CN106603991A - Remote mobile phone video monitoring method for external damage source construction site - Google Patents
Remote mobile phone video monitoring method for external damage source construction site Download PDFInfo
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- CN106603991A CN106603991A CN201611259025.9A CN201611259025A CN106603991A CN 106603991 A CN106603991 A CN 106603991A CN 201611259025 A CN201611259025 A CN 201611259025A CN 106603991 A CN106603991 A CN 106603991A
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- video
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
- 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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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
- Telephonic Communication Services (AREA)
- Closed-Circuit Television Systems (AREA)
Abstract
The invention, which belongs to the monitoring field, provides a remote mobile phone video monitoring method for an external damage source construction site. Video monitoring is realized by using an android-system-based video monitoring system. The android-system-based video monitoring system comprises an acquisition module, a coding module, a video transmission module, a decoding module and a display module. An H. 264 standard is used as a video compression standard and an RTP protocol is used as a transmission protocol; and a client of a C/S-mode-based mobile video monitoring system is an Android mobile terminal. Registering and checking of a real-time video or picture at a certain construction site by a plurality of mobile phone clients are supported; and real-time monitoring of a plurality of construction sites can be realized by switching. Therefore, the staff on duty can be reduced; the work efficiency can be improved; the trip cost can be lowered; and thus an objective of staff downsizing and efficiency improving based on remote unmanned operation or operation with a few workers can be achieved. The remote mobile phone video monitoring method can be applied to the real-time field video checking and image monitoring fields widely.
Description
Technical field
The invention belongs to monitoring field, more particularly to a kind of remote video controlling method for mobile phone.
Background technology
Domestic electrical industry is devoted to always studying power equipment remote monitoring new technology, particularly twentieth century in recent years
China each province puts into the research that substantial amounts of man power and material carries out correlation since the nineties, at present in some separate units
Equipment, the long-distance monitorng device of single parameter and system aspects achieve impressive progress.
But without unified specification on the system hardware interface, database structure and data communication protocol due to employing
And standard, therefore be difficult to constitute larger range of long-distance measurement network on the basis of original long distance control system.
In recent years with the continuous development of network technology and information technology, with many equipment, many reference amounts remote monitoring as target
Comprehensive remote control network become the important foundation of Power system development intelligent level, also represent power equipment operation management wound
The direction of new development.
With the continuous development of society, people's living standard is improved constantly, and supply of electric power requires also to become more and more higher.Such as
What improves the safety coefficient of power cable O&M, ensures cable safe power supply, is asking of considering all the time of city north electric company
Topic.It is many that the construction generally existing point that is related to cable run passage at present is more, line length, wide, failure occur the irregular, frequency, patrols
Depending on pinpoint the problems can not in time, the problems such as in real time.
At present, national grid makes great efforts the advancing all-round construction intelligent grid of the task, ensures that power system is steady in safety
Surely realize while operation information-based, automation, it is interactive, there is strong grid structure, to meet China's economic society complete
Face, coordination, sustainable development are required.Current power cable O&M will be fully achieved to job site overall process, it is round-the-clock, zero
Distance detection, improves safety management in construction site level comprehensively.
With the quick popularization of smart mobile phone, the extensive application of mobile interchange, wireless network have passed through years development, technology
Highly developed, price constantly declines, convenient, flexible with networking, the low irreplaceable clear superiority of cost.
The content of the invention
The technical problem to be solved is to provide a kind of mobile phone remote video frequency monitoring method in outer damage source building site.Its
Employ based on the video surveillance applications of mobile phone, merged regulatory requirement, contribute to outer damage source building site mobile phone remote video monitoring
Popular and specialization, will be based on android mobile phones Video Supervision Technique introduce construction site management, meet electric company
Actual conditions, be electric company's remote monitoring, unattended preferred option.
