Sediment Sampling in Estuarine Mudflats with an Aerial-Ground Robotic Team

Pedro Deusdado; Magno Guedes; André Silva; Francisco Marques; Eduardo Pinto; Paulo Rodrigues; André Lourenço; Ricardo Mendonça; Pedro Santana; José Corisco; Susana Marta Almeida; Luís Portugal; Raquel Caldeira; José Barata; Luis Flores

doi:10.3390/s16091461

Sediment Sampling in Estuarine Mudflats with an Aerial-Ground Robotic Team

Sensors (Basel). 2016 Sep 9;16(9):1461. doi: 10.3390/s16091461.

Authors

Pedro Deusdado¹, Magno Guedes², André Silva³, Francisco Marques⁴, Eduardo Pinto⁵, Paulo Rodrigues⁶, André Lourenço⁷, Ricardo Mendonça⁸, Pedro Santana^{9

10}, José Corisco¹¹, Susana Marta Almeida¹², Luís Portugal¹³, Raquel Caldeira¹⁴, José Barata¹⁵, Luis Flores¹⁶

Affiliations

¹ INTROSYS SA, Introsys-Global Control System Designers, Parkim- Parque Industrial da Moita Rua dos Girassóis, n°1, Lote 6, Armazém A3, 2860-274 Moita, Portugal. pedro.deusdado@introsys.eu.
² INTROSYS SA, Introsys-Global Control System Designers, Parkim- Parque Industrial da Moita Rua dos Girassóis, n°1, Lote 6, Armazém A3, 2860-274 Moita, Portugal. magno.guedes@introsys.eu.
³ INTROSYS SA, Introsys-Global Control System Designers, Parkim- Parque Industrial da Moita Rua dos Girassóis, n°1, Lote 6, Armazém A3, 2860-274 Moita, Portugal. andre.silva@introsys.eu.
⁴ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. fam@uninova.pt.
⁵ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. emp@uninova.pt.
⁶ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. paulomrpt@gmail.com.
⁷ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. andre.lourenco@uninova.pt.
⁸ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. rmm@uninova.pt.
⁹ ISCTE-Instituto Universitário de Lisboa (ISCTE-IUL), 1649-026 Lisboa, Portugal. pedro.santana@iscte.pt.
¹⁰ Instituto de Telecomunicações (IT), 1049-001 Lisboa, Portugal. pedro.santana@iscte.pt.
¹¹ Centro de Ciências e Tecnologias Nucleares (C2TN), Instituto Superior Técnico, Universidade de Lisboa, E.N. 10 km 139.7, 2695-066 Bobadela LRS, Portugal. corisco@ctn.tecnico.ulisboa.pt.
¹² Centro de Ciências e Tecnologias Nucleares (C2TN), Instituto Superior Técnico, Universidade de Lisboa, E.N. 10 km 139.7, 2695-066 Bobadela LRS, Portugal. smarta@ctn.tecnico.ulisboa.pt.
¹³ Agência Portuguesa do Ambiente (APA), Agência Portuguesa do Ambiente, I.P., Rua da Murgueira, 9/9A-Zambujal, Ap. 7585, 2610-124 Amadora, Portugal. luis.portugal@apambiente.pt.
¹⁴ INTROSYS SA, Introsys-Global Control System Designers, Parkim- Parque Industrial da Moita Rua dos Girassóis, n°1, Lote 6, Armazém A3, 2860-274 Moita, Portugal. raquel.caldeira@introsys.eu.
¹⁵ CTS-UNINOVA, Universidade Nova de Lisboa (UNL), FCT Campus, 2829-516 Caparica, Portugal. jab@uninova.pt.
¹⁶ INTROSYS SA, Introsys-Global Control System Designers, Parkim- Parque Industrial da Moita Rua dos Girassóis, n°1, Lote 6, Armazém A3, 2860-274 Moita, Portugal. luis.flores@introsys.eu.

Abstract

This paper presents a robotic team suited for bottom sediment sampling and retrieval in mudflats, targeting environmental monitoring tasks. The robotic team encompasses a four-wheel-steering ground vehicle, equipped with a drilling tool designed to be able to retain wet soil, and a multi-rotor aerial vehicle for dynamic aerial imagery acquisition. On-demand aerial imagery, properly fused on an aerial mosaic, is used by remote human operators for specifying the robotic mission and supervising its execution. This is crucial for the success of an environmental monitoring study, as often it depends on human expertise to ensure the statistical significance and accuracy of the sampling procedures. Although the literature is rich on environmental monitoring sampling procedures, in mudflats, there is a gap as regards including robotic elements. This paper closes this gap by also proposing a preliminary experimental protocol tailored to exploit the capabilities offered by the robotic system. Field trials in the south bank of the river Tagus' estuary show the ability of the robotic system to successfully extract and transport bottom sediment samples for offline analysis. The results also show the efficiency of the extraction and the benefits when compared to (conventional) human-based sampling.

Keywords: UAV; UGV; environmental monitoring; estuarine mudflats; field robots; heavy metals monitoring; multi-robot system; radiological monitoring.