High-speed enforcement

German company Traffic Data Systems says its OIML-R134-1 certified low- and high-speed weigh-in-motion system uses three rows of OIML-certified Lineas sensors and is a legally accepted WIM product for enforcement (WIM-E) and tolling applications (WIM-T) to be used on all kinds of roads. For heavy goods vehicles the system can cope with speeds between five to 120km/h while for light goods vehicles the upper limit is 140km/h. Certification has been carried out by the Federal Institute of Metrology METAS (
November 9, 2017 Read time: 2 mins
German company 4592 Traffic Data Systems says its OIML-R134-1 certified low- and high-speed weigh-in-motion system uses three rows of OIML-certified Lineas sensors and is a legally accepted WIM product for enforcement (WIM-E) and tolling applications (WIM-T) to be used on all kinds of roads. For heavy goods vehicles the system can cope with speeds between five to 120km/h while for light goods vehicles the upper limit is 140km/h.


Certification has been carried out by the Federal Institute of Metrology METAS (Switzerland) which recorded accuracies of ±5% (initial verification) and ±10% (in-service inspection) in accordance with OIML R134 have been achieved. METAS supervised the certification process requiring more than 500 test runs with different vehicles, speeds and loads. According to Traffic Data Systems, while the results appear to be less accurate than other systems on the market, those results did not follow OIML R134 or cover speeds up to 140 km/h.

Classification & Data Collection

For more information on companies in this article

Related Content

  • Inertial sensors dramatically improve GNSS for ITS applications
    January 18, 2012
    Phil Harris, Thales UK, on how fused sensor data can significantly enhance GNSS-based positioning systems' performance in urban areas. Global Navigation Satellite System (GNSS)-based positioning is unique among available positioning technology due to its universal coverage and low equipment cost. By measuring the distances between an unknown position (such as a vehicle), and at least three known positions (GPS satellites), the unknown position can be calculated in three dimensions (latitude, longitude, and
    Read More
  • Dual purpose for new weigh-in-motion site
    October 13, 2014
    A new weigh-in-motion weighbridge is being installed on State Highway 1 at the Rakaia Bridge to support the introduction of high productivity motor vehicles (HPMV) on this key South Island, New Zealand, freight route. The HPMV system allows vehicles carrying a divisible load of essential goods to weigh more than the official 44 metric tonnes without a permit, but only on specified routes.
    Read More
  • CRASH Predicts ‘unpredictable’ in traffic incidents
    November 11, 2015
    Road crashes are not as random as they may appear and analysing data can reveal patterns that can help various authorities target their resources more accurately. David Crawford reports. Figures from the US National Highway Traffic Safety Administration (NHTSA) show that in 2013 there were 32,719 people killed on American roads and 2.31 million injured. While these form part of an overall 25% drop over the decade from 2004, US Transportation Secretary Anthony Foxx continues to stress that reaching the procl
    Read More
  • Intersection management, cooperative infrastructures - what next?
    February 1, 2012
    What do recent vehicle recalls mean for future cooperative infrastructures? Anthony Smith takes a look. As ITS industry stakeholders converge on Amsterdam for the 2010 Cooperative Mobility Showcase, an unprecedentedly wide range of technologies will be on display demonstrating what might be achievable in the future from innovations based on Vehicle-to-Vehicle (V2V) and Vehicle-to-Infrastructure (V2I) communications.
    Read More

Highlighted Content