The technical scheme is that:A kind of mobile phone remote video frequency monitoring method in outer damage source building site, including video are provided
Monitoring, is characterized in that:
Described video monitoring is realized based on the video monitoring system of Android system;
It is based on the video monitoring system of Android system, is divided into acquisition module, coding module, transmission of video mould
Block, decoder module and display module;
1) video acquisition module:
The video format that mobile phone camera is collected is the video flowing of YUV420 forms;The realization of acquisition module exists
Realized by writing code in the application layer of android;
2) coding module:
Using MPEG and VCEG joint developments video encoding standard H.264, compile comprising network abstract layer (NAL) and video
Code layer (VCL);Its network abstract layer is used for data and packs and transmit, and coding layer is responsible for video compression coding;Thereby come realize pass
Defeated and coding separation, to adapt to the data transfer on the unstable wireless network of bandwidth.
3) transport module:
Take RTP/UDP transmission audio frequency and video and HTTP/IP transmission control information;Its flow control and congestion control are by reality
When host-host protocol (RTCP) providing;
4) decoder module:
Decoder module is adopted and H.264 decoded;Decoder is divided into two parts, and a part is the lsb decoder of video data
Point, using the realization mechanism of Android NDK+C;Another part is the display portion of video, the group provided using Android
Part is realizing;
Using the realization mechanism of Android SDK+Java;And this two-part set, the jni mechanism provided by java
To realize the communication between Java and C language;
5) display module:
Decoded local data flow is shown by calling the display of android mobile phones, so as to reach in real time
The display effect of video.
Specifically, described mobile phone remote video frequency monitoring method, is developed based on Android platform, is made from H.264 standard
For video compression standard, using Real-time Transport Protocol as host-host protocol, based on the mobile video monitor system of C/S model, its client
For Android mobile terminal;
Further, described Android mobile terminal, it is adaptable to smart mobile phone or panel computer.
Mobile phone remote video frequency monitoring method described in the technical program is based on the video monitoring system of Android intelligent
System, it is based on http protocol by Socket programming realizations Android intelligent and specific clothes in network video monitor and control system
Frame data transmission between business device;Calling to MPEG-4, the H.264 parsing of data flow and decoding storehouse is encapsulated using C language
Interface, the parsing work of the H.264 format stream for realizing being sent for camera using JAVA language, and setting link information,
The displaying of Connection Service end program and monitoring information.
Further, the monitoring device of the acquisition module selects the high-speed ball-forming machine with infrared function and LED illumination.
Further, described mobile phone remote video frequency monitoring method, the vision signal that the acquisition module is collected, Jing
Cross transcoding, be wirelessly transferred, the parsing of data flow and decoding storehouse calling interface, be sent to based on the intelligence of android system
Mobile phone showing decoded local data flow, so as to reach the display effect of real-time video.
Described mobile phone remote video frequency monitoring method, the vision signal that the acquisition module is collected, through wired or
Wireless network, is sent to cloud management platform, based on the smart mobile phone of android system, after identification and logging in, you can
The handling situations in monitor in real time outdoor construction building site, the construction speed for checking building site and the personnel for being clearly observed site operation
Handling situations.
Cable operation maintenance personnel realizes the monitoring and control in each building site by described smart mobile phone;Support multiple cell phone customers
End logs in the real-time video or picture for checking some job site, and realizes the monitor in real time to multiple building sites by switching.
Compared with the prior art, it is an advantage of the invention that:
1st, the outer damage source building site video monitoring based on android mobile phones, with flexibility height, autgmentability is strong, safeguard simple
The advantages of, fixed surveillance equipment is installed by setting up interim shaft tower, just can just can be with by job site information by being wirelessly transferred
Control completely.Cable operation maintenance personnel grasps at any time, in real time site operation situation by mobile phone, accomplishes that zero distance is controlled, while right
Job site carries out security monitoring and technological guidance, effectively improves operation power department to being related to the job site of cable run
Security management and control level, mitigate cable operation maintenance personnel labour intensity, effectively improve the efficiency of management, save management cost, to applying
Work carries out safely monitor in real time.
