CN112600904A

CN112600904A - Smart city Internet of things equipment control method and device and control center

Info

Publication number: CN112600904A
Application number: CN202011426821.3A
Authority: CN
Inventors: 阳博; 蔡林; 张�杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-04-02

Abstract

The invention discloses a smart city Internet of things equipment control method, a smart city Internet of things equipment control device and a smart city Internet of things equipment control center. According to the method, a device identification is obtained firstly, then device information query is carried out on the device identification through control parameters, device operation data of the connected Internet of things device is further determined, a controllable data set of the connected Internet of things device is determined through an effective control instruction based on the device operation data, finally a cooperative control instruction is generated based on the controllable data set and an instruction generation thread, and the cooperative control instruction is issued to a user terminal, so that the user terminal transmits the cooperative control instruction to a target Internet of things device corresponding to the user terminal. By the design, when a user needs to control a plurality of Internet of things devices, the user terminal is not required to open a plurality of apps for switching and controlling one by one, and the problem that frequent switching among the apps causes control errors can be avoided.

Description

Smart city Internet of things equipment control method and device and control center

Technical Field

The disclosure relates to the technical field of Internet of things equipment processing, in particular to a smart city Internet of things equipment control method, device and control center.

Background

With the rapid development of the internet of things technology, more and more household appliances, vehicle-mounted equipment and the like have the internet of things function and can be regarded as different types of internet of things equipment. At present, most of the household appliances and the vehicle-mounted devices (internet of things devices) are controlled by mobile phones, however, there are many defects in the control by mobile phones, such as: when a user needs to control multiple internet of things devices, multiple apps need to be opened at the same time for operation, and thus frequent switching among the multiple apps may occur, which may cause control errors.

Disclosure of Invention

In order to solve the technical problems in the related art, the disclosure provides a smart city Internet of things equipment control method, a smart city Internet of things equipment control device and a smart city Internet of things equipment control center.

The invention provides a smart city Internet of things equipment control method, which is applied to a control center and comprises the following steps:

acquiring a device identifier of a connected Internet of things device in a device connection record of a user terminal;

inquiring the equipment information of the equipment identifier of the connected Internet of things equipment according to the control parameter corresponding to the target control instruction in the stage control instruction queue of the stored historical control instruction set, and determining the equipment operation data of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment;

determining a controllable data set of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment through effective control instructions in a stage control instruction queue in the stored historical control instruction set based on the equipment operation data of the connected Internet of things equipment;

and generating a cooperative control instruction for performing cooperative control on the connected Internet of things equipment through an instruction generation thread of the stored historical control instruction set based on a controllable data set of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment, and issuing the cooperative control instruction to the user terminal so that the user terminal transmits the cooperative control instruction to the target Internet of things equipment corresponding to the user terminal.

Preferably, the method includes performing device information query on the device identifier of the connected internet of things device through a control parameter corresponding to a target control instruction in a periodic control instruction queue of a stored historical control instruction set, and determining device operation data of the connected internet of things device, where the device operation data is matched with the device identifier of the connected internet of things device, and specifically includes:

receiving an equipment information query request, wherein the equipment information query request comprises equipment configuration information and equipment label information;

if the equipment label information is matched with the identification information corresponding to the equipment configuration information, searching target identification information corresponding to the equipment label information in a preset identification information distribution track; the identification information distribution track comprises a mapping relation between historical identification information and current identification information;

inquiring equipment information of the equipment identification in the target identification information through the control parameter;

and determining the equipment operation data of the equipment connected with the Internet of things according to the inquired equipment information.

Preferably, based on the device operation data of the connected internet of things device, determining, through an effective control instruction in the periodic control instruction queue in the stored historical control instruction set, a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device, specifically including:

monitoring sample operation data in the equipment operation data, acquiring an association relation between a data label of the sample operation data and node data corresponding to the sample operation data, and determining an association coefficient according to the association relation;

in the process of monitoring the sample operation data, acquiring a node data distribution track, and acquiring byte distribution information of the sample operation data in the node data distribution track;

acquiring a data label of the sample operation data and a label type corresponding list of node data corresponding to the sample operation data by using byte distribution information of the sample operation data in a node data distribution track, and judging whether a value in the label type corresponding list is the same as the association coefficient;

and if the node data distribution tracks are different, correcting the byte distribution information by using the association coefficient, acquiring a correction value of the node data distribution track by using the corrected byte distribution information, and determining a controllable data set connected with the Internet of things equipment through the correction value of the node data distribution track and an effective control instruction.

