With the continuous development of Intelligent Transportation System (ITS, Intelligent Transportation System), traffic monitoring has gradually from the traditional video surveillance to a more intelligent, automated direction. Through cameras, sensors, radar, and a variety of data acquisition equipment, traffic monitoring systems can collect real-time traffic flow, speed, traffic accidents, and other information, and provide data support for traffic management, emergency response, road optimization, and so on.

Traditional traffic monitoring solutions often have a lack of computing power, space and power consumption limitations, high temperature poor adaptability to harsh environments, and many other pain points.

Traditional industrial motherboards or embedded devices are often not capable of handling high-resolution video streams and complex algorithms, resulting in slow system response or untimely results, affecting the real-time and accuracy of the system.

Traffic monitoring system hardware devices usually need to be deployed in a limited space, excessive size or high power consumption will affect the deployment of the system flexibility and energy efficiency.

Traffic monitoring devices are often deployed outdoors or in transportation hubs, facing harsh environments such as high temperatures, humidity, and dust.

In a large city's traffic monitoring system, devices using Advantech AIMB-292 motherboards are deployed at traffic hubs, intersections, and important roadways. The system carries out real-time processing and analysis of video data, vehicle identification, license plate recognition, and traffic flow monitoring through the AIMB-292 motherboard. Through intelligent algorithms, the system is able to automatically identify traffic violations, traffic accidents, and other abnormalities, and send real-time alert information to the traffic management department to improve the efficiency of emergency response.

The system also supports high-resolution 4K video stream processing, ensuring clear image quality and the ability to accurately capture traffic details. All data is processed and analyzed locally through the AIMB-292 motherboard, reducing reliance on remote servers and improving data processing speed and responsiveness.

Powerful Arithmetic Support

The Advantech AIMB-292 is equipped with Intel 12th/13th/14th generation Core i series processors with powerful data processing capabilities. The NVIDIA Quadro embedded-grade A4500 MXM graphics card is able to efficiently support computationally-intensive tasks such as image processing, video analysis, license plate recognition, traffic counting, and so on, in the traffic monitoring system. The A4500 MXM graphics card can efficiently support image processing, video analysis, license plate recognition, traffic statistics, and other computationally intensive tasks in traffic monitoring systems. With its high-performance CPU and GPU support, AIMB-292's overall arithmetic power reaches 17.66 TFlOPS, enabling it to process high-resolution real-time video streams, perform deep learning analysis, and quickly respond to unexpected events, improving the intelligence of the entire system.

High Reliability and Environmental Adaptability

The Advantech AIMB-292 has excellent industrial-grade stability and is designed to meet the requirements of harsh operating environments. Advantech's unique heat dissipation design ensures that the device can perform stably. Whether it is high temperature, humidity, dust, or vibration, the AIMB-292 ensures the long-term stable operation of traffic monitoring equipment, which greatly improves the reliability and durability of the equipment and reduces maintenance costs.

In addition, the motherboard also has the ability to resist electromagnetic interference, ensuring stable operation in complex traffic monitoring environments, especially for complex monitoring scenarios such as traffic hubs and along roads.

Efficient Interface and Expandability

AIMB-292 has a wealth of I/O interfaces, including multiple USB ports, serial ports, Ethernet ports, display output interfaces, etc., which facilitate seamless connection with various sensors, cameras, radars, and other surveillance devices. The flexible configuration of these interfaces enables AIMB-292 to meet the customization requirements of different surveillance needs, facilitating system expansion and upgrade.

In addition, the AIMB-292 also supports a multi-display output function, which allows for easy connection of multiple display devices and supports the deployment of large-scale surveillance scenarios.

Optimized Power Consumption and Space Saving

The Advantech AIMB-292 has been carefully designed in terms of power consumption and size to provide excellent computing performance with lower power consumption. In a space-constrained surveillance equipment enclosure, the compact design of the AIMB-292 can fully utilize the limited space to provide the required computing resources and interface support, ensuring that the equipment can run efficiently and stably for a long period of time and reduce energy consumption.

Professional Technical Support and Services

Advantech provides comprehensive technical support and customization services for AIMB-292, which can help customers to deeply integrate and optimize hardware and software according to specific application requirements. Traffic monitoring systems often have strong industry characteristics, Advantech's rich experience in the transportation industry can help customers quickly solve problems and ensure system stability and reliability.

The Advantech AIMB-292 industrial motherboard is the ideal choice for traffic monitoring systems due to its powerful arithmetic, high stability, flexible interface configuration, and excellent power consumption management. Whether it is high-performance image processing or stable operation in harsh environments, AIMB-292 meets the stringent hardware requirements of modern intelligent traffic monitoring systems, improves the efficiency of traffic management, reduces operation and maintenance costs, and makes a positive contribution to the construction of smart cities.