Computers in Railways: v. 12

Contents Section 1: Advanced train control Design, development, application, safety assessment and simulation of the railway signaling system; Research on the simulation of an Automatic Train over speed Protection driver-machine interface based on Model Driven Architecture; A framework for modeling train control systems based on agent and cellular automata; A new train GPS positioning algorithm in satellite incomplete condition based on optimization and the digital track map; Simulation of a high-speed train control system based on High Level Architecture and its credibility analysis; Research on a hybrid map matching algorithm for Global Navigation Satellite System based train positioning; Automated system testing of an automatic train protection system; Design and implementation of a distributed railway signalling simulator; Train tracking problem using a hybrid system model; Latent energy savings due to the innovative use of advisory speeds to avoid occupation conflicts Section 2: Traffic control and safety of high-speed railways in Asia Special session organised by N. Tomii How the punctuality of the Shinkansen has been achieved; Linkage of a conventional line dispatch system with the Shinkansen dispatch system; Train scheduling of Shinkansen and relationship to reliable train operation; Rescue operations on dedicated high speed railway lines; Track measurement by Kyushu Shinkansen cars in commercial service; Development of a high-speed overhead contact line measurement device for the Kyushu Shinkansen; The analysis of train reliability for the Taiwan High Speed Rail Section 3: Communications Development of a railway signaling device based on mixed digital and analog signals using digital signal processors; A multi scalable model based on a connexity graph representation; Universal communication infrastructure for locomotives Section 4: Computer techniques Research on a novel train positioning method with a single image; Software redundancy design for a Human-Machine Interface in railway vehicles; Study on the method of traction motor load simulation on railway vehicles; Formalizing train control language: automating analysis of train stations; Design and operation assessment of railway stations using passenger simulation; Modeling of an interoperability test bench for the on-board system of a train control system based on Colored Petri Nets Section 5: Planning How regular is a regular-interval timetable? From theory to application; Port Hinterland traffic: modern planning IT methods; Generating optimal signal positions; A method for the improvement need definition of large, single-track rail network analysis and infrastructure using Rail Traffic System AnalysisA"; Automatic location-finding of train crew using GSM technology; Alignment analysis of urban railways based on passenger travel demand; Maintenance plan optimization for a train fleet; SAT.engine: automated planning and validation tools for modern train control systems; Case studies in planning crew members; Generating and optimizing strategies for the migration of the European Train Control System; Synthesis of railway infrastructure; Dimensioning of a railway station for unknown operation; The simulation of passengers' time-space characteristics using ticket sales records with insufficient data; Headway generation with ROBERTO; Development and implementation of new principles and systems for train traffic control in Sweden Section 6: Maglev and high speed railways A model for the coordination between high-speed railway lines and conventional rail lines in a railway passenger transportation corridor; Derivation of the safety requirements for control systems based on the interoperability property of the Maglev train; Dynamic characteristics modelling and adaptability research of the balise transmission module in high speed railways Section 7: Metro and other transit systems CBTC test simulation bench; Development of the new CBTC system simulation and performance analysis; Efficient design of Automatic Train Operation speed profiles with on board energy storage devices; Research on the load spectrum distribution and structure optimization of locomotive traction seats; Generation of emergency scheme for urban rail transit by case-based reasoning; Application and perspectives for interoperable systems in Italy and Europe Section 8: Energy supply and consumption A method to optimise train energy consumption combining manual energy efficient driving and scheduling; Driving equipment with three-phase inverters and asynchronous traction motors for trolleys and trams; Development, testing and implementation of the pantograph damage assessment system (PANDAS) Section 9: Dynamics and wheel/rail interface Strategies for less motion sickness on tilting trains; Railway vehicle and bridge interaction: some approaches and applications; Certain aspects of the CEN standard for the evaluation of ride comfort for rail passengers; Latest development on the simulation of rolling contact fatigue crack growth in rails Section 10: Operations quality Disruption handling in large railway networks; A multi-stage linear prediction model for the irregularity of the longitudinal level over unit railway sections; Systematic analyses of train run deviations from the timetable; A novel peak power demand reduction strategy under a moving block signalling system Section 11: Monitoring and maintenance Development of an ES2-type point machine (monitoring of point machine); A heuristic approach to railway track maintenance scheduling; Track test monitoring system using a multipurpose experimental train Section 12: Safety and security Verification of quantitative requirements for GNSS-based railway applications; Modelling and design of the formal approach for generating test sequences of ETCS level 2 based on the CPN; The experimental evaluation of the EGNOS safety-of-life services for railway signalling; System safety property-oriented test sequences generating method based on model checking; Scenario-based modeling and verification of system requirement specification for the European Train Control System; ROSA - a computer based safety model for European railways; An IP network-based signal control system for automatic block signal and its functional enhancement; The improvement of the safety-case process in practice: from problems and a promising approach to highly automated safety case guidance; State-based risk frequency estimation of a rail traffic signal system; Use of model transformation for the formal analysis of railway interlocking models; A model-based framework for the safety analysis of computer-based railway signalling systems; A scenario-based safety argumentation for CBTC safety case architecture; The cost benefit analysis of level crossing safety measures; Proposal of the standard-based method for communication safety enhancement in railway signalling systems Section 13: Timetable planning A heuristic algorithm for the circulation plan of railway electrical motor units; Working out an incomplete cyclic train timetable for high-speed railways by computer; A novel research on the relation between the number of passengers and the braking distance of a metro; Computation and evaluation of scheduled waiting time for railway networks; Computation of a suburban night train timetable based on key performance indicators; A cooperative strategy framework of train rescheduling for portal junctions leading into bottleneck sections; Circle rail transit line timetable scheduling using Rail TPM; A simulation analysis of train rescheduling strategies on Chinese passenger dedicated lines; An efficient MIP model for locomotive routing and scheduling; Timetable attractiveness parameters