2nd, by the enforcement of the technical scheme, the operational reliability of electric company's electric power networks can be effectively improved, it is ensured that
Safely and reliably power, be that the operation for ensureing power cable safely provides technical support.Also advantageously improve whole intelligent grid
The operational reliability of power equipment in framework, the power system power supply quality to improving power supply area is significant.
3rd, round-the-clock, the multi-functional monitor in real time to job site is realized, it is ensured that the normal operation of cable machinery, so as to
Staff on duty is reduced, operating efficiency is improved, Trip Costs are reduced, nobody or few man on duty of distal end is finally realized, is reached
The purpose of personnel reduction and enlargement.
Description of the drawings
Fig. 1 is the composition schematic diagram that source building site monitoring system is damaged outside the present invention;
Fig. 2 is multipoint control system logic chart of the present invention.
Specific embodiment
With reference to the accompanying drawings and examples the present invention will be further described.
The monitoring requirement 24 hours in outer damage source building site is uninterrupted, and monitoring device wants the operation in monitor in real time outdoor construction building site
Situation, checks that the construction speed in building site, monitoring range will can cover construction area, and the personnel of energy clear view to site operation make
Industry situation, can observe capital equipment (such as cable, work well) state.No matter daytime and night, fine day and rainy day, equipment is full
Foot climate change throughout the year is required.Meet high definition image quality monitoring on a large scale and the weaker monitoring needs of light.
In Fig. 1, a kind of technical scheme, there is provided mobile phone remote video frequency monitoring method in outer damage source building site, bag
Video monitoring is included, be it is characterized in that:
Described video monitoring is realized based on the video monitoring system of Android system;
It is based on the video monitoring system of Android system, is divided into acquisition module, coding module, transmission of video mould
Block, decoder module and display module;
1) video acquisition module:
The video format that mobile phone camera is collected is the video flowing of YUV420 forms;The realization of acquisition module exists
Realized by writing code in the application layer of android;
2) coding module:
Using MPEG and VCEG joint developments video encoding standard H.264, compile comprising network abstract layer (NAL) and video
Code layer (VCL);Its network abstract layer is used for data and packs and transmit, and coding layer is responsible for video compression coding;Thereby come realize pass
Defeated and coding separation, to adapt to the data transfer on the unstable wireless network of bandwidth.
3) transport module:
Take RTP/UDP transmission audio frequency and video and HTTP/IP transmission control information;Its flow control and congestion control are by reality
When host-host protocol (RTCP) providing;
4) decoder module:
Decoder module is adopted and H.264 decoded;Decoder is divided into two parts, and a part is the lsb decoder of video data
Point, using the realization mechanism of Android NDK+C;Another part is the display portion of video, the group provided using Android
Part is realizing;
Using the realization mechanism of Android SDK+Java;And this two-part set, the jni mechanism provided by java
To realize the communication between Java and C language;
5) display module:
Decoded local data flow is shown by calling the display of android mobile phones, so as to reach in real time
The display effect of video.
Specifically, described mobile phone remote video frequency monitoring method, is developed based on Android platform, is made from H.264 standard
For video compression standard, using Real-time Transport Protocol as host-host protocol, based on the mobile video monitor system of C/S model, its client
For Android mobile terminal;
Further, described Android mobile terminal, it is adaptable to smart mobile phone or panel computer.
Mobile phone remote video frequency monitoring method described in the technical program is based on the video monitoring system of Android intelligent
System, it is based on http protocol by Socket programming realizations Android intelligent and specific clothes in network video monitor and control system
Frame data transmission between business device;Calling to MPEG-4, the H.264 parsing of data flow and decoding storehouse is encapsulated using C language
Interface, the parsing work of the H.264 format stream for realizing being sent for camera using JAVA language, and setting link information,
The displaying of Connection Service end program and monitoring information.
Further, the monitoring device of the acquisition module selects the high-speed ball-forming machine with infrared function and LED illumination.
