CN115826539B - Equipment cooperative control method and system based on industrial Internet identification - Google Patents

Abstract

The application discloses a device cooperative control method and system based on industrial Internet identification. The equipment cooperative control method comprises the following steps: responding to the detection of cooperative control requests of a plurality of devices, and acquiring device information corresponding to the plurality of devices respectively; dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group; determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group; determining a second industrial Internet identifier of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group; and cooperatively controlling each device according to the first industrial Internet identifier and the second industrial Internet identifier corresponding to each device. The equipment cooperative control method realizes cooperative control of equipment based on the industrial Internet identification.

Description

Equipment cooperative control method and system based on industrial Internet identification

Technical Field

The application relates to the technical field of industrial Internet, in particular to a device cooperative control method and system based on industrial Internet identification.

Background

With the development of industrial automation, the industrial internet integrating industrial automation big data is also developed. Based on big data integrated in the industrial Internet, the management of some industrial automation industries can be assisted.

In the related art, although some auxiliary controls of industrial automation can be realized by using big data of the industrial internet, the auxiliary controls are used in a similar way, and are not applied to the essence, so that the applicability of the industrial internet data is not strong, and the help to the industrial automation industry is not particularly great.

Disclosure of Invention

The invention aims to provide a device cooperative control method and a system based on industrial Internet identification, which can generate the industrial Internet identification based on industrial Internet big data, so that the cooperative control of the device is realized based on the industrial Internet identification.

To achieve the above object, an embodiment of the present application provides a device cooperative control method based on industrial internet identification, including: responding to the detection of cooperative control requests of a plurality of devices, and acquiring device information corresponding to the plurality of devices respectively; dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group; the device comprises at least two device groups, wherein the device groups correspond to industrial Internet identities and are used for representing the device control levels of the device groups in the industrial Internet, and the device groups correspond to the industrial Internet identities and are used for representing the device control levels of the device groups; determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group; determining a second industrial Internet identifier of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group; and cooperatively controlling each device according to the first industrial Internet identifier and the second industrial Internet identifier corresponding to each device.

In one possible implementation, the cooperative control request includes: the industrial Internet database identifiers corresponding to the plurality of devices; the obtaining device information corresponding to each of the plurality of devices includes: and acquiring the equipment information corresponding to the plurality of equipment respectively from the corresponding industrial Internet database according to the industrial Internet database identifier.

In a possible implementation manner, the dividing the devices into multiple device groups according to the device information corresponding to the devices respectively includes: acquiring preset equipment grouping information; the device grouping information includes: the plurality of equipment groups are respectively corresponding to target equipment information, and the target equipment information comprises at least two pieces of equipment information; for any one device, if the device information corresponding to the device belongs to the target device information corresponding to the target device group, dividing the device into the target device group; if the corresponding equipment information of the equipment does not have the corresponding target equipment information, newly building an equipment group, and dividing the equipment into the newly built equipment group.

In a possible implementation manner, the determining the industrial internet identity corresponding to each device group and the industrial internet identity corresponding to the devices in each device group includes: determining the number of devices and the number of device types in each device group; determining the industrial Internet identities corresponding to the equipment groups according to the equipment number and the equipment type number; determining device information similarity between a plurality of devices in each device group; and determining the industrial Internet identity corresponding to each device in each device group according to the device information similarity.

In a possible implementation manner, the determining the industrial internet identity corresponding to each device group according to the number of devices and the number of device types includes: determining the weighting value of the equipment number and the equipment type number of each equipment group according to the preset equipment number weight and the equipment type number weight; acquiring preset weighting values corresponding to a plurality of preset equipment control levels respectively; comparing the weight value corresponding to each equipment group with the preset weight value to determine the preset weight value corresponding to each equipment group; and determining the equipment control level corresponding to each equipment group based on the equipment control level corresponding to the preset weighting value corresponding to each equipment group.

In a possible implementation manner, the determining, according to the device information similarity, the industrial internet identity corresponding to each device in each device group includes: ordering all the devices in all the device groups according to the similarity of the device information from low to high to obtain a plurality of ordered devices; determining a device control level of a first device of the ordered plurality of devices as a first device control level; determining a device control level of a last device of the ordered plurality of devices as a second device control level; and determining the equipment control level corresponding to the equipment from the preset number of equipment control levels aiming at other equipment except the first equipment and the last equipment in the ordered plurality of equipment.

