CN115314328A - Method, device, equipment and storage medium for automatic association of Internet of things equipment - Google Patents

Abstract

The embodiment of the invention discloses a method, a device, equipment and a storage medium for automatic association of Internet of things equipment. The scheme solves the problem that the Internet of things equipment in the prior art needs to be accessed by a mobile phone for networking, greatly improves the operability of the Internet of things equipment, and simplifies the construction process of the Internet of things equipment.

Description

Method, device, equipment and storage medium for automatic association of Internet of things equipment

Technical Field

The embodiment of the application relates to the field of Internet of things and smart home, in particular to a method, a device, equipment and a storage medium for automatically associating Internet of things equipment.

Background

The networking mode of the internet of things based on Bluetooth (BR/EDR), low-power consumption Bluetooth (BLE), bluetooth Mesh, zigbee and WIFI is the smart television, intelligent refrigerator, intelligent electric rice cooker, intelligent household common techniques such as smart bulb, realize the intercommunication between each intelligent house, and can regard as the extension extended network communication scope of communication, however, the intelligent house must be disposed with cell-phone APP earlier, carry out the network deployment as middle bridge through cell-phone APP, the artificial intervention of intelligent house sets up the operation complicacy, it is more time-consuming and laborious.

Disclosure of Invention

The embodiment of the invention provides a method, a device, equipment and a storage medium for automatic association of Internet of things equipment, and aims to solve the technical problems that manual intervention setting operation of smart homes is complex, and time and labor are wasted.

In a first aspect, an embodiment of the present invention provides an automatic association method for internet of things devices, including:

step 1, receiving equipment type information sent by quasi-associated equipment, and inquiring a target associated equipment list according to the equipment type information to obtain first target associated equipment characteristic information;

step 2, confirming that the position of the quasi-correlation equipment meets the preset distance requirement according to the position information of the characteristic information of the first target correlation equipment;

step 3, sending a request for acquiring the characteristic information of the target associated equipment to the quasi associated equipment so that the quasi associated equipment sends the characteristic information of the quasi associated equipment;

step 4, confirming that the received quasi-associated equipment characteristic information conforms to the corresponding first target associated equipment characteristic information;

step 5, sending a function characteristic request to the quasi-correlation equipment so as to enable the quasi-correlation equipment to send function characteristic information;

step 6, receiving the function characteristic information and creating sub-associated equipment information, wherein the sub-associated equipment information is used for recording the quasi-associated equipment and the corresponding function characteristic information;

step 7, carrying out networking information synchronization and correlation function characteristic information synchronization with the quasi correlation equipment;

and 8, adding the sub-associated equipment information into an associated equipment list and storing the sub-associated equipment information.

Optionally, before the step 1, the method further includes:

and sending a device association request in a broadcasting or polling mode so that the quasi-association device sends the device type information.

Optionally, the step 1 specifically includes:

and receiving equipment type information sent by quasi-associated equipment, and inquiring a target associated equipment list according to the equipment type information to obtain first target associated equipment characteristic information if the quasi-associated equipment does not exist in the associated equipment list according to the equipment identification of the quasi-associated equipment.

Optionally, after the step 4, the method further includes:

step 41, according to the first target associated device feature information, determining that the number of the devices of the same type in the associated device list reaches a preset threshold, according to a preset deletion rule, canceling the sub-associated device networking corresponding to one device of the same type in the associated device list, and deleting the sub-associated device information corresponding to the sub-associated device.

Optionally, at least one preset supporting device information is recorded in the target associated device list, where the supporting device information at least includes a supporting device type and location information.

Optionally, the supported device information further includes a maximum supported number, a supported physical feature, and a supported functional feature.

Optionally, the support function feature includes at least one device function.

Optionally, the associated device list is stored in a storage medium and read into the memory with device start.

Optionally, the method further includes:

and 9, receiving an access request and/or an editing instruction sent by the terminal equipment, sending the associated equipment list in response to the access request, and updating the associated equipment list in response to the editing instruction.

In a second aspect, an embodiment of the present invention provides an apparatus for automatically associating internet of things devices, including:

the information query unit is used for receiving the device type information sent by the quasi-associated device and querying a target associated device list according to the device type information to obtain first target associated device characteristic information;

the distance confirmation unit is used for confirming that the position of the quasi-correlation equipment meets a preset distance requirement according to the position information of the characteristic information of the first target correlation equipment;

an information request unit, configured to send a request for obtaining target associated device feature information to the quasi associated device, so that the quasi associated device sends quasi associated device feature information;

the information confirming unit is used for confirming that the received quasi-associated equipment characteristic information accords with the corresponding first target associated equipment characteristic information;

a feature request unit, configured to send a function feature request to the quasi-correlation device, so that the quasi-correlation device sends function feature information;

an information creating unit, configured to receive the function feature information and create sub-association device information, where the sub-association device information is used to record the quasi-association device and corresponding function feature information;

the information synchronization unit is used for carrying out networking information synchronization and correlation function characteristic information synchronization with the quasi correlation equipment;

and the information storage unit is used for adding the sub-associated equipment information into the associated equipment list and storing the sub-associated equipment information.

Optionally, the method further includes:

and the association request sending unit is used for sending the equipment association request in a broadcasting or polling mode so as to enable the quasi-association equipment to send the equipment type information.

Optionally, the information querying unit is specifically configured to receive device type information sent by a quasi-associated device, and if it is determined according to a device identifier of the quasi-associated device that the quasi-associated device does not exist in the associated device list, query a target associated device list according to the device type information to obtain first target associated device feature information.

Optionally, the apparatus for automatically associating internet of things devices further includes:

and the information deleting unit is used for confirming that the number of the devices of the same type in the associated device list reaches a preset threshold value according to the first target associated device characteristic information, and deleting the sub-associated device information corresponding to one device of the same type in the associated device list according to a preset deleting rule.

