WO2018059247A1 - 一种监控方法、装置及系统 - Google Patents
一种监控方法、装置及系统 Download PDFInfo
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- WO2018059247A1 WO2018059247A1 PCT/CN2017/101824 CN2017101824W WO2018059247A1 WO 2018059247 A1 WO2018059247 A1 WO 2018059247A1 CN 2017101824 W CN2017101824 W CN 2017101824W WO 2018059247 A1 WO2018059247 A1 WO 2018059247A1
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 214
- 238000000034 method Methods 0.000 title claims abstract description 88
- 238000012806 monitoring device Methods 0.000 claims abstract description 381
- 239000000872 buffer Substances 0.000 claims description 105
- 238000004891 communication Methods 0.000 claims description 31
- 230000003139 buffering effect Effects 0.000 claims description 19
- 238000004590 computer program Methods 0.000 claims description 18
- 238000007726 management method Methods 0.000 description 17
- 238000010586 diagram Methods 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 5
- 238000013500 data storage Methods 0.000 description 4
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- H04N7/181—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast for receiving images from a plurality of remote sources
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
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- G06K17/0022—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisions for transferring data to distant stations, e.g. from a sensing device
- G06K17/0025—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisions for transferring data to distant stations, e.g. from a sensing device the arrangement consisting of a wireless interrogation device in combination with a device for optically marking the record carrier
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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Definitions
- the present application relates to the field of monitoring technologies, and in particular, to a monitoring method, device and system.
- the monitoring system for monitoring products on the assembly line includes a monitoring device, a monitoring server, an NTP (Network Time Protocal), a video time storage server, and a video cloud storage system, wherein the monitoring device is disposed on the wall of the factory building where the assembly line is located.
- the NPT calibration server is used to synchronize the time of the monitoring device, the monitoring server, and the video cloud storage system; the video cloud storage system uses the video cloud storage technology to store the video collected by the monitoring device.
- the video cloud storage technology integrates cluster application, load balancing, cloud structuring and discrete storage technologies, and combines various types of storage devices in the network through professional application software to work together to provide uninterrupted data storage services.
- Technology is used to synchronize the time of the monitoring device, the monitoring server, and the video cloud storage system.
- the monitoring device since the monitoring device is disposed on the wall of the factory building where the pipeline is located, the monitoring device simultaneously performs warehousing or outbound monitoring of multiple products on the pipeline, and collects video containing multiple products, and cannot perform individual products. monitor. Because the time when the monitoring device collects video is different from the current time, the reason may be that the NTP calibration server is faulty, and thus the video collected by the monitoring device stored in the video cloud storage system is corresponding. The time is not accurate. For example, the current time is 8:00 am on August 26, 2016. Due to the failure of the NTP calibration server, the monitoring equipment is at 7:00 am on August 26, 2014. The time of the video is different from the current time, which further makes the time of the video collected by the monitoring device stored in the video cloud storage system inaccurate, that is, the video collected by the monitoring device stored in the video cloud storage system is August 26, 2014. 7:00 am.
- the monitoring scheme in the related art cannot monitor individual products and cannot guarantee The accuracy of the acquisition time of the stored video.
- the purpose of the embodiments of the present application is to provide a monitoring method, device, and system, so as to implement monitoring of a single product and ensure the accuracy of the collected time of the stored video.
- the specific technical solutions are as follows:
- a monitoring method is applied to a monitoring device in a monitoring system, the monitoring system further includes: a scanning device and a video cloud storage system, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object, The scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline; the method includes:
- the object identifier of the target object sent by the scanning device When the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system stores the collected by the monitoring device according to the target time point. Video data of the target object;
- the target object is: an object transported by the pipeline
- the object identifier is: the target time point scanned by the scanning device when the target object is transported into the scan range. A point in time at which the video cloud storage system receives the object identifier.
- the monitoring system further includes: a monitoring server;
- the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of sending the object identifier to the video cloud storage system includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the step of continuously collecting video data and buffering the collected video data includes:
- the method further includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target collection time point and the The target time point is the same;
- the video cloud storage system stores the target video data based on a target acquisition time point of the target video data.
- the step of continuously collecting video data and buffering the collected video data includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target cache time point, the target cache time point and the target time point. the same;
- the video cloud storage system stores the target video data based on a target cache time point of the target video data.
- a monitoring device is applied to a monitoring device in a monitoring system, the monitoring system further includes: a scanning device and a video cloud storage system, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object, The scanning range of the scanning device and the image collection range of the monitoring device both comprise a pipeline; the device comprises:
- An acquisition module configured to continuously collect video data and buffer the collected video data
- an object identifier sending module configured to send the object identifier to the video cloud storage system when the object identifier of the target object sent by the scanning device is received, so that the video cloud storage system corresponds to the target time point Storing video data of the target object collected by the monitoring device;
- the target object is: an object transported by the pipeline
- the object identifier is: the target time point scanned by the scanning device when the target object is transported into the scan range. A point in time at which the video cloud storage system receives the object identifier.
- an embodiment of the present application further includes an electronic device, including: a first processor, a first communication interface, a first memory, and a first communication bus, wherein the first processor is first a communication interface, the first memory completes communication with each other through a first communication bus; the first memory is configured to store a computer program; and the first processor is configured to execute a program stored on the first memory to implement the foregoing application to the monitoring system The monitoring method steps of the monitoring device.
- an embodiment of the present application further discloses a computer readable storage medium, where the computer includes a computer program, where the computer program is executed by a processor to implement the foregoing application in a monitoring system. Monitor the monitoring method steps of the device.
- a monitoring method is applied to a video cloud storage system in a monitoring system, the monitoring system further includes: a scanning device and a monitoring device, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object.
- the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline; the method includes:
- the object identifier is sent by the scanning device to the monitoring device, and the object identifier is : being scanned by the scanning device when the target object is transported into the scanning range;
- the monitoring device continuously collects video data and buffers the collected video data.
- the monitoring system further includes: a monitoring server, after receiving the object identifier sent by the monitoring device, the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of receiving the object identifier of the target object sent by the monitoring device includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the monitoring device continuously collects video data and buffers the collected video data into its own buffer, and before sending the target time point and the object identifier to the monitoring server, The device time point is modified to the target time point;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target acquisition time point being the same as the target time point;
- the target video data is stored based on a target acquisition time point of the target video data.
- the monitoring device continuously collects video data and sends the collected video data to the video cloud storage system, so that the video cloud storage system caches the received video data into its own buffer;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target buffer time point, where the target cache time point is the same as the target time point;
- the target video data is stored based on a target cache time point of the target video data.
- a monitoring device is applied to a video cloud storage system in a monitoring system, the monitoring system further includes: a scanning device and a monitoring device, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object.
- the scanning range of the scanning device and the image collection range of the monitoring device both comprise a pipeline; the device comprises:
- a receiving module configured to receive an object identifier of a target object that is sent by the monitoring device, where the target object is an object that is sent by the pipeline, and the object identifier is sent by the scanning device to the monitoring device, and The object identifier is: scanned by the scanning device when the target object is transported into the scanning range;
- a storage module configured to store video data of the target object collected by the monitoring device according to a target time point, wherein the monitoring device continuously collects video data and buffers the collected video data.
- an embodiment of the present application further discloses an electronic device, including: a second processor, a second communication interface, a second memory, and a second communication bus, wherein the second processor, the second a communication interface, the second memory completes communication with each other through the second communication bus; a second memory is configured to store the computer program; and a second processor is configured to execute the program stored on the second memory to implement the above-mentioned application to the monitoring system The monitoring method steps of the video cloud storage system.
- an embodiment of the present application further discloses a computer readable storage medium, where the computer includes a computer program, where the computer program is executed by a processor to implement the foregoing application in a monitoring system.
- a monitoring system comprising a scanning device, a monitoring device, and a video cloud storage system, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object, a scanning range of the scanning device, and the The image acquisition range of the monitoring device includes a pipeline;
- the monitoring device is configured to continuously collect video data and buffer the collected video data
- the scanning device is configured to scan an object identifier that is sent to a target object in the scanning range, and send the object identifier to the monitoring device, where the target object is an object transported by the streamline;
- the monitoring device is further configured to receive an object identifier of the target object that is sent by the scanning device, and send the object identifier to the video cloud storage system;
- the video cloud storage system is configured to receive the object identifier sent by the monitoring device, and correspondingly store video data of the target object collected by the monitoring device according to a target time point, where the target time point is The point in time at which the video cloud storage system receives the object identification.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; And when the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the storage monitoring device according to the target time point, due to the target time.
- the point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding the time corresponding to the video data collected by the monitoring device stored by the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point.
- the occurrence of inaccurate points ensures the accuracy of the collection time point of the stored video.
- FIG. 1 is a schematic diagram of a first process of a monitoring method according to an embodiment of the present application
- FIG. 2 is a schematic diagram of a first structure of a monitoring apparatus according to an embodiment of the present application.
- FIG. 3 is a schematic diagram of a second process of a monitoring method according to an embodiment of the present disclosure
- FIG. 4 is a schematic diagram of a second structure of a monitoring apparatus according to an embodiment of the present application.
- FIG. 5 is a schematic structural diagram of a monitoring system according to an embodiment of the present application.
- FIG. 6 is a schematic diagram of a first structure of an electronic device according to an embodiment of the present disclosure.
- FIG. 7 is a schematic diagram of a second structure of an electronic device according to an embodiment of the present disclosure.
- the embodiment of the present application provides a monitoring method, device, and system.
- the monitoring system includes a monitoring device, a scanning device, a video cloud storage system, and a monitoring server.
- the main functions of the monitoring device include collecting video data.
- the main functions of the scanning device include scanning objects to obtain object identifiers.
- the main functions of the video cloud storage system include providing high-performance, high-reliability, uninterrupted data storage and service access services.
- the main functions of the monitoring server include management of monitoring devices, video cloud storage systems, and monitoring servers.
- a monitoring method provided by an embodiment of the present application is applied to a monitoring device in a monitoring system.
- the monitoring system may further include: a scanning device and a video cloud storage system, where the scanning device and the monitoring device are both disposed on The pipeline of the target object, the scanning range of the scanning device and the image collection range of the monitoring device all include a pipeline; the method may include:
- S101 continuously collect video data and buffer the collected video data.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include an assembly line, and the monitoring device can Continuously collect video data and slow down Store the captured video data.
- S102 When receiving the object identifier of the target object sent by the scanning device, send the object identifier to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the monitoring device according to the target time point.
- the scan device scans the object identifier of the target object, and sends the scanned object identifier to the monitoring device, where the target object is: the object transported by the pipeline.
- the object identifier is sent to the video cloud storage system. Since the time point of the monitoring device itself is different from the current time point, the time point of the video cloud storage system is the same as the current time point. Therefore, in order to make the video cloud The storage system stores the accurate collection time of the monitoring device. After receiving the object identifier, the video cloud storage system corresponds to the target time point corresponding to the video data of the target object collected by the storage monitoring device, where the target time point is received by the video cloud storage system. The point in time at which the object is identified.
- the target object may be a courier
- the object identifier may include at least one of a barcode, a weight, and a temperature.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; And when the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the storage monitoring device according to the target time point, due to the target time.
- the point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding the time corresponding to the video data collected by the monitoring device stored by the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point.
