Actelis Networks, Inc. announced that it has received a significant order valued at $260,000 to modernize the traffic systems in a major Mid-Atlantic county in the United States. This project continues Actelis' momentum in the intelligent transportation space, following its previous announced wins in Washington, DC, Bakersfield, CA, and Italy, for a national transportation infrastructure project. The County, home to over 1 million residents and numerous US government offices, research centers, and major corporations, plays a pivotal role in the region.

Efficient traffic management is essential for maintaining the County's thriving economy and accommodating its significant visitor influx. The County is responsible for maintaining thousands of lane miles as well as hundreds of managed traffic signals and safety cameras. Actelis' innovative hybrid-fiber networking solution provides immediate fiber-grade connectivity over the County's existing fiber/copper network infrastructure.

By leveraging Actelis' advanced Ethernet aggregators and access devices (EADs), the County can efficiently manage traffic signals and camera systems at intersections, ensuring seamless control and enhanced operational efficiency. Actelis' solution addresses the County's key priorities, including: Safety and vision zero: The County has put resources in place to eliminate serious and fatal collisions by the end of 2030. By enabling fiber-grade connectivity at traffic intersections, County staff is able to monitor traffic flow and configure signal timing to ensure safety for vehicles, bicycles, and pedestrians.

Environment and climate resiliency: The County has one of the nation's most aggressive climate action plans. Actelis' solution helps traffic flow more freely, reducing vehicle emissions caused by unnecessary traffic cameras. Economic development and Equitable Access: By extending the lifespan of the existing network infrastructure, Actelis allows the County to allocate resources to other critical areas, promoting economic growth and equity access.