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Publicações

Publicações por Eduardo Silva

2013

Thermographic and Visible Spectrum Camera Calibration for Marine Robotic Target Detection

Autores
Dias, A; Bras, C; Martins, A; Almeida, J; Silva, E;

Publicação
2013 OCEANS - SAN DIEGO

Abstract
In the context of detection, location and tracking of human targets with combination of thermographic and visible cameras, this paper addresses the problem of geometric calibration of thermographic and visible spectrum cameras necessary for the stereo perception of targets in the robot frame. A method for precise geometric calibration of thermographic and visible cameras in the autonomous surface vehicle (ASV) ROAZ II is presented. The method combine the utilization of special patterns for intrinsic calibration of thermographic cameras, with the usage of a high-resolution 3D laser scanner for the extrinsic calibration, relating the cameras frames with the robot frame. Calibration process results are presented and analyzed.

2017

UAV Cooperative Perception for Target Detection and Tracking in Maritime Environment

Autores
Amaral, G; Silva, H; Lopes, F; Ribeiro, JP; Freitas, S; Almeida, C; Martins, A; Almeida, J; Silva, E;

Publicação
OCEANS 2017 - ABERDEEN

Abstract
This paper addresses the topic of target detection and tracking using a team of UAVs for maritime border surveillance. We present a novel method on how to integrate the perception into the control loop using two distinct teams of UAVs that are cooperatively tracking the same target. We demonstrate and evaluate the effectiveness of our approach in a simulation environment.

2017

Unmanned Maritime Systems for Search and Rescue

Autores
Matos, A; Silva, E; Almeida, J; Martins, A; Ferreira, H; Ferreira, B; Alves, J; Dias, A; Fioravanti, S; Bertin, D; Lobo, V;

Publicação
Search and Rescue Robotics - From Theory to Practice

Abstract

2016

Use of multi-domain robots in search and rescue operations - contributions of the ICARUS team to the euRathlon 2015 challenge

Autores
Marques, MM; Parreira, R; Lobo, V; Martins, A; Matos, A; Cruz, N; Almeida, JM; Alves, JC; Silva, E; Bedkowski, J; Majek, K; Pelka, M; Musialik, P; Ferreira, H; Dias, A; Ferreira, B; Amaral, G; Figueiredo, A; Almeida, R; Silva, F; Serrano, D; Moreno, G; De Cubber, G; Balta, H; Beglerovic, H;

Publicação
OCEANS 2016 - SHANGHAI

Abstract
Today, in our landscape perception exists a gap that needs to be fulfilled. It's important to increase the coverage, temporal and spatial resolution in order to cover this gap, as well as reduce costs with human resources that usually take this kind of tasks. Unmanned Autonomous vehicles with their inherent autonomy and reduced needs of human and communication resources, can provide additional capabilities and a new innovative solution to this problem This paper presents and describes the participation of ICARUS Team at euRathlon 2015 and the importance of this type of events performed with multiple unnamed systems.

2017

User-Centered Design

Autores
Doroftei, D; Cubber, GD; Wagemans, R; Matos, A; Silva, E; Lobo, V; Cardoso, G; Chintamani, K; Govindaraj, S; Gancet, J; Serrano, D;

Publicação
Search and Rescue Robotics - From Theory to Practice

Abstract

2017

Collision Avoidance for Safe Structure Inspection with Multirotor UAV

Autores
Azevedo, F; Oliveira, A; Dias, A; Almeida, J; Moreira, M; Santos, T; Ferreira, A; Martins, A; Silva, E;

Publicação
2017 EUROPEAN CONFERENCE ON MOBILE ROBOTS (ECMR)

Abstract
The multirotor UAVs are being integrated into a wide range of application scenarios due to maneuverability in 3D, versatility and reasonable payload of sensors. One of the application scenarios is the inspection of structures where the human intervention is difficult or unsafe and the UAV can provide an improvement of the collected data. At the same time introduce challenges due to low altitude missions and also the fact of being manually operated without line of sight. In order to overcome these issues, this paper presents a LiDAR-based realtime collision avoidance algorithm, denoted by Escape Elliptical Search Point with the ability to be integrated into autonomous and manned modes of operation. The algorithm was validated in a simulation environment developed in Gazebo and also in a mixed environment composed by a real robot in an outdoor scenario and simulated obstacle and LiDAR.

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