- the occurrence of inaccurate points ensures the accuracy of the collection time point of the stored video.
- FIG. 1 For ease of understanding, the method shown in FIG. 1 is described in detail below through a specific embodiment:
- the monitoring device continuously collects video data and buffers the collected video data; the current time point is 8:00 am on August 26, 2016. Due to the failure of the NTP calibration server, the device time of the monitoring device is August 2014. 7:00 am on the 26th;
- the monitoring system may further include: a monitoring server.
- the monitoring method provided by the embodiment of the present application may further include: after the object identifier is sent to the video cloud storage system,
- the target time point corresponds to a step of storing video data of the target object collected by the monitoring device.
- the video cloud storage system includes a management node, an access node, and a storage node, where the management node is used to manage resources, access nodes, and storage nodes in the video cloud storage system, and the access node is configured to receive video data sent by the monitoring device.
- the storage node is configured to receive and save the video data sent by the access node. Because the speed of the target object is fast on the pipeline, the monitoring device may collect video data of multiple target objects in each second. Therefore, the video cloud storage The ability of the system to process video data needs to reach the millisecond level.
- the video cloud storage system can include multiple access nodes and multiple storage nodes, which is reasonable.
- the monitoring system may further include a monitoring server, and after receiving the object identifier to the video cloud storage system, the monitoring device receives the notification message fed back by the video cloud storage system, where the notification message is The target time point is included, and then the target time point and the object identifier are sent to the monitoring server, and the monitoring server can correspondingly store the target time point and the object identifier, so that the subsequent user queries the target object, and then the monitoring server sends the save instruction to the video cloud storage system.
- the video cloud storage system receives the save instruction
- the step of performing video data corresponding to the target object collected by the storage monitoring device according to the target time point is performed, wherein the video cloud storage system receives the save instruction through the management node.
- the step of continuously collecting video data and buffering the collected video data may include:
- the method may further include: before sending the target time point and the object identifier to the monitoring server:
- the video cloud storage system may correspond to the video data of the target object collected by the storage monitoring device according to the target time point, and may include:
- the video cloud storage system acquires target video data from a buffer of the monitoring device.
- the target video data is: video data of a predetermined duration starting from a target acquisition time point, and the target collection time point is the same as the target time point;
- the video cloud storage system stores the target video data based on the target acquisition time point of the target video data.
- a buffer exists on the monitoring device.
- the monitoring device collects video data
- the collected video data is buffered to the buffer. Since the device time point of the monitoring device itself is different from the current time point, after receiving the notification message including the target time point, the video cloud storage system changes its own device time point to the target time point, thereby making the buffering
- the time point corresponding to the video data buffered in the area is an accurate collection time point, wherein the video cloud storage system feeds back the notification message through the access node.
- the video cloud storage system may acquire, from the buffer of the monitoring device, video data of a predetermined duration starting from the target acquisition time point, and determine the video data as target video data, where the target acquisition time point and the target time The point is the same, whereby the video cloud storage system acquires the target video data corresponding to the accurate acquisition time point, and then the video cloud storage system stores the target video data based on the target acquisition time point of the target video data.
- the process of storing the target video data by the video cloud storage system is that the access node stores the acquired target video data into the storage node, and the storage node saves the location information of the target video data and the destination.
- the target time point is sent to the management node, and the management node stores the save location information and the target time point correspondingly.
- the step of continuously collecting video data and buffering the collected video data may include:
- the video cloud storage system may correspond to the video data of the target object collected by the storage monitoring device according to the target time point, and may include:
- the video cloud storage system obtains the target video data from its own buffer.
- the target video data is: video data of a predetermined duration starting from the target buffer time point, and the target buffer time point is the same as the target time point;
- the video cloud storage system stores the target video data based on the target cache time point of the target video data.
- the time point of the monitoring device itself is different from the current time point, the time point of the video cloud storage system is the same as the current time point, and the video cloud storage system has a buffer. Therefore, after the monitoring device collects the video data, the collected data can be collected.
- the video data is sent to the video cloud storage system to cause the video cloud storage system to buffer the received video data to the buffer, the buffer being located at the access node in the video cloud storage system. Therefore, the buffering time point corresponding to the video data buffered in the buffer of the video cloud storage system is an accurate collection time point.
- the video cloud storage system may obtain video data of a predetermined duration from the buffer of the target cache time point, and determine the video data as target video data, where the target cache time point and the target time point In the same way, the video cloud storage system acquires the target video data corresponding to the accurate acquisition time point, and then the video cloud storage system stores the target video data based on the target cache time point of the target video data.
- the process of storing the target video data by the video cloud storage system is that the access node stores the target video data in the storage node, and the storage node sends the save location information of the target video data and the target time point to the management node, and the management node stores the save correspondingly. Location information and target time points.
- the communication cloud delay occurs when the video cloud storage system acquires the target video data, and the efficiency of acquiring the target video data is improved.
- the user can also query the video data through the monitoring server.
- the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system is an accurate time point.
- the target storage location information of the video data can be quickly and accurately located and displayed to the user through the accurate time point.
- the specific implementation manner of searching for the storage location of the video data according to the time point is a prior art, and details are not described herein again.
- a combination of multiple sets of scanning devices and monitoring devices can be set on the pipeline;
- the step of sending the object identifier to the video cloud storage system may include:
- the target time point is a point in time at which the video cloud storage system receives the object identifier and the device identifier.
- the monitoring devices in each group combination Sending the object identifier of the target object to the video cloud storage system, and sending the device identifier to the video cloud storage system, so that the video cloud storage server can know, according to the device identifier, which monitoring device the video data of the target object is collected by.
- the video cloud storage system corresponds to the target time point of receiving the object identifier and the device identifier corresponding to the video data of the target object collected by the storage monitoring device.
- the device identifier may be a device ID (Identity) number.
- the embodiment of the present application further provides a monitoring device, which is applied to a monitoring device in a monitoring system, where the monitoring system further includes: a scanning device and a video cloud storage system, where The scanning device and the monitoring device are both set in the flow of the target object On the line, the scanning range of the scanning device and the image collection range of the monitoring device both comprise a pipeline; the device comprises:
- the collecting module 201 is configured to continuously collect video data and buffer the collected video data;
- the object identifier sending module 202 is configured to: when receiving the object identifier of the target object sent by the scanning device, send the object identifier to the video cloud storage system, so that the video cloud storage system according to the target time point Corresponding to storing video data of the target object collected by the monitoring device;
- the target object is: an object transported by the pipeline
- the object identifier is: the target time point scanned by the scanning device when the target object is transported into the scan range. A point in time at which the video cloud storage system receives the object identifier.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; And when the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the storage monitoring device according to the target time point, due to the target time.
- the point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding the time corresponding to the video data collected by the monitoring device stored by the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point.
- the occurrence of inaccurate points ensures the accuracy of the collection time point of the stored video.
- the monitoring system may further include: a monitoring server; the device may further include:
- a receiving module configured to receive a notification message that is fed back by the video cloud storage system, after the object identifier is sent to the video cloud storage system, where the notification message includes the target time point;
- a target time point and an object identifier sending module configured to send the target time point and the object identifier to the monitoring server, so that the monitoring server correspondingly stores the target time point and the object identifier, and sends the target identifier Saving the instruction to the video cloud storage system, so that after the video cloud storage system receives the save instruction, performing the storing according to the target time point corresponding to the monitoring The step of controlling the video data of the target object collected by the device.
- the monitoring server can correspondingly store the target time point and the object identifier, which provides convenience for the user to subsequently query the target object.
- the collecting module 201 may be specific Used for:
- the monitoring device may further include:
- a modifying module configured to modify a device time point of the device to the target time point before sending the target time point and the object identifier to the monitoring server;
- the video cloud storage system corresponding to storing the video data of the target object collected by the monitoring device according to the target time point may include:
- the video cloud storage system acquires target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target collection time point and the The target time point is the same;
- the video cloud storage system stores the target video data based on a target acquisition time point of the target video data.
- the collecting module 201 may be specifically configured to:
- the video cloud storage system corresponding to storing the video data of the target object collected by the monitoring device according to the target time point may include:
- the video cloud storage system acquires target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target cache time point, the target cache.
- the time point is the same as the target time point;
- the video cloud storage system stores the target video data based on a target cache time point of the target video data.
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the object identifier sending module 202 may be specifically configured to:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the embodiment of the present application further provides an electronic device, as shown in FIG. 6, including: a first processor 601, a first communication interface 602, a first memory 603, and a first communication bus 604, wherein the first processor 601
- the first communication interface 602, the first memory 603 completes communication with each other through the first communication bus 604;
- the first memory 603 is configured to store a computer program;
- the first processor 601 is configured to execute the storage on the first memory 603.
- the method of the above-mentioned monitoring method is applied to the monitoring device in the monitoring system, the monitoring system further includes: a scanning device and a video cloud storage system, wherein the scanning device and the monitoring device are both disposed on The pipeline of the target object, the scanning range of the scanning device and the image collection range of the monitoring device each include a pipeline; the method includes:
- the object identifier of the target object sent by the scanning device When the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system stores the collected by the monitoring device according to the target time point. Video data of the target object;
- the target object is: an object transported by the pipeline
- the object identifier is: the target time point scanned by the scanning device when the target object is transported into the scan range. A point in time at which the video cloud storage system receives the object identifier.
- the flow of the scanning device and the monitoring device to the target object is set.
- the waterline, and the scanning range of the scanning device and the image collection range of the monitoring device all include a pipeline, thereby realizing monitoring of a single product; and when receiving the object identifier of the target object sent by the scanning device, sending the object identifier
- the video cloud storage system is configured to enable the video cloud storage system to correspond to the video data of the target object collected by the storage monitoring device according to the target time point, because the target time point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding When the time at which the monitoring device collects video data is different from the current time point, the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system is inaccurate, which ensures the accuracy of the collected time of the stored video. Sex.
- the monitoring system further includes: a monitoring server;
- the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of sending the object identifier to the video cloud storage system includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the step of continuously collecting video data and buffering the collected video data includes:
- the method Before transmitting the target time point and the object identifier to the monitoring server, the method also includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target collection time point and the The target time point is the same;
- the video cloud storage system stores the target video data based on a target acquisition time point of the target video data.
- the step of continuously collecting video data and buffering the collected video data includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target cache time point, the target cache time point and the target time point. the same;
- the video cloud storage system stores the target video data based on a target cache time point of the target video data.
- the embodiment of the present application further provides a computer readable storage medium, where the computer includes a computer program, where the computer program is executed by a processor to implement the monitoring method step, and the method is applied to monitoring in a monitoring system.
- the monitoring system further includes: a scanning device and a video cloud storage system, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object, a scanning range of the scanning device, and a monitoring device of the monitoring device
- the image collection range includes a pipeline; the method includes:
- the object identifier of the target object sent by the scanning device When the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system stores the collected by the monitoring device according to the target time point. Video data of the target object;
- the target object is: an object transported by the pipeline
- the object identifier is: the target time point scanned by the scanning device when the target object is transported into the scan range. A point in time at which the video cloud storage system receives the object identifier.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; And when the object identifier of the target object sent by the scanning device is received, the object identifier is sent to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the storage monitoring device according to the target time point, due to the target time.
- the point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding the time corresponding to the video data collected by the monitoring device stored by the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point.