In a possible implementation manner, the determining, according to the industrial internet identity corresponding to each device group, the first industrial internet identity corresponding to each device group includes: determining the same characters in the first industrial Internet identifier corresponding to each equipment group according to the number of the equipment control levels corresponding to the equipment groups; determining target characters in a first industrial Internet identifier corresponding to each equipment group according to the equipment quantity corresponding to the equipment groups; and generating the first industrial Internet identifier according to the same character and the target character and a preset identifier generation algorithm.

In a possible implementation manner, the determining, according to the industrial internet identities corresponding to the devices in each device group, the second industrial internet identity of each device in the corresponding device group includes: determining a first character in a second industrial Internet identifier corresponding to each device according to a preset control difficulty level corresponding to each device; determining a second character in a second industrial Internet identifier corresponding to each device according to the device control level of each device in the corresponding device group; determining a third character in the second industrial Internet identifier corresponding to each device according to the device identity information of each device; and generating the second industrial Internet identifier according to the first character, the second character and the third character and a preset identifier generation algorithm.

In a possible implementation manner, the cooperative control of each device according to the first industrial internet identifier and the second industrial internet identifier corresponding to each device includes: determining a first cooperative control order for the respective devices based on the first industrial internet identification; determining a second coordinated control order of the respective devices based on the second industrial internet identification; if the preset cooperative control requirement is that the cooperative control efficiency is greater than the preset efficiency, performing cooperative control on each device according to the first cooperative control sequence of each device; and if the preset cooperative control requirement is that the cooperative control precision is larger than the preset precision, performing cooperative control on each device according to the second cooperative control sequence of each device.

The embodiment of the application provides a device cooperative control system based on industrial Internet identification, which comprises the following components: the device cooperative control method based on the industrial Internet identification is used for realizing the device cooperative control method based on the industrial Internet identification and each functional module of one or more corresponding embodiments.

The embodiment of the application also provides electronic equipment, which comprises: the device comprises a processor and a memory, wherein the processor is in communication connection with the memory; the memory stores instructions executable by the processor to enable the processor to perform the device cooperative control method based on industrial internet identification according to any one of the above embodiments.

Embodiments of the present application further provide a computer readable storage medium, where a computer program is stored, where the computer program when executed by a computer performs the device cooperative control method based on industrial internet identification described in any one of the foregoing embodiments.

Compared with the prior art, according to the device cooperative control method, system, electronic device and computer readable storage medium based on the industrial Internet identification, when the cooperative control request of a plurality of devices is detected, device information corresponding to the devices is acquired; and dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group. Further, combining the two identities to respectively determine a first industrial Internet identifier and a second industrial Internet identifier; finally, the first industrial Internet identifier and the second industrial Internet identifier are combined to cooperatively control each device. Therefore, the technical scheme can generate the industrial Internet identification based on the industrial Internet big data, so that the cooperative control of the equipment is realized based on the industrial Internet identification.

Drawings

FIG. 1 is an exemplary diagram of an application scenario of an industrial Internet identification-based device cooperative control method according to an embodiment of the present application;

FIG. 2 is a flow chart of a method of collaborative control of an industrial Internet identification-based device according to an embodiment of the present application;

FIG. 3 is an exemplary diagram of yet another application scenario of an industrial Internet identification-based device cooperative control method according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of an industrial Internet identification-based device cooperative control system according to an embodiment of the present application;

fig. 5 is a schematic structural view of an electronic device according to an embodiment of the present application.

Detailed Description

The following detailed description of specific embodiments of the present application is made with reference to the accompanying drawings, but it is to be understood that the scope of protection of the present application is not limited by the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

The technical scheme provided by the embodiment of the application can be applied to industrial automation industry, namely, various industrial automation industry scenes. In these industrial automation industry scenarios, cooperative control of equipment is required to achieve production of industrial products. The number of industrial production equipment is large, and the production modes are mostly consistent. Therefore, if the devices are cooperatively controlled, the control efficiency can be greatly improved, thereby improving the production efficiency of the product.

In the related art, although the industrial production equipment can be controlled in a cooperative manner, the cooperative control scheme of the equipment is manually established and is not related to industrial internet big data, so that the high efficiency of the cooperative control scheme is difficult to be ensured. And, the formulation of the cooperative control scheme is also difficult.

Based on the above, the embodiment of the application provides a device cooperative control scheme based on the industrial internet identifier, which generates the industrial internet identifier based on the industrial internet data and performs device cooperative control based on the industrial internet identifier. On one hand, industrial Internet big data are utilized to generate industrial Internet identifiers, so that the high efficiency of a finally generated cooperative control scheme can be ensured. On the other hand, a cooperative control scheme is generated based on the industrial Internet identification, so that simple formulation of the cooperative control scheme is realized.

