CN110545397A - method, device, medium and system for intelligent management of cell - Google Patents

Abstract

The invention relates to the technical field of Internet of things, in particular to a method, equipment, a medium and a system for intelligent cell management. According to the scheme provided by the embodiment of the invention, the acquired video data shot by the camera can be divided and packaged, each data packet is issued to the intelligent terminal which is used as a private link node and is accessed to the local area network of the cell, a large amount of video data is processed by using a plurality of intelligent terminals and matching with an edge computing framework in combination with the computing power of the intelligent terminal, and the intelligent terminal realizes the detection of the abnormal content of the video data block in each data packet. Therefore, based on edge calculation and a block chain technology, the video data recorded by the camera in the community security monitoring system is analyzed, and the utilization rate of the video data recorded by the camera is improved.

Description

Method, device, medium and system for intelligent management of cell

Technical Field

The invention relates to the technical field of Internet of things, in particular to a method, equipment, a medium and a system for intelligent cell management.

background

In the current community security monitoring system, most of the security monitoring systems are realized by using camera equipment, such as license plate identification access, community internal security monitoring, visitor identification and the like.

because the video data volume that the camera recorded is very big, usually after having appeared serious incident, the mode of retrying through the video data that the manual work was looked for again, and in the face of a large amount of video data, it is very low to rely on the manual work mode to look for the efficiency, can't look for whole video data in the short time. In addition, many high-frequency abnormal events which are not significant but affect the community environment and safety, such as illegal parking, random posting of small advertisements and the like cannot be discovered.

To sum up, in the community security monitoring system, the utilization rate of the video data recorded by the camera is low.

disclosure of Invention

The embodiment of the invention provides a method, equipment, a medium and a system for intelligent management of a community, which are used for solving the problem of low utilization rate of video data recorded by a camera in a community security monitoring system.

A method of intelligent management of a cell, the method comprising:

acquiring video data shot by a camera, segmenting the acquired video data, and respectively packaging each video data block obtained after segmentation into a data packet;

adding the data packet obtained after encapsulation into a video task queue;

and issuing each data packet in the video task queue to an intelligent terminal serving as a private link node and accessed to a cell local area network, and indicating the intelligent terminal to detect abnormal contents of video data blocks in the received data packets.

A method of intelligent management of a cell, the method comprising:

Receiving a data packet sent by a video processing server, wherein the data packet is obtained by the video processing server and video data shot by a camera, dividing the obtained video data, respectively packaging each video data block obtained after division into a data packet, and issuing each data packet added into a video task queue to an intelligent terminal serving as a private link node accessed to a cell local area network;

And according to a pre-stored detection program, detecting abnormal contents of the video data blocks in the data packet.

A method of intelligent management of a cell, the method comprising:

Receiving registration information sent by an intelligent terminal through a client;

And authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, accessing the intelligent terminal as a private link node to a cell local area network.

A video processing server, the video processing server comprising:

The video processing module is used for acquiring video data shot by the camera, dividing the acquired video data and respectively packaging each video data block obtained after division into a data packet;

The task module is used for adding the data packet obtained after encapsulation into a video task queue;

And the terminal interface module is used for issuing each data packet in the video task queue to an intelligent terminal which is used as a private link node and is accessed to a cell local area network, and indicating the intelligent terminal to detect abnormal contents of video data blocks in the received data packets.

a client installed on a smart terminal, the client comprising:

The receiving module is used for receiving a data packet sent by the video processing server, wherein the data packet is obtained by the video processing server and video data shot by a camera, the obtained video data is divided, each video data block obtained after division is respectively packaged into one data packet, and each data packet added into a video task queue is issued to an intelligent terminal which is used as a private link node and is accessed to a cell local area network;

and the detection module is used for detecting the abnormal content of the video data block in the data packet according to a pre-stored detection program.

A management platform, the management platform comprising:

the registration module is used for receiving registration information sent by the intelligent terminal through the client;

and the authentication module is used for authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, the intelligent terminal is used as a private link node to be accessed to the local area network of the cell.

a cell intelligent management system, said system comprising a video processing server as described above, at least one intelligent terminal comprising a client as described above, and a management platform as described above.

a non-volatile computer storage medium storing an executable program that is executed by a processor to implement the steps of the above-described cell intelligent management method from a video processing server side, or to implement the steps of the above-described cell intelligent management method from an intelligent terminal side, or to implement the steps of the above-described cell intelligent management method from a management platform side.