Preferably, based on a controllable data set of the connected internet of things device, where the device identifier of the connected internet of things device matches the controllable data set of the connected internet of things device, a cooperative control instruction for performing cooperative control on the connected internet of things device is generated through an instruction generation thread of the stored historical control instruction set, and specifically includes:

determining a data characteristic variable corresponding to the controllable data set and a thread running variable corresponding to the instruction generation thread, wherein the data characteristic variable and the thread running variable respectively comprise variable values with different weights;

extracting a reference data identifier of one variable value of the controllable data set in the data characteristic variables, and determining the variable value with the minimum weight in the thread running variables as a target variable value;

transmitting the reference data identifier to the target variable value according to a preset transmission protocol, obtaining an initial transmission node in the target variable value, and determining a corresponding relation between the controllable data set and the instruction generation thread according to the reference data identifier and the initial transmission node;

acquiring cooperative control data in the target variable value according to the corresponding relation, mapping the cooperative control data to the variable value corresponding to the reference data identifier, and generating a cooperative control data tag corresponding to the cooperative control data in the variable value corresponding to the reference data identifier;

grouping the cooperative control data labels corresponding to the cooperative control data to obtain a label information grouping list;

performing set analysis on a probability set determined according to the probability associated with the grouping sequences found in a preset label information set according to a plurality of associated grouping sequences in the label information grouping list to obtain a set probability variation curve and a corresponding analysis result;

judging cooperative control data according to the set probability variation curve, selecting a probability set matrix determined by an analysis result corresponding to the set probability variation curve corresponding to the cooperative control data, and acquiring a matching relation of each probability value in the probability set matrix;

comparing the variable value corresponding to the reference data identifier with a preset variable threshold value based on the matching relation, and merging the associated tag information grouping list corresponding to the cooperative control data tag if the variable value corresponding to the reference data identifier is smaller or equal to the preset variable threshold value to obtain a tag information set;

and filtering the tag information set according to a preset filtering condition to obtain an initial tag information set, and generating a cooperative control instruction for performing cooperative control on the connected Internet of things equipment according to the tag information set.

The invention also provides a smart city Internet of things equipment control device, which is applied to a control center and comprises:

the equipment identification acquisition module is used for acquiring the equipment identification of the connected Internet of things equipment in the equipment connection record of the user terminal;

the operation data determining module is used for inquiring the equipment identification of the connected Internet of things equipment according to the control parameter corresponding to the target control instruction in the stage control instruction queue of the stored historical control instruction set, and determining the equipment operation data of the connected Internet of things equipment matched with the equipment identification of the connected Internet of things equipment;

a controllable data set acquisition module, configured to determine, based on the device operation data of the connected internet of things device, a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device through an effective control instruction in a periodic control instruction queue in the stored historical control instruction set;

and the control instruction generation module is used for generating a cooperative control instruction for performing cooperative control on the connected Internet of things equipment through the instruction generation thread of the stored historical control instruction set based on the controllable data set of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment, and issuing the cooperative control instruction to the user terminal so that the user terminal transmits the cooperative control instruction to the target Internet of things equipment corresponding to the user terminal.

Preferably, the operation data determining module is specifically configured to:

Preferably, the controllable data set obtaining module is specifically configured to:

Preferably, the control instruction generating module is specifically configured to:

The invention also provides a control center, which comprises a processor, a memory and a bus, wherein the memory and the bus are connected with the processor; wherein, the processor and the memory complete mutual communication through the bus; the processor is used for calling the program instructions in the memory to execute the method.

The invention also provides a readable storage medium on which a program is stored which, when executed by a processor, implements the above-described method.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects.

The utility model provides a smart city Internet of things equipment control method, device and control center, firstly obtain equipment identification, secondly carry out equipment information inquiry to the equipment identification through control parameter, further confirm the equipment operation data of the equipment of having connected the Internet of things, based on the equipment operation data, confirm the controllable data set of the equipment of having connected the Internet of things through effective control instruction, finally generate cooperative control instruction based on controllable data set and instruction generation thread, and issue the cooperative control instruction to the user terminal, so that the user terminal transmits the cooperative control instruction to the target Internet of things equipment corresponding to the user terminal. By the design, when a user needs to control a plurality of internet of things devices, the user terminal is not required to open a plurality of apps for switching and controlling one by one, and the problem of control error caused by frequent switching among the apps can be avoided.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a flowchart of a smart city internet of things device control method according to an embodiment of the present invention.

