Optimise recharging process for Electro-Mobility using Internet of Things

Cortés, Jorge Lorenzo, Casero Sánchez, Alejandro

January 2022

Climate change is being fought with policies and measures implemented worldwide to reduce Greenhouse Gases (GHG). One of these policies is to reduce the use of fossil fuels because they accelerate climate change and harm human health through pollution. The automotive industry is a significant player in this transition. The automotive industry is shifting from vehicles powered by a fossil energy powertrain to one that consumes clean energy. The industry is moving towards electric mobility, but this technology has a disadvantage compared to traditional mobility. Electric Vehicles (EVs) need more time to regain their range than conventional vehicles (CV) that use fossil fuels, a massive reason why users do not adopt this technology. This thesis focuses on an optimised charging process to make EVs a realistic alternative for user transport and meet the Paris Climate Accords goals. To this end, a study has been carried out analysing various points and technologies such as Electro-Mobility (e-mobility), recharging technologies, or Cloud-based systems that could optimise the charging process and have a scalable, scalable system that all EVs can use. This project has used the Internet of Things (IoT) to enable EVs to communicate with charging stations in a reliable manner with a scalable system. In addition, it has been possible to store data in the cloud, where it is processed in real-time, and mathematical equations have been developed in the python programming language. The user has access to the information through an interface that allows them to check the most optimal charging points (CPs) in different categories such as total charging time, distance from the various stations, charging total price and the CPs services. These technologies used in this thesis will contribute to optimising the charging process, leaving the door open to future developments in the e-mobility field. / <p>Universidad de Granada, Spanien och  Universidad de Málaga, Spanien</p>

Electro-Mobility

recharging process

Cloud-based systems

Internet of Things

Python

Cloud-based monitor and control of industrial robots

Biain Galdos, Ander, Ordoki Oiarbide, Iñaki

January 2021

Nowadays, interconnectivity is becoming increasingly important. According to industry, the Industrial Internet of Things (IIoT) is the core technology of Industry 4.0. Connectivity between different processes or components in the industry makes one process aware of each other, making systems more intelligent and self-sufficient. This thesis proposes various ways to control and monitor an industrial process with the cloud, explaining step by step the connections between the industrial equipment and the cloud. Furthermore, this thesis's one sub-objective is to make an industrial process, which was previously PLC-based, entirely cloud-based. For the latter work, simulation software is used to create a production line, as there is a lack of equipment. Consequently, it will also test the flexibility of the system to move between the virtual and the real environment, which is another challenge of Industry 4.0 and digitalisation. In the discussion part, the thesis talks about the shift from PLC-based to PC-based systems in the industry, mentioning the limitations and advantages.

Cloud-based systems

industrial internet of things

industry 4.0

Cloud-Based Collaborative Environments in the Business World: A Study in Editing Practices

Carpenter, Aaron P.

04 April 2012

No description available.

Instructional Design

learning design

instructional design

Internet

cloud

cloud-based systems

e-learning

technology

education

tech education

wikis

Microsoft Exchange

GoogleDocs

Google