CN109151014B - NAN-based intelligent management method and related product - Google Patents

NAN-based intelligent management method and related product Download PDF

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CN109151014B
CN109151014B CN201810916404.3A CN201810916404A CN109151014B CN 109151014 B CN109151014 B CN 109151014B CN 201810916404 A CN201810916404 A CN 201810916404A CN 109151014 B CN109151014 B CN 109151014B
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nan
correspondence
message
devices
time window
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CN109151014A (en
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柯世兴
胡亚东
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/50Network services
    • H04L67/51Discovery or management thereof, e.g. service location protocol [SLP] or web services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/70Services for machine-to-machine communication [M2M] or machine type communication [MTC]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/80Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W84/00Network topologies
    • H04W84/18Self-organising networks, e.g. ad-hoc networks or sensor networks

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  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Computer And Data Communications (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The embodiment of the application discloses a NAN-based intelligent management method and a related product, which are applied to first NAN equipment in a first neighbor awareness network NAN, and the method comprises the following steps: generating a first corresponding relation set, wherein the first corresponding relation set comprises a plurality of first corresponding relations, and each first corresponding relation comprises a corresponding relation between a time window and control information; broadcasting a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN; receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message. The method and the device are beneficial to improving the intelligence and the safety in the NAN intelligent management process.

Description

NAN-based intelligent management method and related product
Technical Field
The application relates to the technical field of electronics, in particular to an intelligent management method based on NAN and a related product.
Background
With the widespread use of electronic devices (such as mobile phones, tablet computers, etc.), the electronic devices have more and more applications and more powerful functions, and the electronic devices are developed towards diversification and personalization, and become indispensable electronic products in the life of users. The electronic equipment controls the household appliances to be opened and closed, the household appliances become the mainstream at present, the intelligent household appliances can enable our lives to be more convenient, in the existing implementation mode, the mode of adopting Bluetooth and a wireless communication mode depends on a router, and hot spots and internet connection are needed, so that the security of the electronic equipment control is threatened.
Disclosure of Invention
The embodiment of the application provides an intelligent management method based on a NAN and a related product, and the method is beneficial to improving the intelligence and the safety in the NAN intelligent management process.
In a first aspect, an embodiment of the present application provides a NAN-based intelligent management method, which is applied to a first neighbor awareness network NAN device, and the method includes:
generating a first corresponding relation set, wherein the first corresponding relation set comprises a plurality of first corresponding relations, and each first corresponding relation comprises a corresponding relation between a time window and control information;
broadcasting a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN, the first SDF message comprising a second set of correspondences, the second set of correspondences comprising a plurality of second correspondences, each second correspondence comprising a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, the plurality of second NAN devices being located in the first NAN;
receiving a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of the second NAN device sending the second SDF message for at least one second corresponding relationship of the plurality of second corresponding relationships, and the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second corresponding relationship.
In a second aspect, an embodiment of the present application provides a NAN-based intelligent management apparatus, which is applied to a first neighbor awareness network NAN device, and the NAN-based intelligent management apparatus includes:
a generating unit, configured to generate a first corresponding relationship set, where the first corresponding relationship set includes a plurality of first corresponding relationships, and each first corresponding relationship includes a corresponding relationship between a time window and control information;
a broadcasting unit, configured to broadcast a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN, where the first SDF message includes a second correspondence set including a plurality of second correspondences, each second correspondence including a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, and the plurality of second NAN devices are located in the first NAN;
a receiving unit, configured to receive a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of a second NAN device that sends the second SDF message for at least one second correspondence of the plurality of second correspondences, and the feedback information is used to indicate that the second NAN device that sends the second SDF message determines to operate according to the at least one second correspondence.
In a third aspect, an embodiment of the present application provides an electronic device, including: a processor and a memory; and one or more programs stored in the memory and configured to be executed by the processor, the programs including instructions for some or all of the steps as described in the first aspect.
In a fourth aspect, the present application provides a computer-readable storage medium, where the computer-readable storage medium is used to store a computer program, where the computer program is used to make a computer execute some or all of the steps described in the first aspect of the present application.
In a fifth aspect, embodiments of the present application provide a computer program product, where the computer program product comprises a non-transitory computer-readable storage medium storing a computer program, the computer program being operable to cause a computer to perform some or all of the steps as described in the first aspect of embodiments of the present application. The computer program product may be a software installation package.