A cell intelligent management device comprising a transceiver, a bus interface, a memory, a processor and a computer program stored on the memory, the processor when executing the program implementing:

Acquiring video data shot by a camera through the transceiver, segmenting the acquired video data, and respectively packaging each video data block obtained after segmentation into a data packet; adding the data packet obtained after encapsulation into a video task queue; each data packet in the video task queue is issued to an intelligent terminal serving as a private link node and accessed to a cell local area network through the transceiver, and the intelligent terminal is instructed to perform abnormal content detection on video data blocks in the received data packets;

Or, the processor implements, when executing the program:

Receiving a data packet sent by a video processing server through the transceiver, wherein the data packet is obtained by the video processing server and video data shot by a camera, dividing the obtained video data, respectively packaging each video data block obtained after division into a data packet, and issuing each data packet added into a video task queue to an intelligent terminal serving as a private link node accessed to a cell local area network; detecting abnormal content of the video data block in the data packet;

Or, the processor implements, when executing the program:

receiving registration information sent by the intelligent terminal through the client through the transceiver; and authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, accessing the intelligent terminal as a private link node to a cell local area network.

According to the scheme provided by the embodiment of the invention, the acquired video data shot by the camera can be divided and packaged, each data packet is issued to the intelligent terminal which is used as a private link node and is accessed to the local area network of the cell, a large amount of video data is processed by using a plurality of intelligent terminals and matching with an edge computing framework in combination with the computing power of the intelligent terminal, and the intelligent terminal realizes the detection of the abnormal content of the video data block in each data packet. Therefore, based on edge calculation and a block chain technology, the video data recorded by the camera in the community security monitoring system is analyzed, and the utilization rate of the video data recorded by the camera is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of a cell intelligent management method according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a cell intelligent management method according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of a cell intelligent management method according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a video processing server according to a fourth embodiment of the present invention;

Fig. 5 is a schematic structural diagram of a client according to a fifth embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a management platform according to a sixth embodiment of the present invention;

fig. 7 is a schematic structural diagram of a cell intelligent management system according to a seventh embodiment of the present invention;

Fig. 8 is a schematic structural diagram of a cell intelligent management device according to an eighth embodiment of the present invention.

Detailed Description

aiming at the problem that the utilization rate of video data recorded by a camera is low in a community security monitoring system in the prior art, the embodiment of the invention provides a community intelligent management scheme based on edge calculation and a block chain technology. The method comprises the steps of deploying in a Local Area Network (LAN) of a cell in a private chain mode in a block chain, deploying a computing program on an intelligent terminal provided by a user, using the intelligent terminal as a node of the private chain, and analyzing video data through an edge computing framework. In the solution provided by the embodiment of the present invention, the intelligent terminal may include, but is not limited to, a mobile phone, a television box, an intelligent router, and the like.

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

it should be noted that the terms "comprises" and "comprising," and any variations thereof, in the description and claims of the present invention and the above-described drawings, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example one

The embodiment of the invention provides a cell intelligent management method, which is explained from a video processing server side. The process flow of steps can be shown in fig. 1, and includes:

step 101, video data is obtained.

In this step, the video processing server may obtain video data captured by the camera. It can be understood that, in this embodiment, the real-time video data captured by the camera may be directly obtained, and the video data captured by the camera that is stored in advance may also be obtained.

specifically, the video data shot by the camera may be stored in the storage server, and in this step, the video data shot by the camera stored in the storage server may be acquired.

Therefore, the scheme provided by the embodiment is not only suitable for analyzing and detecting real-time video data, but also suitable for analyzing and detecting pre-stored video data.

in this embodiment, the camera may be deployed at any position according to the requirement of the cell security monitoring system, for example, but not limited to, at a cell entrance, a parking lot, a building doorway, a main road, and the like.

and 102, segmenting the video data.

in this step, the video processing server may segment the acquired video data, and may encapsulate each video data block obtained after the segmentation into one data packet.

Specifically, in this step, the video processing server may segment the generated video file according to the configuration file, and may encapsulate each video data block into one data packet. For example, the video file is divided according to a set packet size, such as 5M/packet or 10M/packet.

And step 103, adding the data packet into a video task queue.

in this step, the video processing server may add the data packet obtained after encapsulation to the video task queue, so that the data packet may be subsequently sent to the intelligent terminal in a task manner.

And 104, releasing the task.

In this step, the video processing server may issue each data packet in the video task queue to an intelligent terminal that is a private link node and that accesses a cell local area network, and instruct the intelligent terminal to perform abnormal content detection on a video data block in the received data packet.

