CN110392267A

CN110392267A - A kind of low cost mining production scene automation centralized monitoring method

Info

Publication number: CN110392267A
Application number: CN201910712756.1A
Authority: CN
Inventors: 肖辉勇; 唐俐芳
Original assignee: Hunan Shizhuyuan Nonferrous Metals Co Ltd
Current assignee: Hunan Shizhuyuan Nonferrous Metals Co Ltd
Priority date: 2019-08-02
Filing date: 2019-08-02
Publication date: 2019-10-29

Abstract

The invention discloses a kind of inexpensive mining production scenes to automate centralized monitoring method, includes the following steps: that S1, single automated system are established, S2, data acquisition coding；S3, data storage；S4, video data handle turn of tidal stream；S5, real time monitoring, structure of the invention is scientific and reasonable, it is safe and convenient to use, core of the present invention is image transcoding into live video stream, it can record a video simultaneously and store execute-in-place process, by concentrating video monitoring software to reach effect same, and redundancy backup module selects that the function of video file double copies can be achieved, the video recording in certain channel is recorded in two hard disks simultaneously, when one of hard disk corruptions, still there is backup file on another disk, it ensure that the reliability of data, and video detection module can detect video, and pass through Dongle, convenient for being restarted automatically and online upgrade system, it has exploitation easy, exploitation is simple, it is easy to maintain, easily promote.

Description

A kind of low cost mining production scene automation centralized monitoring method

Technical field

The present invention relates to monitoring technology field, specially a kind of inexpensive mining production scene automates Centralized Monitoring side Method.

Background technique

For general medium-and-large-sized bargh, the level of IT application is relatively low, since the factors such as production environment are each automatic Change system is more and disperses, and building time, producer are different between each system, and independently of each other, information island is serious,

Existing centralized dispatching platform generally utilizes SCADA technology by Departments of Automation such as each widespread DCS, PCS, HMI System is integrated, and the development cycle is long, is limited by technology and producer, and newly-increased system cannot be not easy to safeguard in time in fusion of platforms The problem of.

Summary of the invention

The present invention provides a kind of inexpensive mining production scene automation centralized monitoring method, can effectively solve above-mentioned back It is proposed that existing centralized dispatching platform generally utilizes SCADA technology that each widespread DCS, PCS, HMI etc. is automatic in scape technology Change system is integrated, and the development cycle is long, is limited by technology and producer, and newly-increased system cannot be not easy in time in fusion of platforms The problem of maintenance.

To achieve the above object, the invention provides the following technical scheme: a kind of low cost mining production scene automation collection Middle monitoring method, includes the following steps:

S1, single automated system are established: establishing each independent small automatic system；

S2, data acquisition coding: using support normal video VNOIF protocol encoder module to industrial automation image into Row coding acquisition acquires automated system VGA, DP or HDMI of foundation etc. and shows output interface and transcoding for network video prison Control signal；

S3, data storage: the vision signal that encoder acquires is stored, it can be achieved that execute-in-place using video cassette recorder The playback of record is called；

S4, video data handle turn of tidal stream: take stream, video to forward video recorder in server installation video software, it is real The existing more domains of multi-client access simultaneously；

S5, real time monitoring: videoconference client, the webpage of WEB access server publication, monitoring mobile phone realization are installed in computer Automated system is monitored in real time, production scene equipment scheduling is reached.

According to the above technical scheme, automated system includes that scene automates industrial personal computer and encoder in the step S1, The encoder passes through Ethernet phase by cable and computer in server in video cassette recorder in step S3, S4 and step S5 Even.

According to the above technical scheme, video cassette recorder includes recording module, redundancy backup module, video in the step S3 Detection module and alarm module.

According to the above technical scheme, the recording module encodes collected information by camera, storage Into hard disk；

The redundancy backup module selects that the function of video file double copies can be achieved, and the video recording in certain channel is recorded simultaneously Into two hard disks, when one of hard disk corruptions, still there is backup file on another disk, ensure that the reliable of data Property；

The video detection module is when carrying out detection type switching, without region and sensitive in video-losing and occlusion detection When dynamic monitoring occurs for the setting of degree or channel, dynamic monitoring icon is shown on the picture of channel, realizes the detection of video；

The alarm module passes through the client of computer in cable and step S5 during can not record with hard disk corruptions End carries out data transmission, and reminds maintenance.