The embodiment of the application has the following beneficial effects:
it can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
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In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure;
fig. 2 is a flowchart illustrating a NAN-based intelligent management method according to an embodiment of the present application;
fig. 3 is a flowchart illustrating another NAN-based intelligent management method disclosed in an embodiment of the present application;
fig. 4 is a flowchart illustrating another NAN-based intelligent management method disclosed in an embodiment of the present application;
fig. 5 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application;
fig. 6 is a block diagram of functional units of a NAN-based intelligent management device disclosed in an embodiment of the present application.
Detailed Description
In order to make the technical solutions of the present application better understood, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The terms "first," "second," and the like in the description and claims of the present application and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
The electronic devices involved in the embodiments of the present application may include various handheld devices, vehicle-mounted devices, wearable devices, computing devices or other processing devices connected to a wireless modem with wireless communication functions, as well as various forms of User Equipment (UE), Mobile Stations (MS), terminal equipment (terminal device), and so on. For convenience of description, the above-mentioned devices are collectively referred to as electronic devices.
The following describes embodiments of the present application in detail.
Firstly, a NAN mechanism is briefly introduced, a Neighbor Awareness Network (NAN) mechanism is a standard formulated by a wireless fidelity Wi-Fi alliance, the standard is used for synchronizing all devices (namely NAN devices) participating in the NAN mechanism under the condition that no central node exists, maintaining work and Service Discovery work of the NAN mechanism are performed in a Discovery Window (DW) agreed by the NAN mechanism, Service Discovery is realized by sending a Service Discovery Frame (SDF) message, and the Service Discovery Frame message comprises an inquiry message or a broadcast message. The device may establish a corresponding connection based on the information obtained in the service discovery and then perform data transmission.
Specifically, in the standard specified by the Wi-Fi alliance, channel 6 may be used as the discovery channel in the NAN mechanism, and on channel 6, the duration of the discovery time window DW is fixed for each cluster, and the time interval between any two DWs adjacent to the cluster is also fixed.
In the NAN mechanism, a Discovery Window (DW) is set, and NAN devices perform service discovery in the DW. In the NAN mechanism, a DW is generally set in each 512 TUs (time unit), wherein the duration of one TU is about 1024 μ s, and the duration of the DW is generally 16 TUs, that is, in the NAN mechanism, a DW is generally set every 496 TUs. In the NAN mechanism, one or more NAN devices form a Cluster (also called a neighbor awareness network), when a Cluster enters a DW, a NAN device in the Cluster in a master node (master), an anchor master node (AM), a master node (non-master synchronization, non-master sync) state and the like sends a synchronization beacon frame (sync beacon) message, where the message carries information of the AM in the Cluster, and the NAN device receiving the message synchronizes with the AM in the Cluster.
For example, as shown in fig. 1, which is a schematic diagram of a DW of a cluster, according to a standard established by the Wi-Fi alliance, in the DW, NAN devices in the cluster may send a service discovery frame SDF message in the DW to perform service discovery, and in a time other than the DW, NAN devices in the cluster may send a discovery beacon (discovery beacon) message to announce the existence of the cluster. Each NAN device in the cluster may perform service discovery in the DW to discover other NAN devices with which data transmission can be performed. After service discovery, at least two NAN devices which need to perform data transmission with each other may agree on a time frequency resource and a network connection mode in the DW, and after the DW is finished, assemble a corresponding NAN network without a center node on the agreed time frequency resource according to the agreed network connection mode.
The flow of completing service discovery by the NAN device is as follows:
1. after a device activates the NAN function (i.e., becomes a NAN device), it may set itself as an AM, create a Cluster, set a Cluster Identity (Identity, ID) value of the Cluster based on its MAC (Media Access Control) address, and set the TSF as an integer multiple of 512 TU.
2. Once the NAN device receives a Beacon frame (i.e., a sync Beacon, hereinafter, referred to as Beacon frame) sent by a NAN device from one or more other clusters, it may determine whether the NAN device wants to join the Cluster of the other peer.
In the Beacon frame, information of the corresponding Cluster is generally carried, and specifically, information of an AM in the corresponding Cluster may be specifically carried, and may include one or more of an Anchor Master node rank (AMR), a Master node rank (MR), a Master node priority (Master priority, MP), an Anchor Master node priority (AMP), a Random Factor (RF), an Anchor Master node signal Transmission Time (AMBTT), a Time Synchronization Function (TSF), a Cluster ID, and a Cluster rank (CG).
