View  planning  with  time  constraints: an  adaptive  sampling  approach

Lars Kunze; Mohan Sridharan; Christos Dimitrakakis; Jeremy Wyatt

View planning with time constraints: an adaptive sampling approach

Lars Kunze, Mohan Sridharan, Christos Dimitrakakis, Jeremy Wyatt

Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Planning for object search requires the generation and sequencing of views in a continuous space. These generated plans need to consider the effect of overlapping views, and there is typically a limit imposed on the time taken to compute and execute the plans. We formulate this challenging problem of
view planning in the presence of overlapping views and time constraints as an Orienteering Problem with history-dependent rewards. In this paper, we focus on the aspect of the problem in which the plan execution time is constrained, but not the planning time. We abstract away the unreliability of perception,
and present a sampling-based view planner that simultaneously selects a set of views and a route through them, and incorporates a prior over object locations. We show that our approach outperforms the state of the art methods for the orienteering problem. All algorithms are evaluated in four environments
that vary in size and complexity, using a robot simulator that includes a realistic model of robot dynamics. We also demonstrate the robustness of our approach through long-term robot deployment in a real-world environment.

Original language	English
Title of host publication	Workshop on AI Planning and Robotics: Challenges and Methods (AIPlanRob)
Publication status	Published - 29 May 2017

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@inproceedings{fc1b046c38f546eb908f5e122976fd61,

title = "View planning with time constraints: an adaptive sampling approach",

abstract = " Planning for object search requires the generation and sequencing of views in a continuous space. These generated plans need to consider the effect of overlapping views, and there is typically a limit imposed on the time taken to compute and execute the plans. We formulate this challenging problem ofview planning in the presence of overlapping views and time constraints as an Orienteering Problem with history-dependent rewards. In this paper, we focus on the aspect of the problem in which the plan execution time is constrained, but not the planning time. We abstract away the unreliability of perception,and present a sampling-based view planner that simultaneously selects a set of views and a route through them, and incorporates a prior over object locations. We show that our approach outperforms the state of the art methods for the orienteering problem. All algorithms are evaluated in four environmentsthat vary in size and complexity, using a robot simulator that includes a realistic model of robot dynamics. We also demonstrate the robustness of our approach through long-term robot deployment in a real-world environment.",

author = "Lars Kunze and Mohan Sridharan and Christos Dimitrakakis and Jeremy Wyatt",

year = "2017",

month = may,

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language = "English",

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TY - GEN

T1 - View planning with time constraints

T2 - an adaptive sampling approach

AU - Kunze, Lars

AU - Sridharan, Mohan

AU - Dimitrakakis, Christos

AU - Wyatt, Jeremy

PY - 2017/5/29

Y1 - 2017/5/29

N2 - Planning for object search requires the generation and sequencing of views in a continuous space. These generated plans need to consider the effect of overlapping views, and there is typically a limit imposed on the time taken to compute and execute the plans. We formulate this challenging problem ofview planning in the presence of overlapping views and time constraints as an Orienteering Problem with history-dependent rewards. In this paper, we focus on the aspect of the problem in which the plan execution time is constrained, but not the planning time. We abstract away the unreliability of perception,and present a sampling-based view planner that simultaneously selects a set of views and a route through them, and incorporates a prior over object locations. We show that our approach outperforms the state of the art methods for the orienteering problem. All algorithms are evaluated in four environmentsthat vary in size and complexity, using a robot simulator that includes a realistic model of robot dynamics. We also demonstrate the robustness of our approach through long-term robot deployment in a real-world environment.

AB - Planning for object search requires the generation and sequencing of views in a continuous space. These generated plans need to consider the effect of overlapping views, and there is typically a limit imposed on the time taken to compute and execute the plans. We formulate this challenging problem ofview planning in the presence of overlapping views and time constraints as an Orienteering Problem with history-dependent rewards. In this paper, we focus on the aspect of the problem in which the plan execution time is constrained, but not the planning time. We abstract away the unreliability of perception,and present a sampling-based view planner that simultaneously selects a set of views and a route through them, and incorporates a prior over object locations. We show that our approach outperforms the state of the art methods for the orienteering problem. All algorithms are evaluated in four environmentsthat vary in size and complexity, using a robot simulator that includes a realistic model of robot dynamics. We also demonstrate the robustness of our approach through long-term robot deployment in a real-world environment.

M3 - Conference contribution

BT - Workshop on AI Planning and Robotics: Challenges and Methods (AIPlanRob)

ER -

View planning with time constraints: an adaptive sampling approach

Abstract

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