This paper deals with the optimization of velocity trajectories for electrically driven railway vehicles w.r.t. the total energy consumption between two successive stops. First, a quasi-static model of the complete power train of a standard railway vehicle is described. Based on four principle operating regimes-acceleration, cruising, coasting, and braking-energy-optimal trajectories are computed by determining the optimal regime sequence. For the optimization of the switching points between these operating states, particle swarm optimization (PSO) is used. The benefits of this approach are pointed out by simulation results using validated train models
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
Efficient use of energy is currently a very important issue. As conventional energy resources are li...
Urban rail systems are facing increasing pressure to minimise their energy consumption and hence to ...
Speed profile optimizations of trains constitute an effective method for the reduction of the overal...
This paper provides a comprehensive review regarding the applications of particle swarm optimization...
The energy consumption of trains is highly efficient due to the low friction between steel wheels an...
The operators of the railway industry (i.e., Traction System and Railway System Operators) are curre...
The operators of the railway industry (i.e., Traction System and Railway System Operators) are curre...
Optimizing the operating speed curve of trains without adding new energy storage facilities is essen...
Purpose. Traction calculations with the definition of energy-efficient trajectories provide search f...
Energy conservation may be an effective way to reduce transit operating costs. This paper describes...
17p.We study the problem of minimizing the usage of electrical energy in railway systems. The object...
International audienceThe speed profile of a train plays an important role in energy consumption and...
Electric traction is the most efficient traction system in the railway transportation. However, due ...
With the fast development of regenerative braking technologies in modern transportation systems, it ...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
Efficient use of energy is currently a very important issue. As conventional energy resources are li...
Urban rail systems are facing increasing pressure to minimise their energy consumption and hence to ...
Speed profile optimizations of trains constitute an effective method for the reduction of the overal...
This paper provides a comprehensive review regarding the applications of particle swarm optimization...
The energy consumption of trains is highly efficient due to the low friction between steel wheels an...
The operators of the railway industry (i.e., Traction System and Railway System Operators) are curre...
The operators of the railway industry (i.e., Traction System and Railway System Operators) are curre...
Optimizing the operating speed curve of trains without adding new energy storage facilities is essen...
Purpose. Traction calculations with the definition of energy-efficient trajectories provide search f...
Energy conservation may be an effective way to reduce transit operating costs. This paper describes...
17p.We study the problem of minimizing the usage of electrical energy in railway systems. The object...
International audienceThe speed profile of a train plays an important role in energy consumption and...
Electric traction is the most efficient traction system in the railway transportation. However, due ...
With the fast development of regenerative braking technologies in modern transportation systems, it ...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
Efficient use of energy is currently a very important issue. As conventional energy resources are li...
Urban rail systems are facing increasing pressure to minimise their energy consumption and hence to ...