Optionally, at least one preset supporting device information is recorded in the target associated device list, where the supporting device information at least includes a supporting device type and location information.

Optionally, the supported device information further includes a maximum supported number, a supported physical feature, and a supported functional feature.

Optionally, the support function feature includes at least one device function.

Optionally, the associated device list is stored in a storage medium and read into the memory along with device startup.

Optionally, the apparatus for automatically associating internet of things devices further includes:

and the remote updating unit is used for receiving an access request and/or an editing instruction sent by the terminal equipment, sending the associated equipment list in response to the access request, and updating the associated equipment list in response to the editing instruction.

Optionally, the apparatus for automatically associating internet of things devices further includes:

and the association execution unit is used for executing the corresponding operation instruction according to the preset association function instruction and the corresponding function characteristic information as a trigger basis, and sending the operation instruction to the associated Internet of things equipment.

In a third aspect, the present invention provides an apparatus with an automatic association function of the internet of things, where the apparatus includes:

one or more processors;

a storage device configured to store one or more programs which, when executed by the one or more processors, cause the one or more processors to implement a method for automatic association of internet of things devices as described in any of the above.

In a fourth aspect, the present invention provides a storage medium containing computer executable instructions which, when executed by a computer processor, are operable to perform a method of automatic association of internet of things devices as described in any one of the above.

In the scheme, the equipment in the Internet of things automatically and respectively associates the equipment in the same Internet of things by an automatic association method, so that the trouble of manual mobile phone operation configuration is avoided. The scheme solves the problem that the Internet of things equipment in the prior art needs to be accessed by a mobile phone for networking, greatly improves the operability of the Internet of things equipment, and simplifies the construction process of the Internet of things equipment.

Drawings

Fig. 1 is a schematic flowchart of a method for automatically associating an internet of things according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an initial state of a method for automatically associating the internet of things according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the association of FIG. 2 configured using existing Bluetooth Mesh networking techniques;

fig. 4 is an association diagram of a method for automatically associating the internet of things according to an embodiment of the present invention;

fig. 5 is a block diagram illustrating a structure of an apparatus for automatically associating an internet of things according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a device having an automatic association function of the internet of things according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the embodiments of the invention and do not delimit the embodiments. It should be further noted that, for convenience of description, only some structures related to the embodiments of the present invention are shown in the drawings, not all of them.

The method for automatically associating the Internet of things equipment is applied to the intelligent household equipment. In the embodiment of the application, based on the multiple pieces of internet of things equipment shown in fig. 2, a description is displayed on an implementation process of the method for automatically associating the pieces of internet of things equipment.

Fig. 2 is a schematic diagram of an initial state of an internet-of-things automatic association method provided by an embodiment of the present invention, and as shown in fig. 2, there are two intelligent pendant lamps each having 3 intelligent bulbs, where an intelligent bulb a1201, an intelligent bulb a2202, and an intelligent bulb a3203 are installed on an intelligent pendant lamp C1207, an intelligent bulb B1204, an intelligent bulb B2205, and an intelligent bulb B3206 are installed on an intelligent pendant lamp C2209, a human body sensing device D208 is used as a human body presence detection device, and controls on and off of the intelligent pendant lamp C1207 and the intelligent pendant lamp C2209, and a smart phone E210 is a networking control device. When the power is on, the devices can detect the existence of each other through Bluetooth, and can be networked through Bluetooth Mesh.

According to the existing technical scheme, the configuration task can only be started by taking the smart phone E210 as a configurator (provisioner), and a network key, an address and an equipment key are provided for new equipment at first, so that private communication can be carried out between the configurator (provisioner) and a configurator (provisionee); then, the name of the new equipment is changed, so that a user can identify the specific equipment; and then, editing the networking rule of the new equipment, so that the new equipment can cooperate with other equipment according to the networking rule. Because manual configuration is needed in the early stage and certain computer and related knowledge of the smart home are needed, the entrance threshold of the current smart home technology is relatively high, and the intelligent home technology is troublesome to use.

Fig. 3 is a schematic diagram of association after the configuration of fig. 2 using the existing bluetooth Mesh networking technology, and as shown in fig. 3, all device nodes are collected in the smart phone E310, and the smart ceiling lamp C1307 and the smart ceiling lamp C2309 have no lighting effect, and therefore, in this networking, only the device nodes can be used as hidden functions such as Relay (Relay) or Proxy (Proxy). Through the APP setting to smart mobile phone E310 for whether human induction system D308 of the APP of smart mobile phone E310 constantly inquires has detected the human existence, in case when detecting the human existence, smart mobile phone E310 controls smart bulb A1301, smart bulb A2302, smart bulb A3303, smart bulb B1304, smart bulb B2305 and smart bulb B3306 respectively and lights, thereby reaches the effect of the intelligent house of "someone lights". However, it is easy to find that the collection of all the device nodes is the smart phone E310, and once the smart phone E310 fails, the entire smart home network cannot work cooperatively.

Because networking technology of the internet of things is very large and complex, and related professional terms and professional knowledge are more, for the convenience of understanding of the application, known contents about transmission instructions, network transmission, network layer structures, safety, address management and the like are hidden in the application.

Illustratively, the automatic association of an endpoint (Master Note) device with a slave Note device is described below in conjunction with fig. 1 and 4.

Fig. 1 is a schematic flow chart of a method for automatically associating an internet of things according to an embodiment of the present invention, as shown in fig. 1, specifically including:

step 1, receiving device type information sent by quasi-associated devices, and querying a target associated device list according to the device type information to obtain first target associated device feature information.

Before executing the scheme or before the device leaves the factory, the device corresponding to the endpoint needs to record a preset configuration list of the device to support device information, wherein the preset configuration list of the device information comprises a device type, a node type, target associated device characteristic information, working and default coordination working settings and the like, so as to provide various processing in the subsequent automatic networking process.