Therefore, the device cooperative control scheme based on the industrial internet identification provided in the embodiment of the application can be applied to a control end or a control system in an industrial automation industry, and the hardware expression form of the control end or the control system can be: servers, servers+clients, servers+browsers, etc., are not limited herein.

Referring to fig. 1, an exemplary diagram of an application scenario provided in an embodiment of the present application is shown in fig. 1, where the application scenario includes: industrial internet, co-controller, and a plurality of devices; the industrial Internet is in communication connection with the cooperative controller, and the cooperative controller is in communication connection with a plurality of devices respectively. Thus, the cooperative controller can realize cooperative control of a plurality of devices based on data of the industrial internet.

Referring to fig. 2, a flowchart of a device cooperative control method based on industrial internet identification according to an embodiment of the present application is shown in fig. 2, where the device cooperative control method includes:

in step 201, device information corresponding to each of the plurality of devices is acquired in response to detecting the cooperative control request of the plurality of devices.

In some embodiments, the cooperative control request is initiated by a management or control side of the plurality of devices. In some embodiments, the cooperative control request may be initiated over the industrial internet.

Correspondingly, when the cooperative control request is initiated on the industrial internet, the cooperative control request can be initiated based on the industrial internet databases corresponding to the plurality of devices. It will be appreciated that a plurality of devices belong to devices recorded in the industrial internet, and thus, device information of the plurality of devices exists in the industrial internet database. In the industrial Internet database, the device data are classified according to the corresponding industrial Internet database identifiers of the devices.

In some embodiments, the plurality of devices are devices in an industrial automation industry, such as: production machine tools, or other production equipment, etc.

Thus, as an alternative embodiment, the cooperative control request includes: industrial internet database identifiers corresponding to a plurality of devices; obtaining device information corresponding to each of the plurality of devices, including: and acquiring the equipment information corresponding to the plurality of equipment respectively from the corresponding industrial Internet database according to the industrial Internet database identification.

In this embodiment, the data stored in the industrial internet database is distinguished by the industrial internet database identifier, so that the device information corresponding to each of the plurality of devices can be quickly acquired based on the industrial internet database identifier corresponding to the device.

In other embodiments, the device information corresponding to each of the plurality of devices may also be stored at the management end or the control end of the plurality of devices, where the device information may be acquired from the management end or the control end of the plurality of devices.

Step 202, dividing the devices into a plurality of device groups according to the device information corresponding to the devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group.

In this step, it is necessary to divide the plurality of devices into a plurality of device groups first. And then, based on the plurality of equipment groups, firstly determining the industrial Internet identities corresponding to the equipment groups respectively, and then determining the industrial Internet identities of the equipment in each equipment group.

For example, assuming that a plurality of devices are divided into a device group a, a device group B and a device group C, it is necessary to determine industrial internet identities corresponding to the device group a, the device group B and the device group C respectively; and then respectively determining the industrial Internet identity of each device in the device group A, the industrial Internet identity of each device in the device group B and the industrial Internet identity of each device in the device group C.

For example, as shown in fig. 3, an exemplary diagram of a device group, in fig. 3, includes three device groups, device group a, device group B, and device group C, in device group a, 2 devices, in device group B, 3 devices, and in device group C, 3 devices are included. When the industrial Internet identity is determined, the industrial Internet identities of the three equipment groups are determined first, and then the industrial Internet identities of all the equipment in the three equipment groups are determined.

In some embodiments, each device group includes at least two devices, the industrial internet identity corresponding to the device group is used to characterize the device control level of each device group in the industrial internet, and the industrial internet identity corresponding to the device is used to characterize the device control level of each device in the corresponding device group.

Thus, whatever identity is used to characterize the device control level. However, the industrial Internet identity of the device group characterizes the device control level of the device group; the industrial internet identity of a device characterizes the device control level of the device.

As an alternative embodiment, dividing the plurality of devices into a plurality of device groups according to device information corresponding to the plurality of devices, respectively, includes: acquiring preset equipment grouping information; the device grouping information includes: the plurality of devices respectively correspond to target device information, and the target device information comprises at least two pieces of device information; for any one device, if the device information corresponding to the device belongs to the target device information corresponding to the target device group, dividing the device into the target device group; if the corresponding equipment information of the equipment does not have the corresponding target equipment information, newly building an equipment group, and dividing the equipment into the newly built equipment group.

In this embodiment, device grouping information for defining target device information to which a plurality of device groups respectively correspond, for example: the corresponding target device information of the device group is: a device model A; the information of the target device corresponding to the second device group is: device model B. Then, the device of device model a would be divided into device group one and the device of device model B would be divided into device group two.