- the occurrence of inaccurate points ensures the accuracy of the collection time point of the stored video.
- the monitoring system further includes: a monitoring server;
- the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of sending the object identifier to the video cloud storage system includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the step of continuously collecting video data and buffering the collected video data includes:
- the method further includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target collection time point and the The target time point is the same;
- the video cloud storage system stores the target video data based on a target acquisition time point of the target video data.
- the step of continuously collecting video data and buffering the collected video data includes:
- the video cloud storage system correspondingly stores the video data of the target object collected by the monitoring device according to the target time point, including:
- the video cloud storage system acquires target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target cache time point, the target cache time point and the target time point. the same;
- the video cloud storage system is based on a target cache time point of the target video data, and the storage location Target video data.
- a monitoring method and apparatus provided by the video cloud storage system from the perspective of the embodiment of the present application are described below.
- a monitoring method provided by an embodiment of the present application is applied to a video cloud storage system in a monitoring system.
- the monitoring system may further include: a scanning device and a monitoring device, where the scanning device and the monitoring device are both disposed on The pipeline of the target object, the scanning range of the scanning device and the image collection range of the monitoring device all include a pipeline; the method may include:
- S301 Receive an object identifier of a target object sent by the monitoring device.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline.
- the monitoring device can continuously collect video data and buffer the collected video data.
- the scanning device scans and obtains the object identifier of the target object, and sends the scanned object identifier to the monitoring device, and the monitoring device
- the object identifier is sent to the video cloud storage system, and the video cloud storage system receives the object identifier of the target object sent by the monitoring device, where the target object is: an object delivered by the pipeline.
- the time point of the monitoring device itself is different from the current time point.
- the time point of the video cloud storage system is the same as the current time point. Therefore, after receiving the object identifier, the video cloud storage system corresponds to the target object collected by the storage monitoring device according to the target time point.
- the video data wherein the target time point is a time point at which the video cloud storage system receives the object identifier, and thus, the video cloud storage system stores the collection time of the accurate monitoring device.
- the target object may be a courier
- the object identifier may include at least one of a barcode, a weight, and a temperature.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline. Therefore, the monitoring of the individual product is performed; the object identifier of the target object sent by the monitoring device is received, and the video data of the target object collected by the storage monitoring device is corresponding according to the target time point, and the object identifier is received by the video cloud storage system at the target time point.
- the time point thereby avoiding the occurrence of inaccurate time points corresponding to the video data collected by the monitoring device stored in the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point, The accuracy of the acquisition time point of the stored video data.
- the monitoring system may further include: a monitoring server, after receiving the object identifier sent by the monitoring device, the method may further include:
- the feedback message carrying the target time point is sent to the monitoring device, so that the monitoring device sends the target time point and the object identifier to the monitoring server, so that the monitoring server corresponds to the storage target time point and the object identifier, and sends a save instruction to the video cloud storage system;
- the step of performing video data corresponding to the target object collected by the storage monitoring device according to the target time point is performed.
- the video cloud storage system includes a management node, an access node, and a storage node, where the management node is used to manage resources, access nodes, and storage nodes in the video cloud storage system, and the access node is configured to receive video data sent by the monitoring device.
- the storage node is configured to receive and save the video data sent by the access node. Because the speed of the target object is fast on the pipeline, the monitoring device may collect video data of multiple target objects in each second. Therefore, the video cloud storage The ability of the system to process video data needs to reach the millisecond level.
- the video cloud storage system can include multiple access nodes and multiple storage nodes, which is reasonable.
- the monitoring system may further include a monitoring server.
- the video cloud storage system After receiving the object identifier sent by the monitoring device, the video cloud storage system feeds back the notification message to the monitoring device, where the notification message includes the target time. Point, so that the monitoring device sends the target time point and the object identifier to the monitoring server, and the monitoring server can correspondingly store the target time point and the object identifier, so that the subsequent user can query the target object, and then the monitoring server sends the save instruction to the video cloud storage system.
- the video cloud storage system After receiving the save instruction, the video cloud storage system performs the step of: corresponding to the video data of the target object collected by the storage monitoring device according to the target time point, wherein the video cloud storage system receives the notification message through the access node, and receives the save instruction through the management node. .
- the monitoring device continuously collects video data and buffers the collected video data into its own buffer, and modifies its own device time point to before transmitting the target time point and the object identifier to the monitoring server.
- Target time point
- the step of storing the video data of the target object collected by the monitoring device according to the target time point may include:
- the target video data is: video data of a predetermined duration starting from a target acquisition time point, and the target acquisition time point is the same as the target time point;
- the target video data is stored based on the target acquisition time point of the target video data.
- a buffer exists on the monitoring device.
- the monitoring device collects video data
- the collected video data is buffered to the buffer. Since the device time point of the monitoring device itself is different from the current time point, after receiving the notification message including the target time point, the video cloud storage system changes its own device time point to the target time point, thereby making the buffering
- the time point corresponding to the video data buffered in the area is an accurate collection time point, wherein the video cloud storage system feeds back the notification message through the access node.
- the video cloud storage system may acquire, from the buffer of the monitoring device, video data of a predetermined duration starting from the target acquisition time point, and determine the video data as target video data, where the target acquisition time point and the target time The point is the same, whereby the video cloud storage system acquires the target video data corresponding to the accurate acquisition time point, and then the video cloud storage system stores the target video data based on the target acquisition time point of the target video data.
- the process of storing the target video data by the video cloud storage system is that the access node stores the acquired target video data into the storage node, and the storage node sends the save location information of the target video data and the target time point to the management node, and the management node stores the save correspondingly. Location information and target time points.
- the monitoring device continuously collects video data and sends the collected video data to the video cloud storage system, so that the video cloud storage system caches the received video data into its own buffer;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point may include:
- the target video data is: video data of a predetermined duration starting from the target buffer time point, and the target buffer time point is the same as the target time point;
- the target video data is stored based on the target cache time point of the target video data.
- the time point of the monitoring device itself is different from the current time point, the time point of the video cloud storage system is the same as the current time point, and the video cloud storage system has a buffer. Therefore, after the monitoring device collects the video data, the collected data can be collected.
- the video data is sent to the video cloud storage system to cause the video cloud storage system to buffer the received video data to the buffer, wherein the buffer is located at an access node in the video cloud storage system. Therefore, the buffering time point corresponding to the video data buffered in the buffer of the video cloud storage system is an accurate collection time point.
- the video cloud storage system may obtain video data of a predetermined duration from the buffer of the target cache time point, and determine the video data as target video data, where the target cache time point and the target time point In the same way, the video cloud storage system acquires the target video data corresponding to the accurate acquisition time point, and then the video cloud storage system stores the target video data based on the target cache time point of the target video data.
- the process of storing the target video data by the video cloud storage system is that the access node stores the target video data in the storage node, and the storage node sends the save location information of the target video data and the target time point to the management node, and the management node stores the save location information correspondingly. And the target time point.
- the user can also query the video data through the monitoring server.
- the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system is an accurate time point.
- the target storage location information of the video data can be quickly and accurately located and displayed to the user through the accurate time point.
- the specific implementation manner of searching for the storage location of the video data according to the time point is a prior art, and details are not described herein again.
- a combination of multiple sets of scanning devices and monitoring devices can be set on the pipeline;
- the step of receiving the object identifier of the target object sent by the monitoring device may include:
- the target time point is a point in time at which the video cloud storage system receives the object identifier and the device identifier.
- the video cloud storage server receives each In addition to the object identifier of the target object sent by the monitoring device in the group combination, the device identifier is also received, thereby obtaining, according to the device identifier, which monitoring device the video data of the target object is collected, and then according to the received object identifier and The target time point of the device identification corresponds to the video data of the target object collected by the storage monitoring device.
- the device identifier may be a device ID (Identity) number.
- the present application further provides a monitoring device, which is applied to a video cloud storage system in a monitoring system, where the monitoring system further includes: a scanning device and a monitoring device, wherein The scanning device and the monitoring device are both disposed on a pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline; the device may include:
- the receiving module 401 is configured to receive an object identifier of the target object that is sent by the monitoring device, where the target object is an object that is delivered by the pipeline, and the object identifier is sent by the scanning device to the monitoring device, And the object identifier is: scanned by the scanning device when the target object is transported into the scanning range;
- the storage module 402 is configured to store video data of the target object collected by the monitoring device according to a target time point, wherein the monitoring device continuously collects video data and buffers the collected video data.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; Receiving the object identifier of the target object sent by the monitoring device, corresponding to the video data of the target object collected by the storage monitoring device according to the target time point, because the target time point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding Monitoring equipment
- the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system is inaccurate, and the accuracy of the collected time point of the stored video is ensured.
- the monitoring system may further include: a monitoring server, and the device may further include:
- a feedback module configured to: after receiving the object identifier sent by the monitoring device, feed back a notification message carrying the target time point to the monitoring device, so that the monitoring device sets the target time point and the object identifier Sending to the monitoring server, so that the monitoring server stores the target time point and the object identifier correspondingly, and sends a save instruction to the video cloud storage system;
- an executing module configured to perform, when receiving the save instruction, the step of storing, according to the target time point, the video data of the target object collected by the monitoring device.
- the monitoring device After receiving the object identifier sent by the monitoring device, the monitoring device carries the notification message of the target time point to the monitoring device, so that the monitoring device sends the target time point and the object identifier to the monitoring server, so that the monitoring server can correspond to
- the storage target time point and the object identifier provide convenience for the user to subsequently query the target object.
- the monitoring device continuously collects video data and buffers the collected video data into its own buffer, and sends the target time point and the object identifier to the monitoring server. Previously, modifying its own device time point to the target time point;
- the storage module 402 can include:
- a first acquiring unit configured to acquire target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target acquisition time point and location The target time point is the same;
- a first storage unit configured to store the target video data based on a target collection time point of the target video data.
- the monitoring device continuously collects video data and sends the collected video data to the video cloud storage system, so that the video cloud storage system will receive
- the captured video data is buffered to its own buffer
- the storage module 402 can include:
- a second acquiring unit configured to acquire target video data from a buffer of the target length, the target video data is: video data of a predetermined duration starting from a target buffer time point, the target cache time point and the target time The same point;
- a second storage unit configured to store the target video data based on a target cache time point of the target video data.
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the receiving module 401 can be specifically configured to:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the embodiment of the present application further provides an electronic device, as shown in FIG. 7, comprising: a second processor 701, a second communication interface 702, a second memory 703, and a second communication bus 704, wherein the second processor 701
- the second communication interface 702, the second memory 703 completes communication with each other through the second communication bus 704;
- the second memory 703 is configured to store a computer program;
- the second processor 701 is configured to execute the second memory 703.
- the method of the above-mentioned monitoring method is applied to the video cloud storage system in the monitoring system, the monitoring system further includes: a scanning device and a monitoring device, wherein the scanning device and the monitoring device are both disposed on The pipeline of the target object, the scanning range of the scanning device and the image collection range of the monitoring device each include a pipeline; the method includes:
- the object identifier is sent by the scanning device to the monitoring device, and the object identifier is : being scanned by the scanning device when the target object is transported into the scanning range;
- the monitoring device Corresponding to storing the video data of the target object collected by the monitoring device according to the target time point, wherein the monitoring device continuously collects video data and buffers the collected video data.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product; Receiving the object identifier of the target object sent by the monitoring device, corresponding to the video data of the target object collected by the storage monitoring device according to the target time point, because the target time point is the time point at which the video cloud storage system receives the object identifier, thereby avoiding When the time at which the monitoring device collects video data is different from the current time point, the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system is inaccurate, which ensures the accuracy of the collected time of the stored video data. Sex.