Fig. 4 is an association diagram of an internet of things automatic association method provided by an embodiment of the present invention, and as shown in fig. 4, the device types of the intelligent pendant lamp C1407 and the intelligent pendant lamp C2409 in fig. 4 are intelligent lamps, the node type is an endpoint (Master Note), there are 3 pieces of target associated device feature information, including: 1) The target associated equipment type is an intelligent bulb, the node type is a slave point (slave Note), the support number of the slave point is 3, the farthest distance is 500mm, the interface type is a screw socket, the size of the interface is E27, the minimum power is 2W, the maximum power is 12W, the minimum diameter is 40mm, the maximum diameter is 100mm, and the group is 0x01; 2) The target associated equipment type is human body induction, the node type is a contact (Sensor Note), the supporting number of the node type is 1, the farthest distance is 2000mm, the induction function is human body induction, the minimum induction distance is 3000mm, and the group is 0x01; 3) The target associated equipment type is an intelligent lamp, the maximum supported number of the target associated equipment type is 8, the maximum distance is 10000mm, and the group is 0x01. From the above exemplary object-related device characteristic information, which is described according to the specific physical characteristics of the devices, the specific physical characteristics of different devices are different, and therefore, the object-related device characteristic information of various devices is different. The maximum support quantity, the support physical characteristics and the support function characteristics are all stored as support equipment information, and as an internet of things equipment which can independently realize a certain specific function, the support function characteristics at least comprise an equipment function, such as an opening function of an intelligent electric lamp.

In fig. 4, the intelligent bulbs a1401, a2402, a3403, B1404, B2405 and B3406 are intelligent bulbs in device type, slave in node type, screw in interface type, E27 in interface size, 9W in power, spherical in shape, and 80mm in diameter; there are 3 target associated device feature information, including: 1) The target associated equipment type is an intelligent lamp, the node type is an end point, the maximum support quantity is 1, the maximum distance is 1500mm, and the group is 0x01; 2) The target associated equipment type is an intelligent bulb, the node type is a slave point, the support quantity is 8, the farthest distance is 100mm, the interface type is a screw, the interface size is E27, and the group is 0x02; 3) The target associated equipment type is human body existence induction, the node type is a contact, the supporting quantity of the node type is 1, the farthest distance is 2000mm, the induction function is human body existence induction, the minimum induction distance is 3000mm, and the group is 0x02.

The device type of the human body sensing device D408 in fig. 4 is a human body sensing device, the device characteristic information includes that the node type is a contact, the supported number is 1, the farthest distance is 3000mm, the sensing function is human body presence sensing, the application technology is radar, the minimum sensing distance is 4000mm, there are 2 target associated device characteristic information, including: 1) The target associated device type is [ all devices ], the node type is an end point, the maximum supported number is 1000, and the group is 0x01; 2) The target associated device type is [ all devices ], the node type is a slave point, the maximum supported number is 1000, and the group is 0x01.

Broadcasting a device association request when the device enters an auto-association mode; of course, the device association request may also be sent in a polling manner, which is mainly used to update the connection status of the existing device, and the device association request is used to instruct the quasi-association device to send the device type information. After receiving the device association request, the quasi-association device queries the device type information from the preset configuration list of the quasi-association device and returns the information.

When the intelligent ceiling lamp C1407 in fig. 4 enters the automatic association mode, it broadcasts a device association request; after receiving the association request of the intelligent pendant lamp C1407, the quasi-association equipment intelligent bulb a1401 inquires that the equipment type information is 'intelligent bulb' from the preset configuration list of the quasi-association equipment intelligent bulb a1401 and returns the information to the intelligent pendant lamp C1407.

The intelligent ceiling lamp C1407 receives that the device type information sent by the quasi-associated device intelligent bulb a1401 is an "intelligent bulb", and queries the target associated device list according to the device type information to obtain the first target associated device feature information of the intelligent bulb.

It should be noted that, in step 1, if it can be confirmed that the currently received quasi-associated device is associated, subsequent processing is not required, that is, device type information sent by the quasi-associated device is received, and if it is confirmed that the quasi-associated device does not exist in the associated device list according to the device identifier of the quasi-associated device, the target associated device list is queried according to the device type information to obtain first target associated device feature information, so that repeated association of the internet of things device can be reduced.

And step 2, confirming that the position of the quasi-correlation equipment meets the preset distance requirement according to the position information of the characteristic information of the first target correlation equipment.

According to the step 2, the intelligent pendant lamp C1407 learns that the set maximum distance is 500mm according to the position information of the first target associated device feature information of the intelligent bulb, if the distance between the intelligent bulb A1401 and the intelligent pendant lamp C1407 is less than or equal to 500mm, the setting requirement is met, and then the next step is executed; otherwise, the intelligent ceiling lamp C1407 receives the information of the next quasi-association device intelligent bulb a2402, and returns to step 1.

And 3, sending a request for acquiring the characteristic information of the target associated equipment to the quasi associated equipment so that the quasi associated equipment sends the characteristic information of the quasi associated equipment.

According to step 3, the intelligent pendant lamp C1407 sends a request for obtaining the feature information of the target associated device to the quasi-associated device intelligent bulb a 1401.

And 4, confirming that the received quasi-associated equipment characteristic information conforms to the corresponding first target associated equipment characteristic information.

