the data sending and processing method for adding wake-up time according to the data receiving end embodiment, and has corresponding functional modules and beneficial effects of the execution method. As shown in fig. 5, the apparatus specifically includes: an identification addition module 101, a data transmission module 102, a data grouping module 103, and a time addition module 104, wherein,

the identifier adding module 101 is used for adding a wakeup period identifier in service data when the terminal equipment of the internet of things generates the service data;

the data sending module 102 is configured to send, by the internet of things terminal device, the service data added with the wakeup period identifier to the transfer device;

the data grouping module 103 is used for the transfer device to receive the service data sent by each internet of things terminal device, perform grouping according to the type of the service data to obtain grouped service data, and send the service data to the server;

the time adding module 104 is configured to add corresponding wakeup time for each piece of packet service data, send the wakeup time to a corresponding terminal device of the internet of things and the server, and perform data communication between the terminal of the internet of things and the server within the respective corresponding wakeup time.

According to the scheme, when the service data is generated through the terminal equipment of the Internet of things, the awakening period identifier is added into the service data; the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment; the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server; and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time. According to the scheme, efficient data processing is realized, the awakening period is optimized, and meanwhile the power consumption of the Internet of things equipment is reduced.

In a possible embodiment, the identifier adding module is specifically configured to:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

In one possible embodiment, the identity adding module is further configured to:

before adding the awakening period identifier in the service data, the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether the awakening period identifier is added or not is determined according to the statistical analysis result, if so, the awakening period identifier is added to the service data, wherein the method comprises the steps of counting the feedback types of all the service data, if the feedback types are feedback types, determining the time delay time of the feedback type service data, and judging that the time delay time meets the identifier adding condition.

In a possible embodiment, the data grouping module is specifically configured to:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

Fig. 6 is a schematic structural diagram of a data transmission processing apparatus for adding a wakeup time according to an embodiment of the present invention, as shown in fig. 6, the apparatus includes a processor 201, a memory 202, an input device 203, and an output device 204; the number of the processors 201 in the device may be one or more, and one processor 201 is taken as an example in fig. 6; the processor 201, the memory 202, the input device 203 and the output device 204 in the apparatus may be connected by a bus or other means, for example in fig. 6. The memory 202, which is a computer-readable storage medium, may be used to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the data transmission processing method for adding the wakeup time in the embodiment of the present invention. The processor 201 executes various functional applications of the device and data processing, that is, implements the above-described data transmission processing method of adding the wakeup time, by executing software programs, instructions, and modules stored in the memory 202. The input device 203 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function controls of the apparatus. The output device 204 may include a display device such as a display screen.

An embodiment of the present invention further provides a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform a data transmission processing method for adding a wakeup time, the method including:

when the terminal equipment of the Internet of things generates service data, adding a wake-up period identifier in the service data;

the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment;

the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server;

and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time.

In a possible embodiment, when the terminal device of the internet of things generates service data, adding a wakeup period identifier to the service data, including:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

In a possible embodiment, before adding the wake-up period identifier to the service data, the method further includes:

the method comprises the steps that the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period mark is added or not is determined according to a statistical analysis result, if yes, the awakening period mark is added to the service data, wherein the feedback type of all the service data is counted, if the feedback type is a feedback type, the time delay time of the feedback type service data is determined, and the condition that the time delay time meets the mark adding condition is judged.

In a possible embodiment, the method for grouping the service data sent by the terminal devices of the internet of things by the transit device according to the types of the service data includes:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

From the above description of the embodiments, it is obvious for those skilled in the art that the embodiments of the present invention can be implemented by software and necessary general hardware, and certainly can be implemented by hardware, but the former is a better implementation in many cases. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a FLASH Memory (FLASH), a hard disk or an optical disk of a computer, and includes several instructions to make a computer device (which may be a personal computer, a service, or a network device) perform the methods described in the embodiments of the present invention.

