Autonomous Exploration and Mapping System Using Heterogeneous UAVs and UGVs in GPS-Denied Environments

Qin, Hailong; Meng, Zehui; Meng, Wei; Chen, Xudong; Sun, Hao; Lin, Feng; Ang, Marcelo H.

doi:10.1109/tvt.2018.2890416

Cited by 158 publications

(55 citation statements)

References 40 publications

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“…Most of the work presented in the literature utilize homogeneous type of robots and sensors such as the work presented in [28,40,69,84] which limits the coverage dimensionality. Few papers utilized heterogeneous type of robots and sensors as in [45,48,49,64]. 2.…”

Section: Discussion and Future Research Directionsmentioning

confidence: 99%

“…The objective of service vehicles is to optimally cover the terrain by spreading out over the environment of interest. Similarly, the work in [64] proposed a two layered exploration approach including coarse exploration layer performed by UGV, and fine mapping layer performed by UAVs in GPS denied environment. The UGV starts exploring the area of interest using 3D laser to create a rough 2.5D volumetric map using SLAM, which is then used by the UAV to update occupancy data of the gaps using 2D tilting laser.…”

Section: Nbv Approachesmentioning

confidence: 99%

“…Taking into consideration all the one-to-one coordinations between neighboring UAVs distributes the whole team efficiently. The work in [64] performed decentralized exploration using UGV and UAV platforms where each one of them updates their map and navigation on their own then share it with the other vehicle.…”

Section: Communication and Task Allocationmentioning

confidence: 99%

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A survey on multi-robot coverage path planning for model reconstruction and mapping

Taha²,

et al. 2019

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There has been an increasing interest in researching, developing and deploying multi-robot systems. This has been driven mainly by: the maturity of the practical deployment of a single-robot system and its ability to solve some of the most challenging tasks. Coverage path planning (CPP) is one of the active research topics that could benefit greatly from multi-robot systems. In this paper, we surveyed the research topics related to multi-robot CPP for the purpose of mapping and model reconstructions. We classified the topics into: viewpoints generation approaches; coverage planning strategies; coordination and decision-making processes; communication mechanism and mapping approaches. This paper provides a detailed analysis and comparison of the recent research work in this area, and concludes with a critical analysis of the field, and future research perspectives.

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Section: Discussion and Future Research Directionsmentioning

confidence: 99%

Section: Nbv Approachesmentioning

confidence: 99%

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A survey on multi-robot coverage path planning for model reconstruction and mapping

Taha²,

et al. 2019

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“…Tais aplicações podem incluir transporte de cargas, como em (Meissen et al, 2017), (Shirani et al, 2019) e (Villa et al, 2019), em que a própria forma da carga pode ser determinante para o uso de um grupo de robôs (Villa et al, 2019), e mapeamento deáreas, como em (Kim et al, 2014), (Lyu et al, 2015) e (Qin et al, 2019), entre outras. Além disso, o uso de grupos de robôs viabiliza a redundância de informação, garantindo a execução da tarefa mesmo diante da falha de algum robô, comoé o caso em (Ernandes-Neto et al, 2019), ou da diversidade no ambiente de atuação, como em (Sharma and Kumar, Trabalho financiado pelo CNPq -Conselho Nacional de Desenvolvimento Científico e Tecnológico, e pela FAPES -Fundação de Amparoà Pesquisa e Inovação do Espírito Santo.…”

Section: Introductionunclassified

Seguimento de Caminho Usando Espaço Nulo para uma Formação VANT-VTNT

Bacheti

Brandão

Sarcinelli-Filho

2020

Anais Do Congresso Brasileiro De Automática 2020

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Neste artigo é discutido o controle de uma formação composta por um veículo terrestre não tripulado (VTNT) e um veículo aéereo não tripulado (VANT) utilizando conceitos de Espaço Nulo. A formação navega de maneira coordenada, com o VANT seguindo o VTNT, mantendo uma pose relativa em relação a ele, enquanto o VTNT segue um caminho especificado, para que o VANT possa pousar nele a qualquer momento desejado. Neste sentido, as técnicas de Espaco Nulo são utilizadas para melhorar a pose relativa entre os robôs e, consequentemente, aumentar a conabilidade do pouso. São apresentados resultados experimentais, os quais validam a abordagem adotada para realizar tal tarefa.

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“…Simultaneous localisation and mapping (SLAM) consists of inferring the states of a mobile agent and static landmarks based on sensor measurements, which can be taken by the mobile agent and/or the landmarks, depending on the application. SLAM was developed in the robotics area [1] but also has important applications in related fields such as computer vision [2], [3], autonomous driving [4], unmanned aerial vehicles [5], and target tracking and localisation [6], [7]. With the widespread use of smartphones and ubiquitous radio beacons, such as Wi-Fi access points, Bluetooth beacons and radio-frequency identification (RFID) tags [8]- [13], SLAM techniques can also be used to localise a smartphone (agent) and map these signal sources (landmarks).…”

Section: Introductionmentioning

confidence: 99%

Rao-Blackwellized Posterior Linearization Backward SLAM

García-Fernández

Hostettler

Särkkä

2019

IEEE Trans. Veh. Technol.

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This paper proposes the posterior linearisation backward simultaneous localisation and mapping (PLB-SLAM) algorithm for batch SLAM problems. Based on motion and landmark measurements, we aim to estimate the trajectory of the mobile agent and the landmark positions using an approximate Rao-Blackwellised Monte Carlo solution, as in FastSLAM. PLB-SLAM improves the accuracy of current FastSLAM solutions due to two key aspects: smoothing of the trajectory distribution via backward trajectory simulation and the use of iterated posterior linearisation to obtain Gaussian approximations of the distribution of the landmarks. PLB-SLAM is assessed via numerical simulations and real experiments for indoor localisation and mapping of radio beacons using a smartphone, Bluetooth beacons, and Wi-Fi access points.

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Autonomous Exploration and Mapping System Using Heterogeneous UAVs and UGVs in GPS-Denied Environments

Cited by 158 publications

References 40 publications

A survey on multi-robot coverage path planning for model reconstruction and mapping

A survey on multi-robot coverage path planning for model reconstruction and mapping

Seguimento de Caminho Usando Espaço Nulo para uma Formação VANT-VTNT

Rao-Blackwellized Posterior Linearization Backward SLAM

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