The intelligent terminal is used as a private link node to access the local area network of the cell and can be realized through a client. Specifically, a user can send registration information to a management platform in the cell intelligent management system through a client pre-installed on an intelligent terminal, the management platform authenticates the registration information, and when the registration information passes the authentication, the intelligent terminal is allowed to be used as a private link node to access a cell local area network. When a user logs in a client pre-installed on the intelligent terminal by using account information provided by the management platform, the intelligent terminal is used as a private link node to access the local area network of the cell, and the intelligent terminal can be understood to be online at the moment. If the user exits from the client, the intelligent terminal exits from the cell local area network as a private link node, and at this time, the intelligent terminal is considered to be offline.

and the video processing server issues each data packet in the video task queue to an intelligent terminal which is used as a private link node and is accessed to a cell local area network, and the mode can be any mode. For example, but not limited to, one data packet is sent to one intelligent terminal in a one-to-one correspondence manner, and the intelligent terminal performs abnormal content detection on the data packet, or, for example, each data packet is sent to all intelligent terminals in a one-to-many manner, and each intelligent terminal performs abnormal content detection on each data packet.

Further, the present embodiment may further include the following steps:

and 105, receiving a data packet reported by the intelligent terminal.

in this step, the video processing server may receive a data packet reported by the intelligent terminal, where the data packet includes a video data block, a video identifier corresponding to the video data block, a detection result, and a detection completion time.

At this time, it can be understood that in step 102, when a video data block is packed, a video identifier corresponding to the video data block is further packed in the data packet, and the video identifier is used to identify source video data of the video data block and a time sequence position of the source video data. Preferably, the data packet may further include a start time and an end time of the video data block, so as to further clarify the timing of the video data block in the source video data.

Of course, since the data packet received by the video processing server includes the video identifier, the video processing server may also synthesize the video data block according to the video identifier to obtain complete video data.

and step 106, recording related data.

In this step, the video processing server may record the video identifier, the detection result, and the detection completion time corresponding to the data packet reported by the intelligent terminal.

and when n pieces of recorded data with consistent detection results corresponding to the video identifier are determined, adding a data packet with the earliest detection completion time corresponding to the recorded data in the video queue to be confirmed into the confirmed video queue, wherein n is a positive integer not less than 2.

In this step, the accuracy of the detection result is checked through n consistent detection results, and then when the video processing server issues the task in step 104, a data packet may be issued to at least n intelligent terminals in a pair-to-at-least-n manner.

specifically, in step 104, the video processing server may issue, for each data packet in the video task queue, the data packet to m intelligent terminals that are connected to the local area network as private link nodes, where m is a positive integer not less than n.

further, the video processing server can classify the video data blocks according to the detection result. For example, an alarm prompt is performed on the video data block including the abnormal content as the detection result.

Preferably, each data packet added to the confirmed video queue may further include a video identifier corresponding to a data packet that is added to the confirmed video queue before the data packet, so that the data packets in the confirmed video queue may be connected end to end.

Further, in this embodiment, the calculation profits can be fed back to the video data abnormal content detection function provided by the intelligent terminal, so as to improve the enthusiasm of the user for participating in the intelligent management of the cell, thereby expanding the management group and further improving the abnormal detection speed and accuracy of the video data recorded by the camera. The present embodiment may further include the following steps:

and step 107, determining the terminal identifications corresponding to the n recorded data with consistent detection results.

when determining that the n pieces of recorded data with consistent detection results correspond to the video identifier, in this step, the video processing server may determine a terminal identifier corresponding to each data packet corresponding to the recorded data.

Of course, if the step is included, the reporting of the data packet by the intelligent terminal also includes reporting the terminal identifier of the intelligent terminal, and in step 105, the recording of the terminal identifier of the intelligent terminal is also included when the data packet reported by the intelligent terminal is received.

the method comprises the steps that the number of data packets added into a confirmed video queue corresponding to an intelligent terminal corresponding to each terminal identifier within a set time length can be determined as the ratio of the number of the data packets added into the confirmed video queue to the number of the data packets issued to the intelligent terminal, the number of virtual currencies allocated to the intelligent terminal is determined according to the ratio, and the determined number of the virtual currencies allocated to the intelligent terminal can be sent to a management platform.

preferably, determining the amount of the virtual currency allocated to the intelligent terminal according to the ratio may include:

Determining a device score corresponding to the intelligent terminal according to the ratio, the hardware capability corresponding to the intelligent terminal and the online duration of the intelligent terminal;

And determining the quantity of the virtual currency allocated to the intelligent terminal according to the ratio of the equipment value of the intelligent terminal to the sum of all the intelligent terminal equipment values in the local area network of the cell.

preferably, the device score corresponding to each day of the intelligent terminal is determined by the following formula:

wherein M represents a device score corresponding to one intelligent terminal in one day;

Ki represents the number of data packets detected in the day by taking the intelligent terminal as the ith device for completing detection;

Li represents a task factor corresponding to the intelligent terminal as the ith detection-completed device;

and T represents the number of the data packets issued to the intelligent terminal in the day.

specifically, the hardware capability may be, but is not limited to, at least one of a CPU efficiency and a memory size of the intelligent terminal, and may allocate corresponding hardware factors to the CPU efficiency and the memory size, respectively.