- the monitoring system further includes: a monitoring server, after receiving the object identifier sent by the monitoring device, the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of receiving the object identifier of the target object sent by the monitoring device includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the monitoring device continuously collects video data and buffers the collected video data into its own buffer, and sends the target time point and the object identifier to the monitoring. Before the server, modify its own device time point to the target time point;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, the target acquisition time point being the same as the target time point;
- the target video data is stored based on a target acquisition time point of the target video data.
- the monitoring device continuously collects video data and sends the collected video data to the video cloud storage system, so that the video cloud storage system caches the received video data to Its own buffer;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target buffer time point, where the target cache time point is the same as the target time point;
- the target video data is stored based on a target cache time point of the target video data.
- the embodiment of the present application further provides a computer readable storage medium, wherein the storage medium stores a computer program, and when the computer program is executed by the processor, the foregoing monitoring method step is implemented, and the method is applied to monitoring a video in the system.
- a cloud storage system the monitoring system further includes: a scanning device and a monitoring device, wherein the scanning device and the monitoring device are both disposed on a pipeline of a target object, a scanning range of the scanning device, and a monitoring device of the monitoring device
- the image collection range includes a pipeline; the method includes:
- the object identifier is sent by the scanning device to the monitoring device, and the object identifier is : being scanned by the scanning device when the target object is transported into the scanning range;
- the monitoring device Corresponding to storing the video data of the target object collected by the monitoring device according to the target time point, wherein the monitoring device continuously collects video data and buffers the collected video data.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline. Therefore, the monitoring of the individual product is performed; the object identifier of the target object sent by the monitoring device is received, and the video data of the target object collected by the storage monitoring device is corresponding according to the target time point, and the object identifier is received by the video cloud storage system at the target time point.
- the time point thereby avoiding the occurrence of inaccurate time points corresponding to the video data collected by the monitoring device stored in the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point, The accuracy of the acquisition time point of the stored video data.
- the monitoring system further includes: a monitoring server, after receiving the object identifier sent by the monitoring device, the method further includes:
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the step of receiving the object identifier of the target object sent by the monitoring device includes:
- the target time point is a time point at which the video cloud storage system receives the object identifier and the device identifier.
- the monitoring device continuously collects video data and buffers the collected video data into its own buffer, and sends the target time point and the object identifier to the monitoring. Before the server, modify its own device time point to the target time point;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the monitoring device, where the target video data is: video data of a predetermined duration starting from a target acquisition time point, and the target collection time point and location The target time point is the same;
- the target video data is stored based on a target acquisition time point of the target video data.
- the monitoring device continuously collects video data and sends the collected video data to the video cloud storage system, so that the video cloud storage system caches the received video data to Its own buffer;
- the step of storing the video data of the target object collected by the monitoring device according to the target time point includes:
- target video data from a buffer of the target video data, which is a predetermined duration of video data starting from a target buffer time point, where the target cache time point is the same as the target time point;
- the target video data is stored based on a target cache time point of the target video data.
- a monitoring system is provided in the embodiment of the present application, where the system includes a scanning device 501, a monitoring device 502, and a video cloud storage system 503, wherein the scanning device 501 and the monitoring device 502 are both configured.
- the scanning range of the scanning device 501 and the image collection range of the monitoring device 502 each include a pipeline;
- the monitoring device 502 is configured to continuously collect video data and buffer the collected video data.
- the scanning device 501 is configured to scan and obtain an object identifier of a target object that is sent into the scanning range, and send the object identifier to the monitoring device 502, where the target object is an object transported by the streamline;
- the monitoring device 502 is further configured to receive an object identifier of the target object that is sent by the scanning device 501, and send the object identifier to the video cloud storage system 503;
- the video cloud storage system 503 is configured to receive the object identifier sent by the monitoring device 502, and correspondingly store video data of the target object collected by the monitoring device 502 according to a target time point, the target time point. The point in time at which the video cloud storage system 503 receives the object identification.
- the monitoring device 502 continuously collects video data and buffers the collected video data, and the process of storing the video data through the monitoring system is:
- scanning device 501 scans the object identifier that is delivered into the target object within the scan range, and sends it to the monitoring device 502;
- the monitoring device 502 receives the object identifier of the target object sent by the scanning device 501, and sends the object identifier to the video cloud storage system 503;
- the video cloud storage system 503 receives the object identifier sent by the monitoring device 502, and corresponds to the video data of the target object collected by the storage monitoring device 502 according to the target time point, and the target time point is the time when the video cloud storage system 503 receives the object identifier. point.
- the scanning device and the monitoring device are set on the pipeline of the target object, and the scanning range of the scanning device and the image collection range of the monitoring device both include a pipeline, thereby realizing monitoring of a single product;
- the monitoring device receives the object identifier of the target object sent by the scanning device, sending the object identifier to the video cloud storage system, so that the video cloud storage system corresponds to the video data of the target object collected by the storage monitoring device according to the target time point
- the target time point is a time point at which the video cloud storage system receives the object identifier, thereby avoiding corresponding to the video data collected by the monitoring device stored in the video cloud storage system when the time point of the video data collected by the monitoring device is different from the current time point.
- the occurrence of inaccurate time points ensures the accuracy of the collection time point of the stored video.
- the monitoring system may further include a monitoring server;
- the video cloud storage system 503 is further configured to feed back a notification message to the monitoring device 502, where the notification message includes the target time point;
- the monitoring device 502 is further configured to receive a notification message fed back by the video cloud storage system 503, and send the target time point and the object identifier to the monitoring server;
- the monitoring server is configured to receive the target time point sent by the monitoring device 502 and the object identifier, store the target time point and the object identifier, and send a save instruction to the video cloud storage system. 503;
- the video cloud storage system 503 is configured to receive a save instruction sent by the monitoring server, and The step of storing the video data of the target object collected by the monitoring device 502 according to the target time point is performed.
- the monitoring device 502 continuously collects video data and buffers the collected video data.
- the monitoring system further includes a monitoring server, the process of storing video data through the monitoring system is:
- scanning device 501 scans the object identifier that is delivered into the target object within the scan range, and sends it to the monitoring device 502;
- the monitoring device 502 receives the object identifier of the target object sent by the scanning device 501, and sends the object identifier to the video cloud storage system 503;
- the video cloud storage system 503 feeds back the notification message to the monitoring device 502, where the notification message includes a target time point, and the target time point is a time point at which the video cloud storage system 503 receives the object identifier;
- the monitoring device 502 receives the notification message fed back by the video cloud storage system 503, and sends the target time point and the object identifier to the monitoring server;
- the monitoring server receives the target time point and the object identifier sent by the monitoring device 502, corresponding to the storage target time point and the object identifier, and sends a save command to the video cloud storage system 503;
- the video cloud storage system 503 receives the save instruction sent by the monitoring server, and corresponds to the video data of the target object collected by the storage monitoring device 502 according to the target time point.
- the monitoring device sends the notification message of the target time point to the monitoring device, so that the monitoring device sends the target time point and the object identifier to the monitoring server, so that the monitoring is performed.
- the server can correspond to the storage target time point and the object identifier, which provides convenience for the user to subsequently query the target object.
- a combination of multiple sets of scanning devices and monitoring devices is disposed on the pipeline;
- the monitoring device 502 can be specifically configured to:
- the video cloud storage system 503 can be specifically configured to:
- the video data of the target object collected by the monitoring device 502 is stored according to a time point when the object identifier and the device identifier are received.
- the monitoring device 502 may be specifically configured to:
- the monitoring device 502 is further configured to modify the device time point of the device to the target time point before sending the target time point and the object identifier to the monitoring server.
- the video cloud storage system 503 can be specifically configured to:
- target video data from a buffer of the monitoring device 502, and storing the target video data based on a target acquisition time point of the target video data, where the target video data is: a predetermined starting point of the target collection time point
- the video data of the duration, the target acquisition time point is the same as the target time point.
- the monitoring device 502 may be specifically configured to:
- the video cloud storage system 503 can be specifically configured to:
- the received video data is buffered into its own buffer, and the target video data is obtained from its own buffer.
- the target video data is stored based on the target cache time point of the target video data, and the target video data is: Video data of a predetermined duration starting from a target buffer time point, the target buffer time point being the same as the target time point.
- the monitoring server is further configured to receive an information query request sent by a user, where the information query request includes an object identifier of the object to be queried, and the object identifier according to the object to be queried Determining a corresponding target time point and transmitting the target time point to the video cloud storage system;
- the video cloud storage system 503 is further configured to receive a target time point sent by the monitoring server, determine target storage location information of the video data corresponding to the target time point, and protect the target The storage location information is sent to the monitoring server;
- the monitoring server is further configured to receive the target save location information sent by the video cloud storage system 503, and display the target save location information and the object identifier of the object to be queried.
- the user can query the video data through the monitoring server, and the monitoring server receives the information query request sent by the user that includes the object identifier of the object to be queried, because the corresponding time point of the storage server is stored in the monitoring server.
- the object identifier is determined. Therefore, the corresponding target time point can be determined according to the object identifier of the object to be queried, and since the video data is stored in the video cloud storage system 503, after the target time point is determined, the video cloud storage system 503 is determined. Send the target time point.
- the video cloud storage system 503 can determine the target storage location information of the video data corresponding to the target time point. To facilitate the user's viewing, the target storage location information is sent to the monitoring server.
- the monitoring server receives the target storage location information sent by the video cloud storage system 503, and displays the target storage location information and the object identifier of the object to be queried, so that the user can obtain information about the object to be queried by viewing the information displayed by the monitoring server.
- the display mode may be an output dialog box or output prompt information.
- the time point corresponding to the video data collected by the monitoring device stored in the video cloud storage system 503 is an accurate time point. Therefore, the accurate time point can quickly and accurately locate the target storage location information of the video data and display it to the user.
- the specific implementation manner of searching for the storage location of the video data according to the time point is the prior art, and details are not described herein again.
- the monitoring server is further configured to receive a video playback request sent by a user, where the video playback request includes at least an object identifier of the object to be queried, and send the object identifier To the video cloud storage system 503;
- the video cloud storage system 503 is further configured to receive an object identifier sent by the monitoring server, determine target video data corresponding to the object identifier, and send the target video data to the monitoring server;
- the monitoring server is further configured to receive the target video data sent by the video cloud storage system 503, and play back the target video data.
- the user After viewing the target storage location information displayed by the monitoring server and the object identifier of the object to be queried, the user can determine that the video data corresponding to the object to be queried is stored in the monitoring system, and at this time, a video containing at least the object identifier of the object to be queried can be sent.
- the playback request is sent to the monitoring server. Since the video data is stored in the video cloud storage system 503, the monitoring server sends the object identifier to the video cloud storage system 503.
- the video cloud storage system 503 can determine the target video data corresponding to the object identifier, and send the determined target video data to the monitoring server in order to play back the target video data.