Further, described mobile phone remote video frequency monitoring method, the vision signal that the acquisition module is collected, Jing
Cross transcoding, be wirelessly transferred, the parsing of data flow and decoding storehouse calling interface, be sent to based on the intelligence of android system
Mobile phone showing decoded local data flow, so as to reach the display effect of real-time video.
In Fig. 2, described mobile phone remote video frequency monitoring method, the vision signal that the acquisition module is collected is passed through
Wired or wireless network, is sent to cloud management platform, based on the smart mobile phone of android system, through identification and login
Afterwards, you can the handling situations in monitor in real time outdoor construction building site, check the construction speed in building site and be clearly observed scene and apply
Personnel's handling situations of work.
Cable operation maintenance personnel realizes the monitoring and control in each building site by described smart mobile phone;Support multiple cell phone customers
End logs in the real-time video or picture for checking some job site, and realizes the monitor in real time to multiple building sites by switching.
Due to present invention employs based on the video monitoring of mobile phone application of android system, regulatory requirement is merged, has helped
In the popular and specialization of outer damage source building site mobile phone remote video monitoring, by the Video Supervision Technique based on android mobile phones
Construction site management is introduced, meets the actual conditions of electric company, be electric company's remote monitoring, unattended first-selection side
Case.
The method can be widely used in the monitoring field of real time inspection live video and image.
Claims (8)
1. a kind of mobile phone remote video frequency monitoring method in outer damage source building site, including video monitoring, is characterized in that:
Described video monitoring is realized based on the video monitoring system of Android system;
It is based on the video monitoring system of Android system, is divided into acquisition module, coding module, video transmission module, solution
Code module and display module;
1) video acquisition module:
The video format that mobile phone camera is collected is the video flowing of YUV420 forms;The realization of acquisition module is android's
Realized by writing code in application layer;
2) coding module:
Using MPEG and VCEG joint developments video encoding standard H.264, comprising network abstract layer (NAL) and video coding layer
(VCL);Its network abstract layer is used for data and packs and transmit, and coding layer is responsible for video compression coding;Thereby come realize transmission and
The separation of coding, to adapt to the data transfer on the unstable wireless network of bandwidth.
3) transport module:
Take RTP/UDP transmission audio frequency and video and HTTP/IP transmission control information;The control of its flow and congestion control are by passing in real time
Defeated agreement (RTCP) is providing;
4) decoder module:
Decoder module is adopted and H.264 decoded;Decoder is divided into two parts, and a part is the decoded portion of video data, is adopted
With the realization mechanism of Android NDK+C;Another part is the display portion of video, using Android provide component come
Realize;
Using the realization mechanism of Android SDK+Java;And this two-part set, by the jni mechanism of java offers come real
Existing communication between Java and C language;
5) display module:
Decoded local data flow is shown by calling the display of android mobile phones, so as to reach real-time video
Display effect.
2., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, described mobile phone it is characterized in that
Remote video controlling method, is developed based on Android platform, from H.264 standard as video compression standard, is assisted using RTP
Used as host-host protocol, based on the mobile video monitor system of C/S model, its client is Android mobile terminal to view.
3., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 2, it is characterized in that described
Android mobile terminal, it is adaptable to smart mobile phone or panel computer.
4., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, described mobile phone it is characterized in that
Remote video controlling method is that, based on the video monitoring system of Android intelligent, it is based on http protocol by Socket
Frame data transmission in programming realization Android intelligent and network video monitor and control system between particular server;Using C languages
Speech encapsulation to MPEG-4, H.264 data flow parsing and decoding storehouse calling interface, using JAVA language realize for shooting
The parsing work of the H.264 format stream that hair send, and the exhibition of link information, Connection Service end program and monitoring information is set
Show.
5., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, the collection mould it is characterized in that
The monitoring device of block selects the high-speed ball-forming machine with infrared function and LED illumination.
6., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, described mobile phone it is characterized in that
Remote video controlling method, the vision signal that the acquisition module is collected, through transcoding, be wirelessly transferred, the solution of data flow
Analysis and the calling interface in decoding storehouse, are sent to the smart mobile phone based on android system to show decoded local data
Stream, so as to reach the display effect of real-time video.
7., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, described mobile phone it is characterized in that
Remote video controlling method, the vision signal that the acquisition module is collected, through wired or wireless network, is sent to cloud pipe
Platform, based on the smart mobile phone of android system, after identification and logging in, you can monitor in real time outdoor construction work
The handling situations on ground, the construction speed for checking building site and the personnel's handling situations for being clearly observed site operation.
8., according to the mobile phone remote video frequency monitoring method in the outer damage source building site described in claim 1, cable O&M people it is characterized in that
Member realizes the monitoring and control in each building site by described smart mobile phone;Support that multiple cell-phone customer terminals are logged in and check that some is applied
The real-time video or picture at work scene, and the monitor in real time to multiple building sites is realized by switching.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109951688A (en) * | 2018-10-23 | 2019-06-28 | 王龙 | A kind of video monitoring system and method realizing continuity scene relating and excavating |
CN112541497A (en) * | 2019-09-04 | 2021-03-23 | 天津科技大学 | Measuring rod image monitoring system for android mine based on JNI technology |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103607571A (en) * | 2013-11-22 | 2014-02-26 | 吉林大学 | Method for remotely monitoring videos and controlling cloud platform through Android phone |
CN203482325U (en) * | 2013-08-27 | 2014-03-12 | 东南大学 | Intelligent video monitoring system |
CN103957389A (en) * | 2014-05-13 | 2014-07-30 | 重庆大学 | 3G video transmission method and system based on compression sensing |
CN104023191A (en) * | 2014-06-13 | 2014-09-03 | 暨南大学 | Android-based camera projection system and implementation method |
CN104410828A (en) * | 2014-11-26 | 2015-03-11 | 北京视博数字电视科技有限公司 | Home monitoring method and apparatus |
CN105049616A (en) * | 2015-07-01 | 2015-11-11 | 兴义供电局 | System and method for realizing mobile monitoring of electric power field operation by using smartphone |
CN105554445A (en) * | 2015-12-03 | 2016-05-04 | 国电南瑞科技股份有限公司 | Subway equipment inspection video real time transmission system based on intelligent mobile terminal and using method |
-
2016
- 2016-12-30 CN CN201611259025.9A patent/CN106603991A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN203482325U (en) * | 2013-08-27 | 2014-03-12 | 东南大学 | Intelligent video monitoring system |
CN103607571A (en) * | 2013-11-22 | 2014-02-26 | 吉林大学 | Method for remotely monitoring videos and controlling cloud platform through Android phone |
CN103957389A (en) * | 2014-05-13 | 2014-07-30 | 重庆大学 | 3G video transmission method and system based on compression sensing |
CN104023191A (en) * | 2014-06-13 | 2014-09-03 | 暨南大学 | Android-based camera projection system and implementation method |
CN104410828A (en) * | 2014-11-26 | 2015-03-11 | 北京视博数字电视科技有限公司 | Home monitoring method and apparatus |
CN105049616A (en) * | 2015-07-01 | 2015-11-11 | 兴义供电局 | System and method for realizing mobile monitoring of electric power field operation by using smartphone |
CN105554445A (en) * | 2015-12-03 | 2016-05-04 | 国电南瑞科技股份有限公司 | Subway equipment inspection video real time transmission system based on intelligent mobile terminal and using method |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109951688A (en) * | 2018-10-23 | 2019-06-28 | 王龙 | A kind of video monitoring system and method realizing continuity scene relating and excavating |
CN112541497A (en) * | 2019-09-04 | 2021-03-23 | 天津科技大学 | Measuring rod image monitoring system for android mine based on JNI technology |
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Application publication date: 20170426 |