2025
Autores
Viegas, D; Martins, A; Neasham, J; Ramos, S; Almeida, M;
Publicação
Abstract
2025
Autores
Cusi, S; Martins, A; Tomasi, B; Puillat, I;
Publicação
Abstract
2025
Autores
Martins, A; Almeida, J; Almeida, C; Silva, E;
Publicação
Abstract
2025
Autores
Tomasi, B; Ursella, L; Heyndrickx, CL; Le Menn, M; Lefevre, D; Malley, CO; Ferreira, HA; Martins, A; Cusi, S;
Publicação
OCEANS 2025 BREST
Abstract
In this paper, we propose pre-and post-deployment guidelines for both single point current-meters and Acoustic Doppler Current Profilers (ADCPs) to improve awareness of the quality, in terms of accuracy, of the data collected by these instruments among their user community. In the realm of oceanographic instrumentation, single-point current meters and ADCPs are considered to be a well understood and mature technology, however, to ensure that the measurements are not affected by biases due to magnetic anomalies or sensor drifts before and after their deployment, it is necessary to have an understanding of how the velocity vectors are derived from the measurements. Tests performed on three ADCP instruments show that heading errors of up to 10 degrees can be caused by instruments being deployed in the vicinity of the ADCP. In this paper, we will also investigate the consequences of not compensating for these biases in two oceanographic examples, one of them revealing 16% horizontal velocity errors in the worst case.
2025
Autores
Silva, MF; Dias, A; Guedes, P; Barbosa, R; Estrela, J; Moura, A; Cerqueira, V;
Publicação
2025 IEEE INTERNATIONAL CONFERENCE ON AUTONOMOUS ROBOT SYSTEMS AND COMPETITIONS, ICARSC
Abstract
There is a strong need to motivate students to learn science, technology, engineering, and mathematics (STEM) subjects. This is a problem not only at lower educational levels, but also at college institutions. With this idea in mind, the School of Engineering of the Porto Polytechnic (ISEP) Electrical Engineering Department decided, in 2021, to launch a robotics competition in order to foster students' interest in the areas of robotics and automation. This event, named Robotics@ISEP Open, aims to raise awareness of the area of electronics, computing, and robotics among students, involving them in the use of techniques and tools in this area, and encompasses three distinct robotics competitions covering both manipulator arms and mobile robots. It is based on two main points of interest: (i) robotic competitions and (ii) outside class training in robotics, aimed at students who want support to participate in competitions. Since its first edition, the event has grown and internationalized and has already become a milestone in the academic life of ISEP. This paper presents the motivations that led to the creation of this event, its main organizational aspects, and the competitions that are part of it, as well as some results gathered from the experience accumulated in organizing it.
2025
Autores
Pires, A; Coutinho, J; Santos, A; Persad, A; Dias, A; Moura, R; Almeida, J;
Publicação
Proceedings of the International Astronautical Congress, IAC
Abstract
SENTINEL-Orb is an ongoing research and development initiative focused on creating a compact, fully autonomous flying robotic sphere. This sphere has been meticulously engineered to provide a comprehensive range of assistance to astronauts during both Extravehicular (EVA) and Intravehicular Activities (IVA). The system's design is intended to ensure operational effectiveness in microgravity and vacuum environments, thereby facilitating inspection, mapping, and navigation capabilities in areas that are either inaccessible or hazardous for human access. The development of the UX1-NEO system for flooded mine exploration was predicated on the advancement of underwater robotics technology pioneered at the Center for Robotics and Autonomous Systems (CRAS) of the Institute for Systems and Computer Engineering, Technology and Science (INESC TEC). This technology enabled the miniaturization, modular design, and integration of advanced perception and control algorithms for the SENTINEL-Orb. The current prototype incorporates a safe propulsion system designed to ensure the well-being of astronauts, a translation and attitude control mechanism, and a high-resolution camera that enhances the visual-inertial odometry module for object detection and anomaly identification. The propulsion and control subsystems were tested independently, while the six degrees of freedom (6-DoF) control performance has been validated through high-fidelity simulations, demonstrating precise maneuvering capabilities. The platform's modular architecture facilitates straightforward assembly and accommodates future enhancements. Preparations are underway for a parabolic flight campaign to evaluate the complete system's performance in a real microgravity environment. Preliminary findings suggest that the design meets rigorous safety standards and has significant potential for operational autonomy in space missions. A comparison of SENTINEL-Orb to the existing robotic solutions reveals that it addresses limitations related to atmospheric dependency and astronaut safety. This establishes SENTINEL-Orb as a promising tool for space maintenance, inspection, and exploration activities. © 2025 by INESC-TEC.
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