In some embodiments, if the device information corresponding to the device does not have the corresponding target device information, it indicates that, in the preset device packet, there is no device packet corresponding to the device. At this time, an equipment group may be newly built based on the equipment, and the equipment may be divided into the newly built equipment group.

In some embodiments, after the device is divided into the newly-built device group, the target device information corresponding to the device group may also be generated based on the information of the device, so that the corresponding device may be divided into the newly-built device group.

As an optional implementation manner, determining the industrial internet identity corresponding to each device group and the industrial internet identity corresponding to the devices in each device group includes: determining the number of devices and the number of device types in each device group; determining the industrial Internet identities corresponding to the equipment groups according to the equipment number and the equipment type number; determining device information similarity between a plurality of devices in each device group; and determining the industrial Internet identity corresponding to each device in each device group according to the device information similarity.

In this embodiment, the number of devices and the number of device types in each device group may be statistically determined by counting the number of the plurality of devices and the number of device types of the plurality of devices.

Further, according to the number of devices and the number of device types, the industrial internet identities corresponding to the device groups can be determined. As an optional implementation manner, determining the industrial internet identity corresponding to each device group according to the number of devices and the number of device types includes: determining the weighting value of the equipment number and the equipment type number of each equipment group according to the preset equipment number weight and the equipment type number weight; acquiring preset weighting values corresponding to a plurality of preset equipment control levels respectively; comparing the weight value corresponding to each equipment group with a preset weight value to determine the preset weight value corresponding to each equipment group; and determining the equipment control level corresponding to each equipment group based on the equipment control level corresponding to the preset weighting value corresponding to each equipment group.

In this embodiment, the device number weight and the device kind number weight are set in advance. Thus, the weighted value may be determined based on the device number weight, the device category number weight, the device number, and the device category number.

In some embodiments, the weighted value = device number weight = device number + device category number weight = device category number.

Further, after the weight value is determined, the weight value corresponding to each equipment group is compared with a preset weight value, and the preset weight value corresponding to each equipment group is determined.

Further, the device control levels corresponding to different weighting values are preset, after the current weighting value is determined, the device control level corresponding to the current weighting value is determined to be the device control level corresponding to the device group, and the device control level is determined.

The preset weighting value and the device control level corresponding to the preset weighting value can be combined with different application scenes to adopt different preset modes, and the method is not limited herein.

In some embodiments, the device control level may represent a priority of device control, with higher priority of device control requiring priority in cooperative control; the control difficulty of the equipment can also be represented, and the greater the control difficulty of the equipment is, special consideration is needed in cooperative control.

Further, determining the similarity of equipment information among a plurality of pieces of equipment in each equipment group, and if the equipment information is picture information, calculating the similarity of the picture information; if the equipment information is text information, calculating the similarity of the text information.

In some embodiments, for a device, the device information similarity between the device and other devices may be: the average value of the similarity of the device with other devices. Therefore, when determining the similarity of the device information, the similarity between every two devices needs to be calculated, and then the similarity between the devices is integrated to determine the similarity of the device information corresponding to one device.

As an optional implementation manner, determining the industrial internet identity corresponding to each device in each device group according to the device information similarity includes: sequencing all the devices in each device group from low to high according to the similarity of the device information to obtain a plurality of sequenced devices; determining a device control level of a first device of the ordered plurality of devices as a first device control level; determining a device control level of a last device of the ordered plurality of devices as a second device control level; and determining the equipment control level corresponding to the equipment from the preset number of equipment control levels aiming at other equipment except the first equipment and the last equipment in the ordered plurality of equipment.

In this embodiment, the devices are first ranked in order of device similarity, and a plurality of ranked devices are obtained. Based on the ordered plurality of devices, a device control level of a first device may be a first device control level, such as: the highest device control level. The control level of the last device is a second device control level, for example: the lowest device control level.

For other devices except the first device and the last device, the device control level corresponding to the device can be determined from the preset number of device control levels.

For example, assuming that the preset number of device control levels includes three device control levels, the other devices are divided into three batches of devices according to the number of devices and the device order, wherein a first batch of devices is a first device control level of the three device control levels, a second batch of devices is a second device control level of the three device control levels, and a third batch of devices is a third device control level of the three device control levels.

In other embodiments, the device control levels of the remaining devices may also be set to one and the same device control level.

And 203, determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group.

