An anonymous authentication scheme for plug-in electric vehicles joining to charging/discharging station in vehicle-to-Grid (V2G) networks

During the last few decades, electric vehicles (EVs) have emerged as a promising sustainable alternative to traditional fuel cars. The work presented here is carried out in the context of the Horizon 2020 project MERLON and targets the impact of EVs on electrical grid load profiles, while considering both grid-to-vehicle (G2V) and vehicle-to-grid (V2G) operation modes. Three different charging policies are considered: the uncontrolled charging, which acts as a reference scenario, and two strategies that fall under the umbrella of individual charging policies based on price incentive strategies. Electricity prices along with the EV user preferences are taken into account for both charging (G2V) and discharging (V2G) operations, allowing for more realistic scenarios to be considered.

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To Represent Electric Vehicles in Electricity Systems Modelling—Aggregated Vehicle Representation vs. Individual Driving Profiles

Energies ◽

10.3390/en14030539 ◽

2021 ◽

Vol 14 (3) ◽

pp. 539

Author(s):

Maria Taljegard ◽

Lisa Göransson ◽

Mikael Odenberger ◽

Filip Johnsson

Keyword(s):

Electric Vehicles ◽

Investment Model ◽

Research Issues ◽

Charging Infrastructure ◽

Vehicle To Grid ◽

Long Term Storage ◽

Electricity System ◽

Home Location ◽

The Individual ◽

Storage Technologies

This study describes, applies, and compares three different approaches to integrate electric vehicles (EVs) in a cost-minimising electricity system investment model and a dispatch model. The approaches include both an aggregated vehicle representation and individual driving profiles of passenger EVs. The driving patterns of 426 randomly selected vehicles in Sweden were recorded between 30 and 73 days each and used as input to the electricity system model for the individual driving profiles. The main conclusion is that an aggregated vehicle representation gives similar results as when including individual driving profiles for most scenarios modelled. However, this study also concludes that it is important to represent the heterogeneity of individual driving profiles in electricity system optimisation models when: (i) charging infrastructure is limited to only the home location in regions with a high share of solar and wind power in the electricity system, and (ii) when addressing special research issues such as impact of vehicle-to-grid (V2G) on battery health status. An aggregated vehicle representation will, if the charging infrastructure is limited to only home location, over-estimate the V2G potential resulting in a higher share (up to 10 percentage points) of variable renewable electricity generation and an under-estimation of investments in both short- and long-term storage technologies.

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Computationally efficient and secure anonymous authentication scheme for cloud users

Personal and Ubiquitous Computing ◽

10.1007/s00779-021-01566-9 ◽

2021 ◽

Author(s):

Anakath Arasan ◽

Rajakumar Sadaiyandi ◽

Fadi Al-Turjman ◽

Arun Sekar Rajasekaran ◽

Kalai Selvi Karuppuswamy

Keyword(s):

Authentication Scheme ◽

Computationally Efficient ◽

Anonymous Authentication ◽

Cloud Users

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Optimal Pricing of Vehicle-to-Grid Services Using Disaggregate Demand Models

Energies ◽

10.3390/en14041090 ◽

2021 ◽

Vol 14 (4) ◽

pp. 1090

Author(s):

Charilaos Latinopoulos ◽

Aruna Sivakumar ◽

John W. Polak

Keyword(s):

Power Systems ◽

Electric Vehicles ◽

Power Grids ◽

Local Distribution ◽

Technical Problems ◽

Vehicle To Grid ◽

Distribution Transformers ◽

Demand Models ◽

Multiple Vehicles ◽

Infrastructure Investments

The recent revolution in electric mobility is both crucial and promising in the coordinated effort to reduce global emissions and tackle climate change. However, mass electrification brings up new technical problems that need to be solved. The increasing penetration rates of electric vehicles will add an unprecedented energy load to existing power grids. The stability and the quality of power systems, especially on a local distribution level, will be compromised by multiple vehicles that are simultaneously connected to the grid. In this paper, the authors propose a choice-based pricing algorithm to indirectly control the charging and V2G activities of electric vehicles in non-residential facilities. Two metaheuristic approaches were applied to solve the optimization problem, and a comparative analysis was performed to evaluate their performance. The proposed algorithm would result in a significant revenue increase for the parking operator, and at the same time, it could alleviate the overloading of local distribution transformers and postpone heavy infrastructure investments.

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