It should be noted that, in the embodiment of the data transmission processing apparatus with added wake-up time, the included units and modules are only divided according to functional logic, but are not limited to the above division, as long as the corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the invention.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. Those skilled in the art will appreciate that the embodiments of the present invention are not limited to the specific embodiments described herein, and that various obvious changes, adaptations, and substitutions are possible, without departing from the scope of the embodiments of the present invention. Therefore, although the embodiments of the present invention have been described in more detail through the above embodiments, the embodiments of the present invention are not limited to the above embodiments, and many other equivalent embodiments may be included without departing from the concept of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The data transmission processing method for adding the wake-up time is characterized by comprising the following steps:

when the terminal equipment of the Internet of things generates service data, adding a wake-up period identifier in the service data;

the terminal equipment of the Internet of things sends the service data added with the awakening period identification to transfer equipment;

the transfer equipment receives the service data sent by each Internet of things terminal equipment, groups the service data according to the type of the service data to obtain grouped service data, and sends the service data to a server;

and adding corresponding wake-up time for each group of service data, and sending the wake-up time to corresponding Internet of things terminal equipment and the server for data communication between the Internet of things terminal and the server in the respective corresponding wake-up time.

2. The data sending and processing method for adding wake-up time according to claim 1, wherein when the terminal device of the internet of things generates service data, adding a wake-up period identifier in the service data, includes:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

3. The data transmission processing method for adding wakeup time according to claim 1, wherein before adding the wakeup period identifier to the service data, the method further comprises:

the method comprises the steps that the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether an awakening period mark is added or not is determined according to a statistical analysis result, if yes, the awakening period mark is added to the service data, wherein the feedback type of all the service data is counted, if the feedback type is a feedback type, the time delay time of the feedback type service data is determined, and the condition that the time delay time meets the mark adding condition is judged.

4. The data sending processing method for adding the wakeup time according to any one of claims 1 to 3, wherein the step of receiving the service data sent by each terminal device of the internet of things by the relay device, and grouping the service data according to the type of the service data to obtain grouped service data comprises the steps of:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

5. A data transmission processing apparatus that adds an awake time, comprising:

the identification adding module is used for adding a wake-up period identification in the service data when the terminal equipment of the Internet of things generates the service data;

the data sending module is used for sending the service data added with the awakening period identifier to the transfer equipment by the terminal equipment of the Internet of things;

the data grouping module is used for receiving the service data sent by each Internet of things terminal device by the transfer device, grouping the service data according to the type of the service data to obtain grouped service data, and sending the service data to the server;

and the time adding module is used for adding corresponding awakening time for each group of service data, sending the awakening time to corresponding Internet of things terminal equipment and the server, and carrying out data communication between the Internet of things terminal and the server in the corresponding awakening time.

6. The data transmission processing apparatus for adding wake-up time according to claim 5, wherein the identifier adding module is specifically configured to:

determining whether a calling interface for sending the service data defines a custom wakeup time or not, or determining whether the calling interface is a recorded custom time process according to a system process for initiating the service data;

and if so, adding a wake-up period identifier in the service data.

7. The data transmission processing device for adding wake-up time according to claim 5, wherein the identifier adding module is further configured to:

before adding the awakening period identifier in the service data, the terminal equipment of the Internet of things carries out statistical analysis on all service data sent by the terminal equipment of the Internet of things, whether the awakening period identifier is added or not is determined according to the statistical analysis result, if so, the awakening period identifier is added to the service data, wherein the method comprises the steps of counting the feedback types of all the service data, if the feedback types are feedback types, determining the time delay time of the feedback type service data, and judging that the time delay time meets the identifier adding condition.

8. The data transmission processing device with added wake-up time according to any one of claims 5 to 7, wherein the data packet module is specifically configured to:

the transfer equipment receives the service data sent by each Internet of things terminal equipment, counts fields contained in the service data, and determines the data type of each service data according to the counting result;

the transfer equipment groups the service data according to the determined data type of each service data to obtain grouped service data;

correspondingly, the adding of the corresponding wake-up time to each packet service data includes:

and adding corresponding wake-up time based on the data field content of the service data in each packet service data.

9. A data transmission processing apparatus that adds a wakeup time, the apparatus comprising: one or more processors; storage means for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the data transmission processing method of adding a wakeup time according to any one of claims 1 to 4.

10. A storage medium containing computer executable instructions for performing the data transmission processing method of adding a wakeup time according to any one of claims 1 to 4 when executed by a computer processor.

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