As an alternative embodiment, step 203 includes: determining the same characters in the first industrial Internet identifier corresponding to each equipment group according to the number of the equipment control levels corresponding to the equipment groups; determining target characters in a first industrial Internet identifier corresponding to each equipment group according to the equipment quantity corresponding to the equipment groups; and generating a first industrial Internet identifier according to the same character and the target character and a preset identifier generation algorithm.

In such an embodiment, the number of device control levels corresponding to the plurality of device groups is known, based on which the same character in the first industrial internet identification can be determined. For example: assuming that the number is within 10, the same character is 1; assuming that the number is between 10-20, the same character is 2, etc.

Further, in addition to the same character, a target character may be determined according to the number of devices corresponding to the plurality of device groups.

In some embodiments, target characters corresponding to different device numbers are preset, and after the current device number is determined, the target characters corresponding to the current device number are used as target characters corresponding to the corresponding device group.

Further, a first industrial internet identifier may be generated according to a preset identifier generation algorithm based on the same character and the target character. The preset identifier generation algorithm includes, for example: some character encryption algorithms, character encoding algorithms, etc., are not limited herein.

And 204, determining a second industrial Internet identification of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group.

As an alternative embodiment, step 204 includes: determining a first character in a second industrial Internet identifier corresponding to each device according to a preset control difficulty level corresponding to each device; determining a second character in a second industrial Internet identifier corresponding to each device according to the device control level of each device in the corresponding device group; determining a third character in the second industrial Internet identifier corresponding to each device according to the device identity information of each device; and generating a second industrial Internet identifier according to a preset identifier generating algorithm according to the first character, the second character and the third character.

In this embodiment, different control difficulty levels correspond to different characters respectively, so that, in combination with the characters corresponding to the preset control difficulty level, the first character corresponding to the current control difficulty level can be determined.

And, each device has a device control level in the corresponding device group; based on the device control level and the correspondence between the device control level and the character, a corresponding second character may be determined.

For the third character, it may be determined according to device identity information of each device. For example: and if the equipment identity information is the identity code, generating a third character according to the identity code.

Further, based on the first character, the second character and the third character, in combination with a preset identifier generation algorithm, a second industrial internet identifier can be generated. The identifier generation algorithm may or may not be identical to the first industrial internet identifier generation algorithm described above.

And 205, cooperatively controlling each device according to the first industrial Internet identifier and the second industrial Internet identifier corresponding to each device.

As an alternative embodiment, step 205 includes: determining a first cooperative control order of the respective devices based on the first industrial internet identification; determining a second coordinated control order of the respective devices based on a second industrial internet identification; if the preset cooperative control requirement is that the cooperative control efficiency is greater than the preset efficiency, performing cooperative control on each device according to a first cooperative control sequence of each device; and if the preset cooperative control requirement is that the cooperative control precision is larger than the preset precision, performing cooperative control on each device according to a second cooperative control sequence of each device.

In some embodiments, the cooperative control efficiency may be expressed as: the total time of the cooperative control/the number of cooperative control devices, i.e. the cooperative control efficiency, is used to characterize the time spent on each cooperative control device on average. And the total time of the cooperative control starts to count from the control of the first device to the control of the last device, and ends the counting.

In some embodiments, the higher the cooperative control efficiency, the better the cooperative control strategy is proved, with the same number of cooperative control devices.

In some embodiments, the preset efficiency may be: preset total time/preset number of devices. The preset equipment number is the equipment number which is common in the industrial scene and can be determined through statistics; the preset total time is a predicted reasonable control time, and can be determined manually.

In some embodiments, the cooperative control accuracy can be expressed as: the number of error devices/the number of cooperative control devices, i.e. the cooperative control accuracy, is used to characterize the accuracy of the individual device control. Wherein the number of faulty devices can be determined from a control record of the devices, for example: if the control record of the equipment comprises an error step; or the control result is not the estimated control result, and is regarded as error equipment.

In some embodiments, the preset precision may be: the number of error devices/the number of preset devices is preset. The preset error equipment number is the equipment number capable of tolerating control errors in the industrial scene, and the preset equipment number is the common equipment number in the industrial scene and can be determined through statistics.

In some embodiments, where the cooperative control efficiency is high, the cooperative control accuracy may be low; in the case where the cooperative control efficiency is low, the cooperative control accuracy may be high. Thus, there may be different control requirements in different application scenarios.

In some embodiments, the first industrial Internet identifiers are arranged in a descending order, and the first coordinated control order is consistent with the arrangement order of the identifiers.

In other embodiments, the corresponding identification codes are generated based on the first industrial internet identification, and then the identification codes are ordered. Thus, the first cooperative control order is determined in accordance with the arrangement order of the identification codes.