When setting the task factor, it is possible, but not limited to, to set L1 to 100%, and sequentially decrease L2 … … Ln according to a set proportion, e.g., 20%, and of course, it is necessary to ensure that Li is greater than 0.

For example, when n is 3, L1 may be set to 100%, L2 to 80%, and L3 to 60%.

Specifically, the amount of the virtual currency corresponding to each day of the cell may be fixed, or may be changed according to a set period, for example, halving every 365 days, or may be set according to any specified rule.

According to the ratio of the device score of the intelligent terminal to the sum of all the intelligent terminal device scores in the local area network of the cell, determining the amount of the virtual currency allocated to the intelligent terminal, wherein the amount of the virtual currency allocated to the intelligent terminal can be determined in the following way:

Assuming that the amount of virtual currency corresponding to a cell in one day is Ct, the local area network of the cell in the current day includes P intelligent terminals serving as private chain nodes, and the device score corresponding to each intelligent terminal in one day is M1 … … Mp, then the device score corresponding to one day is M1, and the amount of virtual currency Cm1 allocated in the current day may be expressed as:

Cm＝M/(M+M+M……+M)×Ct

Example two

The second embodiment of the present invention provides a cell intelligent management method, which can be understood from an intelligent terminal side, specifically, that an execution subject of this embodiment is a client installed on an intelligent terminal, and a cell intelligent management method is described. The flow of steps can be shown in fig. 2, and includes:

Step 201, receiving a data packet.

In this step, the intelligent terminal may receive a data packet sent by the video processing server, where the data packet is video data obtained by the video processing server and captured by the camera, segment the obtained video data, respectively encapsulate each video data block obtained after segmentation into one data packet, and issue each data packet added to the video task queue to the intelligent terminal accessing the cell lan as a private link node.

and step 202, abnormal content detection is carried out.

In this step, the intelligent terminal may perform abnormal content detection on the video data block in the data packet according to a pre-stored detection program.

The abnormal content may be, but is not limited to, video content corresponding to non-major events such as illegal parking and arbitrary posting of small advertisements, and may also be, but is not limited to, video content corresponding to major events such as car accidents.

specifically, in this step, the confirmed video queue in the video processing server may be queried according to a specified duration; and when determining that the confirmed video queue comprises a data packet with the same video identifier as the video identifier in the currently detected data packet, abandoning the abnormal content detection of the video data block in the data packet.

That is, if the currently detected video data block has been confirmed to include abnormal content, the detection of the video data block may be terminated to save resources of the intelligent terminal and avoid unnecessary waste of resources. After the detection of the currently detected video data block is terminated, a new data packet can be continuously acquired from the intelligent terminal task queue for abnormal content detection.

and step 203, reporting the data packet.

In this step, after detecting the abnormal content of the video data block in the received data packet, the intelligent terminal may perform secondary packaging on the video data block and report the video data block to the video processing server.

the data packet obtained by the secondary packaging may include a video data block, a video identifier corresponding to the video data block, a detection result, and a detection completion time. And when the intelligent terminal reports the data packet, the intelligent terminal can also report the corresponding terminal identification at the same time so as to facilitate the video processing server to carry out relevant statistics.

EXAMPLE III

The third embodiment of the invention provides a cell intelligent management method, which is explained from a management platform side. The flow of steps may be as shown in fig. 3, including:

Step 301, receiving registration information.

In this step, the management platform may receive registration information sent by the intelligent terminal through the client. The registration information may include information related to the smart terminal and/or a user corresponding to the smart terminal.

Step 302, authentication is performed.

