Related papers: Driving and charging an EV in Australia: A real-world analysis

Driving and charging an EV in Australia: A real-world analysis

URL: http://arxiv.org/abs/2206.03277v2
Date: Tue, 25 Oct 2022 07:26:11 GMT
Title: Driving and charging an EV in Australia: A real-world analysis
Authors: Thara Philip, Kai Li Lim, Jake Whitehead
Abstract summary: This study aims to collect data on real-world driving and charging patterns of 239 EVs across Australia. Data collection from current EV owners via an application programming interface platform began in November 2021 and is currently live.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: As outlined by the Intergovernmental Panel on Climate Change, electric vehicles offer the greatest decarbonisation potential for land transport, in addition to other benefits, including reduced fuel and maintenance costs, improved air quality, reduced noise pollution, and improved national fuel security. Owing to these benefits, governments worldwide are planning and rolling out EV-favourable policies, and major car manufacturers are committing to fully electrifying their offerings over the coming decades. With the number of EVs on the roads expected to increase, it is imperative to understand the effect of EVs on transport and energy systems. While unmanaged charging of EVs could potentially add stress to the electricity grid, managed charging of EVs could be beneficial to the grid in terms of improved demand-supply management and improved integration of renewable energy sources into the grid, as well as offer other ancillary services. To assess the impact of EVs on the electricity grid and their potential use as batteries-on-wheels through smart charging capabilities, decision-makers need to understand how current EV owners drive and charge their vehicles. As such, an emerging area of research focuses on understanding these behaviours. Some studies have used stated preference surveys of non-EV owners or data collected from EV trials to estimate EV driving and charging patterns. Other studies have tried to decipher EV owners' behaviour based on data collected from national surveys or as reported by EV owners. This study aims to fill this gap in the literature by collecting data on real-world driving and charging patterns of 239 EVs across Australia. To this effect, data collection from current EV owners via an application programming interface platform began in November 2021 and is currently live.

Related papers

Privacy Preserving Charge Location Prediction for Electric Vehicles [12.421831663681056]
Electric vehicles (EVs) pose challenges for energy generation, grid infrastructure, and data privacy. Current research on EV routing and charge management often overlooks privacy when predicting energy demands. We develop a privacy-focused solution for forecasting EV charge location prediction.
arXiv Detail & Related papers (2025-01-31T03:14:36Z)
Uncertainty-Aware Critic Augmentation for Hierarchical Multi-Agent EV Charging Control [9.96602699887327]
We propose HUCA, a novel real-time charging control for regulating energy demands for both the building and EVs. HUCA employs hierarchical actor-critic networks to dynamically reduce electricity costs in buildings, accounting for the needs of EV charging in the dynamic pricing scenario. Experiments on real-world electricity datasets under both simulated certain and uncertain departure scenarios demonstrate that HUCA outperforms baselines in terms of total electricity costs.
arXiv Detail & Related papers (2024-12-23T23:45:45Z)
Charge Manipulation Attacks Against Smart Electric Vehicle Charging Stations and Deep Learning-based Detection Mechanisms [49.37592437398933]
"Smart" electric vehicle charging stations (EVCSs) will be a key step toward achieving green transportation. We investigate charge manipulation attacks (CMAs) against EV charging, in which an attacker manipulates the information exchanged during smart charging operations. We propose an unsupervised deep learning-based mechanism to detect CMAs by monitoring the parameters involved in EV charging.
arXiv Detail & Related papers (2023-10-18T18:38:59Z)
RAI4IoE: Responsible AI for Enabling the Internet of Energy [40.87183313830612]
This paper plans to develop an Equitable and Responsible AI framework with enabling techniques and algorithms for the Internet of Energy (IoE) The vision of our project is to ensure equitable participation of the community members and responsible use of their data in IoE so that it could reap the benefits of advances in AI to provide safe, reliable and sustainable energy services.
arXiv Detail & Related papers (2023-09-20T23:45:54Z)
Federated Reinforcement Learning for Electric Vehicles Charging Control on Distribution Networks [42.04263644600909]
Multi-agent deep reinforcement learning (MADRL) has proven its effectiveness in EV charging control. Existing MADRL-based approaches fail to consider the natural power flow of EV charging/discharging in the distribution network. This paper proposes a novel approach that combines multi-EV charging/discharging with a radial distribution network (RDN) operating under optimal power flow.
arXiv Detail & Related papers (2023-08-17T05:34:46Z)
Forecasting Battery Electric Vehicle Charging Behavior: A Deep Learning Approach Equipped with Micro-Clustering and SMOTE Techniques [0.0]
Transportation electrification is being promoted worldwide to reduce emissions. Many automakers will soon start making only battery electric vehicles (BEVs) This study develops a novel Micro Clustering Deep Neural Network (MCDNN), an artificial neural network algorithm that is highly effective at learning BEVs trip and charging data.
arXiv Detail & Related papers (2023-07-20T05:03:25Z)
Consumer's Behavior Analysis of Electric Vehicle using Cloud Computing in the State of New York [0.0]
We analyze the Electric Vehicle Drive Clean Rebate data from the New York State Energy Research and Development Authority. This dataset features the make and model of the EV that consumers purchased, the geographic location of EV consumers, transaction type, and tax incentive issued. Using the SAP Analytics Cloud (SAC), we first import and clean the data to generate statistical snapshots for some primary attributes.
arXiv Detail & Related papers (2023-06-02T19:49:18Z)
Federated Reinforcement Learning for Real-Time Electric Vehicle Charging and Discharging Control [42.17503767317918]
This paper develops an optimal EV charging/discharging control strategy for different EV users under dynamic environments. A horizontal federated reinforcement learning (HFRL)-based method is proposed to fit various users' behaviors and dynamic environments. Simulation results illustrate that the proposed real-time EV charging/discharging control strategy can perform well among various factors.
arXiv Detail & Related papers (2022-10-04T08:22:46Z)
An Energy Consumption Model for Electrical Vehicle Networks via Extended Federated-learning [50.85048976506701]
This paper proposes a novel solution to range anxiety based on a federated-learning model. It is capable of estimating battery consumption and providing energy-efficient route planning for vehicle networks.
arXiv Detail & Related papers (2021-11-13T15:03:44Z)
Risk Adversarial Learning System for Connected and Autonomous Vehicle Charging [43.42105971560163]
We study the design of a rational decision support system (RDSS) for a connected and autonomous vehicle charging infrastructure (CAV-CI) In the considered CAV-CI, the distribution system operator (DSO) deploys electric vehicle supply equipment (EVSE) to provide an EV charging facility for human-driven connected vehicles (CVs) and autonomous vehicles (AVs) The charging request by the human-driven EV becomes irrational when it demands more energy and charging period than its actual need. We propose a novel risk adversarial multi-agent learning system (ALS) for CAV-CI to solve
arXiv Detail & Related papers (2021-08-02T02:38:15Z)
A Case Study to Identify the Hindrances to Widespread Adoption of Electric Vehicles in Qatar [0.0]
The adoption of electric vehicles (EVs) have proven to be a crucial factor to decreasing the emission of greenhouse gases (GHG) into the atmosphere. This article reports the public perception of EV-adoption using statistical analyses and proposes some recommendations for improving EV-adoption in Qatar.
arXiv Detail & Related papers (2020-06-27T18:56:46Z)

This list is automatically generated from the titles and abstracts of the papers in this site.