In some embodiments, the second industrial internet identifiers are arranged in a descending order, and the second coordinated control order is consistent with the arrangement order of the identifiers.

In other embodiments, the corresponding identification codes are generated based on the second industrial internet identification, and then the identification codes are ordered. Thus, the second cooperative control order is determined in accordance with the arrangement order of the identification codes.

Further, after the first cooperative control order and the second cooperative control order are determined, a preset cooperative control demand may be obtained, and then, which cooperative control order is adopted is determined based on the preset cooperative control demand.

In some embodiments, if the preset cooperative control requirement is that the cooperative control efficiency is greater than the preset efficiency, a first cooperative control order determined based on the first industrial internet identification may be adopted. Since the first industrial internet identification mainly comprises equipment groups, the cooperative control efficiency is higher than that of equipment.

In other embodiments, if the preset cooperative control requirement is that the cooperative control precision is greater than the preset precision, a second cooperative control sequence determined based on a second industrial internet identifier may be used. Because the second industrial Internet identification mainly comprises equipment, the cooperative control precision is higher than that of the equipment group.

Further, the cooperative control sequence is used to characterize which devices can control first, which devices can control later, which devices can control together, which devices cannot control together, etc. when controlling a plurality of devices.

In other embodiments, if the cooperative control requirement is other, a new cooperative control sequence may be generated in combination with the first cooperative control sequence and the second cooperative control sequence, which is not limited herein.

By introducing the above embodiments, in the device cooperative control method provided in the embodiments of the present application, when a cooperative control request of a plurality of devices is detected, device information corresponding to each of the plurality of devices is first obtained; and dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group. Further, combining the two identities to respectively determine a first industrial Internet identifier and a second industrial Internet identifier; finally, the first industrial Internet identifier and the second industrial Internet identifier are combined to cooperatively control each device. Therefore, the technical scheme can generate the industrial Internet identification based on the industrial Internet big data, so that the cooperative control of the equipment is realized based on the industrial Internet identification.

Referring to fig. 4, a cooperative control system for an industrial internet identifier-based device provided in an embodiment of the present application includes:

an obtaining module 401, configured to obtain device information corresponding to a plurality of devices respectively in response to detecting a cooperative control request of the plurality of devices; a control module 402 for: dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group; the device comprises at least two device groups, wherein the device groups correspond to industrial Internet identities and are used for representing the device control levels of the device groups in the industrial Internet, and the device groups correspond to the industrial Internet identities and are used for representing the device control levels of the device groups; determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group; determining a second industrial Internet identifier of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group; and cooperatively controlling each device according to the first industrial Internet identifier and the second industrial Internet identifier corresponding to each device.

In some embodiments, the cooperative control request includes: the industrial Internet database identifiers corresponding to the plurality of devices; the obtaining device information corresponding to each of the plurality of devices includes: and acquiring the equipment information corresponding to the plurality of equipment respectively from the corresponding industrial Internet database according to the industrial Internet database identifier.

In some embodiments, the control module 402 is further to: acquiring preset equipment grouping information; the device grouping information includes: the plurality of equipment groups are respectively corresponding to target equipment information, and the target equipment information comprises at least two pieces of equipment information; for any one device, if the device information corresponding to the device belongs to the target device information corresponding to the target device group, dividing the device into the target device group; if the corresponding equipment information of the equipment does not have the corresponding target equipment information, newly building an equipment group, and dividing the equipment into the newly built equipment group.

In some embodiments, the control module 402 is further to: determining the number of devices and the number of device types in each device group; determining the industrial Internet identities corresponding to the equipment groups according to the equipment number and the equipment type number; determining device information similarity between a plurality of devices in each device group; and determining the industrial Internet identity corresponding to each device in each device group according to the device information similarity.

In some embodiments, the control module 402 is further to: determining the weighting value of the equipment number and the equipment type number of each equipment group according to the preset equipment number weight and the equipment type number weight; acquiring preset weighting values corresponding to a plurality of preset equipment control levels respectively; comparing the weight value corresponding to each equipment group with the preset weight value to determine the preset weight value corresponding to each equipment group; and determining the equipment control level corresponding to each equipment group based on the equipment control level corresponding to the preset weighting value corresponding to each equipment group.

In some embodiments, the control module 402 is further to: ordering all the devices in all the device groups according to the similarity of the device information from low to high to obtain a plurality of ordered devices; determining a device control level of a first device of the ordered plurality of devices as a first device control level; determining a device control level of a last device of the ordered plurality of devices as a second device control level; and determining the equipment control level corresponding to the equipment from the preset number of equipment control levels aiming at other equipment except the first equipment and the last equipment in the ordered plurality of equipment.