In this step, the management platform may authenticate the registration information. The step can be understood as authenticating the intelligent terminal and/or the user corresponding to the intelligent terminal. And after the authentication is passed, if the client is logged in through the specified account information, the intelligent terminal is used as a private link node to be accessed into a cell local area network.

further, the management platform can also receive and record the determined virtual currency amount distributed to the intelligent terminal sent by the video processing server, and can distribute rights and interests to the user corresponding to the intelligent terminal according to the virtual currency amount.

preferably, the management platform can be connected with the community property management platform, the virtual currency amount allocated to the intelligent terminal is associated with the property cost, and the corresponding property cost of the user corresponding to the intelligent terminal is deducted according to the virtual currency amount, so that the participation desire of the user is further improved.

based on the same inventive concept, embodiments of the present invention provide the following apparatus and medium.

example four

A fourth embodiment of the present invention provides a video processing server, where a structure of the video processing server may be as shown in fig. 4, and the video processing server includes:

the video processing module 11 is configured to acquire video data captured by a camera, segment the acquired video data, and encapsulate each video data block obtained after segmentation into a data packet;

the task module 12 is configured to add the data packet obtained after encapsulation to a video task queue;

the terminal interface module 13 is configured to issue each data packet in the video task queue to an intelligent terminal serving as a private link node and accessing to a cell local area network, and instruct the intelligent terminal to perform abnormal content detection on a video data block in the received data packet.

The data packet is also encapsulated with a video identifier corresponding to the video data block, and the video identifier is used for identifying the source video data of the video data block and the time sequence position of the source video data;

the terminal interface module 13 is further configured to receive a data packet reported by the intelligent terminal;

The task module 12 is further configured to add, when the terminal interface module receives a data packet reported by the intelligent terminal, the data packet including a video data block, a video identifier corresponding to the video data block, a detection result, and detection completion time, to a video queue to be confirmed, and record the video identifier, the detection result, and the detection completion time corresponding to the data packet; and when n pieces of recorded data with consistent detection results corresponding to the video identification are determined, adding a data packet with the earliest detection completion time corresponding to the recorded data in the video queue to be confirmed into the confirmed video queue, wherein n is a positive integer not less than 2.

The terminal interface module 13 is configured to issue each data packet in the video task queue to an intelligent terminal that is a private link node and is accessed to a cell local area network, and includes:

and aiming at each data packet in the video task queue, issuing the data packet to m intelligent terminals which are used as private link nodes to access a cell local area network, wherein m is a positive integer not less than n.

The task module 12 is further configured to record a terminal identifier of the intelligent terminal when the terminal interface module receives the data packet reported by the intelligent terminal; when n pieces of recorded data with consistent detection results corresponding to the video identifiers are determined, determining a terminal identifier corresponding to each data packet corresponding to the recorded data, and determining the ratio of the number of the data packets added into the determined video queue corresponding to the intelligent terminal corresponding to each terminal identifier to the number of the data packets issued to the intelligent terminal within a set time length, determining the number of virtual currencies allocated to the intelligent terminal according to the ratio, and sending the determined number of the virtual currencies allocated to the intelligent terminal to a management platform.

the task module 12 is configured to determine the amount of the virtual currency allocated to the intelligent terminal according to the ratio, and includes:

determining a device score corresponding to the intelligent terminal according to the ratio, the hardware capability corresponding to the intelligent terminal and the online duration of the intelligent terminal; and determining the quantity of the virtual currency allocated to the intelligent terminal according to the ratio of the equipment value of the intelligent terminal to the sum of all the intelligent terminal equipment values in the local area network of the cell.

The task module 12 is configured to determine a device score corresponding to each day of an intelligent terminal according to the following formula:

Wherein M represents a device score corresponding to one intelligent terminal in one day;

Ki represents the number of data packets detected in the day by taking the intelligent terminal as the ith device for completing detection;

Li represents a task factor corresponding to the intelligent terminal as the ith detection-completed device;

And T represents the number of the data packets issued to the intelligent terminal in the day.

The video processing module 11 is configured to obtain video data captured by a camera, and includes: and acquiring video data shot by the camera stored in the storage server.

EXAMPLE five

An embodiment of the present invention provides a client, where a structure of the client may be as shown in fig. 5, where the client is installed on an intelligent terminal, and the client includes:

The receiving module 21 is configured to receive a data packet sent by the video processing server, where the data packet is video data that is obtained by the video processing server and shot by a camera, divide the obtained video data, package each video data block obtained after division into one data packet, and issue each data packet added to the video task queue to an intelligent terminal that is a private link node and is accessed to a cell lan;

The detection module 22 is configured to perform abnormal content detection on the video data blocks in the data packet according to a pre-stored detection program.