According to the above technical scheme, turn of tidal stream is handled for video data in the step S4 and time pressure is carried out for video Contracting；

Pixel in each frame image of computer software analysis is saved as the mould for capableing of the quasi- whole image of model Formula, therefore, compression only carry out inside each independent frame, so other frames are not related to, the information in compression process Measure fewer, the stock number of consumption is relatively low.

According to the above technical scheme, data acquisition coding includes acquisition module, coding module, control mould in the step S2 Block and transmission module.

According to the above technical scheme, the acquisition module carries out RGB/DVI signal acquisition, provides data for coding module；

The coding module carries out compressed encoding to image data；

The control module externally provides control interface, carries out parameter setting to acquisition module and coding/decoding module；

The transmission module receives communication connection, external transmitted data compressing.

According to the above technical scheme, data acquisition coding acquisition signal transmits after saving as YUV signal in the step S2 To encoder, encoder encodes acquisition signal according to mpeg 4 standard, and coded format is 4:2:0 format, and frame format uses I frame, P frame and B frame.

According to the above technical scheme, monitoring client in the step S5 in real time includes Dongle, convenient for being restarted automatically and Online upgrade system.

According to the above technical scheme, it monitors page end in the step S5 in real time and uses overall topological structure management.

Compared with prior art, beneficial effects of the present invention: structure of the invention is scientific and reasonable, safe and convenient to use, concentrates Control room often far from production scene, is limited to safety factor, and control centre does not participate in control directly generally, only carries out unified prison Control, scheduling, which is image transcoding into live video stream, while can record a video and store execute-in-place process, passes through collection Middle video monitoring software reaches effect same, and redundancy backup module selects that the function of video file double copies can be achieved, by certain The video recording in channel is recorded in two hard disks simultaneously, when one of hard disk corruptions, still there is backup file on another disk, It ensure that the reliability of data, and video detection module can detect video, and by Dongle, convenient for automatic weight It opens and online upgrade system, and by handling turn of tidal stream for video data time compression is carried out for video to reduce storage empty Between, it to be convenient for transmission, so as to more preferably be exchanged with exogenous data, has had exploitation easy, exploitation is simple, and it is easy to maintain, Easily promote.

Detailed description of the invention

Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention It applies example to be used to explain the present invention together, not be construed as limiting the invention.In the accompanying drawings:

Fig. 1 is method and step schematic diagram of the invention；

Fig. 2 is computer WEB online browse schematic diagram of the invention；

Fig. 3 is cell phone client online browse schematic diagram of the invention.

Specific embodiment

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, it should be understood that preferred reality described herein Apply example only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.

Embodiment: as shown in Figure 1-3, the present invention provides technical solution, a kind of low cost mining production scene automation collection Middle monitoring method, includes the following steps:

According to the above technical scheme, automated system includes scene automation industrial personal computer and encoder, coding in step S1 Device is connected by Ethernet by cable with computer in server in video cassette recorder in step S3, S4 and step S5.

According to the above technical scheme, video cassette recorder includes recording module, redundancy backup module, video detection in step S3 Module and alarm module.

According to the above technical scheme, it records module to encode collected information by camera, storage is to firmly In disk；

Redundancy backup module selects that the function of video file double copies can be achieved, and the video recording in certain channel is recorded two simultaneously In a hard disk, when one of hard disk corruptions, still there is backup file on another disk, ensure that the reliability of data；

Video detection module is when carrying out detection type switching, in video-losing and occlusion detection without region and sensitivity When dynamic monitoring occurs for setting or channel, dynamic monitoring icon is shown on the picture of channel, realizes the detection of video；

Alarm module during can not record with hard disk corruptions, by the client of computer in cable and step S5 into The transmission of row data, reminds maintenance.

According to the above technical scheme, turn of tidal stream is handled for video data in step S4 and time compression is carried out for video；

According to the above technical scheme, in step S2 data acquisition coding include acquisition module, coding module, control module and Transmission module.

