CN105141897A - Remote video monitoring system and method - Google Patents
Remote video monitoring system and method Download PDFInfo
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- CN105141897A CN105141897A CN201510483192.0A CN201510483192A CN105141897A CN 105141897 A CN105141897 A CN 105141897A CN 201510483192 A CN201510483192 A CN 201510483192A CN 105141897 A CN105141897 A CN 105141897A
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Abstract
The invention discloses a remote video monitoring system and method. The system comprises a video acquisition end, a server end and a video monitoring end, wherein the server end is connected with the video acquisition end and the video monitoring end respectively. The method comprises the following steps that: a video acquisition terminal transmits an acquired video to a video server to encode/decode the video, and transmits the encoded/decoded video to the video monitoring end; the server end remotely receives video information of a mobile phone, and the mobile phone remotely accesses the server end to acquire the video information; and a mobile phone client transmits video transmission request information through a button, and the server end resolves a command, calls an application to control another remote mobile phone, triggers a certain on-site mobile phone to interact with the other remote mobile phone, performs video acquisition, forwards the acquired video to the server end, and transmits the video to the mobile phone client. Through adoption of the remote video monitoring system and method disclosed by the invention, greater convenience can be brought to monitoring, and limitation on monitoring at a fixed place is eliminated.
Description
Technical field
The invention belongs to mobile communication technology field, relate to a kind of supervisory control system, particularly relate to a kind of Active Eyes; Meanwhile, the invention still further relates to a kind of remote video controlling method.
Background technology
Along with the development of the Internet, information interchange is more frequent, and it is also proposed higher requirement to exchange way, common network video monitor and control system cannot meet the demand that user obtains monitor message at any time and any place.And make the transmission of mobile audio-video become possibility along with the development of 3G, 4G communication technology and the universal of smart mobile phone, and the transmission that the stream media technology of higher data compression ratio is multi-medium data provides strong guarantee.
In view of this, nowadays in the urgent need to designing a kind of new video monitoring mode, to overcome the above-mentioned defect of existing mode.
Summary of the invention
Technical problem to be solved by this invention is: provide a kind of Active Eyes, can improve the convenience of monitoring, is not limited to monitor at fixed-site.
In addition, the present invention also provides a kind of remote video controlling method, can improve the convenience of monitoring, is not limited to monitor at fixed-site.
For solving the problems of the technologies described above, the present invention adopts following technical scheme:
A kind of Active Eyes, described system comprises: video acquisition end, server end and video monitoring end, and described server end connects video acquisition end, video monitoring end respectively;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal;
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal;
Described video acquisition end is in order to initialization camera device, create listen socket Socket, unlatching video monitoring is served, and catches image information in real time and sends connection request to server end, just starts to send video compression image information to it with server end after being successfully connected; After mobile phone collection client opens operation first, need to add remote monitoring host ip, in conjunction with default network port numbers to realize being connected with the network service of main frame; The handling process of video acquisition end comprises: initialization camera module, needs the frame number arranging picture size, transmission each second, and the form of picture; Connect socket to arrange, create the Socket being connected to assigning remote main frame, remote port; Data processing, transfers jpg form to by view data; Video shows, and shows picture of finding a view; Telemanagement, is sent to remote port by the byte data of compression by Socket port;
Specifically comprise the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate;
Described server end in order to from collection terminal receiving video data, and waits for the connection request of client, is transferred to monitoring client in real time; The handling process of server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate;
Described video monitoring end, in order to receive the video data transmitted from server end, creates and monitors socket, opens video monitoring service, and being carried out decoding and create bitmap by the video data that server end transmits shows; The handling process of video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
A kind of Active Eyes, described system comprises: video acquisition end, server end and video monitoring end, and described server end connects video acquisition end, video monitoring end respectively;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal.
As a preferred embodiment of the present invention, by the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again.
As a preferred embodiment of the present invention, video acquisition end is in order to initialization camera device, create listen socket Socket, unlatching video monitoring is served, real-time seizure image information also sends connection request to server end, just starts to send video compression image information to it with server end after being successfully connected; After mobile phone collection client opens operation first, need to add remote monitoring host ip, in conjunction with default network port numbers to realize being connected with the network service of main frame; The handling process of video acquisition end comprises: initialization camera module, needs the frame number arranging picture size, transmission each second, and the form of picture; Connect socket to arrange, create the Socket being connected to assigning remote main frame, remote port; Data processing, transfers jpg form to by view data; Video shows, and shows picture of finding a view; Telemanagement, is sent to remote port by the byte data of compression by Socket port.
As a preferred embodiment of the present invention, the handling process of video acquisition end specifically comprises:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate.
As a preferred embodiment of the present invention, server end in order to from collection terminal receiving video data, and waits for the connection request of client, is transferred to monitoring client in real time; The handling process of server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate.