- the monitoring server plays back the received target video data, whereby the user can play back the target video data through the monitoring server.
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Abstract
本申请提供了一种监控方法、装置及系统,该方法中,持续采集视频数据并缓存所采集的视频数据;当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据。本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,保证了所存储视频的采集时间点的准确性。
Description
本申请要求于2016年9月29日提交中国专利局、申请号为201610866067.2发明名称为“一种监控方法、装置及系统”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
本申请涉及监控技术领域,特别是涉及一种监控方法、装置及系统。
目前,对流水线上的产品进行监控的监控系统包括监控设备、监控服务器、NTP(Network Time Protocal,网络时间同步服务)校时服务器和视频云存储系统,其中,监控设备设置于流水线所在厂房的墙壁上以采集视频;NPT校时服务器用于使监控设备、监控服务器以及视频云存储系统时间同步化;视频云存储系统采用视频云存储技术存储监控设备采集的视频。其中,视频云存储技术为融合集群应用、负载均衡、云结构化及离散存储等技术,将网络中各种不同类型的存储设备通过专业应用软件集合起来协同工作,共同提供不间断的数据存储服务的技术。
相关技术中,由于监控设备设置于流水线所在厂房的墙壁上,因此,监控设备对流水线上的多个产品同时进行入库或出库监控,采集包含多个产品的视频,无法对单个的产品进行监控。又由于有时会出现监控设备采集视频的时间与当前时间不同的情况,出现这种情况的原因可能为NTP校时服务器发生故障,由此,使得视频云存储系统存储的监控设备采集的视频对应的时间不准确,例如:当前时间为2016年8月26日上午8:00,由于NTP校时服务器发生故障使得监控设备的时间为2014年8月26日上午7:00,由此,监控设备采集视频的时间与当前时间不同,进一步使得视频云存储系统存储的监控设备采集的视频对应的时间不准确,也就是,视频云存储系统存储的监控设备采集的视频的时间为2014年8月26日上午7:00。
综上可见,相关技术中的监控方案无法对单个产品进行监控且无法保证
所存储视频的采集时间的准确性。
发明内容
本申请实施例的目的在于提供一种监控方法、装置及系统,以实现对单个产品进行监控并保证所存储视频的采集时间的准确性。具体技术方案如下:
一种监控方法,应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
持续采集视频数据并缓存所采集的视频数据;
当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;
其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
可选的,所述监控系统还包括:监控服务器;
在将所述对象标识发送至所述视频云存储系统之后,所述方法还包括:
接收所述视频云存储系统反馈的通知消息,其中,所述通知消息中包含所述目标时间点;
将所述目标时间点与所述对象标识发送至所述监控服务器,以使所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统,以使所述视频云存储系统在接收到所述保存指令后,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
可选的,所述流水线上设置多组扫描设备和监控设备的组合;
将所述对象标识发送至所述视频云存储系统的步骤,包括:
将所述对象标识以及自身的设备标识发送至所述视频云存储系统;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
可选的,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
在将所述目标时间点与所述对象标识发送至所述监控服务器之前,所述方法还包括:
将自身的设备时间点修改为所述目标时间点;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
可选的,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
一种监控装置,应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置包括:
采集模块,用于持续采集视频数据并缓存所采集的视频数据;
对象标识发送模块,用于当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;
其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
根据本申请的又一个方面,本申请实施例还公开了一种电子设备,包括:第一处理器、第一通信接口、第一存储器和第一通信总线,其中,第一处理器,第一通信接口,第一存储器通过第一通信总线完成相互间的通信;第一存储器,用于存放计算机程序;第一处理器,用于执行第一存储器上所存放的程序,实现上述应用于监控系统中的监控设备的监控方法步骤。
根据本申请的又一个方面,本申请实施例还公开了一种计算机可读存储介质,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现上述应用于监控系统中的监控设备的监控方法步骤。
一种监控方法,应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;
根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,
其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
可选的,所述监控系统还包括:监控服务器,在接收所述监控设备发送的对象标识之后,所述方法还包括:
反馈携带所述目标时间点的通知消息至所述监控设备,以使所述监控设备将所述目标时间点与所述对象标识发送至所述监控服务器,使得所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统;
当接收到所述保存指令时,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
可选的,所述流水线上设置多组扫描设备和监控设备的组合;
所述接收所述监控设备发送的目标对象的对象标识的步骤,包括:
接收所述监控设备发送的目标对象的对象标识以及设备标识;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
可选的,所述监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
可选的,所述监控设备持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
一种监控装置,应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置包括:
接收模块,用于接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;
存储模块,用于根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
根据本申请的又一个方面,本申请实施例还公开了一种电子设备,包括:第二处理器、第二通信接口、第二存储器和第二通信总线,其中,第二处理器,第二通信接口,第二存储器通过第二通信总线完成相互间的通信;第二存储器,用于存放计算机程序;第二处理器,用于执行第二存储器上所存放的程序,实现上述应用于监控系统中的视频云存储系统的监控方法步骤。
根据本申请的又一个方面,本申请实施例还公开了一种计算机可读存储介质,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现上述应用于监控系统中的视频云存储系统的监控方法步骤。
一种监控系统,所述系统包括扫描设备、监控设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;
所述监控设备,用于持续采集视频数据并缓存所采集的视频数据;
所述扫描设备,用于扫描得到被输送进入所述扫描范围内的目标对象的对象标识,并发送给所述监控设备,其中,所述目标对象为由所述流线输送的对象;
所述监控设备,还用于接收所述扫描设备发送的目标对象的对象标识,将所述对象标识发送至所述视频云存储系统;
所述视频云存储系统,用于接收所述监控设备发送的所述对象标识,并根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
为了更清楚地说明本申请实施例和现有技术的技术方案,下面对实施例和现有技术中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1为本申请实施例提供的监控方法的第一种流程示意图;
图2为本申请实施例提供的监控装置的第一种结构示意图;
图3为本申请实施例提供的监控方法的第二种流程示意图;
图4为本申请实施例提供的监控装置的第二种结构示意图;
图5为本申请实施例提供的一种监控系统的结构示意图;
图6为本申请实施例提供的电子设备的第一种结构示意图;
图7为本申请实施例提供的电子设备的第二种结构示意图。
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。
为了解决相关技术问题,本申请实施例提供了一种监控方法、装置及系统。需要说明的是,监控系统包括监控设备、扫描设备、视频云存储系统和监控服务器。
其中,监控设备的主要功能包括采集视频数据;扫描设备的主要功能包括扫描对象得到对象标识;视频云存储系统的主要功能包括对外提供高性能、高可靠、不间断的数据存储和业务访问的服务;监控服务器的主要功能包括对监控设备、视频云存储系统和监控服务器进行管理。
下面首先对本申请实施例从监控设备的角度所提供的一种监控方法及装置进行介绍。
如图1所示,本申请实施例提供的一种监控方法,应用于监控系统中的监控设备,监控系统还可以包括:扫描设备和视频云存储系统,其中,扫描设备和监控设备均设置于目标对象的流水线上,扫描设备的扫描范围和监控设备的图像采集范围均包含流水线;该方法可以包括:
S101:持续采集视频数据并缓存所采集的视频数据。
由于流水线上持续输送对象,因此,为了实现对单个产品进行监控,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,监控设备可以持续采集视频数据并缓
存所采集的视频数据。
S102:当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据。
在目标对象被输送进入扫描范围内时,扫描设备扫描得到目标对象的对象标识,并将扫描得到的对象标识发送至监控设备,其中,目标对象为:由流水线输送的对象。
监控设备接收到对象标识时,将对象标识发送至视频云存储系统,由于监控设备自身的时间点与当前时间点不同,视频云存储系统的时间点与当前时间点相同,因此,为了使视频云存储系统存储准确的监控设备的采集时间,在视频云存储系统接收到对象标识后,根据目标时间点对应存储监控设备采集的目标对象的视频数据,其中,目标时间点为视频云存储系统接收到对象标识的时间点。
作为本申请的一种实施方式,该目标对象可以为快递,对象标识可以包括条形码、重量和温度中的至少一个。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
为了方便理解,下面通过一具体实施例对图1所示方法进行详细介绍:
例如:监控设备持续采集视频数据并缓存所采集的视频数据;当前时间点为2016年8月26日上午8:00,由于NTP校时服务器发生故障使得监控设备的设备时间点为2014年8月26日上午7:00;
当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,假设目标时间点为2016年8月26日上午8:30,也就是,视频云存储系统存储的监控设备采集的目标对象的视频数据的时间为2016年8月26日上午8:30,而不是2014年8月26日上午7:30。
在图1所示方法的基础上,监控系统还可以包括:监控服务器,本申请实施例提供的一种监控方法,在将对象标识发送至视频云存储系统之后,还可以包括:
接收视频云存储系统反馈的通知消息,其中,通知消息中包含目标时间点;
将目标时间点与对象标识发送至监控服务器,以使监控服务器对应存储目标时间点与对象标识,并发送保存指令至视频云存储系统,以使视频云存储系统在接收到保存指令后,执行根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤。
视频云存储系统包括管理节点、接入节点和存储节点,其中,管理节点用于管理视频云存储系统内的资源、接入节点和存储节点,接入节点用于接收监控设备发送的视频数据,存储节点用于接收接入节点发送的视频数据并进行保存,由于流水线上输送目标对象的速度较快,因此监控设备在每秒内可能会采集多个目标对象的视频数据,因此,视频云存储系统处理视频数据的能力需要达到毫秒级别,另外,根据实际运行情况,视频云存储系统中可以包括多个接入节点和多个存储节点,这都是合理的。
为了方便对监控设备和视频云存储系统进行管理,监控系统还可以包括监控服务器,监控设备在将对象标识发送至视频云存储系统之后,接收视频云存储系统反馈的通知消息,其中,通知消息中包含目标时间点,然后将目标时间点与对象标识发送至监控服务器,监控服务器即可对应存储目标时间点与对象标识,以便于后续用户查询目标对象,随后监控服务器发送保存指令至视频云存储系统,以使视频云存储系统在接收到保存指令后,执行根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤,其中,视频云存储系统通过管理节点接收保存指令。
需要说明的是,持续采集视频数据并缓存所采集的视频数据的具体实现方式存在多种,下面进行举例介绍。
在一种实现方式中,持续采集视频数据并缓存所采集的视频数据的步骤,可以包括:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
在将目标时间点与对象标识发送至监控服务器之前,该方法还可以包括:
将自身的设备时间点修改为目标时间点;
视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,可以包括:
视频云存储系统从监控设备的缓冲区中获取目标视频数据,目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,目标采集时间点与目标时间点相同;
视频云存储系统基于目标视频数据的目标采集时间点,存储目标视频数据。
