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Publicações

Publicações por Hugo Alexandre Ferreira

2014

TURTLE - Systems and technologies for Deep Ocean long term presence

Autores
Ferreira, H; Martins, A; Almeida, JM; Valente, A; Figueiredo, A; da Cruz, B; Camilo, M; Lobo, V; Pinho, C; Olivier, A; Silva, E;

Publicação
2014 OCEANS - ST. JOHN'S

Abstract
This paper describes the TURTLE project that aim to develop sub-systems with the capability of deep-sea long-term presence. Our motivation is to produce new robotic ascend and descend energy efficient technologies to be incorporated in robotic vehicles used by civil and military stakeholders for underwater operations. TURTLE contribute to the sustainable presence and operations in the sea bottom. Long term presence on sea bottom, increased awareness and operation capabilities in underwater sea and in particular on benthic deeps can only be achieved through the use of advanced technologies, leading to automation of operation, reducing operational costs and increasing efficiency of human activity.

2014

Water jet based autonomous surface vehicle for coastal waters operations

Autores
Machado, D; Martins, A; Almeida, JM; Ferreira, H; Amaral, G; Ferreira, B; Matos, A; Silva, E;

Publicação
2014 OCEANS - ST. JOHN'S

Abstract
This paper presents the design of low cost, small autonomous surface vehicle for missions in the coastal waters and specifically for the challenging surf zone. The main objective of the vehicle design described in this paper is to address both the capability of operation at sea in relative challenging conditions and maintain a very low set of operational requirements (ease of deployment). This vehicle provides a first step towards being able to perform general purpose missions (such as data gathering or patrolling) and to at least in a relatively short distances to be able to be used in rescue operations (with very low handling requirements) such as carrying support to humans on the water. The USV is based on a commercially available fiber glass hull, it uses a directional waterjet powered by an electrical brushless motor for propulsion, thus without any protruding propeller reducing danger in rescue operations. Its small dimensions (1.5 m length) and weight allow versatility and ease of deployment. The vehicle design is described in this paper both from a hardware and software point of view. A characterization of the vehicle in terms of energy consumption and performance is provided both from test tank and operational scenario tests. An example application in search and rescue is also presented and discussed with the integration of this vehicle in the European ICARUS (7th framework) research project addressing the development and integration of robotic tools for large scale search and rescue operations.

2017

Underwater navigation sensors calibration in inland water spaces

Autores
Matias, B; Almeida, J; Ferreira, A; Martins, A; Ferreira, H; Silva, E;

Publicação
OCEANS 2017 - ABERDEEN

Abstract
This paper describes the calibration of an underwater navigation system in enclosed scenarios. The work was performed in the context of the VAMOS project addressing the development of robotic solutions for flooded open pit mine exploration. An algorithm for calibration of extrinsic parameters for DVL and USBL systems is presented. Field experiments were performed with the ROAZ autonomous surface vehicle equipped with the underwater sensors and using precision IMU/GNSS fused data as groundtruth. The tests were performed in Douro River and in the Bejanca open pit mine, one of the VAMOS test sites, both in northern Portugal. The procedure was validated in the operational scenarios and results are presented showing the error correction and navigation quality improvement.

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

Autonomous Systems in remote areas of the Ocean using BLUECOM plus communication network

Autores
Ferreira, H; Silva, F; Sousa, P; Matias, B; Faria, A; Oliveira, J; Almeida, JM; Martins, A; Silva, E;

Publicação
OCEANS 2017 - ANCHORAGE

Abstract
The authors present a series of sea trails with autonomous systems using a long-range communication network. The continuous monitoring of the oceans and realtime data gathering/monitoring is a key issue in future marine challenges. To have long range communication, between land and ships at tens of kilometers', the authors used the BlueCom+ project research trials and tested their robotic systems. Bluecom+ project intends to fill the gap of long range communication with high bandwidth. It was demonstrated the usefulness of the system using autonomous systems, such as a small unmanned vehicle (ROAZ USV) for bathymetric mapping and tested an underwater acoustic positioning and communications system. © 2017 Marine Technology Society.

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