Pennsylvania state capital trials smart city technology

The US city of Harrisburg, state capital of Pennsylvania, is using smart sensors to monitor traffic, air quality and waste. A Telensa smart street lighting system has been deployed since 2016 in the city, and CA Traffic (traffic analytics), Libelium (air quality) and FarSite (waste monitoring) are now also involved. Data from these sensors is analysed and combined with existing lighting information and displayed in a smart city dashboard. The idea is that this will show “correlations across departmen
April 30, 2019 Read time: 1 min

The US city of Harrisburg, state capital of Pennsylvania, is using smart sensors to monitor traffic, air quality and waste.

A 7574 Telensa smart street lighting system has been deployed since 2016 in the city, and 521 CA Traffic (traffic analytics), 740 Libelium (air quality) and FarSite (waste monitoring) are now also involved.

Data from these sensors is analysed and combined with existing lighting information and displayed in a smart city dashboard. The idea is that this will show “correlations across departments…driving insights for smarter, more efficient and joined-up services”, Telensa says.

The company has 4,000 connected streetlights in Harrisburg, which it says can cut utility bills by 60-70%.

Urban Traffic Control

Related Content

  • June 13, 2016
    Flir launches TrafiOne Smart City Sensor
    Flir Systems is launching the Flir TrafiOne Smart City Sensor, an all-round detection sensor for traffic monitoring and dynamic traffic signal control. Offered in a compact and easy-to-install package, the system uses thermal imaging and Wi-Fi technology to provide traffic engineers with high-resolution data on vehicles, bicycles and pedestrians at intersections and in urban environments. The Flir TrafiOne sensor uses thermal imaging to detect the presence of pedestrians and cyclists who are approaching or
    Read More
  • December 21, 2017
    Communications hold key to expanding ITS wireless network expansion
    Wireless transmission of data and control information is making smarter traffic management easier and cheaper to install. It has long been known that connectivity is the key to improving traffic management and many cost-benefit studies prove that investment in new technology can be justified in terms of reduced congestion, shorter travel times, improved safety and air quality. However, many authorities’ cap-ex budgets only cover urgent matters, not improvements, making it difficult, if not impossible to
    Read More
  • September 26, 2017
    Ohio DOT Selects Inrix and StreetLight Data for on-demand mobility intelligence
    The Ohio Department of Transportation (ODOT) has added analytics and origin-destination to its existing Inrix traffic services to help monitor, measure and manage the state’s road network. As part of the agreement, StreetLight Data will enable ODOT to transform Inrix data into actionable intelligence. Ohio DOT will utilise analytic tools and traffic services from Inrix and StreetLight Data to improve system planning, traffic management and operations in Ohio.
    Read More
  • September 28, 2017
    Inrix identifies the worst traffic hotspots in the 25 most congested US cities
    Inrix has published its latest research on the worst traffic hotspots in America. Using Inrix Roadway Analytics, a cloud-based traffic analysis tool, Inrix analysed and ranked more than 100,000 traffic hotspots in the 25 most congested US cities. The economic cost of hotspots was also calculated in terms of wasted time, lost fuel and carbon emissions over the next decade. The research identified and ranked 108,000 traffic hotspots in the 25 most congested cities in the US identified by the INRIX Global T
    Read More

Highlighted Content