Siemens SCOOT improves travel times in Ann Arbor

Siemens real-time traffic control system, SCOOT (Split Cycle Offset Optimisation Technique), has reduced Ann Arbor, Michigan’s weekday travel times along the Ellsworth Corridor by 12 percent and weekend travel time by 21 percent, according to the company. Based on these results, the city has decided to operate all downtown intersections with SCOOT technology in the upcoming year. The Siemens SCOOT technology takes an adaptive approach to traffic management, allowing sensors at an intersection to detect v
March 6, 2017 Read time: 1 min
189 Siemens real-time traffic control system, SCOOT (Split Cycle Offset Optimisation Technique), has reduced Ann Arbor, Michigan’s weekday travel times along the Ellsworth Corridor by 12 percent and weekend travel time by 21 percent, according to the company. Based on these results, the city has decided to operate all downtown intersections with SCOOT technology in the upcoming year.

The Siemens SCOOT technology takes an adaptive approach to traffic management, allowing sensors at an intersection to detect vehicle volumes and communicate with the city’s control centre and signals to change traffic patterns in real-time.

In addition to improving traffic flow, the SCOOT system also helps Ann Arbor enhance its operations. According to officials, the system optimises traffic flow and does so reliably utilising automatic monitoring systems.

Urban Traffic Control

For more information on companies in this article

Related Content

  • UK drivers get real time traffic information boost
    August 9, 2012
    The UK Highways Agency is trialling a system to add commercially available traffic data to its existing sources to monitor how well traffic is flowing on England's motorways and strategic roads. Similar data sources are already used by satellite navigation devices, smartphones, and applications like Google maps. Better real-time data will allow agency staff to respond more quickly to incidents and identify delays and communicate them to drivers so they can take alternative routes if necessary.
    Read More
  • Cubic’s cross-mode collaboration
    October 13, 2020
    The State of Yucatán saw the increasing need to build its transportation management infrastructure to aid Mérida’s quest to join the next generation of smart cities. Private vehicle traffic and bus transit are major components of Mérida’s transportation network and they realised the importance of giving transit signal priority and real-time passenger information to improve the traveller experience.
    Read More
  • French city chooses HIKOB wireless traffic management
    June 15, 2016
    French wireless technology specialist HIKOB is to supply the city of Troyes, France, with wireless vehicle detection and weather monitoring systems to optimise traffic signal control and road winter service operations, replacing the old in-ground loop detection system. HIKOB says its sensors offer a dual functionality: they can be configured to collect either traffic data or road surface to power both advanced urban traffic management and road weather monitoring. HIKOB wireless sensors for vehicle det
    Read More
  • New technology revolution in urban traffic control?
    January 26, 2012
    Urban traffic control is a well-defined and practised art. Nevertheless, there are technologies here and on the horizon with the potential to revolutionise how we do things. By Gavin Jackman and Andrew Kirkham, TRL, and Jason Barnes. Distributed monitoring and control of urban traffic networks and flows is nothing new. PC-based Urban Traffic Control (UTC) is now well established and operating in many locations around the world. However, it is worth considering the effects of the huge growth in the use of sm
    Read More

Highlighted Content