According to the above technical scheme, acquisition module carries out RGB/DVI signal acquisition, provides data for coding module；

Coding module carries out compressed encoding to image data；

Control module externally provides control interface, carries out parameter setting to acquisition module and coding/decoding module；

Transmission module receives communication connection, external transmitted data compressing.

According to the above technical scheme, data acquisition coding acquisition signal sends volume to after saving as YUV signal in step S2 Code device, encoder encode acquisition signal according to mpeg 4 standard, and coded format is 4:2:0 format, and frame format uses I frame, P frame and B frame.

According to the above technical scheme, monitoring client in step S5 in real time includes Dongle, convenient for being restarted automatically and online Upgrade-system.

According to the above technical scheme, it monitors page end in step S5 in real time and uses overall topological structure management.

Finally, it should be noted that being not intended to restrict the invention the foregoing is merely preferred embodiment of the invention, to the greatest extent Present invention has been described in detail with reference to the aforementioned embodiments for pipe, for those skilled in the art, still can be with It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features.It is all Within the spirit and principles in the present invention, any modification, equivalent replacement, improvement and so on should be included in guarantor of the invention Within the scope of shield.

Claims

1. a kind of low cost mining production scene automates centralized monitoring method, characterized by the following steps:

S2, data acquisition coding: industrial automation image is compiled using support normal video VNOIF protocol encoder module Code acquisition acquires automated system VGA, DP or HDMI of foundation etc. and shows output interface and transcoding for Network Video Surveillance letter Number；

S3, data storage: the vision signal that encoder acquires is stored, it can be achieved that recording to execute-in-place using video cassette recorder Playback call；

S4, video data handle turn of tidal stream: taking stream, video to forward video recorder in server installation video software, realize more The more domains of client access simultaneously；

S5, real time monitoring: videoconference client, the webpage of WEB access server publication, monitoring mobile phone realization are installed to certainly in computer Dynamicization system real time monitoring, reaches production scene equipment scheduling.

2. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Automated system includes scene automation industrial personal computer and encoder in the step S1, and the encoder passes through cable and step S3 Server is connected by Ethernet with computer in step S5 in middle video cassette recorder, S4.

3. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Video cassette recorder includes recording module, redundancy backup module, video detection module and alarm module in the step S3.

4. a kind of inexpensive mining production scene according to claim 3 automates centralized monitoring method, which is characterized in that The recording module encodes collected information by camera, stores into hard disk；

The redundancy backup module selects that the function of video file double copies can be achieved, and the video recording in certain channel is recorded two simultaneously In a hard disk, when one of hard disk corruptions, still there is backup file on another disk, ensure that the reliability of data；

The video detection module is when carrying out detection type switching, in video-losing and occlusion detection without region and sensitivity When dynamic monitoring occurs for setting or channel, dynamic monitoring icon is shown on the picture of channel, realizes the detection of video；

The alarm module during can not record with hard disk corruptions, by the client of computer in cable and step S5 into The transmission of row data, reminds maintenance.

5. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Turn of tidal stream is handled for video data in the step S4, time compression is carried out for video；

Pixel in each frame image of computer software analysis is saved as the mode for capableing of the quasi- whole image of model, Therefore, compression only carries out inside each independent frame, so other frames are not related to, the information content ratio in compression process Less, the stock number of consumption is relatively low.

6. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Data acquisition coding includes acquisition module, coding module, control module and transmission module in the step S2.

7. a kind of inexpensive mining production scene according to claim 6 automates centralized monitoring method, which is characterized in that The acquisition module carries out RGB/DVI signal acquisition, provides data for coding module；

The coding module carries out compressed encoding to image data；

8. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Data acquisition coding acquisition signal sends encoder to after saving as YUV signal in the step S2, and encoder is marked according to MPEG4 Standard encodes acquisition signal, and coded format is 4:2:0 format, and frame format uses I frame, P frame and B frame.

9. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, which is characterized in that Monitoring client in the step S5 in real time includes Dongle, convenient for being restarted automatically and online upgrade system.

10. a kind of inexpensive mining production scene according to claim 1 automates centralized monitoring method, feature exists In real time monitoring page end uses overall topological structure management in the step S5.