Continuous Infrastructure Monitoring (CIM) on High-Speed Trains

Continuous Infrastructure Monitoring (CIM) On High-Speed In-Service Trains

Railway infrastructure monitoring is cumbersome, disruptive and expensive. Or isn’t it? In partnership with Siemens Mobility Türkiye and DB Systemtechnik GmbH, Turkish State Railways (TCDD) decided to take an innovative approach: Continuous Infrastructure Monitoring (CIM).

A blue high-speed train on the tracks
The CIM-equipped Velaro for Türkiye will be able to conduct comprehensive monitoring at speeds of up to 300 kilometers per hour

Enabled by ASC sensor technology, they are moving from a corrective “find and fix” approach to “predict and prevent”: the proactive identification of future risks by integrating historic with real-time data collected through inertial sensors embedded in high-speed passenger trains.

Railway infrastructure monitoring needs to occur regularly, typically using special machinery that disrupts regular train services. To ensure that any signs of fatigue or other parameters running out of spec are detected early, so that critical infrastructure maintenance can take place timely and avoid costly breakdowns and service disruptions.

Increased Capacity and Ride Comfort

TCDD wishes to maximize both the capacity of its railway network and passenger comfort, while minimizing service disruptions. To that end, the national Turkish operator collaborates with Siemens Mobility Türkiye and German rail infrastructure specialist DB Systemtechnik to equip a high-speed Siemens Velaro train with the latest innovative technologies to conduct all necessary measuring activities continuously in real-time.

Dr. Lars Müller, Head of Testing Services at DB Systemtechnik, said:

“We’ve already been gathering extensive Continuous Infrastructure Monitoring experience on the German railway network. A critical success factor for CIM to deliver valid results is the use of the most robust and stable sensor equipment.”

Dr. Klaus Ulrich Wolter, Senior Engineer Onboard Infrastructure Monitoring at DB Systemtechnik recollects:

“For this very reason, we have been relying on ASC Sensors – and they’ve never let us down. At Deutsche Bahn, we’ve been conducting continuous monitoring from high-speed in-service trains since 2013.”

The ICE trains used typically cover a daily average of 1,500 kilometers; the IC2 double-deck trains around 1,200 km daily. Since 2018, ASC sensors have been in use.

Dr. Klaus Ulrich Wolter continues:

“In five years with almost three million kilometers covered by some of our CIM trains, ASC’s sensors are still running smoothly. It’s that reliability and the cutting-edge expertise of our partners that we are also offering to our customers, in Türkiye as well as around the world.”

Monitoring ‘Where Wheel Meets Track’

The CIM-equipped Velaro for Türkiye, based on an ICE 3M/F high-speed train manufactured for Deutsche Bahn, will be able to conduct comprehensive monitoring at speeds of up to 300 kilometers per hour, and beyond. The sensors used are equally suitable in freight trains, long-distance passenger transport and urban rail systems.

What counts, therefore, are the long-term robustness and stability of all sensors in use.

Wolter explains:

“We need to position the highly sensitive equipment as closely as possible to where the wheel- track interaction happens. To be able to do that and not have to replace sensors every other day, we can only work with the most robust components resisting significant mechanical forces, shocks, noise, temperatures, moisture and more, that keep delivering stable results over the long term.”

For this purpose, diverse ASC accelerometers and gyroscopes have been integrated in tailormade measurement systems.

Renate Bay, Managing Director ASC, explains:

“To capture the most subtle deviations from regular train behaviors, vibrations, noise levels, centrifugal, contact and other forces, in this high-speed environment all our inertial sensors have been embedded directly at the axle box.”

Predicting the Future

Longitudinal height is the most critical track geometry parameter. “It changes more rapidly than other variables of the inner track geometry and is of great influence on operational quality,” states Wolter.

From the values measured by capacitive accelerometers of the ASC OS series, longitudinal heights are determined at intervals of 2 centimeters independent of train speed. The maximum acceptable measurement uncertainty accumulated across sensors, amplifiers, algorithms and other factors is 0.5 millimeters according to EN13848-2.

“Other key parameters that our CIM system keeps monitoring include track twist, calculated from gyroscope signals, as well as dynamic alignment resulting from lateral accelerations,” says Wolter. The latter are also used to assess railroad switches and insulated joints, while ride comfort is another important parameter established from these acceleration forces.

The internal wirings of an ASC sensor
Diverse ASC accelerometers and gyroscopes have been integrated in tailormade measurement systems

In all this, the DB Systemtechnik team needs highly accurate results. “Since once you start determining future maintenance needs, every little inaccuracy widens the window of uncertainty,” says Wolter. This is another reason why DB Systemtechnik partners with ASC, as even the smallest inaccuracies could trigger major uncertainties and, therefore, costs for the customer.

Innovating the Railway Networks

Ride comfort is another critical parameter established from the accelerations measured inside the passenger coaches. It is a key reason for railway operators like TCDD to implement CIM as this will provide consistent data to meaningfully improve passenger travel experience.

Passenger comfort is of particular relevance in Türkiye as several high-speed lines are about to be completed and go into operation shortly. This includes a 1,213-kilometer line connecting the capital Ankara with the cities of Konya and Eskisehir, and another to Istanbul of 533 kilometers.

Like any new train, all newly built rail infrastructure, too, has to pass a wide range of rigorous tests to get certified for public service.

Dr. Jörg Heland, Head of Onboard Infrastructure Monitoring at DB Systemtechnik revealed that:

“The specially configured Velaro with latest sensor technology ‘on board’ will be utilized in the certification testing of these new high- speed rail lines.”

In addition to local standards, they will meet Europe’s stringent Technical Specifications for Interoperability, a set of standards and requirements agreed between EU members, EEA and associated countries to ensure compatible rail transportation across countries.

CIM Reduces Costs

Dipl.-Ing. Yilmaz Tosun, Senior Manager – Business Development & Sales at DB Systemtechnik, highilghts:

“The beauty of Continuous Infrastructure Monitoring is that we’re now able to automatically monitor and proactively evaluate all components along the track, without having to delay or stop other traffic.”

The advantages of moving from corrective to data-driven “predict and prevent” maintenance are compelling.

Dipl.-Ing. Yilmaz Tosun continues:

“To date, we’ve seen cost savings of up to 30 percent compared to the use of dedicated standalone measurement trains – in addition to significantly lower repair and maintenance cost and enhanced operational quality.”

For this approach to unfold the intended impact, DB Systemtechnik is able to fit all necessary measuring equipment onto any train. In addition to ASC’s inertial sensors, this also includes technologies for the monitoring of track bed density, overhead line condition, overall train operation and various perception systems. “Today, the Velaro is not only the fastest, but also the most comprehensive measurement train ready for active service,” Lars Müller is convinced.

Applications are almost endless.

Jörg Heland says:

“Based on the latest technologies and experience gathered with our flexible and reliable partners, we are able to turn nearly any in-service train into a fully equipped, automatic CIM train. To ensure safe, sustainable and productive railway mobility, we believe all infrastructure will be monitored this way in the future.”

This article was originally published by ASC German Sensor Engineering.

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