Fig. 2 is a block diagram of a device for controlling an internet of things in a smart city according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a hardware structure of a control center according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings, in which like numerals in different drawings represent the same or similar elements, unless otherwise specified. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

Referring to fig. 1, a flow chart of a smart city internet of things device control method is provided, which specifically executes the contents described in the following steps S110 to S140.

Step S110, acquiring the device identification of the connected Internet of things device in the device connection record of the user terminal.

Step S120, performing equipment information query on the equipment identifier of the connected Internet of things equipment through the control parameter corresponding to the target control instruction in the stage control instruction queue of the stored historical control instruction set, and determining the equipment operation data of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment.

Step S130, based on the device operation data of the connected internet of things device, determining a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device through an effective control instruction in the periodic control instruction queue in the stored historical control instruction set.

Step S140, based on the controllable data set of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment, generating a cooperative control instruction for cooperative control of the connected Internet of things equipment through the instruction generation thread of the stored historical control instruction set, and issuing the cooperative control instruction to the user terminal, so that the user terminal transmits the cooperative control instruction to the target Internet of things equipment corresponding to the user terminal.

By executing the method described in the above steps S110 to S140, the following advantageous effects can be achieved:

the method comprises the steps of firstly obtaining an equipment identifier, secondly inquiring equipment information of the equipment identifier through control parameters, further determining equipment operation data of the connected Internet of things equipment, determining a controllable data set of the connected Internet of things equipment through an effective control instruction based on the equipment operation data, and finally generating a cooperative control instruction based on the controllable data set and an instruction generation thread, and issuing the cooperative control instruction to a user terminal so that the user terminal transmits the cooperative control instruction to a target Internet of things equipment corresponding to the user terminal. By the design, when a user needs to control a plurality of Internet of things devices, the user terminal is not required to open a plurality of apps for switching and controlling one by one, and the problem of control errors caused by frequent switching among the apps can be avoided.

In specific implementation, in order to quickly determine the device operation data of the connected internet of things device, the device information query is performed on the device identifier of the connected internet of things device through the control parameter corresponding to the target control instruction in the staged control instruction queue of the stored historical control instruction set, which is described in step S120, and the device operation data of the connected internet of things device matching the device identifier of the connected internet of things device is determined, which may specifically include the contents described in the following substeps 1201 — step S1204:

step S1201, receiving an equipment information query request, wherein the equipment information query request comprises equipment configuration information and equipment label information;

step S1202, if the device tag information is matched with the identification information corresponding to the device configuration information, searching target identification information corresponding to the device tag information in a preset identification information distribution track;

in this embodiment, the identification information distribution track includes a mapping relationship between the historical identification information and the current identification information.

Step S1203, inquiring equipment information of the equipment identification in the target identification information through the control parameter;

step S1204, determining the device operation data of the connected Internet of things device according to the inquired device information.

By executing the content described in the above substeps S1201-step S1204, matching the device tag information with the identification information corresponding to the device configuration information, further finding target identification information corresponding to the device tag information, performing device information query on the device identification, and determining device operation data of the device connected to the internet of things according to the queried device information. Therefore, the equipment operation data of the equipment connected with the Internet of things can be quickly checked and determined.

During specific implementation, in order to determine the controllable data set in time, the connected internet of things equipment is controlled through the controllable data set. The determining, by the effective control instruction in the staged control instruction queue in the stored historical control instruction set, a controllable data set of the connected internet-of-things device that matches the device identifier of the connected internet-of-things device based on the device operation data of the connected internet-of-things device described in step S130 may specifically include the following contents described in sub-steps S1301 to S1304:

step S1301, monitoring sample operation data in the device operation data, obtaining an incidence relation between a data label of the sample operation data and node data corresponding to the sample operation data, and determining an incidence coefficient according to the incidence relation;

step S1302, in the process of monitoring the sample operation data, acquiring a node data distribution track, and acquiring byte distribution information of the sample operation data in the node data distribution track;

step S1303, obtaining a data label of the sample operation data and a label type correspondence list of node data corresponding to the sample operation data by using byte distribution information of the sample operation data in a node data distribution track, and determining whether a value in the label type correspondence list is the same as the correlation coefficient;

step S1304, if the node data distribution tracks are not the same, correcting the byte distribution information by using the association coefficient, obtaining a correction value of the node data distribution track by using the corrected byte distribution information, and determining a controllable data set connected to the internet of things device by using the correction value of the node data distribution track and an effective control instruction.

