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Bibliographic Details
Main Authors: Ganapathy, Ramkumar, Thron, Christopher
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2309.01604
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author Ganapathy, Ramkumar
Thron, Christopher
author_facet Ganapathy, Ramkumar
Thron, Christopher
contents We consider a remote sensing system in which fixed sensors are placed in a region, and a drone flies over the region to collect information from cluster heads. We assume that the drone has a fixed maximum range, and that the energy consumption for information transmission from the cluster heads increases with distance according to a power law. Given these assumptions, we derive local optimum conditions for a drone path that either minimizes the total energy or the maximum energy required by the cluster heads to transmit information to the drone. We show how a homotopy approach can produce a family of solutions for different drone path lengths, so that a locally optimal solution can be found for any drone range. We implement the homotopy solution in python, and demonstrate the tradeoff between drone range and cluster head power consumption for several geometries. Execution time is sufficiently rapid for the computation to be performed real time, so the drone path can be recalculated on the fly. The solution is shown to be globally optimal for sufficiently long drone path lengths. For future work, we indicate how the solution can be modified to accommodate moving sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2309_01604
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Optimal Real Time Drone Path Planning for Harvesting Information from a Wireless Sensor Network
Ganapathy, Ramkumar
Thron, Christopher
Optimization and Control
00 00A69, 94-10, 49K15, 49-04
C.2.1; J.2
We consider a remote sensing system in which fixed sensors are placed in a region, and a drone flies over the region to collect information from cluster heads. We assume that the drone has a fixed maximum range, and that the energy consumption for information transmission from the cluster heads increases with distance according to a power law. Given these assumptions, we derive local optimum conditions for a drone path that either minimizes the total energy or the maximum energy required by the cluster heads to transmit information to the drone. We show how a homotopy approach can produce a family of solutions for different drone path lengths, so that a locally optimal solution can be found for any drone range. We implement the homotopy solution in python, and demonstrate the tradeoff between drone range and cluster head power consumption for several geometries. Execution time is sufficiently rapid for the computation to be performed real time, so the drone path can be recalculated on the fly. The solution is shown to be globally optimal for sufficiently long drone path lengths. For future work, we indicate how the solution can be modified to accommodate moving sensors.
title Optimal Real Time Drone Path Planning for Harvesting Information from a Wireless Sensor Network
topic Optimization and Control
00 00A69, 94-10, 49K15, 49-04
C.2.1; J.2
url https://arxiv.org/abs/2309.01604