在通常情况下,在监控设备上存在缓冲区,当监控设备采集视频数据后,将采集的视频数据缓存至该缓冲区。由于监控设备自身的设备时间点与当前时间点不同,因此,在接收到视频云存储系统反馈包含目标时间点的通知消息后,将自身的设备时间点修改为目标时间点,由此,使得缓冲区中缓存的视频数据对应的时间点为准确的采集时间点,其中,视频云存储系统通过接入节点反馈通知消息。
此时,视频云存储系统可以从监控设备的缓冲区中获取以目标采集时间点为起点的预定时长的视频数据,将该视频数据确定为目标视频数据,其中,该目标采集时间点与目标时间点相同,由此,视频云存储系统获取了对应有准确的采集时间点的目标视频数据,然后视频云存储系统基于该目标视频数据的目标采集时间点,存储该目标视频数据。
其中,视频云存储系统存储目标视频数据的过程为接入节点将获取的目标视频数据存入存储节点,存储节点将目标视频数据的保存位置信息以及目
标时间点发送至管理节点,管理节点对应存储该保存位置信息以及目标时间点。
在另一种实现方式中,持续采集视频数据并缓存所采集的视频数据的步骤,可以包括:
持续采集视频数据并将所采集的视频数据发送至视频云存储系统,以使视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,可以包括:
视频云存储系统从自身的缓冲区中获取目标视频数据,目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,目标缓存时间点与目标时间点相同;
视频云存储系统基于目标视频数据的目标缓存时间点,存储目标视频数据。
由于监控设备自身的设备时间点与当前时间点不同,视频云存储系统的时间点与当前时间点相同,且视频云存储系统存在缓冲区,因此,当监控设备采集视频数据后,可以将采集的视频数据发送至视频云存储系统,以使视频云存储系统将接收到的视频数据缓存至该缓冲区,该缓冲区位于视频云存储系统中的接入节点。由此,视频云存储系统的缓冲区中缓存的视频数据对应的缓存时间点为准确的采集时间点。
此时,视频云存储系统可以从自身的缓冲区中获取以目标缓存时间点为起点的预定时长的视频数据,将该视频数据确定为目标视频数据,其中,该目标缓存时间点与目标时间点相同,由此,视频云存储系统获取了对应有准确的采集时间点的目标视频数据,然后视频云存储系统基于该目标视频数据的目标缓存时间点,存储该目标视频数据。
其中,视频云存储系统存储目标视频数据的过程为接入节点将目标视频数据存入存储节点,存储节点将目标视频数据的保存位置信息以及目标时间点发送至管理节点,管理节点对应存储该保存位置信息以及目标时间点。
同时,通过将所采集的视频数据发送至视频云存储系统的方式,避免了视频云存储系统获取目标视频数据时,出现通信延时的情况,提高了获取目标视频数据的效率。
另外,在视频云存储系统存储视频数据后,用户还可通过监控服务器对该视频数据进行查询,由于视频云存储系统存储的监控设备采集的视频数据对应的时间点为准确的时间点,因此,通过该准确的时间点可以快速准确的定位到视频数据的目标保存位置信息并展示给用户,其中,根据时间点查找视频数据的保存位置的具体实施方式为现有技术,在此不再赘述。
为了更好的对目标对象进行监控,流水线上可以设置多组扫描设备和监控设备的组合;
将对象标识发送至视频云存储系统的步骤,可以包括:
将对象标识以及自身的设备标识发送至视频云存储系统;
相应地,目标时间点为视频云存储系统接收到对象标识和设备标识的时间点。
在流水线上设置多组扫描设备和监控设备的组合的情况下,流水线上输送的目标对象进入到每组扫描设备的扫描范围内以及监控设备的监控范围内时,每组组合中的监控设备除了将目标对象的对象标识发送至视频云存储系统以外,还需要将自身的设备标识发送至视频云存储系统,以使视频云存储服务器可根据设备标识获知目标对象的视频数据是由哪个监控设备采集的,视频云存储系统在接收到对象标识和设备标识后,根据接收到对象标识和设备标识的目标时间点对应存储监控设备采集的目标对象的视频数据。
作为本申请的一种实施方式,该设备标识可以为设备ID(Identity,身份)号。
相对于上述方法实施例,如图2所示,本申请实施例还提供了一种监控装置,应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水
线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置包括:
采集模块201,用于持续采集视频数据并缓存所采集的视频数据;
对象标识发送模块202,用于当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;
其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
在图2所示装置的基础上,所述监控系统还可以包括:监控服务器;所述装置还可以包括:
接收模块,用于在将所述对象标识发送至所述视频云存储系统之后,接收所述视频云存储系统反馈的通知消息,其中,所述通知消息中包含所述目标时间点;
目标时间点与对象标识发送模块,用于将所述目标时间点与所述对象标识发送至所述监控服务器,以使所述监控服务器对应存储所目标述时间点与所述对象标识,并发送保存指令至所述视频云存储系统,以使所述视频云存储系统在接收到所述保存指令后,执行所述根据目标时间点对应存储所述监
控设备采集的所述目标对象的视频数据的步骤。
由此,通过将目标时间点与对象标识发送至监控服务器的方式,使得监控服务器即可对应存储目标时间点与对象标识,为用户后续查询目标对象提供了方便。
对于包括所述采集模块201、所述对象标识发送模块202、所述接收模块以及目标时间点与对象标识发送模块的监控装置而言,在一种实现方式中,所述采集模块201,可以具体用于:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
所述监控装置还可以包括:
修改模块,用于在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;
相应地,所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,可以包括:
所述视频云存储系统从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
对于包括所述采集模块201和所述对象标识发送模块202的监控装置而言,在一种实现方式中,所述采集模块201,可以具体用于:
持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
相应地,所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,可以包括:
所述视频云存储系统从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存
时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
作为本申请的一种实施方式,所述流水线上设置多组扫描设备和监控设备的组合;
所述对象标识发送模块202,可以具体用于:
将所述对象标识以及自身的设备标识发送至所述视频云存储系统;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
本申请实施例还提供了一种电子设备,如图6所示,包括:第一处理器601、第一通信接口602、第一存储器603和第一通信总线604,其中,第一处理器601,第一通信接口602,第一存储器603通过第一通信总线604完成相互间的通信;第一存储器603,用于存放计算机程序;第一处理器601,用于执行第一存储器603上所存放的程序,实现上述监控方法步骤,所述方法应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
持续采集视频数据并缓存所采集的视频数据;
当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;
其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流
水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
在本申请的一种实现方式中,所述监控系统还包括:监控服务器;
在将所述对象标识发送至所述视频云存储系统之后,所述方法还包括:
接收所述视频云存储系统反馈的通知消息,其中,所述通知消息中包含所述目标时间点;
将所述目标时间点与所述对象标识发送至所述监控服务器,以使所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统,以使所述视频云存储系统在接收到所述保存指令后,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
在本申请的一种实现方式中,所述流水线上设置多组扫描设备和监控设备的组合;
将所述对象标识发送至所述视频云存储系统的步骤,包括:
将所述对象标识以及自身的设备标识发送至所述视频云存储系统;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
在本申请的一种实现方式中,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
在将所述目标时间点与所述对象标识发送至所述监控服务器之前,所述
方法还包括:
将自身的设备时间点修改为所述目标时间点;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
在本申请的一种实现方式中,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
本申请实施例还提供了一种计算机可读存储介质,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现上述监控方法步骤,所述方法应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
持续采集视频数据并缓存所采集的视频数据;
当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;
其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
在本申请的一种实现方式中,所述监控系统还包括:监控服务器;
在将所述对象标识发送至所述视频云存储系统之后,所述方法还包括:
接收所述视频云存储系统反馈的通知消息,其中,所述通知消息中包含所述目标时间点;
将所述目标时间点与所述对象标识发送至所述监控服务器,以使所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统,以使所述视频云存储系统在接收到所述保存指令后,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
在本申请的一种实现方式中,所述流水线上设置多组扫描设备和监控设备的组合;
将所述对象标识发送至所述视频云存储系统的步骤,包括:
将所述对象标识以及自身的设备标识发送至所述视频云存储系统;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
在本申请的一种实现方式中,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
在将所述目标时间点与所述对象标识发送至所述监控服务器之前,所述方法还包括:
将自身的设备时间点修改为所述目标时间点;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
在本申请的一种实现方式中,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:
持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:
所述视频云存储系统从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
所述视频云存储系统基于所述目标视频数据的目标缓存时间点,存储所
述目标视频数据。
下面对本申请实施例从视频云存储系统的角度所提供的一种监控方法及装置进行介绍。
如图3所示,本申请实施例提供的一种监控方法,应用于监控系统中的视频云存储系统,监控系统还可以包括:扫描设备和监控设备,其中,扫描设备和监控设备均设置于目标对象的流水线上,扫描设备的扫描范围和监控设备的图像采集范围均包含流水线;该方法可以包括:
S301:接收监控设备发送的目标对象的对象标识。
由于流水线上持续输送对象,因此,为了实现对单个产品进行监控,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线。
监控设备可以持续采集视频数据并缓存所采集的视频数据,在目标对象被输送进入扫描范围内时,扫描设备扫描得到目标对象的对象标识,并将扫描得到的对象标识发送至监控设备,监控设备接收到对象标识时,将对象标识发送至视频云存储系统,视频云存储系统接收监控设备发送的目标对象的对象标识,其中,目标对象为:由流水线输送的对象。
S302:根据目标时间点对应存储监控设备采集的目标对象的视频数据。
由于监控设备自身的时间点与当前时间点不同,视频云存储系统的时间点与当前时间点相同,因此,视频云存储系统接收到对象标识后,根据目标时间点对应存储监控设备采集的目标对象的视频数据,其中,目标时间点为视频云存储系统接收到对象标识的时间点,由此,视频云存储系统存储了准确的监控设备的采集时间。
作为本申请的一种实施方式,该目标对象可以为快递,对象标识可以包括条形码、重量和温度中的至少一个。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,
由此,实现对单个产品进行监控;接收监控设备发送的目标对象的对象标识,根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频数据的采集时间点的准确性。
在图3所示方法的基础上,监控系统还可以包括:监控服务器,在接收监控设备发送的对象标识之后,所述方法还可以包括:
反馈携带目标时间点的通知消息至监控设备,以使监控设备将目标时间点与对象标识发送至监控服务器,使得监控服务器对应存储目标时间点与对象标识,并发送保存指令至视频云存储系统;
当接收到保存指令时,执行根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤。
视频云存储系统包括管理节点、接入节点和存储节点,其中,管理节点用于管理视频云存储系统内的资源、接入节点和存储节点,接入节点用于接收监控设备发送的视频数据,存储节点用于接收接入节点发送的视频数据并进行保存,由于流水线上输送目标对象的速度较快,因此监控设备在每秒内可能会采集多个目标对象的视频数据,因此,视频云存储系统处理视频数据的能力需要达到毫秒级别,另外,根据实际运行情况,视频云存储系统中可以包括多个接入节点和多个存储节点,这都是合理的。