One NAN device may send information of the AM of the Cluster to which the NAN device belongs to other NAN devices by sending the Beacon frame, and similarly, one NAN device may also receive the Beacon frame sent by the Cluster or the NAN devices in other clusters.
After receiving a Beacon frame, the NAN device may determine whether the Beacon frame is from a NAN device in the Cluster to which the NAN device belongs or from NAN devices in other clusters, if the Beacon frame is from NAN devices in other clusters, the NAN device may determine whether a value of Cluster level CG in the received Beacon frame is greater than a value of Cluster level CG of the NAN device, if the value is greater than the value, the NAN device adds the Cluster corresponding to the received Beacon frame, otherwise, the NAN device does not perform processing. This completes the aggregation of NAN devices, i.e., NAN devices will join Cluster with a higher value of Cluster level CG.
3. If the determination is made that the other party's Cluster is to be added, the synchronization is achieved with the AM in the added Cluster after the other party's Cluster is added, specifically, each item of parameter information in the AM of the self is synchronized with the AM in the added Cluster, for example, the TSF of the AM in the Cluster is updated to the TSF of the AM in the added Cluster.
4. After synchronization, when a DW of a joined Cluster arrives, the NAN device sends an SDF (Service Discovery frame) message in the DW to perform Service Discovery, where the SDF message may carry, for example, Service Discovery (Service Subscription) information for querying a required Service or may carry, for example, Service publication (Service Publish) information for publishing a Service that the NAN device can provide, and after receiving the SDF message sent by the NAN device, other NAN devices may reply the SDF message to the NAN device in the DW if it is determined that the SDF message is satisfied, that is, Service matching can be performed.
Similarly, in the DW, the NAN device may also receive an SDF message sent by another NAN device for service discovery, and if the NAN device determines that the received SDF message is satisfied, the NAN device may also reply the SDF message to the corresponding NAN device in the DW.
Various types of information contained in the AM are explained below.
The anchor master node level AMR, which is generally a maximum value of 8 bytes (byte), is the MR value of AM.
The master node level MR, which generally takes a maximum value of 8 bytes, is calculated according to the MP value, the RF value, and the MAC address of the NAN device, and indicates the will of the NAN device to act as a master. The larger the value of MR, the higher will the NAN device want to be master. MR can also be considered as an alternative expression of MP.
The master node priority MP, which generally takes a maximum value of 1 byte, indicates the willingness of the NAN device to act as a master. The larger the value of MP, the higher will the NAN device want to be master.
The anchor master node priority AMP, which generally takes a maximum value of 1 byte, is the value of the MP of the AM.
The random factor RF, which generally takes a maximum value of 1 byte, is a random number selected by the NAN device.
The anchor master node signal transmission time AMBTT generally takes a maximum value of 4 bytes, and shows the sending time of the Beacon frame of the AM. Generally, a NAN device sending a Beacon frame carries an AMBTT, and is used for synchronizing the time of other NAN devices with an AM corresponding to the AMBTT.
The time synchronization function TSF, which generally takes a maximum value of 8 bytes, indicates a synchronization function of the NAN device, so that a timer (timer) of the NAN device receiving the TSF is synchronized with a time of the AM corresponding to the NAN device sending the TSF. The TSF may also represent time information.
The Cluster identity identifier Cluster ID generally takes a maximum value of 6 bytes, and is carried in an Address (Address) 3 field in the Beacon frame.
The Cluster level CG generally takes a maximum value of 8 bytes, represents the level of Cluster, is used for comparing different Clusters during combination, and the Cluster with a small CG value is combined into the Cluster with a large CG value.
The service discovery frame SDF message is introduced below.
The SDF message is an Action Frame (Action Frame) specially defined for service discovery, and can be roughly divided into three types according to different functions: the SDF issues a Publish message, subscribes to a Subscribe message, and replies to a Follow-Up message, and generally, an indication bit is included in the SDF message to indicate which SDF message the SDF message is.
SDF Publish message: the NAN equipment is used for publishing services which can be provided by the NAN equipment or replying to the received SDF Subscribe messages sent by other NAN equipment;
SDF Subscribe message: for finding the service to be used;
SDF Follow-Up message: for replying to received SDF Publish messages or for negotiating more information.