The intelligent pendant lamps C1407 and C2409 may actually each accommodate 3 intelligent bulbs, and thus the first target-associated device feature information is preset with an intelligent bulb support number of 3; in fact, the distance between the Bluetooth chip of each bulb of the intelligent ceiling lamp and the Bluetooth chip of the intelligent ceiling lamp is 40cm, including tolerance design, and then the farthest distance is set to be 500mm; the bulb interface fully uses a screw E27, so that the bulb interface is set to be a screw type, and the size of the interface is E27; since the size and power of the bulb which is also an E27 interface are different, in order to be compatible with other bulbs, the minimum power is set to be 2W, the maximum power is set to be 12W, the minimum diameter is set to be 40mm, and the maximum diameter is set to be 100mm; in order to discriminate compatible groups, a group of 0x01 is set, and operation can be performed through the group number and other group numbers in this embodiment, if the result is not 0, the two functions can be simultaneously used, otherwise, the two functions are mutually exclusive, and only one of the functions can be simultaneously used; the group realizes one specific method for distinguishing whether the functions are used, and other realization methods are not described again and belong to the protection scope of the application.

The interface of the intelligent bulb A1401 is a screw E27, so that the bulb interface is set to be a screw, and the size of the interface is E27; the actual power is 9W, so the set power is 9W; the shape is spherical, and the actual diameter is 80mm; one of the target associated device feature information is an intelligent lamp, which is used as a slave device of the intelligent lamp, and the maximum supported device number of the target associated device feature information is 1, so that the maximum supported device number is set to be 1; because the lamps are different in color and size, the largest ceiling lamp has a diameter of several meters, and the maximum distance is 1500mm, and the maximum diameter is 3 meters; to discriminate compatible groups, the group is then set to 0x01.

The intelligent ceiling lamp C1407 judges whether the device characteristic information sent by the quasi-association device conforms to the first target association device characteristic information, wherein the interface types of the intelligent bulb A1401 are all screw interfaces, the interface sizes are all E27, and the interface types and the size of the intelligent ceiling lamp C1407 are mild; the actual power of the intelligent bulb A1401 is 9W, which is between the minimum power of 2W and the maximum power of 12W of the intelligent pendant lamp C1407; the actual diameter of the intelligent bulb A1401 is 80mm, which is between 40mm of the minimum diameter and 100mm of the maximum diameter of the intelligent pendant lamp C1407, so that the intelligent bulb A is matched with the characteristic information of the first target associated equipment, and the next step operation is carried out; otherwise, if the target associated device feature information does not match any of the first target associated device feature information, receiving next quasi associated device information and returning to the step 1.

In addition, the intelligent pendant lamp C1407 may determine whether the preset intelligent bulb support number has been exceeded by the first target associated device feature information, and if the preset intelligent bulb support number has not been exceeded, perform the next step operation; otherwise, the device characteristic information of the intelligent bulb A1401 is compared with the device characteristic information of other intelligent bulbs which are already networked, and the intelligent bulbs with larger differences are excluded. When the intelligent bulb with larger difference is other bulbs, the intelligent ceiling lamp C1407 cancels networking with the bulb, deletes the sub-associated device information thereof, and executes the next step operation; and when the intelligent bulb with larger difference is the intelligent bulb A1401, receiving the next quasi-associated equipment information and returning to the step 1. According to the first target associated device feature information, confirming that the number of the devices of the same type in the associated device list reaches a preset threshold value, according to a preset deleting rule, canceling sub-associated device networking corresponding to one device of the same type in the associated device list, and deleting sub-associated device information corresponding to the sub-associated device.

And 5, sending a function characteristic request to the quasi-correlation equipment so that the quasi-correlation equipment sends function characteristic information.

The smart ceiling lamp C1407 issues a functional feature request to the quasi-associative device smart bulb a 1401.

And 6, receiving the functional characteristic information and creating sub-associated equipment information, wherein the sub-associated equipment information is used for recording the quasi-associated equipment and the corresponding functional characteristic information.

The intelligent pendant lamp C1407 creates sub-associated equipment information corresponding to the quasi-associated equipment intelligent bulb A1401 and receives various functional characteristics of the quasi-associated equipment intelligent bulb A1401, wherein the functional characteristics are equivalent to elements (elements) in Bluetooth Mesh networking.

And 7, synchronizing networking information and associated functional characteristic information with the quasi-associated equipment.

The intelligent ceiling lamp C1407 establishes association operations with the quasi-association device intelligent bulb a1401, including determining network address, group address, communication key and the like.

The intelligent ceiling lamp C1407 executes the corresponding operation instruction according to the preset associated function instruction and the corresponding function characteristic information as the triggering basis, and sends the operation instruction to the associated Internet of things equipment to realize the function of automatic associated operation. For example, generic On (Generic On) and Generic Off (Generic Off) are feature information that all bluetooth Mesh networking devices support. Associating the general switch of the intelligent pendant lamp C1407 with the general switch of the intelligent bulb A1401 of the associated equipment, and associating the general switch of the intelligent pendant lamp C1407 with the general switch of the intelligent bulb A1401 of the associated equipment, so that when the intelligent pendant lamp C1407 receives a switch-off instruction, the switch-off instruction is synchronized to the intelligent pendant lamp C1407, and the intelligent pendant lamp C1407 executes the switch-off instruction, thereby completing the execution of the general switch-off instruction; similarly, when the intelligent ceiling lamp C1407 receives the opening instruction, the opening instruction is synchronized to the intelligent ceiling lamp C1407, and the intelligent ceiling lamp C1407 executes the opening instruction, thereby completing the execution of the general opening instruction. The general switching function is the related functional characteristic information.

And 8, adding the sub-associated equipment information into an associated equipment list and storing the sub-associated equipment information.

