By leveraging cutting-edge technology, B297 Göppingen implemented temporary LED Variable Message Signs (VMS) units with advanced features to manage congestion, variable speed detection, re-routing, and more. This case study explores how the city successfully improved traffic flow through the innovative use of temporary LED-VMS units, highlighting the unique features and benefits of this solution.
The Challenge
B297 Göppingen faced significant traffic congestion issues, leading to delays, frustration among commuters, and compromised road safety. The city needed a solution that could efficiently manage traffic flow, provide real-time information to drivers, and adapt to changing conditions swiftly.
The Solution: Temporary LED-VMS Units
B297 Göppingen collaborated with a leading technology provider to deploy temporary LED-VMS units specifically designed for advanced traffic management applications. These units offered best-in-class energy capabilities and reduced installation time on-site, ensuring a seamless implementation process. The LED VMS units consisted of essential components, including a foundation, telescopic mast, LED display, solar panels, energy system, and communication device. Notably, the assembly was streamlined, involving crane installation in the folded transport position and extension with a battery screwdriver, eliminating the need for extensive on-site cabling work.
Innovative Energy System
One of the standout features of the LED-VMS units was the innovative energy system, comprising only three key components: a pair of solar modules (2x 415 W), a power storage unit, and a smart solar controller. The saddle-shaped arrangement of the solar modules allowed for an east-west orientation, ensuring consistent energy generation throughout the day. This strategic alignment, coupled with the modules' 360° rotatability and a 45° tilt angle, facilitated self-cleaning, reducing maintenance costs significantly. The efficient energy system eliminated the need for frequent battery changes, enhancing the overall sustainability of the solution.
Customization for Special Requirements
B297 Göppingen's LED-VMS units were tailored to meet the city's specific requirements. The implementation involved a specialized LED variable message sign and a solar module construction designed to address unique challenges. Live operation software with basic functions was integrated, ensuring real-time monitoring and control.
Conclusion
B297 Göppingen's strategic decision to implement temporary LED-VMS units with innovative energy systems and customization for special requirements significantly improved traffic flow, road safety, and overall urban mobility. By embracing cutting-edge technology and sustainable solutions, the city set a precedent for intelligent traffic management, showcasing the potential for transformative change in urban environments. This case study serves as a testament to the power of innovation and collaboration in addressing complex urban challenges, paving the way for smarter, safer, and more efficient cities worldwide.