The data packet sent by the video processing server and received by the receiving module 21 is further encapsulated with a video identifier corresponding to a video data block, where the video identifier is used to identify source video data of the video data block and a time sequence position of the source video data;

The client further comprises a sending module 23:

The sending module 23 is configured to report a data packet to the video processing server, where the data packet includes a video data block, a video identifier corresponding to the video data block, a detection result, and a detection completion time.

the sending module 23 is further configured to report the terminal identifier to the video processing server when reporting the data packet to the video processing server.

the detection module 22 is specifically configured to query the confirmed video queue in the video processing server according to a specified duration; and when determining that the confirmed video queue comprises a data packet with the same video identifier as the video identifier in the currently detected data packet, abandoning the abnormal content detection of the video data block in the data packet.

certainly, the client can also realize the functions of providing a registration interface and a login interface, and can further provide related functions of detection result query, income query, exchange interface and the like.

EXAMPLE six

An embodiment of the present invention provides a management platform, where a structure of the management platform may be as shown in fig. 6, and the management platform includes:

the registration module 31 is configured to receive registration information sent by the intelligent terminal through the client;

the authentication module 32 is configured to authenticate the registration information, and after the authentication is passed, if the client is logged in through the specified account information, the intelligent terminal is used as a private link node to access the cell local area network.

The management platform further comprises:

the recording module 33 is configured to receive and record the determined amount of the virtual currency allocated to the intelligent terminal sent by the video processing server;

The equity distribution module 34 is used for distributing equity to the user corresponding to the intelligent terminal according to the virtual currency amount recorded by the recording module.

EXAMPLE seven

a seventh embodiment of the present invention provides a cell intelligent management system, which may have a structure as shown in fig. 7, and includes a video processing server 41 as provided in the fourth embodiment, at least one intelligent terminal 42 including a client as provided in the fifth embodiment, where the intelligent terminal 42 may be, but is not limited to, any one of intelligent terminal forms such as a mobile phone, a television box, or an intelligent router (the intelligent terminal not shown in fig. 7 is indicated by an ellipsis), and a management platform 43 as provided in the sixth embodiment.

Of course, the system may further include at least one camera 44 and/or a storage server 45 for storing video data captured by the cameras, in fig. 7, it is illustrated that the system includes a plurality of cameras 44 (the camera not shown in fig. 7 is indicated by an ellipsis) and the storage server 45, as shown in fig. 7, the storage server 45 may be connected to the plurality of cameras 44.

the storage server 45, the video processing server 41, the management platform 43 and the intelligent terminal 42 may be connected through a cell local area network, and the video processing server 41 and the management platform 43 may be regarded as core nodes in the cell intelligent management system, and the intelligent terminal 42 may be regarded as child nodes in the cell intelligent management system.

in the scheme provided by the embodiment of the invention, the monitoring of the cell environment is enhanced through the intelligent equipment of the family user, the effectiveness of the content recorded by the cell camera is improved, the property management difficulty is reduced, and the participation intention of the user can be improved through the modes of income accounting and cell interest exchange by the edge calculation and the block chain combination.

Example eight

An eighth embodiment of the present invention provides a cell intelligent management device, which may have a structure as shown in fig. 8, and includes a bus interface, a memory 51, a processor 52, a computer program stored in the memory, and a transceiver 53, where when the processor 52 executes the program, the processor implements:

Acquiring video data shot by a camera through the transceiver 53, segmenting the acquired video data, and respectively packaging each video data block obtained after segmentation into a data packet; adding the data packet obtained after encapsulation into a video task queue; each data packet in the video task queue is issued to an intelligent terminal serving as a private link node access cell local area network through the transceiver 53, and the intelligent terminal is instructed to perform abnormal content detection on video data blocks in the received data packets;

Alternatively, the processor 52 implements, when executing the program:

receiving, by the transceiver 53, a data packet sent by a video processing server, where the data packet is video data captured by a camera acquired by the video processing server, dividing the acquired video data, respectively encapsulating each video data block obtained after division into one data packet, and issuing each data packet added to a video task queue to an intelligent terminal that is a private link node access cell lan; detecting abnormal content of the video data block in the data packet;

Alternatively, the processor 52 implements, when executing the program:

receiving, by the transceiver 53, registration information sent by the intelligent terminal through the client; and authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, accessing the intelligent terminal as a private link node to a cell local area network.

Optionally, the processor 52 may specifically include a Central Processing Unit (CPU), an Application Specific Integrated Circuit (ASIC), one or more integrated circuits for controlling program execution, a hardware circuit developed by using a Field Programmable Gate Array (FPGA), or a baseband processor.

Optionally, the processor 52 may include at least one processing core.