The following describes embodiments of the present application in detail.
Referring to fig. 2, fig. 2 is a flowchart illustrating a NAN-based intelligent management method according to an embodiment of the present disclosure, where the NAN-based intelligent management method described in the embodiment is applied to the electronic device shown in fig. 1, and the NAN-based intelligent management method includes:
s201, a first corresponding relationship set is generated, where the first corresponding relationship set includes a plurality of first corresponding relationships, and each first corresponding relationship includes a corresponding relationship between a time window and control information.
The correspondence relationship may include one-to-one, one-to-many, and many-to-many, and is not limited herein.
The control information is information that the equipment needs to perform specific operations in a corresponding time window, for example, when the air conditioner is at two points, the air conditioner needs to be turned on, and the temperature is set at 26 degrees.
S202, broadcasting a first service discovery frame SDF message at a first discovery window DW of the first NAN, where the first SDF message includes a second correspondence set, the second correspondence set includes a plurality of second correspondences, each second correspondence includes a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, and the plurality of second NAN devices are located in the first NAN.
Wherein, the first SDF message is an SDF Publish message.
S203, receiving a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of the second NAN device sending the second SDF message for at least one second corresponding relationship of the plurality of second corresponding relationships, and the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second corresponding relationship.
Wherein the second SDF message is an SDF Follow-Up message.
It can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
In one possible example, the generating the first set of correspondences comprises: acquiring historical use data of the householder user; and performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming the first corresponding relation set.
The historical usage data is specific usage data of the second NAN device which is turned on by the householder user within a preset time period, for example, the air conditioner is turned on at two points, the current mode is refrigeration, the temperature is 26 ℃, and the air conditioner is turned off at five points.
In this example, in the NAN network, the operation habits of the householder user are obtained through the historical use data of the householder user, and the device control information corresponding to each time window is further obtained, so that the situation of mistakenly opening the device is avoided, and the intelligence of operation and control of the device in the NAN intelligent management process is improved.
In one possible example, before the first discovery window DW of the first NAN broadcasts the first service discovery frame SDF message, the method further comprises: outputting a content interface comprising the first set of correspondences; and updating the first corresponding relation set according to the interactive operation of the user aiming at the content interface.
Wherein the updating includes adding, deleting, modifying, and maintaining as is.
In this example, in the NAN network, the user updates the first corresponding relationship set through the interactive operation of the content interface, that is, the running time or the specific operation of the device can be updated, which is beneficial to improving the intelligence and the flexibility of the running and the control of the device in the NAN intelligent management process.
In one possible example, the receiving the second SDF message from each of the at least one of the plurality of second NAN devices comprises: detecting whether a current first time window belongs to the first corresponding relation set; detecting a start notification message from a second NAN device of the at least one second NAN device at the first time window if it is detected that the first time window belongs to the first set of correspondences; determining at least one second correspondence in the second set of correspondences associated with the first time window if a start notification message from one or more of the at least one second NAN device is detected in the first time window; and determining the operating state of the second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices.
Wherein the at least one second correspondence is a device that has previously notified a timing function.
The operation state may be an abnormal operation and a normal operation, and is not limited herein.
Therefore, in the NAN network, in this example, the running state of the current second NAN device may be determined through the feedback information of the second NAN device, thereby avoiding missing the device that is not turned on, timely judging the running state of the device, and responding in time, which is beneficial to improving the intelligence of monitoring the device in the NAN intelligent management process.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m is greater than n, and m and n are positive integers; the determining, according to the at least one second correspondence and the one or more second NAN devices, an operating state of a second NAN device associated with the at least one second correspondence includes: sending a connection request message to at least one target device, wherein the at least one target device is a second NAN device except n devices in the m devices; if the sending times of the request connection message exceed the preset times, determining that the operation is abnormal; and outputting the first prompt message.
The first prompt message is used for reminding a user that equipment is not operated.
The preset number may be three, five, ten, etc., and is not limited herein.