The intelligent pendant lamp C1407 adds the sub-associated equipment information about the intelligent bulb A1401 into the associated equipment list of the intelligent pendant lamp C1407 and stores the sub-associated equipment information in the storage module of the intelligent pendant lamp C1407; similarly, the intelligent bulb a1401 also adds the sub-associated device information of the intelligent pendant lamp C1407 to the associated device list of the intelligent bulb a1401, and stores the sub-associated device information in the storage module of the intelligent bulb a 1401. In addition, the stored information also includes the information such as the network address, the group address, the communication key, etc. generated in step 7. For the device, the associated device list is stored in a storage medium and read into the memory as the device is started. Moreover, the internet of things device may receive an access request and/or an edit instruction sent by the terminal device, send the associated device list in response to the access request, and update the associated device list in response to the edit instruction, that is, further implement the user-defined association.

The steps 2 to 8 are only descriptions of the overall implementation process of the scheme, the numbering of the steps is only for convenience of description, the execution sequence of each step must be strictly numbered, and the implementation sequence of the steps in a specific certain association process can be changed according to the actual product requirements, and all belong to the scope of the application.

After the intelligent pendant lamp C1407 has processed the association of the intelligent bulb a1401, the device type information of the intelligent bulb a2402 of the next quasi-association device is received, and step 1 is executed until all accessible quasi-association devices are accessed.

By the method, under the condition that the smart phone E410 does not participate, the intelligent pendant lamp C1407 and the intelligent bulb A1401, the intelligent bulb A2402 and the intelligent bulb A3403 can automatically establish association, and the intelligent pendant lamp C2409 and the intelligent bulb B1401, the intelligent bulb B2402 and the intelligent bulb B3403 can automatically establish association and automatically cooperate. On one hand, the topological structure of the Internet of things is more ideal, and on the other hand, the interconnection mode of the Internet of things is more flexible and convenient.

The smart phone E410 is a Configuration node (Configuration Note), when the smart phone E410 starts Configuration, all devices do not need to be traversed one by one, and only the smart pendant lamp C1407 and the smart pendant lamp C2409 need to be started and configured, and the smart pendant lamp C1407 and the smart pendant lamp C2409 send information such as all associated devices and network addresses, group addresses, communication keys and the like related to the associated devices to the smart phone E410.

The user can use the smart phone E410 to adjust the association state between the devices according to the actual situation, rename the devices for different names, add, delete, modify and the like, and set the association state task, so that the whole system is more flexible and has stronger compatibility.

Illustratively, the automatic association of an endpoint (Master Note) device with a contact (Sensor Note) device is described below in conjunction with fig. 1 and 4.

Step 1, receiving device type information sent by quasi-associated devices, and querying a target associated device list according to the device type information to obtain first target associated device feature information.

Before executing the scheme, the device corresponding to the endpoint needs to record a preset configuration list of the device to support device information, wherein the preset configuration list of the device comprises a device type, a node type, target associated device characteristic information, working and default coordination working settings and the like, so as to provide various processing in a subsequent automatic networking process.

The device type of the human body sensing device D408 in fig. 4 is a human body sensing device, the device characteristic information includes that the node type is a contact, the supported number is 1, the farthest distance is 3000mm, the sensing function is human body presence sensing, the application technology is radar, the minimum sensing distance is 4000mm, there are 2 target associated device characteristic information, including: 1) The target associated device type is [ all devices ], the node type is an end point, the maximum supported number is 1000, and the group is 0x01; 2) The target associated device type is [ all devices ], the node type is a slave point, the maximum supported number is 1000, and the group is 0x01.

Broadcasting a device association request when the device enters an auto-association mode;

after receiving the device association request, the quasi-association device inquires the device type information from the preset configuration list of the quasi-device and returns the information.

When the intelligent pendant C1407 in fig. 4 enters the automatic association mode, it broadcasts a device association request; after receiving the association request of the device intelligent ceiling lamp C1407, the quasi-association device human body induction device D408 queries that the device type information thereof is a human body induction device from a preset configuration list of the quasi-association device human body induction device D408, and returns the information to the intelligent ceiling lamp C1407; the intelligent ceiling lamp C1407 receives the device type information, sent by the quasi-correlation device human body induction apparatus D408, of the human body induction device, and queries the target correlation device list according to the device type information to obtain first target correlation device characteristic information of the human body induction device. And equivalently, at least one preset supporting device information is recorded in the target associated device list, the supporting device information at least comprises a supporting device type and position information, and the initial matching of the quasi-associated device is carried out through the supporting device type and the position information.

And 2, confirming that the position of the quasi-correlation equipment meets the preset distance requirement according to the position information of the characteristic information of the first target correlation equipment.

According to the step 2, the intelligent ceiling lamp C1407 learns that the set farthest distance is 2000mm according to the position information of the first target associated device feature information of the human body induction device, and if the distance between the human body induction device D408 and the intelligent ceiling lamp C1407 is less than or equal to 2000mm, the setting requirement is met, and then the next step is executed; otherwise, the intelligent pendant lamp C1407 receives the information of the next quasi-associated device and returns to step 1.

And 3, sending a request for acquiring the characteristic information of the target associated equipment to the quasi associated equipment so that the quasi associated equipment sends the characteristic information of the quasi associated equipment.

According to the step 3, the intelligent ceiling lamp C1407 sends a request for acquiring characteristic information of the target associated equipment to the quasi associated equipment human body induction device D408.

And 4, confirming that the received quasi-associated equipment characteristic information conforms to the corresponding first target associated equipment characteristic information.

The intelligent ceiling lamp C1407 can actually accommodate 1 human body induction device each, and therefore the support number of the human body induction devices is preset to be 1 according to the feature information of the first target associated device; in fact, the distance between the intelligent ceiling lamp and the human body induction device is smaller than 200cm, and then the farthest distance is set to be 2000mm; in order to prevent the intelligent ceiling lamp C1407 from being suddenly closed, a human body with higher response requirement is set to have response, and the actual effective illumination range of the light of the lamp is considered to be 3 meters, so that the preset minimum effective range is 3000mm; since the human body sensing device can coexist with the smart bulb, the setting group is 0x01.

