Neural networks for modelling the energy consumption of metro trains

International Journal of Rail Transportation

et al. 2020

Self Cite

Railways are an efficient transport mean with lower energy consumption and emissions in comparison to other transport means for freight and passengers, and yet there is a growing need to increase their efficiency. To achieve this, it is needed to accurately predict their energy consumption, a task which is traditionally carried out using deterministic models which rely on data measured through money-and time-consuming methods. Using four basic (and cheap to measure) features (train speed, acceleration, track slope and radius of curvature) from MetroValencia (Spain), we predicted the traction power using different machine learning models, obtaining that a random forest model outperforms other approaches in such task. The results show the possibility of using basic features to predict the traction power in a metropolitan railway line, and the chance of using this model as a tool to assess different strategies in order to increase the energy efficiency in these lines.

Section: Resultssupporting

confidence: 78%

Section: 7mentioning

confidence: 99%

Predicting the traction power of metropolitan railway lines using different machine learning models

Pineda-Jaramillo

International Journal of Rail Transportation

et al. 2020

Self Cite

“…Real energy consumption, travel time and speed profile data were measured along these lines to calibrate and validate the simulation model as well as to define the optimisation problem that constitutes the framework to compare MOACOr and NSGA-II. More details regarding data gathering and processing can be found in Martínez Fernández et al 29…”

Section: Methodsmentioning

confidence: 99%

“…This is the approach chosen for this study, which is based on the time-step simulator presented by Domínguez et al 35 but also incorporates a neural network to obtain the energy consumption. 29…”

Section: Methodsmentioning

confidence: 99%

Multi objective ant Colony Optimisation to obtain efficient metro speed profiles

Torres

Proceedings of the Institution of Mechanical Engineers, Part F:

et al. 2022

Obtaining efficient speed profiles for metro trains is a multi-objective optimisation problem where energy consumption and travel time must be balanced. Automatic Train Operation (ATO) systems may handle a great number of possible speed profiles; hence optimisation algorithms are required to find efficient ones in a timely manner. This paper aims to assess the performance of a particular meta-heuristic optimisation algorithm, a variation of the traditional Ant Colony (ACO) modified to deal with multi-objective problems with continuous variables: MOACOr. This algorithm is used to obtain efficient speed profiles in up to 32 interstation sections in the metro network of Valencia (Spain), and the convergence and diversity of these solution sets is evaluated through metrics such as Inverse Generational Distance (GD) and Normalised Hypervolume (NH). The results are then compared to those obtained with a conventional genetic algorithm (NSGA-II), including a statistical analysis to identify significant differences. It has been found that MOACOr shows a better performance than NSGA-II in terms of convergence, regularity and diversity of the solution. These results indicate that MOACOr is a good alternative to the widely used genetic algorithm and could be a better tool for rail operation managers trying to improve energy efficiency.

“…Although many of them have been extensively compared in the past, deciding which one is better depends on the specific problem to be solved. That said, there are certain models that are more commonly used, such as polynomic regression, neural networks (García-Segura et al, 2018;Martínez Fernández et al, 2019a) or kriging (Penadés-Plà et al, 2020b). In this paper, kriging has been chosen as it is more flexible than polynomials and is less timeconsuming than neural networks (Simpson et al, 2001).…”

Section: Introductionmentioning

confidence: 99%

Slab Track Optimization Using Metamodels to Improve Rail Construction Sustainability

J. Constr. Eng. Manage.

Franco

et al. 2022

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Railways are an efficient transport mode, but building and maintaining railways tracks has a significant environmental impact in terms of CO2 emissions and use of raw materials. This is particularly true for slab tracks, which require large quantities of concrete. They are also more expensive to build than conventional ballasted tracks, but require less maintenance and have other advantages that make them a good alternative, especially for high-speed lines. In order to contribute to a more sustainable railways, this paper aims to optimise the design of one of the most common slab track typologies: RHEDA 2000. The main objective is to reduce the amount of concrete required to build the slab without compromising its performance and durability. To do so, a Finite Elements (FEM) model of the track has been used, paired with a kriging meta-model to allow analysing multiple options of slab thickness and concrete strength in a timely manner. By means of the kriging, optimal solutions have been obtained and them validate through the FEM model to ensure that predefined mechanical and geometrical constraints are met.Starting from an initial setup with a 30 cm slab made of concrete with a characteristic strength of 40 MPa, an optimised solution has been reached, consisting on a 24 cm slab