In this example, in the NAN network, when the first NAN device does not receive the start notification message in the specified time window, the request connection information is initiated to the device, and if the connection fails, the user is notified, so that the situation that the device is not started due to the failure of the second NAN device can be avoided, the owner user is timely reminded to maintain the device, and the intelligence and the flexibility of monitoring the device in the NAN intelligent management process are improved.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m equals n, and m, n are positive integers; the determining, according to the at least one second correspondence and the one or more second NAN devices, an operating state of a second NAN device associated with the at least one second correspondence includes: and receiving the operation parameters of the m devices, and determining that the current operation is normal.
The operating parameters may include time, temperature, power, etc., and are not limited herein.
In this example, it can be seen that, in the NAN network, by monitoring the operating parameters of the operating second NAN device, the intelligence and flexibility of controlling the devices in the NAN intelligent management process can be improved.
In one possible example, after the detecting whether the current first time window belongs to the first set of correspondences, the method further includes: determining to be in a powered-off state if a start notification message from one or more of the at least one second NAN device is not detected in the first time window; and outputting a second prompt message which is used for prompting a user to check the circuit problem.
Therefore, in the example, when the power failure state occurs, all the second NAN devices can be timely responded, the scene of the starting notification message cannot be sent, the user can be timely notified, the maintenance processing is carried out, and the intelligence of monitoring the devices in the NAN intelligent management process can be improved.
Referring to fig. 3, fig. 3 is a flowchart illustrating a NAN-based intelligent management method according to an embodiment of the present application, and the method is applied to a first NAN device in a first neighbor awareness network NAN. As shown in the figure, the NAN-based intelligent management method includes:
s301, obtaining the historical use data of the user owner.
S302, performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming the first corresponding relation set.
S303, broadcasting a first service discovery frame SDF message in a first discovery window DW of the first NAN.
S304, receiving a second SDF message from each of at least one of the plurality of second NAN devices.
It can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
In addition, in the NAN network, the operation habits of the householder users are obtained through the historical use data of the householder users, the device control information corresponding to each time window is further obtained, the situation that the devices are mistakenly opened is avoided, and the intelligence of operation and control of the devices in the NAN intelligent management process is improved.
Referring to fig. 4, fig. 4 is a flowchart illustrating a NAN-based intelligent management method according to an embodiment of the present application, and the method is applied to a first NAN device in a first neighbor awareness network NAN. As shown in the figure, the NAN-based intelligent management method includes:
s401, obtaining the historical use data of the user owner.
S402, performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming a first corresponding relation set.
And S403, outputting a content interface comprising the first corresponding relation set.
S404, updating the first corresponding relation set according to the interactive operation of the user aiming at the content interface.
S405, broadcasting a first service discovery frame SDF message in a first discovery window DW of the first NAN.
S406, receiving a second SDF message from each of at least one of the plurality of second NAN devices.
S407, detecting whether the current first time window belongs to the first corresponding relation set.
S408, if it is detected that the first time window belongs to the first mapping relationship set, detecting a start notification message from a second NAN device of the at least one second NAN device in the first time window.
S409, if a start notification message from one or more second NAN devices of the at least one second NAN device is detected in the first time window, determining at least one second correspondence associated with the first time window in the second correspondence set.
S410, determining an operating state of a second NAN device associated with the at least one second correspondence relationship according to the at least one second correspondence relationship and the one or more second NAN devices.
It can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
In addition, in the NAN network, the operation habits of the householder users are obtained through the historical use data of the householder users, the device control information corresponding to each time window is further obtained, the situation that the devices are mistakenly opened is avoided, and the intelligence of operation and control of the devices in the NAN intelligent management process is improved.
In addition, in the NAN network, the user updates the first corresponding relationship set through interactive operation of a content interface, that is, the running time or specific operation of the device can be updated, which is beneficial to improving the intelligence and flexibility of running and controlling the device in the NAN intelligent management process.
In addition, in the NAN network, the running state of the current second NAN equipment can be determined through the feedback information of the second NAN equipment, the equipment which is not started is prevented from being leaked, the running state of the equipment is timely judged and timely responded, and the intelligence of monitoring the equipment in the NAN intelligent management process is favorably improved.
