Projecte llegit
Títol: Development of and autonomous underwater inspection vehicle for enclosed areas
Estudiants que han llegit aquest projecte:
RUZAFA SACEDA, ALBERT (data lectura: 28-10-2022)- Cerca aquest projecte a Bibliotècnica
RUZAFA SACEDA, ALBERT (data lectura: 28-10-2022)Director/a: CASANELLA ALONSO, RAMON
Departament: EEL
Títol: Development of and autonomous underwater inspection vehicle for enclosed areas
Data inici oferta: 12-02-2022 Data finalització oferta: 13-03-2022
Estudis d'assignació del projecte:
- MU DRONS
| Tipus: Individual | |
| Lloc de realització: Fora UPC | |
| Supervisor/a extern: Pau Guasch | |
| Institució/Empresa: GPA Seabots | |
| Titulació del Director/a: Industrial Design Engineer | |
| Paraules clau: | |
| Autonomous vehicle, USV, GNSS, electronic systems, marine robotics, UGV, underwater positioning | |
| Descripció del contingut i pla d'activitats: | |
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The aim of this project is to contribute in the development of an autonomous that is able to perform maintenance and inspection with accurate underwater positioning. The current solutions in the market, despite being autonomous, are not intelligent at all. Due to the difficulty of underwater positioning, these devices usually use dead reckoning techniques. These techniques lead to inconsistent results and inefficiencies, mainly caused by the vehicle passing several times by an area that has been inspected before. Also, current solutions that operate on enclosed waters are usually tethered, causing a lot of cable that could potentially become an obstacle to the robot. This project is aimed as a solution to the previously mentioned problems. The resulting product must be able to have an accurate positioning underwater that allows it to adhere to a mission and maintain the areas that need to be inspected. It will also be battery powered, which means that no cables will be floating. In addition to all of that, the device will have a big footprint which, combined with the accurate positioning, will allow the vehicle to cover larger areas. The student will be working full time as part of the team in charge of the different sub-systems that will conform the platform. This will allow him to learn about the different systems of such a platform as well as how a team of engineers is organized. |
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| Overview (resum en anglès): | |
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The aim of this project is to contribute in the development of an autonomous vehicle that is able to perform the maintenance and inspection of large enclosed areas with accurate underwater positioning. The current solutions in the market, despite being autonomous, are not intelligent at all. Due to the difficulty of underwater positioning, these devices usually use dead reckoning techniques. These techniques lead to inconsistent results and inefficiencies, mainly caused by the vehicle passing several times by an area that has been inspected before. Also, current solutions that operate on enclosed waters are usually tethered, causing a lot of cable that could potentially become an obstacle to the robot and cause severe power losses. This project aims to demonstrate how the control and navigation techniques that are applied to aerial drones can be adapted as a solution to the previously mentioned problems. The resulting product must be able to have an accurate positioning underwater that allows it to adhere to a mission and maintain the areas that need to be inspected. It will also be battery powered, which means that no cables will be floating. In addition to all of that, the device will have a big footprint which, combined with the accurate positioning, will allow the vehicle to cover larger areas. After all the different design stages, the project has managed to build and test a working prototype of such a vehicle, which, despite still having some pending upgrades to become a product, manages to perform all the functionalities and solves the main challenges of the problem. |
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