Alternatively, the memory 51 may include a Read Only Memory (ROM), a Random Access Memory (RAM), and a disk memory. The memory 51 is used for storing data required by the at least one processor 52 during operation. The number of the memory 51 may be one or more.

An embodiment ninth of the present invention provides a non-volatile computer storage medium, where the computer storage medium stores an executable program, and when the executable program is executed by a processor, the method provided in the first embodiment of the present invention is implemented, or the method provided in the second embodiment of the present invention is implemented, or the method provided in the third embodiment of the present invention is implemented.

In particular implementations, computer storage media may include: various storage media capable of storing program codes, such as a Universal Serial Bus flash drive (USB), a mobile hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

In the embodiments of the present invention, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the described unit or division of units is only one division of logical functions, and there may be other divisions when actually implemented, 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 executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical or other form.

the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be an independent physical module.

the integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, all or part of the technical solutions of the embodiments of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device, such as a personal computer, a server, or a network device, or a processor (processor) to execute all or part of the steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: various media that can store program codes, such as a universal serial bus flash drive (usb flash drive), a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

The above embodiments are only used to describe the technical solutions of the present application in detail, but the above embodiments are only used to help understanding the method of the embodiments of the present invention, and should not be construed as limiting the embodiments of the present invention. Variations or substitutions that may be readily apparent to one skilled in the art are intended to be included within the scope of the embodiments of the present invention.

Claims (19)

1. A method for intelligent management of a cell, the method comprising:

Acquiring video data shot by a camera, segmenting the acquired video data, and respectively packaging each video data block obtained after segmentation into a data packet;

adding the data packet obtained after encapsulation into a video task queue;

And issuing each data packet in the video task queue to an intelligent terminal serving as a private link node and accessed to a cell local area network, and indicating the intelligent terminal to detect abnormal contents of video data blocks in the received data packets.

2. the method of claim 1, wherein the data packet further encapsulates a video identifier corresponding to the video data block, the video identifier being used to identify the source video data of the video data block and its timing position in the source video data;

The method further comprises the following steps:

When a data packet reported by the intelligent terminal is received, the data packet comprises a video data block, a video identifier corresponding to the video data block, a detection result and detection completion time, the data packet is added into a video queue to be confirmed, and the video identifier corresponding to the data packet, the detection result and the detection completion time are recorded;

and when n pieces of recorded data with consistent detection results corresponding to the video identification are determined, adding a data packet with the earliest detection completion time corresponding to the recorded data in the video queue to be confirmed into the confirmed video queue, wherein n is a positive integer not less than 2.

3. The method of claim 2, wherein publishing each packet in the video task queue to an intelligent terminal accessing a cell local area network as a private link node comprises:

And aiming at each data packet in the video task queue, issuing the data packet to m intelligent terminals which are used as private link nodes to access a cell local area network, wherein m is a positive integer not less than n.

4. the method of claim 3, wherein upon receiving the data packet reported by the intelligent terminal, the method further comprises: recording the terminal identification of the intelligent terminal;

When it is determined that the video identifier corresponds to n pieces of recorded data with consistent detection results, the method further includes:

and confirming the terminal identification corresponding to each data packet corresponding to the recorded data, and is used for confirming the ratio of the number of the data packets added into the confirmed video queue corresponding to the intelligent terminal corresponding to each terminal identification to the number of the data packets issued to the intelligent terminal within a set time length, confirming the number of the virtual money distributed to the intelligent terminal according to the ratio, and sending the confirmed number of the virtual money distributed to the intelligent terminal to the management platform.

5. the method of claim 4, wherein determining the amount of virtual currency dispensed for the intelligent terminal based on the ratio comprises:

Determining a device score corresponding to the intelligent terminal according to the ratio, the hardware capability corresponding to the intelligent terminal and the online duration of the intelligent terminal;

And determining the quantity of the virtual currency allocated to the intelligent terminal according to the ratio of the equipment value of the intelligent terminal to the sum of all the intelligent terminal equipment values in the local area network of the cell.

6. the method of claim 5, wherein the device score for each day for an intelligent terminal is determined by the following equation:

wherein M represents a device score corresponding to one intelligent terminal in one day;

Ki represents the number of data packets detected in the day by taking the intelligent terminal as the ith device for completing detection;

li represents a task factor corresponding to the intelligent terminal as the ith detection-completed device;

and T represents the number of the data packets issued to the intelligent terminal in the day.

7. The method according to any one of claims 1 to 6, wherein acquiring video data captured by a camera comprises: and acquiring video data shot by the camera stored in the storage server.