Consistent with the embodiments shown in fig. 2, fig. 3, and fig. 4, please refer to fig. 5, and fig. 5 is a schematic structural diagram of an electronic device 500 provided in an embodiment of the present application, as shown in the figure, the electronic device 500 includes an application processor 510, a memory 520, a communication interface 530, and one or more programs 521, where the one or more programs 521 are stored in the memory 520 and configured to be executed by the application processor 510, and the one or more programs 521 include instructions for:
generating a first corresponding relation set, wherein the first corresponding relation set comprises a plurality of first corresponding relations, and each first corresponding relation comprises a corresponding relation between a time window and control information;
broadcasting a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN, the first SDF message comprising a second set of correspondences, the second set of correspondences comprising a plurality of second correspondences, each second correspondence comprising a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, the plurality of second NAN devices being located in the first NAN;
receiving a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of the second NAN device sending the second SDF message for at least one second corresponding relationship of the plurality of second corresponding relationships, and the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second corresponding relationship.
It can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
In one possible example, in said generating the first set of correspondences, the program comprises instructions for:
acquiring historical use data of the householder user; and performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming the first corresponding relation set.
In one possible example, before the broadcasting of the first service discovery frame SDF message at the first discovery window DW of the first NAN, the program further comprises instructions for:
outputting a content interface comprising the first set of correspondences; and updating the first corresponding relation set according to the interactive operation of the user aiming at the content interface.
In one possible example, after the receiving the second SDF message from each of the at least one of the plurality of second NAN devices, the program further comprises instructions for:
detecting whether a current first time window belongs to the first corresponding relation set; detecting a start notification message from a second NAN device of the at least one second NAN device at the first time window if it is detected that the first time window belongs to the first set of correspondences; determining at least one second correspondence in the second set of correspondences associated with the first time window if a start notification message from one or more of the at least one second NAN device is detected in the first time window; and determining the operating state of the second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m is greater than n, and m and n are positive integers; in the aspect of the determining an operational status of a second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices, the program comprises instructions for:
sending a connection request message to at least one target device, wherein the at least one target device is a second NAN device except n devices in the m devices; if the sending times of the request connection message exceed the preset times, determining that the operation is abnormal; and outputting the first prompt message.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m equals n, and m, n are positive integers; in the aspect of the determining an operational status of a second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices, the program comprises instructions for:
and receiving the operation parameters of the m devices, and determining that the current operation is normal.
In one possible example, after said detecting whether the current first time window belongs to the first set of correspondences, the program further comprises instructions for:
determining to be in a powered-off state if a start notification message from one or more of the at least one second NAN device is not detected in the first time window; and outputting a second prompt message which is used for prompting a user to check the circuit problem.
The above embodiments mainly introduce the scheme of the embodiments of the present application from the perspective of the method-side implementation process. It is understood that the electronic device comprises corresponding hardware structures and/or software modules for performing the respective functions in order to realize the above-mentioned functions. Those of skill in the art would readily appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as hardware or combinations of hardware and computer software. Whether a function is performed as hardware or computer software drives hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.
In the embodiment of the present application, the electronic device may be divided into the functional units according to the method example, for example, each functional unit may be divided corresponding to each function, or two or more functions may be integrated into one processing unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit. It should be noted that the division of the unit in the embodiment of the present application is schematic, and is only a logic function division, and there may be another division manner in actual implementation.
The following is an embodiment of the apparatus of the present invention, which is used to perform the method implemented by the embodiment of the method of the present invention. The data transmission generating apparatus 600 shown in fig. 6 is applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, the NAN based smart management apparatus 600 includes a generating unit 601, a broadcasting unit 602, and a receiving unit 603, wherein,
the generating unit 601 is configured to generate a first corresponding relationship set, where the first corresponding relationship set includes a plurality of first corresponding relationships, and each first corresponding relationship includes a corresponding relationship between a time window and control information;
the broadcasting unit 602 is configured to broadcast a first service discovery frame SDF message in a first discovery window DW of the first NAN, where the first SDF message includes a second correspondence set, the second correspondence set includes a plurality of second correspondences, each second correspondence includes a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, and the plurality of second NAN devices are located in the first NAN;
the receiving unit 603 is configured to receive a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of the second NAN device sending the second SDF message for at least one second corresponding relationship of the plurality of second corresponding relationships, and the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second corresponding relationship. .