In some embodiments, the control module 402 is further to: determining the same characters in the first industrial Internet identifier corresponding to each equipment group according to the number of the equipment control levels corresponding to the equipment groups; determining target characters in a first industrial Internet identifier corresponding to each equipment group according to the equipment quantity corresponding to the equipment groups; and generating the first industrial Internet identifier according to the same character and the target character and a preset identifier generation algorithm.

In some embodiments, the control module 402 is further to: determining a first character in a second industrial Internet identifier corresponding to each device according to a preset control difficulty level corresponding to each device; determining a second character in a second industrial Internet identifier corresponding to each device according to the device control level of each device in the corresponding device group; determining a third character in the second industrial Internet identifier corresponding to each device according to the device identity information of each device; and generating the second industrial Internet identifier according to the first character, the second character and the third character and a preset identifier generation algorithm.

In some embodiments, the control module 402 is further to: determining a first cooperative control order for the respective devices based on the first industrial internet identification; determining a second coordinated control order of the respective devices based on the second industrial internet identification; if the preset cooperative control requirement is that the cooperative control efficiency is greater than the preset efficiency, performing cooperative control on each device according to the first cooperative control sequence of each device; and if the preset cooperative control requirement is that the cooperative control precision is larger than the preset precision, performing cooperative control on each device according to the second cooperative control sequence of each device.

It will be appreciated that the device cooperative control system based on the industrial internet identifier corresponds to the device cooperative control method based on the industrial internet identifier, and therefore, the implementation of each functional module is referred to the foregoing embodiments and will not be repeated herein.

Referring to fig. 5, an embodiment of the present application further provides an electronic device, including: processor 501 and memory 502, processor 501 and memory 502 are communicatively coupled. The electronic equipment can be used as an execution subject of the equipment cooperative control method based on the industrial Internet identification.

The memory 502 stores therein instructions executable by the processor 501, which are executed by the processor 501, to enable the processor 501 to perform the device cooperative control method based on industrial internet identification described in the foregoing embodiment.

In some embodiments, a communication connection is implemented between processor 501 and memory 502 via a communication bus.

It will be appreciated that the electronic device may also include more general purpose modules as required, and embodiments of the present application are not described in detail.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present application are presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the application to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the present application and its practical application to thereby enable one skilled in the art to make and utilize the present application in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. The scope of the application is intended to be defined by the claims and the equivalents thereof.

Claims (9)

1. The equipment cooperative control method based on the industrial Internet identification is characterized by comprising the following steps of:

Responding to the detection of cooperative control requests of a plurality of devices, and acquiring device information corresponding to the plurality of devices respectively;

dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group; the device comprises at least two device groups, wherein the device groups correspond to industrial Internet identities and are used for representing the device control levels of the device groups in the industrial Internet, and the device groups correspond to the industrial Internet identities and are used for representing the device control levels of the device groups;

determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group;

determining a second industrial Internet identifier of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group;

the method comprises the steps that cooperative control is carried out on each device according to a first industrial Internet identifier and a second industrial Internet identifier corresponding to each device;

the dividing the plurality of devices into a plurality of device groups according to the device information respectively corresponding to the plurality of devices includes:

Acquiring preset equipment grouping information; the device grouping information includes: the plurality of equipment groups are respectively corresponding to target equipment information, and the target equipment information comprises at least two pieces of equipment information;

for any one device, if the device information corresponding to the device belongs to the target device information corresponding to the target device group, dividing the device into the target device group;

if the corresponding equipment information of the equipment does not have the corresponding target equipment information, newly building an equipment group, and dividing the equipment into the newly built equipment group.

2. The method for cooperative control of devices based on industrial internet identification according to claim 1, wherein the cooperative control request includes: the industrial Internet database identifiers corresponding to the plurality of devices; the obtaining device information corresponding to each of the plurality of devices includes:

and acquiring the equipment information corresponding to the plurality of equipment respectively from the corresponding industrial Internet database according to the industrial Internet database identifier.

3. The method for collaborative control of devices based on industrial internet identification according to claim 1, wherein the determining an industrial internet identity corresponding to each device group and an industrial internet identity corresponding to a device in each device group comprises:

Determining the number of devices and the number of device types in each device group;

determining the industrial Internet identities corresponding to the equipment groups according to the equipment number and the equipment type number;

determining device information similarity between a plurality of devices in each device group;

and determining the industrial Internet identity corresponding to each device in each device group according to the device information similarity.

