UC:IS:IntegratedTMS

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Note.png This page is mirrored from page UC:IS:IntegratedTMS in The railML® 3 wiki.
Integrated Traffic Management System
(ITMS)
Subschema: Infrastructure
 
Related subschemas: IL TT 
Reported by: Bombardier
Stift.png                   (version(s) 2.4)
For general information on use cases see UC:Use cases


Use case / Anwendungsfall / Scénario d’utilisation

Integrated Traffic Management System

Description / Beschreibung / Description

The purpose of a TMS is to optimize rail traffic flow by providing decision support to dispatchers as well as automated functions. Typical tasks of TMS are automatic route setting, real time train graph display, conflict detection, conflict resolution and traffic regulation. For the completeness of the use case, traditional CTC functions are here also considered as part of TMS, i.e. real time track layout display, train describer tracking and command interface for route setting and wayside object control.

This use case aims to cover all data exchange necessary for the functions listed above. A major difference to previous railML use cases is that this includes also real time data, such as positions of trains and states of wayside objects. Hence, the target is not only a static railML file, but also on line data exchange, e.g. by messaging or web services.

Data Flows and Interfaces / Datenflüsse und Schnittstellen / Flux de données et interfaces

Need to make some drawing here. Main interfaces for TMS is CCS (i.e. IL and RBC), timetable planning system and (optionally) fleet management system.

Macroscopic view on infrastructure data flows between TMS sub-systems
Macroscopic view on timetable data flows between TMS sub-systems
Macroscopic view on interlocking data flows between TMS sub-systems


Interference with other railML® schemas / Interferenz mit anderen railML®-Schemen / Interaction avec autres schemas railML®

  • IL
  • IS
  • TT

Characterizing Data / Charakterisierung der Daten / Caractérisation des données

How often do the data change (update)?

  • tbd

How big are the data fragments to be exchanged (complexity)?

  • tbd

Which views are represented by the data (focus)?

  • tbd

Which specific data do you expect to receive/send (elements)?

tbd