Metro Warsaw | Poland
train-detectionPoland

Metro Warsaw | Poland

Operator
Metro Warsaw
Country
Poland
Partner
Rail-Mil
Segment
Urban
Application
Track Vacancy Detection
Year
2015
Scope of project
approx. 700 wheel sensors installed
Download

Metro Warsaw was looking for an alternative to track circuits for the line M2, to increase the availability of public transport by using reliable signalling technology. In the end, the operator even decided to replace the existing track circuits on line M1 with the Frauscher Axle Counter ACS2000.

The Warsaw Metro currently consists of two lines, with a third one planned. Urban lines are characteristically exposed to high traffic density, therefore the operator was looking for a solution which allows trouble-free operation for line M2. Keeping maintenance windows at a minimum was another requirement to the signalling technology.

To meet these expectations, the Frauscher Axle Counter ACS2000 with wheel sensor RSR180 has been implemented by Rail-Mil. The advantage of this system is the quick and efficient integration into existing signalling technology systems as it provides widely used hardware interfaces.

In combination with comprehensive diagnostic possibilities, the whole solution ensures reliable operation and cost-effective maintenance.

After years of successful implementation, Warsaw Metro decided to use the ACS2000 on further projects and even replaced existing track circuit installations on line M1. This project proves that modern axle counters are a key solution for future-oriented and sustainable rail systems.

Tried and tested technology

The highly reliable RSR180 has undergone continual development over more than 30 years. It is resistant to disturbances caused by magnetic rail brakes and can be used in grooved rails.

Easy configuration and efficient integration

The ACS2000 allows easy configuration via widely used hardware interfaces and is therefore efficiently integrated into existing signalling technology systems.

Similar Projects
This might also interest you
1/5
train-detectionUnited States of America

Reducing Delays in a Metro (subway) Environment | USA

A large metro operator was researching ways to reduce bottlenecks that were causing significant delays at a busy station. With two routes dividing in close proximity to the station and a complex auto-routing system that required the use of a 30-second timer to release switches, trains would frequently back up when approaching the station.
Learn More
train-detectionUnited Kingdom of Great Britain and Northern Ireland

Wherry Lines | UK

The Wherry Lines are railway branch lines in East Anglia in the East of England, linking Norwich – Great Yarmouth – Lowestoft. The project aimed to integrate Frauscher Advanced Counter FAdC into two external systems to mitigate against a train passing a red signal without authority on approach to level crossings.
Learn More
train-detectionCanada

Edmonton Metro Line | Canada

The Edmonton Metro Line was experiencing significant issues with its newly installed Communications Based Train Control (CBTC) signalling system, which did not perform to the operator‘s expectations. The city was forced to run an incomplete schedule with reduced train speed and frequency which negatively affected commuters and the city of Edmonton in general. Finally in 2019, the operator decided to install a new system in cooperation with Frauscher.
Learn More
train-detectionTaiwan

Shalun Signaling | Taiwan

The Shalun Line is frequented by four-car-trains and located in the south of Taiwan. Tropical conditions with temperatures between 22 and 28 degrees and high humidity are not the only challenge the Frauscher Axle Counter Solution has to deal with.
Learn More
train-detectionCanada

Toronto Transit Commission | Canada

The Toronto Transit Commission (TTC) Line 1 Yonge-University is Toronto’s longest subway line, with track circuits utilized for signalling. Due to an increasing number of daily passengers and an aged system the need for upgrading without interfering with the daily operations became readily apparent. It was further required that the new signalling system functions independently of the existing system. It would provide CBTC fallback functionalities, and work as an overlay to the current track circuit-based system.
Learn More