It can be seen that the NAN-based intelligent management method and related products described in the embodiments of the present application, applied to a first neighbor awareness network NAN device in a first neighbor awareness network NAN, first generate a first set of correspondences, the first set of correspondences comprises a plurality of first correspondences, each first correspondence comprising a correspondence between a time window and control information, secondly, broadcasting a first service discovery frame, SDF, message at a first discovery window, DW, of the first NAN, and finally, receiving a second SDF message from each of at least one of the plurality of second NAN devices, each second SDF message including feedback information for at least one of the plurality of second correspondences by the second NAN device sending the second SDF message, the feedback information is used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence. Therefore, the first NAN equipment can distribute tasks for the second NAN equipment in a time window mode through the NAN function, and then the second NAN equipment sends the feedback message to the first NAN equipment after receiving the tasks, and runs at the corresponding time window, so that the intelligence and the safety of running and controlling the equipment in the NAN intelligent management process are improved.
In one possible example, in terms of the generating the first set of correspondences, the generating unit 601 is specifically configured to: acquiring historical use data of the householder user; and performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming the first corresponding relation set.
In one possible example, before the broadcasting of the first service discovery frame SDF message in the first discovery window DW of the first NAN, the generating unit 601 is specifically configured to: outputting a content interface comprising the first set of correspondences; and updating the first corresponding relation set according to the interactive operation of the user aiming at the content interface.
In one possible example, the NAN based smart management apparatus 600 further comprises a determining unit 604, after the receiving the second SDF message from each of the at least one of the plurality of second NAN devices, the determining unit 604 is specifically configured to: detecting whether a current first time window belongs to the first corresponding relation set; detecting a start notification message from a second NAN device of the at least one second NAN device at the first time window if it is detected that the first time window belongs to the first set of correspondences; determining at least one second correspondence in the second set of correspondences associated with the first time window if a start notification message from one or more of the at least one second NAN device is detected in the first time window; and determining the operating state of the second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m is greater than n, and m and n are positive integers; in the aspect that the determining the operating state of the second NAN device associated with the at least one second correspondence relationship according to the at least one second correspondence relationship and the one or more second NAN devices, the determining unit 604 is specifically configured to: sending a connection request message to at least one target device, wherein the at least one target device is a second NAN device except n devices in the m devices; if the sending times of the request connection message exceed the preset times, determining that the operation is abnormal; and outputting the first prompt message.
In one possible example, the at least one second correspondence associated device comprises m devices, the one or more second NAN devices comprises n devices, m equals n, and m, n are positive integers; in the determining, according to the at least one second correspondence and the one or more second NAN devices, an operating state of the second NAN device associated with the at least one second correspondence, the determining unit 604 is further specifically configured to: and receiving the operation parameters of the m devices, and determining that the current operation is normal.
In one possible example, the NAN-based intelligent management apparatus 600 further includes an output unit 605, and after the detecting whether the current first time window belongs to the first corresponding relationship set, the output unit 605 is specifically configured to: determining to be in a powered-off state if a start notification message from one or more of the at least one second NAN device is not detected in the first time window; and outputting a second prompt message which is used for prompting a user to check the circuit problem.
Embodiments of the present application also provide a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, and the computer program enables a computer to execute some or all of the steps of any one of the NAN-based intelligent management methods as described in the above method embodiments.
Embodiments of the present application also provide a computer program product comprising a non-transitory computer readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps of any of the NAN based intelligent management methods as set forth in the above method embodiments.
It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.
In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one type of division of logical functions, and there may be other divisions when actually implementing, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of some interfaces, devices or units, and may be an electric or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may be implemented in the form of a software program module.
The integrated units, if implemented in the form of software program modules and sold or used as stand-alone products, may be stored in a computer readable memory. Based on such understanding, the technical solution of the present application may be substantially implemented or a part of or all or part of the technical solution contributing to the prior art may be embodied in the form of a software product stored in a memory, and including several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned memory comprises: various media capable of storing program codes, such as a usb disk, a read-only memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and the like.
Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable memory, which may include: flash disk, ROM, RAM, magnetic or optical disk, and the like.