4. The method for collaborative control of devices based on industrial internet identification according to claim 3, wherein the determining the industrial internet identity corresponding to each device group according to the number of devices and the number of device types comprises:

determining the weighting value of the equipment number and the equipment type number of each equipment group according to the preset equipment number weight and the equipment type number weight;

acquiring preset weighting values corresponding to a plurality of preset equipment control levels respectively;

comparing the weight value corresponding to each equipment group with the preset weight value to determine the preset weight value corresponding to each equipment group;

and determining the equipment control level corresponding to each equipment group based on the equipment control level corresponding to the preset weighting value corresponding to each equipment group.

5. The method for collaborative control of devices based on industrial internet identification according to claim 3, wherein determining the industrial internet identity corresponding to each device in each device group according to the device information similarity comprises:

ordering all the devices in all the device groups according to the similarity of the device information from low to high to obtain a plurality of ordered devices;

determining a device control level of a first device of the ordered plurality of devices as a first device control level;

determining a device control level of a last device of the ordered plurality of devices as a second device control level;

and determining the equipment control level corresponding to the equipment from the preset number of equipment control levels aiming at other equipment except the first equipment and the last equipment in the ordered plurality of equipment.

6. The method for collaborative control of devices based on industrial internet identities according to claim 1, wherein determining a first industrial internet identity corresponding to each device group according to an industrial internet identity corresponding to each device group comprises:

determining the same characters in the first industrial Internet identifier corresponding to each equipment group according to the number of the equipment control levels corresponding to the equipment groups;

Determining target characters in a first industrial Internet identifier corresponding to each equipment group according to the equipment quantity corresponding to the equipment groups;

and generating the first industrial Internet identifier according to the same character and the target character and a preset identifier generation algorithm.

7. The method for collaborative control of devices based on industrial internet identification according to claim 1, wherein determining a second industrial internet identification of each device in a corresponding device group according to the corresponding industrial internet identity of the device in each device group comprises:

determining a first character in a second industrial Internet identifier corresponding to each device according to a preset control difficulty level corresponding to each device;

determining a second character in a second industrial Internet identifier corresponding to each device according to the device control level of each device in the corresponding device group;

determining a third character in the second industrial Internet identifier corresponding to each device according to the device identity information of each device;

and generating the second industrial Internet identifier according to the first character, the second character and the third character and a preset identifier generation algorithm.

8. The method for cooperatively controlling devices based on industrial internet identifiers according to claim 1, wherein the cooperatively controlling each device according to the first industrial internet identifier and the second industrial internet identifier corresponding to each device comprises:

determining a first cooperative control order for the respective devices based on the first industrial internet identification;

determining a second coordinated control order of the respective devices based on the second industrial internet identification;

if the preset cooperative control requirement is that the cooperative control efficiency is greater than the preset efficiency, performing cooperative control on each device according to the first cooperative control sequence of each device;

and if the preset cooperative control requirement is that the cooperative control precision is larger than the preset precision, performing cooperative control on each device according to the second cooperative control sequence of each device.

9. An equipment cooperative control system based on industrial internet identification, which is characterized by comprising:

the acquisition module is used for responding to the detection of the cooperative control request of the plurality of devices and acquiring the device information corresponding to the plurality of devices respectively;

a control module for:

dividing the plurality of devices into a plurality of device groups according to the device information corresponding to the plurality of devices respectively, and determining the industrial Internet identity corresponding to each device group and the industrial Internet identity corresponding to the devices in each device group; the device comprises at least two device groups, wherein the device groups correspond to industrial Internet identities and are used for representing the device control levels of the device groups in the industrial Internet, and the device groups correspond to the industrial Internet identities and are used for representing the device control levels of the device groups;

Determining a first industrial Internet identifier corresponding to each equipment group according to the industrial Internet identity corresponding to each equipment group;

determining a second industrial Internet identifier of each device in the corresponding device group according to the industrial Internet identity corresponding to the device in each device group;

the method comprises the steps that cooperative control is carried out on each device according to a first industrial Internet identifier and a second industrial Internet identifier corresponding to each device;

wherein, control module is still used for:

acquiring preset equipment grouping information; the device grouping information includes: the plurality of equipment groups are respectively corresponding to target equipment information, and the target equipment information comprises at least two pieces of equipment information;

for any one device, if the device information corresponding to the device belongs to the target device information corresponding to the target device group, dividing the device into the target device group;

if the corresponding equipment information of the equipment does not have the corresponding target equipment information, newly building an equipment group, and dividing the equipment into the newly built equipment group.

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