The device type of the human body sensing device D408 in fig. 4 is a human body sensing device, the device characteristic information includes that the node type is a contact, the supported number is 1, the farthest distance is 3000mm, the sensing function is human body presence sensing, the application technology is radar, the minimum sensing distance is 4000mm, there are 2 target associated device characteristic information, including: 1) The target associated device type is [ all devices ], the node type is an end point, the maximum supported number is 1000, and the group is 0x01; 2) The target associated device type is [ all devices ], the node type is a slave point, the maximum supported number is 1000, and the group is 0x01.

The device type of the human body sensing device D408 in fig. 4 is a human body sensing device, and the device is a touch type device, and has a characteristic of being capable of following both end point linkage and point linkage, so the device characteristic information includes that the node type is a contact, the support number is 1, the farthest distance is 2000mm, the sensing function is human body presence sensing, the application technology is radar, the minimum sensing distance is 3000mm, and the group is 0x01.

The intelligent ceiling lamp C1407 judges whether the equipment characteristic information sent by the quasi-correlation equipment conforms to the equipment characteristic information through the first target correlation equipment characteristic information, wherein the intelligent bulb group is 0x01, the human body induction device is also 0x01, and the intelligent bulb group and the human body induction device are not equal to 0 after being subjected to AND operation, so that the intelligent bulb function and the human body induction device function can exist at the same time; the farthest distance of the human body induction device D408 is 3000mm, the maximum preset distance of the human body induction device of the intelligent ceiling lamp C1407 is 2000mm, and the set requirements are met; the minimum sensing distance of the human body sensing device D408 is 4000mm, the minimum sensing distance of the intelligent ceiling lamp C1407 is 3000mm, and the set requirements are met, so that the human body sensing device is matched with the characteristic information of the first target associated equipment, and the next step of operation is carried out; otherwise, if the target associated device feature information does not match any of the first target associated device feature information, receiving next quasi associated device information and returning to the step 1.

In addition, the intelligent ceiling lamp C1407 may determine whether the preset number of the human body sensing devices has exceeded the first target associated device feature information, and if not, execute the next step operation; otherwise, comparing the device characteristic information of the human body sensing device D408 with the device characteristic information of other networked human body sensing devices, and excluding the human body sensing devices with larger differences. When the human body induction device with large difference is other bulbs, the intelligent ceiling lamp C1407 cancels networking with the human body induction device, deletes sub-associated equipment information of the human body induction device, and executes the next step operation; and when the human body sensing device with larger difference is the human body sensing device D408, receiving the next quasi-associated equipment information and returning to the step 1.

And 5, sending a function characteristic request to the quasi-correlation equipment so as to enable the quasi-correlation equipment to send function characteristic information.

And the intelligent pendant lamp C1407 sends a function feature request to the quasi-correlation equipment human body induction device D408.

And 6, receiving the functional characteristic information and creating sub-associated equipment information, wherein the sub-associated equipment information is used for recording the quasi-associated equipment and the corresponding functional characteristic information.

The intelligent pendant lamp C1407 creates sub-associated device information corresponding to the quasi-associated device human body induction device D408, and receives various functional characteristics of the quasi-associated device human body induction device D408, which are equivalent to elements (elements) in the bluetooth Mesh networking.

And 7, synchronizing networking information and associated functional characteristic information with the quasi-associated equipment.

The intelligent pendant lamp C1407 establishes association operations with the quasi-association device human body induction device D408, including determination of network address, group address, communication key, and the like.

For a specific execution process, the intelligent pendant lamp C1407 executes a corresponding operation instruction according to a preset association function instruction and according to the corresponding functional characteristic information as a triggering basis, and sends the operation instruction to the associated internet of things device, so as to implement an automatic association operation function. The presence and absence of a person is functional feature information supported by the body sensing device D408. The general on of the intelligent ceiling lamp C1407 is associated with the presence of a person of the associated device human body induction device D408, the general off of the intelligent ceiling lamp C1407 is associated with the absence of the associated device human body induction device D408, so that when the intelligent ceiling lamp C1407 receives the absence state of the human body induction device D408, a lamp turning-off instruction is executed, the lamp turning-off instruction is synchronized to the intelligent bulb A1401, the intelligent bulb A2402 and the intelligent bulb A3403, the intelligent bulb A1401, the intelligent bulb A2402 and the intelligent bulb A3403 are made to execute the lamp turning-off instruction, and the execution of the general off instruction is completed; similarly, when the intelligent pendant lamp C1407 receives the human presence state of the human body sensing device D408, the turn-on command is executed, the turn-on command is synchronized to the intelligent bulb a1401, the intelligent bulb a2402 and the intelligent bulb a3403, and the intelligent bulb a1401, the intelligent bulb a2402 and the intelligent bulb a3403 execute the turn-on command, so that the execution of the general-off command is completed.

And 8, adding the sub-associated equipment information into an associated equipment list and storing the sub-associated equipment information.

The intelligent ceiling lamp C1407 adds the sub-associated device information about the human body sensing device D408 into the associated device list of the intelligent ceiling lamp C1407 and stores the sub-associated device information in the storage module of the intelligent ceiling lamp C1407; similarly, the human body sensing device D408 also adds the sub-associated device information of the intelligent pendant lamp C1407 to the associated device list of the human body sensing device D408, and stores the sub-associated device information in the storage module of the human body sensing device D408. In addition, the stored information also includes the information such as the network address, the group address, the communication key, etc. generated in step 7.

The sequence of the step 2 to the step 8 can be changed according to the actual product requirements, and the method belongs to the scope of the application.

After the intelligent pendant lamp C1407 has processed the association of the human body sensing device D408, the device type information of the next quasi-associated device is received, and step 1 is executed until all accessible quasi-associated devices have been accessed.