The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (9)

1. A NAN-based intelligent management method applied to a first Neighbor Awareness Network (NAN) device in a NAN, the method comprising:
generating a first corresponding relation set, wherein the first corresponding relation set comprises a plurality of first corresponding relations, and each first corresponding relation comprises a corresponding relation between a time window and control information;
broadcasting a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN, the first SDF message comprising a second set of correspondences, the second set of correspondences comprising a plurality of second correspondences, each second correspondence comprising a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, the plurality of second NAN devices being located in the first NAN;
receiving a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, each second SDF message including feedback information of the second NAN device sending the second SDF message for at least one second correspondence of the plurality of second correspondences, the feedback information being used to indicate that the second NAN device sending the second SDF message determines to operate according to the at least one second correspondence;
wherein the receiving the second SDF message from each of the at least one of the plurality of second NAN devices comprises:
detecting whether a current first time window belongs to the first corresponding relation set;
detecting a start notification message from a second NAN device of the at least one second NAN device at the first time window if it is detected that the first time window belongs to the first set of correspondences;
determining at least one second correspondence in the second set of correspondences associated with the first time window if a start notification message from one or more of the at least one second NAN device is detected in the first time window;
and determining the operating state of the second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices.
2. The method of claim 1, wherein generating the first set of correspondences comprises:
acquiring historical use data of a user owner;
and performing data analysis on the historical use data to obtain a plurality of first corresponding relations between each time window in at least one time window and the control information, and forming the first corresponding relation set.
3. The method of claim 1 or 2, wherein before the first discovery window DW of the first NAN broadcasts a first service discovery frame SDF message, the method further comprises:
outputting a content interface comprising the first set of correspondences;
and updating the first corresponding relation set according to the interactive operation of the user aiming at the content interface.
4. The method of claim 1,
the devices associated with the at least one second correspondence comprise m devices, the one or more second NAN devices comprise n devices, m is greater than n, and m and n are positive integers; the determining, according to the at least one second correspondence and the one or more second NAN devices, an operating state of a second NAN device associated with the at least one second correspondence includes:
sending a connection request message to at least one target device, wherein the at least one target device is a second NAN device except n devices in the m devices;
if the sending times of the request connection message exceed the preset times, determining that the operation is abnormal;
and outputting the first prompt message.
5. The method of claim 1, wherein the at least one second correspondence associated device comprises m devices, wherein the one or more second NAN devices comprise n devices, wherein m is equal to n, and wherein m and n are positive integers; the determining, according to the at least one second correspondence and the one or more second NAN devices, an operating state of a second NAN device associated with the at least one second correspondence includes:
and receiving the operation parameters of the m devices, and determining that the current operation is normal.
6. The method of claim 1, wherein after detecting whether the current first time window belongs to the first set of correspondences, the method further comprises:
determining to be in a powered-off state if a start notification message from one or more of the at least one second NAN device is not detected in the first time window;
and outputting a second prompt message which is used for prompting a user to check the circuit problem.
7. A NAN-based intelligent management device applied to a first Neighbor Awareness Network (NAN) device in a NAN, the NAN-based intelligent management device comprising:
a generating unit, configured to generate a first corresponding relationship set, where the first corresponding relationship set includes a plurality of first corresponding relationships, and each first corresponding relationship includes a corresponding relationship between a time window and control information;
a broadcasting unit, configured to broadcast a first Service Discovery Frame (SDF) message at a first Discovery Window (DW) of the first NAN, where the first SDF message includes a second correspondence set including a plurality of second correspondences, each second correspondence including a correspondence between 1 first correspondence and 1 second NAN device of a plurality of second NAN devices, and the plurality of second NAN devices are located in the first NAN;
a receiving unit, configured to receive a second SDF message from each of at least one second NAN device of the plurality of second NAN devices, where each second SDF message includes feedback information of a second NAN device that sends the second SDF message for at least one second correspondence of the plurality of second correspondences, and the feedback information is used to indicate that the second NAN device that sends the second SDF message determines to operate according to the at least one second correspondence;
wherein the receiving the second SDF message from each of the at least one of the plurality of second NAN devices comprises:
detecting whether a current first time window belongs to the first corresponding relation set;
detecting a start notification message from a second NAN device of the at least one second NAN device at the first time window if it is detected that the first time window belongs to the first set of correspondences;
determining at least one second correspondence in the second set of correspondences associated with the first time window if a start notification message from one or more of the at least one second NAN device is detected in the first time window;
and determining the operating state of the second NAN device associated with the at least one second correspondence according to the at least one second correspondence and the one or more second NAN devices.
8. An electronic device, comprising: a processor and a memory; and one or more programs stored in the memory and configured to be executed by the processor, the programs comprising instructions for the method of any of claims 1-6.
9. A computer-readable storage medium, characterized in that,
for storing a computer program, wherein the computer program is adapted to cause a computer to perform the method according to any of claims 1-6.
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