As a preferred embodiment of the present invention, video monitoring end, in order to receive the video data transmitted from server end, creates and monitors socket, opens video monitoring service, and being carried out decoding and create bitmap by the video data that server end transmits shows; The handling process of video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
A method for supervising for above-mentioned Active Eyes, described method comprises: the transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal;
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal;
The gatherer process of described video acquisition end specifically comprises the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate;
The handling process of described server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate;
The handling process of described video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
A method for supervising for above-mentioned Active Eyes, the transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal.
Beneficial effect of the present invention is: the Active Eyes that the present invention proposes and method, can improve the convenience of monitoring, be not limited to monitor at fixed-site.
Accompanying drawing explanation
Fig. 1 is the composition schematic diagram of Active Eyes of the present invention.
Fig. 2 is video acquisition end flow chart in the inventive method.
Fig. 3 is server end flow chart in the inventive method.
Fig. 4 is video monitoring end flow chart in the inventive method.
Embodiment
The preferred embodiments of the present invention are described in detail below in conjunction with accompanying drawing.
Embodiment one
The present embodiment introduces the present invention for Android intelligent, the present embodiment discloses a kind of video monitoring system based on Android intelligent, system video collection terminal utilizes Android intelligent to gather video, do not need fixing camera, this just makes to gather more flexibly, acquisition range is larger, and cost is lower.Monitoring client user can send monitored instruction at any time, collection terminal user according to monitoring client demand fast, locating and monitoring target neatly, in real time by video information transmission to monitoring client, meet the demand that monitoring client user makes a policy fast.System all adopts mobile device in video acquisition end and monitoring client; Consider the restriction of mobile device rate capacities, first mobile device collection terminal frame data are uploaded onto the server, synchronously the frame image data that server receives is transferred to mobile device monitoring client and shows.
Refer to Fig. 1, present invention is disclosed a kind of Active Eyes, described system comprises: video acquisition end, server end and video monitoring end, and described server end connects video acquisition end, video monitoring end respectively.
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal.
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again.
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal.
Described video acquisition end is in order to initialization camera device, create listen socket Socket, unlatching video monitoring is served, and catches image information in real time and sends connection request to server end, just starts to send video compression image information to it with server end after being successfully connected; After mobile phone collection client opens operation first, need to add remote monitoring host ip, in conjunction with default network port numbers to realize being connected with the network service of main frame; The handling process of video acquisition end comprises: initialization camera module, needs the frame number arranging picture size, transmission each second, and the form of picture; Connect socket to arrange, create the Socket being connected to assigning remote main frame, remote port; Data processing, transfers jpg form to by view data; Video shows, and shows picture of finding a view; Telemanagement, is sent to remote port by the byte data of compression by Socket port.
Refer to Fig. 2, the gatherer process of video acquisition end specifically comprises the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate.
Described server end in order to from collection terminal receiving video data, and waits for the connection request of client, is transferred to monitoring client in real time.Refer to Fig. 3, the handling process of server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate;
Described video monitoring end, in order to receive the video data transmitted from server end, creates and monitors socket, opens video monitoring service, and being carried out decoding and create bitmap by the video data that server end transmits shows.Refer to Fig. 4, the handling process of video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
Embodiment two
A method for supervising for above-mentioned Active Eyes, described method comprises: the transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal.
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again.
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal.
Refer to Fig. 2, the gatherer process of described video acquisition end specifically comprises the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate.
Refer to Fig. 3, the handling process of described server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate.
Refer to Fig. 4, the handling process of described video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
In sum, the Active Eyes that the present invention proposes and method, can improve the convenience of monitoring, be not limited to monitor at fixed-site.
Here description of the invention and application is illustrative, not wants by scope restriction of the present invention in the above-described embodiments.Distortion and the change of embodiment disclosed are here possible, are known for the replacement of embodiment those those of ordinary skill in the art and the various parts of equivalence.Those skilled in the art are noted that when not departing from spirit of the present invention or substantive characteristics, the present invention can in other forms, structure, layout, ratio, and to realize with other assembly, material and parts.When not departing from the scope of the invention and spirit, can other distortion be carried out here to disclosed embodiment and change.
Claims (9)
1. an Active Eyes, is characterized in that, described system comprises: video acquisition end, server end and video monitoring end, and described server end connects video acquisition end, video monitoring end respectively;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal;
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal;
Described video acquisition end is in order to initialization camera device, create listen socket Socket, unlatching video monitoring is served, and catches image information in real time and sends connection request to server end, just starts to send video compression image information to it with server end after being successfully connected; After mobile phone collection client opens operation first, need to add remote monitoring host ip, in conjunction with default network port numbers to realize being connected with the network service of main frame; The handling process of video acquisition end comprises: initialization camera module, needs the frame number arranging picture size, transmission each second, and the form of picture; Connect socket to arrange, create the Socket being connected to assigning remote main frame, remote port; Data processing, transfers jpg form to by view data; Video shows, and shows picture of finding a view; Telemanagement, is sent to remote port by the byte data of compression by Socket port;
Specifically comprise the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate;
Described server end in order to from collection terminal receiving video data, and waits for the connection request of client, is transferred to monitoring client in real time; The handling process of server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate;
Described video monitoring end, in order to receive the video data transmitted from server end, creates and monitors socket, opens video monitoring service, and being carried out decoding and create bitmap by the video data that server end transmits shows; The handling process of video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
2. an Active Eyes, is characterized in that, described system comprises: video acquisition end, server end and video monitoring end, and described server end connects video acquisition end, video monitoring end respectively;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal.
