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

  • Kapsch says US purchase will have world-wide impact
    June 3, 2014
    Peter Ummenhofer, head of the ITS Business Unit at Kapsch TrafficCom, discusses what the recent acquisition of US ATMS specialist Transdyn will mean for the company and the ITS sector. Even a brief perusal of Kapsch’s portfolio lends credence to the company’s assertion that it is more than ‘just a tolling systems and services supplier’. Over the past few years, the company has added road safety enforcement to its offering with significant commercial vehicle operations capabilities, including weigh in motion
    Read More
  • Automatic signal control to prevent emergency vehicle collisions?
    March 14, 2012
    Field trials under way in Arizona promise eradication of accidents between emergency vehicles at intersections – as part of a national focus on ‘intelligent signal’ infrastructure. Collisions between police cars, ambulances and fire crews as they reach intersections at the same time, with equal priority given by all signals set on red, are as serious as they sound absurd. For emergency teams and those in need of their help, the consequences are dire. The solution could come from application of connected veh
    Read More
  • Bluetooth technology to shorten travel times
    April 20, 2016
    A new traffic app recently launched in Adelaide, South Australia, is helping drivers avoid roadworks and traffic jams with real-time updates. AddInsight taps into more than 400 of Adelaide’s state-of-the-art Bluetooth receivers, which monitor the city’s road network in real-time and broadcasts verbal messages to drivers in about approaching delays through a vehicle’s hands free systems and mobile phones. The free app has been released at a time when the South Australian capital’s road network has been
    Read More
  • Minnesota installs Smart Signal technology
    July 31, 2013
    Minnesota-based Smart Signal Technologies has installed its new iMonitor software on 52 intersections for the Minnesota Department of Transportation (MnDOT) to improve traffic signal performance along the Twin Cities’ congested signalised arterial corridors. Utilising already-installed controllers and detectors, iMonitor enables agencies to gather high resolution real time information to measure and monitor signal and corridor performance and calculate accurate travel times and queue lengths in real time
    Read More

Highlighted Content