By the method, under the condition that the smart phone E410 does not participate, the human body sensing device D408 can be automatically associated with the intelligent pendant lamp C1407 and the intelligent pendant lamp C2409, the intelligent lamp A1401, the intelligent lamp A2402 and the intelligent lamp A3403 are controlled by the intelligent pendant lamp C1407, the intelligent lamp B1404, the intelligent lamp B2405 and the intelligent lamp B3406 are controlled by the intelligent pendant lamp C2409, and an ecological intelligent home network is established. On one hand, the topological structure of the Internet of things is more approximate to an ideal form, and on the other hand, the interconnection mode of the Internet of things is more flexible and convenient.

The smart phone E410 is a configuration node, when the smart phone E410 starts configuration, all devices do not need to be traversed one by one, and only the smart pendant lamp C1407 and the smart pendant lamp C2409 need to be started and configured, and the smart pendant lamp C1407, the smart pendant lamp C2409 and the human body sensing device D408 send information such as all devices that have been associated and network addresses, group addresses, communication keys and the like related to the devices to the smart phone E410.

The user can use the smart phone E410 to adjust the association state between the devices according to the actual situation, rename the devices for different names, add, delete, modify and the like, and set the association state task, so that the whole system is more flexible and has stronger compatibility.

And the functions of automatic networking of the end points and the end points or automatic networking of the slave points and the slave points can be realized according to the actual product form, and the description is omitted again.

Fig. 5 is a block diagram of a structure of an apparatus for automatically associating internet of things devices according to an embodiment of the present invention, where as shown in the figure, the apparatus includes:

an information query unit 510, configured to receive device type information sent by a quasi-associated device, and query a target associated device list according to the device type information to obtain first target associated device feature information;

a distance determining unit 520, configured to determine, according to the location information of the feature information of the first target associated device, that the location of the quasi-associated device meets a preset distance requirement;

an information requesting unit 530, configured to send a request for obtaining target associated device feature information to the quasi associated device, so that the quasi associated device sends quasi associated device feature information;

an information confirming unit 540, configured to confirm that the received quasi associated device feature information matches the corresponding first target associated device feature information;

a feature request unit 550, configured to send a function feature request to the quasi-associated device, so that the quasi-associated device sends function feature information;

an information creating unit 560, configured to receive the function feature information, and create sub-associated device information, where the sub-associated device information is used to record the quasi-associated device and corresponding function feature information;

an information synchronization unit 570, configured to perform networking information synchronization and correlation function feature information synchronization with the quasi-correlation device;

an information storage unit 580, configured to add the sub-associated device information to the associated device list and store the sub-associated device information.

On the basis of the above embodiment, the method further includes:

and the association request sending unit is used for sending the equipment association request in a broadcasting or polling mode so as to enable the quasi-association equipment to send the equipment type information.

On the basis of the foregoing embodiment, the information querying unit 510 is specifically configured to receive device type information sent by a quasi-associated device, and if it is determined that the quasi-associated device does not exist in the associated device list according to the device identifier of the quasi-associated device, query a target associated device list according to the device type information to obtain first target associated device feature information.

On the basis of the above embodiment, the apparatus for automatically associating internet of things devices further includes:

and the information deleting unit is used for confirming that the number of the devices of the same type in the associated device list reaches a preset threshold value according to the first target associated device characteristic information, and deleting the sub-associated device information corresponding to one device of the same type in the associated device list according to a preset deleting rule.

On the basis of the above embodiment, at least one preset supporting device information is recorded in the target associated device list, and the supporting device information at least includes a supporting device type and location information.

On the basis of the above-described embodiment, the supported device information further includes a maximum supported number, a supported physical feature, and a supported functional feature.

On the basis of the above embodiments, the support function feature comprises at least one device function.

On the basis of the above embodiment, the associated device list is stored in a storage medium and read into a memory along with device startup.

On the basis of the above embodiment, the apparatus for automatically associating internet of things devices further includes:

and the remote updating unit is used for receiving an access request and/or an editing instruction sent by the terminal equipment, sending the associated equipment list in response to the access request, and updating the associated equipment list in response to the editing instruction.

On the basis of the above embodiment, the apparatus for automatically associating internet of things devices further includes: and the association execution unit 590 is configured to execute a corresponding operation instruction according to a preset association function instruction and according to the corresponding function characteristic information as a trigger basis, and send the operation instruction to the associated internet of things device.

The device for automatically associating the Internet of things equipment, provided by the embodiment of the invention, is included in the electronic equipment, can be used for executing the corresponding method for automatically associating the Internet of things equipment, provided by the embodiment of the invention, and has corresponding functions and beneficial effects.

It should be noted that, in the embodiment of the apparatus for automatically associating internet of things devices, each unit and each module included in the apparatus are only divided according to functional logic, but are not limited to the above division, as long as corresponding functions can be implemented; in addition, the specific names of the functional units are only for the convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention. Fig. 6 is a schematic structural diagram of a device having an automatic association function of the internet of things according to an embodiment of the present invention. As shown in fig. 6, the apparatus includes a processor 610 and a memory 620, and may further include an input device 630, an output device 640, and a communication device 650; the number of the processors 610 in the electronic device may be one or more, and one processor 610 is taken as an example in fig. 6; the processor 610, the memory 620, the input device 630, the output device 640, and the communication device 650 in the electronic apparatus may be connected by a bus or other means, and fig. 6 illustrates an example of connection by a bus.

The memory 620 is used as a computer-readable storage medium for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the method for automatically associating devices in the internet of things according to the embodiments of the present invention. The processor 610 executes software programs, instructions and modules stored in the memory 620, so as to execute various functional applications and data processing of the electronic device, that is, to implement the above-mentioned method for automatically associating devices in the internet of things.

