The RAILS project investigated the next big step in conveying info to train crew and passengers, focusing on two main challenges: how to make mobile connectivity between trains and the wayside more scalable and reliable, and how to overcome the challenges (i.e. increased latency or bandwidth limitations) that are linked to deploying crew and passenger apps in a railway environment.
The RAILS project built on the outcomes of a previous ICON project, TRACK, which investigated how larger files can reliably be transferred between trains and the wayside; in real-time, over a wireless access network, and making maximum use of the available bandwidth.
Outcomes of the RAILS project included
A decentralized framework for optimal scalability and reliability
The successful decentralization of the TRACK framework was an important realization in order to guarantee the system’s scalability and reliability. The RAILS team succeeded in making sure, for instance, that any node failure is automatically compensated for – ensuring full reliability even when things go wrong.
Femtocells improve onboard connectivity, and reduce passengers’ exposure to electromagnetic radiation
The RAILS project has shown that femtocell technology holds the promise of significantly improving onboard mobile connectivity – which is a must for crew and passenger apps to work properly. Moreover, with increasing attention being paid to public radiation levels, the RAILS project found that the use of femtocells can decrease passengers’ exposure to electromagnetic radiation by up to 60%.
App-based crew and passenger information systems come with their share of challenges
While apps are clearly the next step for onboard crew and passenger information systems, they come with their share of challenges: latency, for instance, is an important barrier to the use of security apps; limited availability of wireless bandwidth is a hurdle for the adoption of onboard video streaming services. That is why the RAILS team looked quite extensively into dynamic bandwidth allocation and low-latency dynamics.
Railway Applications Integration and Long-term Networks.
RAILS (Railway Applications Integration and Long-term networkS) is een imec ICON onderzoeksproject, gefinancierd door imec.
Het startte op 01.01.2012 en liep tot 31.12.2013.Download as pdf
- Televic Group
- NMBS (B-RAIL)
- imec - IBCN - UGent
- imec - Data Science Lab - UGent
- imec - MOSAIC - UAntwerpen
- imec - WAVES - UGent
- imec - ETRO - VUB
- Project lead: Dirk Van Den Wouwer
- Research lead: Bruno Volckaert