为了方便对监控设备和视频云存储系统进行管理,监控系统还可以包括监控服务器,视频云存储系统在接收监控设备发送的对象标识之后,反馈通知消息至监控设备,其中,通知消息中包含目标时间点,以便监控设备将目标时间点与对象标识发送至监控服务器,监控服务器即可对应存储目标时间点与对象标识,以便于后续用户查询目标对象,随后监控服务器发送保存指令至视频云存储系统,视频云存储系统在接收到保存指令后,执行根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤,其中,视频云存储系统通过接入节点反馈通知消息,通过管理节点接收保存指令。
需要说明的是,根据目标时间点对应存储监控设备采集的目标对象的视频数据的具体实施方式存在多种,下面进行举例说明。
在一种实现方式中,监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将目标时间点与对象标识发送至监控服务器之前,将自身的设备时间点修改为目标时间点;
根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤,可以包括:
从监控设备的缓冲区中获取目标视频数据,目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,目标采集时间点与目标时间点相同;
基于目标视频数据的目标采集时间点,存储目标视频数据。
在通常情况下,在监控设备上存在缓冲区,当监控设备采集视频数据后,将采集的视频数据缓存至该缓冲区。由于监控设备自身的设备时间点与当前时间点不同,因此,在接收到视频云存储系统反馈包含目标时间点的通知消息后,将自身的设备时间点修改为目标时间点,由此,使得缓冲区中缓存的视频数据对应的时间点为准确的采集时间点,其中,视频云存储系统通过接入节点反馈通知消息。
此时,视频云存储系统可以从监控设备的缓冲区中获取以目标采集时间点为起点的预定时长的视频数据,将该视频数据确定为目标视频数据,其中,该目标采集时间点与目标时间点相同,由此,视频云存储系统获取了对应有准确的采集时间点的目标视频数据,然后视频云存储系统基于该目标视频数据的目标采集时间点,存储该目标视频数据。
视频云存储系统存储目标视频数据的过程为接入节点将获取的目标视频数据存入存储节点,存储节点将目标视频数据的保存位置信息以及目标时间点发送至管理节点,管理节点对应存储该保存位置信息以及目标时间点。
在另一种实现方式中,监控设备持续采集视频数据并将所采集的视频数据发送至视频云存储系统,以使视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
根据目标时间点对应存储监控设备采集的目标对象的视频数据的步骤,可以包括:
从自身的缓冲区中获取目标视频数据,目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,目标缓存时间点与目标时间点相同;
基于目标视频数据的目标缓存时间点,存储目标视频数据。
由于监控设备自身的设备时间点与当前时间点不同,视频云存储系统的时间点与当前时间点相同,且视频云存储系统存在缓冲区,因此,当监控设备采集视频数据后,可以将采集的视频数据发送至视频云存储系统,以使视频云存储系统将接收到的视频数据缓存至该缓冲区,其中,该缓冲区位于视频云存储系统中的接入节点。由此,视频云存储系统的缓冲区中缓存的视频数据对应的缓存时间点为准确的采集时间点。
此时,视频云存储系统可以从自身的缓冲区中获取以目标缓存时间点为起点的预定时长的视频数据,将该视频数据确定为目标视频数据,其中,该目标缓存时间点与目标时间点相同,由此,视频云存储系统获取了对应有准确的采集时间点的目标视频数据,然后视频云存储系统基于该目标视频数据的目标缓存时间点,存储该目标视频数据。
视频云存储系统存储目标视频数据的过程为接入节点将目标视频数据存入存储节点,存储节点将目标视频数据的保存位置信息以及目标时间点发送至管理节点,管理节点对应存储该保存位置信息以及目标时间点。
另外,在视频云存储系统存储视频数据后,用户还可通过监控服务器对该视频数据进行查询,由于视频云存储系统存储的监控设备采集的视频数据对应的时间点为准确的时间点,因此,通过该准确的时间点可以快速准确的定位到视频数据的目标保存位置信息并展示给用户,其中,根据时间点查找视频数据的保存位置的具体实施方式为现有技术,在此不再赘述。
为了更好的对目标对象进行监控,流水线上可以设置多组扫描设备和监控设备的组合;
接收监控设备发送的目标对象的对象标识的步骤,可以包括:
接收监控设备发送的目标对象的对象标识以及设备标识;
相应地,目标时间点为视频云存储系统接收到对象标识和设备标识的时间点。
在流水线上设置多组扫描设备和监控设备的组合的情况下,流水线上输送的目标对象进入到每组扫描设备的扫描范围内以及监控设备的监控范围内时,视频云存储服务器除了接收到每组组合中的监控设备发送的目标对象的对象标识以外,还接收到设备标识,由此,即可根据设备标识获知目标对象的视频数据是由哪个监控设备采集的,然后根据接收到对象标识和设备标识的目标时间点对应存储监控设备采集的目标对象的视频数据。
作为本申请的一种实施方式,该设备标识可以为设备ID(Identity,身份)号。
相对于上述方法实施例,如图4所示,本申请还提供了一种监控装置,应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置可以包括:
接收模块401,用于接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;
存储模块402,用于根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;接收监控设备发送的目标对象的对象标识,根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备
采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
在图4所示装置的基础上,所述监控系统还可以包括:监控服务器,所述装置还可以包括:
反馈模块,用于在接收所述监控设备发送的对象标识之后,反馈携带所述目标时间点的通知消息至所述监控设备,以使所述监控设备将所述目标时间点与所述对象标识发送至所述监控服务器,使得所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统;
执行模块,用于当接收到所述保存指令时,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
由此,在接收监控设备发送的对象标识之后,通过反馈携带目标时间点的通知消息至监控设备的方式,以使监控设备将目标时间点与对象标识发送至监控服务器,使得监控服务器即可对应存储目标时间点与对象标识,为用户后续查询目标对象提供了方便。
作为本申请的一种实施方式,所述监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;
所述存储模块402,可以包括:
第一获取单元,用于从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
第一存储单元,用于基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
作为本申请的一种实施方式,所述监控设备持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收
到的视频数据缓存至自身的缓冲区;
所述存储模块402,可以包括:
第二获取单元,用于从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
第二存储单元,用于基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
作为本申请的一种实施方式,所述流水线上设置多组扫描设备和监控设备的组合;
所述接收模块401,可以具体用于:
接收所述监控设备发送的目标对象的对象标识以及设备标识;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
本申请实施例还提供了一种电子设备,如图7所示,包括:第二处理器701、第二通信接口702、第二存储器703和第二通信总线704,其中,第二处理器701,第二通信接口702,第二存储器703通过第二通信总线704完成相互间的通信;第二存储器703,用于存放计算机程序;第二处理器701,用于执行第二存储器703上所存放的程序,实现上述监控方法步骤,所述方法应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;
根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;接收监控设备发送的目标对象的对象标识,根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频数据的采集时间点的准确性。
在本申请的一种实现方式中,所述监控系统还包括:监控服务器,在接收所述监控设备发送的对象标识之后,所述方法还包括:
反馈携带所述目标时间点的通知消息至所述监控设备,以使所述监控设备将所述目标时间点与所述对象标识发送至所述监控服务器,使得所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统;
当接收到所述保存指令时,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
在本申请的一种实现方式中,所述流水线上设置多组扫描设备和监控设备的组合;
所述接收所述监控设备发送的目标对象的对象标识的步骤,包括:
接收所述监控设备发送的目标对象的对象标识以及设备标识;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
在本申请的一种实现方式中,所述监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;
基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
在本申请的一种实现方式中,所述监控设备持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
本申请实施例还提供了一种计算机可读存储介质,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现上述监控方法步骤,所述方法应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:
接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;
根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,
由此,实现对单个产品进行监控;接收监控设备发送的目标对象的对象标识,根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频数据的采集时间点的准确性。
在本申请的一种实现方式中,所述监控系统还包括:监控服务器,在接收所述监控设备发送的对象标识之后,所述方法还包括:
反馈携带所述目标时间点的通知消息至所述监控设备,以使所述监控设备将所述目标时间点与所述对象标识发送至所述监控服务器,使得所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统;
当接收到所述保存指令时,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
在本申请的一种实现方式中,所述流水线上设置多组扫描设备和监控设备的组合;
所述接收所述监控设备发送的目标对象的对象标识的步骤,包括:
接收所述监控设备发送的目标对象的对象标识以及设备标识;
相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
在本申请的一种实现方式中,所述监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所
述目标时间点相同;
基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
在本申请的一种实现方式中,所述监控设备持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;
所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:
从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;
基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
如图5所示,本申请实施例提供的一种监控系统,所述系统包括扫描设备501、监控设备502和视频云存储系统503,其中,所述扫描设备501和所述监控设备502均设置于目标对象的流水线上,所述扫描设备501的扫描范围和所述监控设备502的图像采集范围均包含流水线;
所述监控设备502,用于持续采集视频数据并缓存所采集的视频数据;
所述扫描设备501,用于扫描得到被输送进入所述扫描范围内的目标对象的对象标识,并发送给所述监控设备502,其中,所述目标对象为由所述流线输送的对象;
所述监控设备502,还用于接收所述扫描设备501发送的目标对象的对象标识,将所述对象标识发送至所述视频云存储系统503;
所述视频云存储系统503,用于接收所述监控设备502发送的所述对象标识,并根据目标时间点对应存储所述监控设备502采集的所述目标对象的视频数据,所述目标时间点为所述视频云存储系统503接收到所述对象标识的时间点。
监控设备502持续采集视频数据并缓存所采集的视频数据,通过监控系统存储视频数据的过程为:
(1)扫描设备501扫描得到被输送进入所述扫描范围内的目标对象的对象标识,并发送给监控设备502;
(2)监控设备502接收扫描设备501发送的目标对象的对象标识,将对象标识发送至视频云存储系统503;
(3)视频云存储系统503接收监控设备502发送的对象标识,并根据目标时间点对应存储监控设备502采集的目标对象的视频数据,目标时间点为视频云存储系统503接收到对象标识的时间点。
与相关技术相比,本申请中,设置扫描设备和监控设备于目标对象的流水线上,且扫描设备的扫描范围和监控设备的图像采集范围均包含流水线,由此,实现对单个产品进行监控;并当监控设备接收到扫描设备发送的目标对象的对象标识时,将对象标识发送至视频云存储系统,以使视频云存储系统根据目标时间点对应存储监控设备采集的目标对象的视频数据,由于目标时间点为视频云存储系统接收到对象标识的时间点,由此,避免了在监控设备采集视频数据的时间点与当前时间点不同时,视频云存储系统存储的监控设备采集的视频数据对应的时间点不准确的情况的发生,保证了所存储视频的采集时间点的准确性。
在图5所示监控系统的基础上,所述监控系统还可以包括监控服务器;
所述视频云存储系统503,还用于反馈通知消息至所述监控设备502,其中,所述通知消息中包含所述目标时间点;
所述监控设备502,还用于接收所述视频云存储系统503反馈的通知消息,并将所述目标时间点与所述对象标识发送至所述监控服务器;
