P. F. Silva scite author profile

P. F. Silva

5Publications

66Citation Statements Received

27Citation Statements Given

How they've been cited

107

How they cite others

Affiliations

Deimos Engenharia (Portugal), Polytechnic University of Turin, Instituto Politécnico de Lisboa

Publications

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Searching Lost People With Uavs: The System and Results of the Close-Search Project

Molina

Colomina

Vitoria

et al. 2012

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:This paper will introduce the goals, concept and results of the project named CLOSE-SEARCH, which stands for 'Accurate and safe EGNOS-SoL Navigation for UAV-based low-cost Search-And-Rescue (SAR) operations'. The main goal is to integrate a medium-size, helicopter-type Unmanned Aerial Vehicle (UAV), a thermal imaging sensor and an EGNOS-based multi-sensor navigation system, including an Autonomous Integrity Monitoring (AIM) capability, to support search operations in difficult-to-access areas and/or night operations. The focus of the paper is three-fold. Firstly, the operational and technical challenges of the proposed approach are discussed, such as ultra-safe multi-sensor navigation system, the use of combined thermal and optical vision (infrared plus visible) for person recognition and Beyond-Line-Of-Sight communications among others. Secondly, the implementation of the integrity concept for UAV platforms is discussed herein through the AIM approach. Based on the potential of the geodetic quality analysis and on the use of the European EGNOS system as a navigation performance starting point, AIM approaches integrity from the precision standpoint; that is, the derivation of Horizontal and Vertical Protection Levels (HPLs, VPLs) from a realistic precision estimation of the position parameters is performed and compared to predefined Alert Limits (ALs). Finally, some results from the project test campaigns are described to report on particular project achievements. Together with actual Search-and-Rescue teams, the system was operated in realistic, user-chosen test scenarios. In this context, and specially focusing on the EGNOS-based UAV navigation, the AIM capability and also the RGB/thermal imaging subsystem, a summary of the results is presented.

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State-of-the-art space mission telecommand receivers

Baldi

Bertinelli

Chiaraluce

et al. 2017

IEEE Aerosp. Electron. Syst. Mag.

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ATENEA: Advanced techniques for deeply integrated GNSS/INS/LiDAR navigation

Fernández¹,

Díez²,

Castro³

et al. 2010

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The ATENEA (Advanced Techniques for Navigation Receivers and Applications) project aims to join deeply integrated GNSS/INS receiver architectures and LIDAR techniques to provide an advanced navigation solution. The approach is suitable for a wide range of surveying applications in difficult environments, being Urban Mapping selected as reference case. ATENEA tackles the most challenging issues of this type of applications, showing how the use of Galileo signals, integrated positioning and observable processing can in one shot solve the more severe technical issues (robustness and continuity), increase accuracy and drastically reduce the system cost. The goal of the ATENEA project is to develop an advanced technology concept for seamless navigation at the cm-level regardless of the environment.

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Autonomous orbit determination for future GEO and HEO missions

Lorga

Silva

Dovis

et al. 2010

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GNSS/INS/LiDAR integration in urban environment: Algorithm description and results from ATENEA test campaign

Fernández¹,

Wis²,

Silva

et al. 2012

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P. F. Silva

Searching Lost People With Uavs: The System and Results of the Close-Search Project

State-of-the-art space mission telecommand receivers

ATENEA: Advanced techniques for deeply integrated GNSS/INS/LiDAR navigation

Autonomous orbit determination for future GEO and HEO missions

GNSS/INS/LiDAR integration in urban environment: Algorithm description and results from ATENEA test campaign

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