The memory 620 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the electronic device, and the like. Further, the memory 620 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the memory 620 can further include memory located remotely from the processor 610, which can be connected to an electronic device through a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input means 630 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function controls of the electronic device. The output device 640 may include a display device such as a display screen.

The electronic equipment comprises the device for automatically associating the Internet of things equipment, can be used for executing any method for automatically associating the Internet of things equipment, and has corresponding functions and beneficial effects.

Embodiments of the present application further provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform relevant operations in the method for automatically associating devices of the internet of things provided in any of the embodiments of the present application, and have corresponding functions and beneficial effects.

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

It should be noted that, in the embodiment of the apparatus for automatically associating based on internet of things devices, each unit and each module included in the apparatus are only divided according to functional logic, but are not limited to the above division, as long as corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the present invention.

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

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

Claims (14)

1. A method for automatically associating Internet of things equipment is characterized by comprising the following steps:

step 1, receiving equipment type information sent by quasi-associated equipment, and inquiring a target associated equipment list according to the equipment type information to obtain first target associated equipment characteristic information;

step 2, confirming that the position of the quasi-correlation equipment meets the preset distance requirement according to the position information of the characteristic information of the first target correlation equipment;

step 3, sending a request for acquiring the characteristic information of the target associated equipment to the quasi associated equipment so that the quasi associated equipment sends the characteristic information of the quasi associated equipment;

step 4, confirming that the received quasi-associated equipment characteristic information conforms to the corresponding first target associated equipment characteristic information;

step 5, sending a function characteristic request to the quasi-correlation equipment so as to enable the quasi-correlation equipment to send function characteristic information;

step 6, receiving the function characteristic information and creating sub-associated equipment information, wherein the sub-associated equipment information is used for recording the quasi-associated equipment and the corresponding function characteristic information;

step 7, carrying out networking information synchronization and correlation function characteristic information synchronization with the quasi correlation equipment;

and 8, adding the sub-associated equipment information into an associated equipment list and storing the sub-associated equipment information.

2. The method for automatically associating the devices of the internet of things as claimed in claim 1, further comprising, before the step 1:

and sending a device association request in a broadcasting or polling mode so that the quasi-association device sends the device type information.

3. The method for automatically associating internet of things equipment according to claim 1, wherein the step 1 specifically comprises:

and receiving equipment type information sent by quasi-associated equipment, and inquiring a target associated equipment list according to the equipment type information to obtain first target associated equipment characteristic information if the quasi-associated equipment does not exist in the associated equipment list according to the equipment identification of the quasi-associated equipment.

4. The method for automatically associating internet of things equipment as claimed in claim 1, wherein after the step 4, the method further comprises:

step 41, according to the first target associated device feature information, confirming that the number of the devices of the same type in the associated device list reaches a preset threshold, according to a preset deletion rule, canceling the sub-associated device networking corresponding to one device of the same type in the associated device list, and deleting the sub-associated device information corresponding to the sub-associated device.

5. The method as claimed in claim 1, wherein at least one preset type of supported device information is recorded in the target associated device list, and the supported device information at least includes a supported device type and location information.

6. The method for automatic association of internet of things equipment as claimed in claim 5, wherein the supported equipment information further comprises a maximum supported number, a supported physical feature and a supported functional feature.

7. The method of claim 6, wherein the supported features comprise at least one device function.

8. The method for automatically associating internet of things equipment as claimed in claim 1, wherein the associated equipment list is stored in a storage medium and read into a memory with equipment startup.

9. The method for automatic association of internet of things devices as claimed in claim 1, further comprising:

and 9, receiving an access request and/or an editing instruction sent by the terminal equipment, sending the associated equipment list in response to the access request, and updating the associated equipment list in response to the editing instruction.

10. The method for automatic association of internet of things devices as claimed in claim 1, further comprising:

and step 10, executing a corresponding operation instruction according to a preset associated function instruction and according to the corresponding function characteristic information as a triggering basis, and sending the operation instruction to the associated Internet of things equipment.

11. An automatic association device for Internet of things equipment, comprising:

the information query unit is used for receiving the device type information sent by the quasi-associated device and querying a target associated device list according to the device type information to obtain first target associated device characteristic information;

the distance confirmation unit is used for confirming that the position of the quasi-correlation equipment meets the preset distance requirement according to the position information of the characteristic information of the first target correlation equipment;

an information request unit, configured to send a request for obtaining target associated device feature information to the quasi associated device, so that the quasi associated device sends quasi associated device feature information;

the information confirming unit is used for confirming that the received quasi-associated equipment characteristic information accords with the corresponding first target associated equipment characteristic information;

a feature request unit, configured to send a function feature request to the quasi-correlation device, so that the quasi-correlation device sends function feature information;

the information creating unit is used for receiving the functional characteristic information and creating sub-associated equipment information, wherein the sub-associated equipment information is used for recording the quasi-associated equipment and the corresponding functional characteristic information;

the information synchronization unit is used for carrying out networking information synchronization and correlation function characteristic information synchronization with the quasi-correlation equipment;

and the information storage unit is used for adding the sub-associated equipment information into the associated equipment list and storing the sub-associated equipment information.

12. The apparatus for automatic association of internet of things devices of claim 11, further comprising:

and the correlation execution unit is used for executing the corresponding operation instruction according to the preset correlation function instruction and the corresponding function characteristic information as a trigger basis, and sending the operation instruction to the correlated Internet of things equipment.

13. An apparatus having an automatic correlation function for internet of things, the apparatus comprising:

one or more processors;

storage means for storing one or more programs that, when executed by the one or more processors, cause the one or more processors to implement the method for internet of things device auto-association as claimed in any of claims 1-10.

14. A storage medium containing computer-executable instructions for performing a method of internet of things device auto-association as claimed in any one of claims 1-10 when executed by a computer processor.

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