By executing the content described in the above substep S1301-substep S1304, a node data distribution track is obtained through a process of monitoring sample operation data, byte distribution information in the node data distribution track is further obtained, a tag type correspondence list of the node data is determined based on the byte distribution information, whether a value in the tag type correspondence list is the same as the association coefficient is judged, if not, the byte distribution information is corrected according to the association coefficient to obtain a correction value, and a controllable data set connected with the internet of things device is determined through the correction value and an effective control instruction. Like this, can in time confirm steerable data set, and then control the thing networking device that has connected through steerable data set.

In specific implementation, in order to accurately generate a cooperative control instruction for cooperatively controlling a connected internet of things device and further control the internet of things device according to the cooperative control instruction, the controllable data set of the connected internet of things device, which is described in step S140 and is based on the device identifier of the connected internet of things device, generates the cooperative control instruction for cooperatively controlling the connected internet of things device through the instruction generation thread of the stored historical control instruction set, and specifically may include the contents described in the following sub-steps S1401 to S1409:

step S1401, determining a data characteristic variable corresponding to the controllable data set and a thread running variable corresponding to the instruction generating thread, where the data characteristic variable and the thread running variable respectively include variable values with different weights;

step S1402, extracting a reference data identifier of one of the variable values of the controllable data set in the data characteristic variables, and determining a variable value having a minimum weight in the thread running variables as a target variable value;

step S1403, transmitting the reference data identifier to the target variable value according to a preset transmission protocol, obtaining an initial transmission node in the target variable value, and determining a correspondence between the controllable data set and the instruction generating thread according to the reference data identifier and the initial transmission node;

step S1404, obtaining cooperative control data in the target variable value according to the correspondence, mapping the cooperative control data to a variable value corresponding to the reference data identifier, and generating a cooperative control data tag corresponding to the cooperative control data in the variable value corresponding to the reference data identifier;

step S1405, performing grouping processing on cooperative control data tags corresponding to the cooperative control data to obtain a tag information grouping list;

step S1406, carrying out set analysis on a probability set determined according to the probability associated with the grouping sequences found in a preset label information set by the plurality of associated grouping sequences in the label information grouping list to obtain a set probability variation curve and a corresponding analysis result;

step S1407, judging cooperative control data according to the set probability variation curve, selecting a probability set matrix determined by an analysis result corresponding to the set probability variation curve corresponding to the cooperative control data, and acquiring a matching relation of each probability value in the probability set matrix;

step S1408, comparing the variable value corresponding to the reference data identifier with a preset variable threshold value based on the matching relationship, and if the variable value corresponding to the reference data identifier is smaller than or equal to the preset variable threshold value, merging the associated tag information grouping lists corresponding to the cooperative control data tags to obtain a tag information set;

step S1409, filtering the tag information set according to a preset filtering condition to obtain an initial tag information set, and generating a cooperative control instruction for performing cooperative control on the connected Internet of things device according to the tag information set.

Executing the content described in the sub-step S1401-sub-step S1409 can accurately generate a cooperative control instruction for performing cooperative control on the connected internet of things device, and then control the internet of things device according to the cooperative control instruction, so that not only is it unnecessary for the user terminal to open a plurality of apps for switching and controlling one by one, but also a control error can be avoided, and at the same time, the experience of the user is increased.

Based on the same inventive concept, please refer to fig. 2, the invention further provides a smart city internet of things device control apparatus 200, applied to a control center, the apparatus comprising:

an equipment identifier obtaining module 210, configured to obtain an equipment identifier of a connected internet of things device in an equipment connection record of a user terminal;

the operation data determining module 220 is configured to perform device information query on the device identifier of the connected internet of things device through a control parameter corresponding to a target control instruction in a periodic control instruction queue of a stored historical control instruction set, and determine device operation data of the connected internet of things device that is matched with the device identifier of the connected internet of things device;

a controllable data set obtaining module 230, configured to determine, based on the device operation data of the connected internet of things device, a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device through an effective control instruction in a periodic control instruction queue in the stored historical control instruction set;

the control instruction generation module 240 is configured to generate a cooperative control instruction for performing cooperative control on the connected internet of things device through the stored instruction generation thread of the historical control instruction set based on the controllable data set of the connected internet of things device matched with the device identifier of the connected internet of things device, and issue the cooperative control instruction to the user terminal, so that the user terminal transmits the cooperative control instruction to the target internet of things device corresponding to the user terminal.