8. A method for intelligent management of a cell, the method comprising:

receiving a data packet sent by a video processing server, wherein the data packet is obtained by the video processing server and video data shot by a camera, dividing the obtained video data, respectively packaging each video data block obtained after division into a data packet, and issuing each data packet added into a video task queue to an intelligent terminal serving as a private link node accessed to a cell local area network;

and according to a pre-stored detection program, detecting abnormal contents of the video data blocks in the data packet.

9. The method of claim 8, wherein the received data packet sent by the video processing server further encapsulates a video identifier corresponding to the video data block, the video identifier being used to identify the source video data of the video data block and its time sequence position in the source video data;

the method further comprises the following steps:

and reporting a data packet to a video processing server, wherein the data packet comprises a video data block, a video identifier corresponding to the video data block, a detection result and detection completion time.

10. the method of claim 9, wherein when reporting packets to a video processing server, the method further comprises: and reporting the terminal identification to a video processing server.

11. The method of claim 9 or 10, wherein detecting abnormal contents of the video data blocks in the data packet according to a pre-stored detection procedure comprises:

inquiring a confirmed video queue in the video processing server according to the specified duration;

and when determining that the confirmed video queue comprises a data packet with the same video identifier as the video identifier in the currently detected data packet, abandoning the abnormal content detection of the video data block in the data packet.

12. A method for intelligent management of a cell, the method comprising:

receiving registration information sent by an intelligent terminal through a client;

and authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, accessing the intelligent terminal as a private link node to a cell local area network.

13. the method of claim 12, wherein the method further comprises:

receiving and recording the determined virtual currency amount distributed for the intelligent terminal sent by the video processing server;

and allocating rights and interests for the user corresponding to the intelligent terminal according to the virtual currency amount.

14. a video processing server, characterized in that the video processing server comprises:

The video processing module is used for acquiring video data shot by the camera, dividing the acquired video data and respectively packaging each video data block obtained after division into a data packet;

The task module is used for adding the data packet obtained after encapsulation into a video task queue;

And the terminal interface module is used for issuing each data packet in the video task queue to an intelligent terminal which is used as a private link node and is accessed to a cell local area network, and indicating the intelligent terminal to detect abnormal contents of video data blocks in the received data packets.

15. A client, characterized in that the client is installed on a smart terminal, the client comprises:

The receiving module is used for receiving a data packet sent by the video processing server, wherein the data packet is obtained by the video processing server and video data shot by a camera, the obtained video data is divided, each video data block obtained after division is respectively packaged into one data packet, and each data packet added into a video task queue is issued to an intelligent terminal which is used as a private link node and is accessed to a cell local area network;

and the detection module is used for detecting the abnormal content of the video data block in the data packet according to a pre-stored detection program.

16. a management platform, comprising:

The registration module is used for receiving registration information sent by the intelligent terminal through the client;

and the authentication module is used for authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, the intelligent terminal is used as a private link node to be accessed to the local area network of the cell.

17. a system for intelligent management of cells, characterized in that it comprises a video processing server according to claim 14, at least one intelligent terminal comprising a client according to claim 15, and a management platform according to claim 16.

18. A non-transitory computer storage medium storing an executable program for execution by a processor to perform the steps of the method of any one of claims 1 to 7, or to perform the steps of the method of any one of claims 8 to 11, or to perform the steps of the method of any one of claims 12 to 13.

19. a cell intelligent management device comprising a transceiver, a bus interface, a memory, a processor and a computer program stored on the memory, the processor when executing the program implementing:

Acquiring video data shot by a camera through the transceiver, segmenting the acquired video data, and respectively packaging each video data block obtained after segmentation into a data packet; adding the data packet obtained after encapsulation into a video task queue; each data packet in the video task queue is issued to an intelligent terminal serving as a private link node and accessed to a cell local area network through the transceiver, and the intelligent terminal is instructed to perform abnormal content detection on video data blocks in the received data packets;

or, the processor implements, when executing the program:

Receiving a data packet sent by a video processing server through the transceiver, wherein the data packet is obtained by the video processing server and video data shot by a camera, dividing the obtained video data, respectively packaging each video data block obtained after division into a data packet, and issuing each data packet added into a video task queue to an intelligent terminal serving as a private link node accessed to a cell local area network; detecting abnormal content of the video data block in the data packet;

or, the processor implements, when executing the program:

Receiving registration information sent by the intelligent terminal through the client through the transceiver; and authenticating the registration information, and after the authentication is passed, if the client is logged in through the specified account information, accessing the intelligent terminal as a private link node to a cell local area network.