2016 IEEE 14th International Workshop on Advanced Motion Control (AMC) 2016
DOI: 10.1109/amc.2016.7496385
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An approach for coverage path planning for UAVs

Abstract: Abstract-In this paper, an offline flight planner that computes an efficient coverage trajectory for a quad-rotors UAV is presented. The planner consists of three steps: mission definition, automatic path planning and trajectory generation. The proposed planner, as a useful tool, allows an UAV operator to easily define and generate a coverage trajectory for any specific task. The resultant trajectory can be dispatched to a quad-rotors with trajectory tracking controller for the missions that require a complete… Show more

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Cited by 70 publications
(37 citation statements)
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“…Robotic bush trimming is a task related to the coverage path planning problem that has been extensively studied in the literature (Galceran & Carreras, ). The task is fundamental to several robotic applications: agricultural fields plowing (Jin & Tang, ), crops harvesting (van Henten et al, ), lawn mowing (Arkin, Fekete, & Mitchell, ), inspection of underwater structures (Englot & Hover, ), environment surveillance with unmanned aerial vehicles (UAVs; Nama, Huanga, Lia, & Xub, ), spray‐painting of automotive parts (Sheng, Xi, Song, Chen, & Macneille, ), spray forming (Sheng, Chen, Xi, Chen, & Motivation, ), computer numerical control (CNC) machining (Macleod, Dobie, Pierce, Summan, & Morozov, ), laser cutting (Ma et al, ), and cleaning (Palacin, Palleja, Valganon, Pernia, & Roca, ). The problem is intimately related to the traveling salesman problem (TSP).…”
Section: Introductionmentioning
confidence: 99%
“…Robotic bush trimming is a task related to the coverage path planning problem that has been extensively studied in the literature (Galceran & Carreras, ). The task is fundamental to several robotic applications: agricultural fields plowing (Jin & Tang, ), crops harvesting (van Henten et al, ), lawn mowing (Arkin, Fekete, & Mitchell, ), inspection of underwater structures (Englot & Hover, ), environment surveillance with unmanned aerial vehicles (UAVs; Nama, Huanga, Lia, & Xub, ), spray‐painting of automotive parts (Sheng, Xi, Song, Chen, & Macneille, ), spray forming (Sheng, Chen, Xi, Chen, & Motivation, ), computer numerical control (CNC) machining (Macleod, Dobie, Pierce, Summan, & Morozov, ), laser cutting (Ma et al, ), and cleaning (Palacin, Palleja, Valganon, Pernia, & Roca, ). The problem is intimately related to the traveling salesman problem (TSP).…”
Section: Introductionmentioning
confidence: 99%
“…The mission completion time includes flying time and hovering time. We lean on the following formula from [4] to find the completion time denoted τ:…”
Section: Completion Timementioning
confidence: 99%
“…The usage of an Unmanned Aerial Vehicle (UAV) (also known as a drone) has become very fast-growing recently [1]. It pervades many application domains to achieve different missions such as terrain monitoring and smart agriculture [2,3], photogrammetry [4], harsh and disaster environments management [5], smart policing, wildfire tracking [6], and many more. One of the main active research areas for UAV is the Coverage Path Planning (CPP).…”
Section: Introductionmentioning
confidence: 99%
“…Grid-based methods are used over approximate areas to generate coverage paths for the UAVs [36]. Convex decomposition transforms the irregular shaped AOI into regular shaped cells in order to reduce the number of turns [37].…”
Section: Background and Related Workmentioning
confidence: 99%