Preferably, the operation data determining module 220 is specifically configured to:

Preferably, the controllable data set obtaining module 230 is specifically configured to:

Preferably, the control instruction generating module 240 is specifically configured to:

On the basis of the above, referring to fig. 3, a control center 300 is provided, which includes a processor 310, a memory 320 connected to the processor 310, and a bus 330; wherein, the processor 310 and the memory 320 complete communication with each other through the bus 330; the processor 310 is used to call the program instructions in the memory 320 to perform the above-described method.

Further, a readable storage medium is provided, on which a program is stored, which when executed by a processor implements the method described above.

It is to be understood that the present invention is not limited to the precise arrangements described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims

1. A smart city Internet of things equipment control method is applied to a control center, and comprises the following steps:

performing equipment information query on the equipment identifier of the connected Internet of things equipment through the control parameter corresponding to the target control instruction in the staged control instruction queue of the stored historical control instruction set, and determining equipment operation data of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment;

2. The method according to claim 1, wherein performing device information query on the device identifier of the connected internet of things device through a control parameter corresponding to a target control instruction in a staged control instruction queue of a stored historical control instruction set, and determining device operation data of the connected internet of things device that matches the device identifier of the connected internet of things device specifically includes:

performing equipment information query on equipment identification in the target identification information through the control parameter;

3. The method according to claim 1, wherein determining, based on the device operation data of the connected internet of things device, a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device through a valid control instruction in a periodic control instruction queue in the stored historical control instruction set specifically includes:

monitoring sample operation data in the equipment operation data, acquiring an incidence relation between a data label of the sample operation data and node data corresponding to the sample operation data, and determining an incidence coefficient according to the incidence relation;

and if the node data distribution tracks are different, correcting the byte distribution information by using the association coefficient, acquiring a correction value of the node data distribution tracks by using the corrected byte distribution information, and determining a controllable data set connected with the Internet of things equipment through the correction value of the node data distribution tracks and an effective control instruction.

4. The method according to claim 1, wherein generating a cooperative control instruction for cooperatively controlling the connected internet-of-things device through an instruction generation thread of the stored historical control instruction set based on a controllable data set of the connected internet-of-things device that matches a device identifier of the connected internet-of-things device specifically includes:

comparing the variable value corresponding to the reference data identifier with a preset variable threshold value based on the matching relation, and if the variable value corresponding to the reference data identifier is smaller than or equal to the preset variable threshold value, merging the associated tag information grouping lists corresponding to the cooperative control data tag to obtain a tag information set;

5. The utility model provides a smart city thing networking equipment controlling means, its characterized in that is applied to control center, the device includes:

the device identifier acquisition module is used for acquiring the device identifier of the connected Internet of things device in the device connection record of the user terminal;

the operation data determining module is used for inquiring the equipment information of the equipment identifier of the connected Internet of things equipment through the control parameter corresponding to the target control instruction in the stage control instruction queue of the stored historical control instruction set, and determining the equipment operation data of the connected Internet of things equipment matched with the equipment identifier of the connected Internet of things equipment;

a controllable data set obtaining module, configured to determine, based on the device operation data of the connected internet of things device, a controllable data set of the connected internet of things device that matches the device identifier of the connected internet of things device through an effective control instruction in a periodic control instruction queue in the stored historical control instruction set;

6. The apparatus of claim 5, wherein the operational data determination module is specifically configured to:

7. The apparatus of claim 5, wherein the controllable dataset obtaining module is specifically configured to:

8. The apparatus of claim 5, wherein the control instruction generation module is specifically configured to:

9. A control center, comprising a processor, and a memory and a bus connected to the processor; wherein, the processor and the memory complete mutual communication through the bus; the processor is configured to call program instructions in the memory to perform the method of any of the preceding claims 1-4.

10. A readable storage medium, characterized in that a program is stored thereon, which program, when being executed by a processor, carries out the method of any one of the preceding claims 1-4.