Luoyang Golden Egret Geotools Co., Ltd , https://www.xtchvaf.com
In the current explosion-proof video surveillance market, explosion-proof high-definition video surveillance has become a mainstream trend, but the major problems faced by explosion-proof high-definition video surveillance are also extremely difficult to solve. In terms of transmission and storage, system integrators can solve them through high-cost investment; display and management require high-definition manufacturers to spend some effort to improve the underlying software and hardware; in the improvement of night vision, the investment is relatively less It is also the solution that is the easiest to increase user satisfaction. Compared with standard-definition video surveillance, the advantages of high-definition network monitoring are obvious. However, through the marketing promotion in recent years, the following five major problems will be encountered in the popularization of explosion-proof high-definition video surveillance. Let's take a look at these five major problems and their solutions with the World Science and Technology!
1, transmission problems:
Explosion-proof HD network cameras generally use 720P or 1080P solutions. If you want to achieve the desired image effect, you need 2-8M network bandwidth. If there are hundreds of points in a system, the data flow of the entire network will be quite Large, and the video stream is a real-time data stream, which will continue to put continuous pressure on the network-related switching equipment, which requires sufficient homework in network planning. At present, due to the continuous reduction of fiber optic cable costs, local area networks can fully use optical fiber plus high-performance switches to form a high-speed network. With the popularity of broadband networks, the light-forward copper retreat eventually brought us cheap high-speed Internet. It is not too long for the remote to perform explosion-proof HD video image transmission.
2, storage problems:
Transmission refers to the huge problem of data flow. If data is aggregated to the center or stored by various nodes, the pressure on the central entrance bandwidth and the storage capacity are a big challenge. At present, only heavy investment can be made in IPSAN and storage media. IPSAN adopts embedded architecture most, and there are many plug-in boards, which have high stability, but the disadvantage is that the compatibility is poor, and the secondary development is not flexible. Most of the NVR products on the market are based on the X86 architecture, that is, the server plus the array card, the application software, the server and the disk array are combined in one, and the compatibility is better. If you use IPSAN, the storage medium needs an enterprise-class hard disk, so that you can take advantage of IPSAN's data storage speed and security. For some small and medium-sized systems, if the storage time is not required to be too long, and the security requirements of the data are not too high, it is completely possible to use the mainstream server on the market to complete the storage function.
3, night vision problems:
In the case of plenty of daylight, it is very easy to achieve high definition. Once the application is weak or requires nighttime monitoring, HD becomes a hero's useless. Since most of the explosion-proof high-definition cameras use CMOS sensors, their sensitivity to light is low. If they do not match the infrared fill light, it will be dark at night, and most of the time to prevent the explosion-proof monitoring is at night. This will make the explosion-proof HD video system with high expectations become a display. At present, Shiguo Technology can provide infrared fill light scheme, IRCUT technology and low illumination chip in night vision.
4. Display aspect:
Many explosion-proof monitoring manufacturers only pay attention to the pixels of the front-end explosion-proof camera, but have not developed corresponding explosion-proof high-definition video decoders. They can only watch high-definition images around the screen of the PC, and cannot separate HD images. Displayed on the big screen. For the video wall on the high-definition screen, a high-definition decoder has been developed on the market, and the high-definition graphics transmitted from the front end are effectively restored, and connected to the high-definition input interface of the large screen, and the high-definition picture is perfectly displayed on the screen.
5. Management:
Many high-definition manufacturers still use the traditional analog explosion-proof camera to do explosion-proof high-definition cameras, buy off-the-shelf hardware solutions, use third-party MPEG4 standard algorithms, just provide a network interface, simply carry out digitalization, as for the back platform Managing the hardware and data flow of the camera is impossible because it does not have the underlying core algorithms and techniques. Whenever possible, choose a front-end device with a rich hardware interface, such as alarm, SD card, intercom, audio, 485, etc. In the project plan, you can flexibly combine according to the requirements of Party A, without having to separately customize the function. Software must have multiple access methods, such as WEB, client, large platform, etc., can provide SDK development kits, and can be flexibly connected with third-party software. Functional modules should be as complete as possible, such as alarms, streaming media, storage services, etc., and can be used directly in the project. Behind our enthusiasm for explosion-proof HD products, we should be more calm to analyze the above-mentioned practical problems, how to solve each problem, which is a problem that many explosion-proof monitoring manufacturers need to consider.