Conference Topics and Scope

Environment Friendly and Energy Sparing Transport Means (EF&ESTM)       
Transportation and Logistics Technologies (T&LT)
  • batteries and energy storage;
  • city cars;
  • compressed air engines;
  • connected vehicles;
  • driver assistance systems;
  • electric vehicles;
  • internal combustion engines;
  • fuel cells;
  • fuel efficiency;
  • hybrids;
  • hydraulic hybrids;
  • hydrogen storage;
  • tires;
  • drives;
  • vehicle systems;
  • weight reduction;
  • fuels;
  • emissions;
  • ports and marine;
  • railway transport engineering.
  
  • procurement and supply;
  • service operations and performance;
  • development of supply chain management;
  • forecasting;
  • sustainable supply chain;
  • risk of supply chain management;
  • product development;
  • information systems;
  • supply chain configuration;
  • performance of supply chain management;
  • global supply chain management;
  • production and delivery synchronization;
  • technology/application for supply chain;
  • technology management;
  • e-business and e-commerce;
  • facility planning and management;
  • performance management;
  • human factors and ergonomics;
  • LEAN and six-sigma;
  • modelling and simulation;
  • quality control and management;
  • maintenance and reliability;
  • sustainability and green systems;
  • strategic alliances;
  • production and material flows;
  • warehouse and distribution.
     
Transport Infrastructure, Traffic Modelling and Control (TITM&C)   Intelligent Transport Systems (ITS)
  • traffic management and train control;
  • system modelling and simulation;
  • system optimisation;
  • transportation planning and scheduling;
  • condition monitoring;
  • non-destructive testing and diagnostics;
  • data modelling and integration;
  • communication technology;
  • railway infrastructure;
  • intelligent railway transport;
  • energy modelling and management;
  • vehicle dynamics and control;
  • system automation.
  
  • advanced driver assistance systems;
  • automated vehicles;
  • vehicular safety, active and passive;
  • vehicle environment perception;
  • driver state and intent recognition;
  • eco-driving and energy efficiency vehicles;
  • intelligent transport systems and its impact on traffic flows;
  • cooperative vehicle-infrastructure systems;
  • traffic collision avoidance;
  • pedestrian protection;
  • V2I / V2V communication;
  • proximity detection technology ;
  • assistive mobility systems;
  • autonomous / intelligent robotic vehicles;
  • image, radar, LIDAR signal processing;
  • information fusion;
  • vehicle control;
  • telematics;
  • human factors.