所述监控服务器,用于接收所述监控设备502发送的所述目标时间点与所述对象标识,对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统503;
所述视频云存储系统503,用于接收所述监控服务器发送的保存指令,并
执行所述根据目标时间点对应存储所述监控设备502采集的所述目标对象的视频数据的步骤。
监控设备502持续采集视频数据并缓存所采集的视频数据,在监控系统还包括监控服务器的情况下,通过监控系统存储视频数据的过程为:
(1)扫描设备501扫描得到被输送进入所述扫描范围内的目标对象的对象标识,并发送给监控设备502;
(2)监控设备502接收扫描设备501发送的目标对象的对象标识,将对象标识发送至视频云存储系统503;
(3)视频云存储系统503反馈通知消息至监控设备502,其中,通知消息中包含目标时间点,目标时间点为视频云存储系统503接收到对象标识的时间点;
(4)监控设备502接收视频云存储系统503反馈的通知消息,并将目标时间点与对象标识发送至监控服务器;
(5)监控服务器接收监控设备502发送的目标时间点与对象标识,对应存储目标时间点与对象标识,并发送保存指令至视频云存储系统503;
(6)视频云存储系统503接收监控服务器发送的保存指令,并根据目标时间点对应存储监控设备502采集的目标对象的视频数据。
由此,在视频云存储系统接收监控设备发送的对象标识之后,通过反馈携带目标时间点的通知消息至监控设备的方式,以使监控设备将目标时间点与对象标识发送至监控服务器,使得监控服务器即可对应存储目标时间点与对象标识,为用户后续查询目标对象提供了方便。
作为本申请的一种实施方式,所述流水线上设置多组扫描设备和监控设备的组合;
所述监控设备502,可以具体用于:
将所述对象标识以及自身的设备标识发送至所述视频云存储系统503;
所述视频云存储系统503,可以具体用于:
根据接收到所述对象标识以及所述设备标识的时间点对应存储所述监控设备502采集的所述目标对象的视频数据。
在所述监控系统包括扫描设备、监控设备、视频云存储系统及监控服务器的情况下,一种实现方式中,所述监控设备502,可以具体用于:
持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;
所述监控设备502,还用于在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点。
所述视频云存储系统503,可以具体用于:
从所述监控设备502的缓冲区中获取目标视频数据,基于所述目标视频数据的目标采集时间点,存储所述目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同。
在所述监控系统包括扫描设备、监控设备、视频云存储系统及监控服务器的情况下,另一种实现方式中,所述监控设备502,可以具体用于:
持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统503;
所述视频云存储系统503,可以具体用于:
将接收到的视频数据缓存至自身的缓冲区,从自身的缓冲区中获取目标视频数据,基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同。
作为本申请的一种实施方式,所述监控服务器,还用于接收用户发送的信息查询请求,其中,所述信息查询请求中包含待查询对象的对象标识,根据所述待查询对象的对象标识确定对应的目标时间点,并向所述视频云存储系统发送所述目标时间点;
所述视频云存储系统503,还用于接收所述监控服务器发送的目标时间点,确定所述目标时间点对应的视频数据的目标保存位置信息,并将所述目标保
存位置信息发送给所述监控服务器;
所述监控服务器,还用于接收所述视频云存储系统503发送的目标保存位置信息,并展示所述目标保存位置信息与所述待查询对象的对象标识。
在通过监控系统将视频数据保存后,用户可以通过监控服务器对视频数据进行查询,监控服务器接收用户发送的包含待查询对象的对象标识的信息查询请求,由于监控服务器中对应存储有目标时间点与对象标识,因此,根据待查询对象的对象标识即可确定对应的目标时间点,又由于视频数据均存储于视频云存储系统503中,因此,在确定目标时间点后,向视频云存储系统503发送目标时间点。
视频云存储系统503在接收监控服务器发送的目标时间点后,即可确定目标时间点对应的视频数据的目标保存位置信息,为了方便用户查看,将目标保存位置信息发送给监控服务器。
监控服务器接收视频云存储系统503发送的目标保存位置信息,展示目标保存位置信息与待查询对象的对象标识,由此,用户即可通过查看监控服务器展示的信息来获知有关待查询对象的信息,其中,展示方式可以为输出对话框或输出提示信息等。
由于视频云存储系统503存储的监控设备采集的视频数据对应的时间点为准确的时间点,因此,通过该准确的时间点可以快速准确的定位到视频数据的目标保存位置信息并展示给用户,其中,根据时间点查找视频数据的保存位置的具体实施方式为现有技术,在此不再赘述。
作为本申请的一种实施方式,所述监控服务器还用于接收用户发送的视频回放请求,其中,所述视频回放请求中至少包含所述待查询对象的对象标识,并将所述对象标识发送至所述视频云存储系统503;
所述视频云存储系统503,还用于接收所述监控服务器发送的对象标识,确定所述对象标识对应的目标视频数据,并将所述目标视频数据发送至所述监控服务器;
所述监控服务器,还用于接收所述视频云存储系统503发送的所述目标视频数据,并回放所述目标视频数据。
用户在查看监控服务器展示的目标保存位置信息与待查询对象的对象标识后,即可确定监控系统中存储有待查询对象对应的视频数据,此时,可发出至少包含待查询对象的对象标识的视频回放请求至监控服务器,由于视频数据均存储于视频云存储系统503,因此,监控服务器将对象标识发送至视频云存储系统503。
视频云存储系统503接收监控服务器发送的对象标识后,即可确定对象标识对应的目标视频数据,为了回放该目标视频数据,将所确定的目标视频数据发送至监控服务器。
监控服务器回放接收到的目标视频数据,由此,用户可以通过监控服务器回放该目标视频数据。
需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括所述要素的过程、方法、物品或者设备中还存在另外的相同要素。
本说明书中的各个实施例均采用相关的方式描述,各个实施例之间相同相似的部分互相参见即可,每个实施例重点说明的都是与其他实施例的不同之处。尤其,对于装置和系统实施例而言,由于其基本相似于方法实施例,所以描述的比较简单,相关之处参见方法实施例的部分说明即可。
以上所述仅为本申请的较佳实施例而已,并非用于限定本申请的保护范围。凡在本申请的精神和原则之内所作的任何修改、等同替换、改进等,均包含在本申请的保护范围内。
Claims (17)
- 一种监控方法,其特征在于,应用于监控系统中的监控设备,所述监控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:持续采集视频数据并缓存所采集的视频数据;当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
- 根据权利要求1所述的方法,其特征在于,所述监控系统还包括:监控服务器;在将所述对象标识发送至所述视频云存储系统之后,所述方法还包括:接收所述视频云存储系统反馈的通知消息,其中,所述通知消息中包含所述目标时间点;将所述目标时间点与所述对象标识发送至所述监控服务器,以使所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统,以使所述视频云存储系统在接收到所述保存指令后,执行所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤。
- 根据权利要求1所述的方法,其特征在于,所述流水线上设置多组扫描设备和监控设备的组合;将所述对象标识发送至所述视频云存储系统的步骤,包括:将所述对象标识以及自身的设备标识发送至所述视频云存储系统;相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和 所述设备标识的时间点。
- 根据权利要求2所述的方法,其特征在于,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区;在将所述目标时间点与所述对象标识发送至所述监控服务器之前,所述方法还包括:将自身的设备时间点修改为所述目标时间点;所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:所述视频云存储系统从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;所述视频云存储系统基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
- 根据权利要求1-3任一项所述的方法,其特征在于,所述持续采集视频数据并缓存所采集的视频数据的步骤,包括:持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,包括:所述视频云存储系统从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;所述视频云存储系统基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
- 一种监控装置,其特征在于,应用于监控系统中的监控设备,所述监 控系统还包括:扫描设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置包括:采集模块,用于持续采集视频数据并缓存所采集的视频数据;对象标识发送模块,用于当接收到所述扫描设备发送的目标对象的对象标识时,将所述对象标识发送至所述视频云存储系统,以使所述视频云存储系统根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据;其中,所述目标对象为:由所述流水线输送的对象,所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
- 一种监控方法,其特征在于,应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述方法包括:接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
- 根据权利要求7所述的方法,其特征在于,所述监控系统还包括:监控服务器,在接收所述监控设备发送的对象标识之后,所述方法还包括:反馈携带所述目标时间点的通知消息至所述监控设备,以使所述监控设备将所述目标时间点与所述对象标识发送至所述监控服务器,使得所述监控服务器对应存储所述目标时间点与所述对象标识,并发送保存指令至所述视频云存储系统;当接收到所述保存指令时,执行所述根据目标时间点对应存储所述监控 设备采集的所述目标对象的视频数据的步骤。
- 根据权利要求7所述的方法,其特征在于,所述流水线上设置多组扫描设备和监控设备的组合;所述接收所述监控设备发送的目标对象的对象标识的步骤,包括:接收所述监控设备发送的目标对象的对象标识以及设备标识;相应地,所述目标时间点为所述视频云存储系统接收到所述对象标识和所述设备标识的时间点。
- 根据权利要求8所述的方法,其特征在于,所述监控设备持续采集视频数据并将所采集的视频数据缓存至自身的缓冲区,且在将所述目标时间点与所述对象标识发送至所述监控服务器之前,将自身的设备时间点修改为所述目标时间点;所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:从所述监控设备的缓冲区中获取目标视频数据,所述目标视频数据为:以目标采集时间点为起点的预定时长的视频数据,所述目标采集时间点与所述目标时间点相同;基于所述目标视频数据的目标采集时间点,存储所述目标视频数据。
- 根据权利要求7-9任一项所述的方法,其特征在于,所述监控设备持续采集视频数据并将所采集的视频数据发送至所述视频云存储系统,以使所述视频云存储系统将接收到的视频数据缓存至自身的缓冲区;所述根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据的步骤,包括:从自身的缓冲区中获取目标视频数据,所述目标视频数据为:以目标缓存时间点为起点的预定时长的视频数据,所述目标缓存时间点与所述目标时间点相同;基于所述目标视频数据的目标缓存时间点,存储所述目标视频数据。
- 一种监控装置,其特征在于,应用于监控系统中的视频云存储系统,所述监控系统还包括:扫描设备和监控设备,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述装置包括:接收模块,用于接收所述监控设备发送的目标对象的对象标识,其中,所述目标对象为由所述流水线输送的对象,所述对象标识由所述扫描设备发送给所述监控设备,且所述对象标识为:在所述目标对象被输送进入所述扫描范围内时由所述扫描设备扫描得到的;存储模块,用于根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,其中,所述监控设备持续采集视频数据并缓存所采集的视频数据。
- 一种监控系统,其特征在于,所述系统包括扫描设备、监控设备和视频云存储系统,其中,所述扫描设备和所述监控设备均设置于目标对象的流水线上,所述扫描设备的扫描范围和所述监控设备的图像采集范围均包含流水线;所述监控设备,用于持续采集视频数据并缓存所采集的视频数据;所述扫描设备,用于扫描得到被输送进入所述扫描范围内的目标对象的对象标识,并发送给所述监控设备,其中,所述目标对象为由所述流线输送的对象;所述监控设备,还用于接收所述扫描设备发送的目标对象的对象标识,将所述对象标识发送至所述视频云存储系统;所述视频云存储系统,用于接收所述监控设备发送的所述对象标识,并根据目标时间点对应存储所述监控设备采集的所述目标对象的视频数据,所述目标时间点为所述视频云存储系统接收到所述对象标识的时间点。
- 一种电子设备,其特征在于,包括第一处理器、第一通信接口、第一存储器和第一通信总线,其中,第一处理器,第一通信接口,第一存储器通过第一通信总线完成相互间的通信;第一存储器,用于存放计算机程序;第一处理器,用于执行第一存储器上所存放的程序时,实现权利要求1-5任一所述的方法步骤。
- 一种计算机可读存储介质,其特征在于,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现权利要求1-5任一所述的方法步骤。
- 一种电子设备,其特征在于,包括第二处理器、第二通信接口、第二存储器和第二通信总线,其中,第二处理器,第二通信接口,第二存储器通过第二通信总线完成相互间的通信;第二存储器,用于存放计算机程序;第二处理器,用于执行第二存储器上所存放的程序时,实现权利要求7-11任一所述的方法步骤。
- 一种计算机可读存储介质,其特征在于,所述存储介质内存储有计算机程序,所述计算机程序被处理器执行时实现权利要求7-11任一所述的方法步骤。
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