3. Active Eyes according to claim 2, is characterized in that:
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again.
4. Active Eyes according to claim 2, is characterized in that:
Video acquisition end is in order to initialization camera device, create listen socket Socket, unlatching video monitoring is served, and catches image information in real time and sends connection request to server end, just starts to send video compression image information to it with server end after being successfully connected; After mobile phone collection client opens operation first, need to add remote monitoring host ip, in conjunction with default network port numbers to realize being connected with the network service of main frame; The handling process of video acquisition end comprises: initialization camera module, needs the frame number arranging picture size, transmission each second, and the form of picture; Connect socket to arrange, create the Socket being connected to assigning remote main frame, remote port; Data processing, transfers jpg form to by view data; Video shows, and shows picture of finding a view; Telemanagement, is sent to remote port by the byte data of compression by Socket port.
5. Active Eyes according to claim 2, is characterized in that:
The handling process of video acquisition end specifically comprises:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate.
6. Active Eyes according to claim 2, is characterized in that:
Server end in order to from collection terminal receiving video data, and waits for the connection request of client, is transferred to monitoring client in real time; The handling process of server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate.
7. Active Eyes according to claim 2, is characterized in that:
Video monitoring end, in order to receive the video data transmitted from server end, creates and monitors socket, opens video monitoring service, and being carried out decoding and create bitmap by the video data that server end transmits shows; The handling process of video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
8. the method for supervising of the described Active Eyes of one of claim 1 to 7, it is characterized in that, described method comprises: the transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by described video acquisition terminal;
By the video information of the long-range reception mobile phone of server end, mobile phone again RAS end obtains video information; Cell-phone customer terminal sends request transmission of video information by button, server end resolves this order, and invokes application controls another remote handset, triggers some on-the-spot mobile phones mutual with it, carry out video acquisition and be forwarded in server end, video is sent to cell-phone customer terminal by server end again;
The transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal;
The gatherer process of described video acquisition end specifically comprises the steps:
S101, initializes video collection terminal;
S102, video acquisition end carry out video acquisition;
S103, establishment Socket;
S104, to server end send connection request;
S105, judge to connect whether success; If successfully go to step S106, otherwise go to step S104;
S106, startup graphics process thread;
S107, view data is write buffering area;
S108, transmission view data;
S109, judge whether stop monitoring; If then go to step S110, otherwise go to step S107;
S110, closedown socket;
S111, end video thread, terminate;
The handling process of described server end comprises:
S201, establishment receive Socket;
S202, establishment listen to a queue and wait for video acquisition end connection request;
S203, establishment send Socket;
S204, foundation listen to a queue and wait for video monitoring end connection request;
S205, the request of receiver, video collection terminal;
S206, view data is write reception buffer zone;
S207, the request of receiver, video monitoring client;
S208, the view data write of reading reception buffer zone send buffering area;
S209, transmission view data;
S210, judge whether stop monitoring; If then go to step S211, otherwise go to step S206;
S211, closedown socket release reception buffer zone, transmission buffering area, terminate;
The handling process of described video monitoring end comprises:
S301, initializes video equipment;
S302, establishment Socket;
S303, to server end send connection request;
S304, to connect to server end request, judge whether successfully connect; If successfully go to step S305, otherwise go to step S303;
S305, startup graphics process thread;
S306, view data is write buffering area;
S307, drawing image showing;
S308, judge whether stop monitoring; If then go to step S309, otherwise go to step S306;
S309, closedown socket;
S310, end video thread, terminate.
9. a method for supervising for the described Active Eyes of one of claim 1 to 7, is characterized in that, the transmission of video that collects to video server, is carried out encoding and decoding by video server, is then transferred to video monitoring end by video acquisition terminal.
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CN105978955A (en) * | 2016-04-28 | 2016-09-28 | 武汉网幂科技有限公司 | Mobile video synchronization system, method and mobile terminal |
CN106303419A (en) * | 2016-08-15 | 2017-01-04 | 福建星网智慧科技股份有限公司 | A kind of video frequency monitoring method towards wired home |
CN109543653A (en) * | 2018-12-12 | 2019-03-29 | 厦门博聪信息技术有限公司 | A kind of video monitoring security area setting method, system and device |
CN117596362A (en) * | 2023-11-04 | 2024-02-23 | 无锡金乌山集成科技有限公司 | Intelligent comprehensive monitoring system based on big data |
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