Vehicle Gateway sv900

With the continuous advancement of unmanned driving technology, unmanned vehicles have begun to be widely used in various fields such as logistics distribution, environmental cleaning, and patrol monitoring, contributing to more efficient and intelligent urban operations. To ensure the safe and reliable operation of unmanned vehicles, the key lies in selecting an outstanding in-vehicle network communication system.

Against this backdrop, Star-Net Communication has launched the SV900 series of unmanned vehicle gateway products. Integrating 5G/4G networks, virtual private networks, and industrial-grade WiFi, each technical parameter showcases extraordinary capabilities, making it the unparalleled choice for the “intelligent brain” of unmanned vehicles. Today, we will introduce an installation and usage case of SV900 from one of our clients this year.

Recently, we were invited to perform on-site installation and debugging for a newly purchased unmanned sweeping vehicle system of a sanitation company in Fuzhou. This was the first practical application of the SV900 product in this field, giving me a whole new understanding of its performance and reliability.

On February 30th, our colleagues arrived early at the destination, the B District Environmental Service Station. As soon as we got off the car, we were greeted by the futuristic-looking unmanned sweeping vehicle.

The first impression upon entering the vehicle was its spacious interior, providing ample operating space. According to the predetermined plan, we first installed the SV900 gateway mainframe in the designated position on the right side of the carriage. Using multiple fixing holes on the chassis, we securely fastened it with bolts. I couldn’t help but notice that the mainframe featured a robust aluminum extrusion integrated shell, an industrial-grade structural design suitable for harsh environments.

However, we encountered a minor issue when inserting the SIM card. Due to the high temperature that day, the mainframe’s temperature also rose, causing problems with SIM card slot recognition. Fortunately, the SV900’s aluminum extrusion integrated chassis has excellent heat dissipation performance. After slightly improving the ventilation conditions, the card was automatically recognized successfully. This also highlighted SV900’s stringent temperature control and circuit protection design. After three hours of testing, when the sweeping vehicle safely returned to the maintenance station, I checked the SV900’s operation logs. The network connection was very stable, and all data showed everything was normal. This practical application fully verified the outstanding performance and high reliability of the SV900 product. Its meticulously designed aluminum integrated chassis offers excellent protection and heat dissipation performance, with each parameter performing exceptionally well in harsh environments.

After completing the hardware connections, we began the tedious task of configuring network parameters, including network access, APN/VPN, etc., requiring detailed settings for each function of the SV900. Although the workload was significant, thanks to SV900’s support for centralized management and remote web interface operations through the Star Cloud platform, we completed all configurations within a few hours and even upgraded the device software via FOTA, demonstrating convenient and efficient operation.

Once the configuration was ready, the sweeping vehicle officially entered operational testing. From the control display, it was clear that SV900 maintained high-speed mobile network connectivity at all times, seamlessly connecting with environmental sensors. A large amount of perception data was collected in real-time and uploaded to the cloud for analysis. Benefiting from SV900’s powerful computing and storage resources, complex path planning algorithms could be efficiently executed locally, guiding the sweeping vehicle to work orderly and efficiently in the designated area.

During the test, there was a hair-raising moment: a small car accidentally entered the sweeping operation area, nearly colliding with the working sweeping vehicle. At the critical moment, SV900, through cloud analysis and local sensor data, immediately issued a warning, commanding the sweeping vehicle to perform an emergency brake and adjust its course in time, resolving the crisis. Without SV900’s timely response, the consequences could have been unimaginable.

After three hours of testing, when the sweeping vehicle safely returned to the maintenance station, I checked the SV900’s operation logs. The network connection was very stable, and all data showed everything was normal. This practical application fully verified the outstanding performance and high reliability of the SV900 product. Each parameter design performed exceptionally well in harsh environments, with its high-strength industrial-grade protection undoubtedly being the backbone of this product.

I am deeply touched. The SV900 unmanned driving gateway, by integrating top technologies of the 5G era, combines high-speed mobile networks, robust industrial-grade design, and powerful edge computing capabilities, building a strong “neural center” for connected intelligent vehicles. It will undoubtedly become an important force in promoting the implementation of intelligent transportation systems such as unmanned sweeping vehicles and logistics vehicles, contributing significantly to the sustainable development of green cities.