TY - GEN
T1 - Coordination and communication of cooperative parafoils for humanitarian aid
AU - Gurfil, Pini
AU - Feldman, Sharoni
AU - Feldman, Moran
PY - 2008
Y1 - 2008
N2 - In case of a wide-scale disaster, an accurate airdrop of emergency supplies is crucial. In this paper, we present a novel top-down approach for designing and executing airdrop missions using guided parafoils. We develop a guidance algorithm and a cooperative task management method for autonomous handling of faults and exceptional events by the parafoil group. The autonomous operation is based on inter-parafoil ad-hoc communication. A parafoil or a number of parafoils can dynamically react to events that prevent one or more parafoils from successfully completing their mission. Two recovery methods are presented - Swap, which enables parafoils to dynamically exchange their targets, and Replace, which gives precedence to prioritized targets over low-priority targets. The parafoil guidance method, combined with the task management algorithm, significantly increases the probability of successful airdrop. The small overhead of the communication layer and the low complexity of the swap and replace recovery algorithms enable these procedures to run in a distributed environment under real-time limitations.
AB - In case of a wide-scale disaster, an accurate airdrop of emergency supplies is crucial. In this paper, we present a novel top-down approach for designing and executing airdrop missions using guided parafoils. We develop a guidance algorithm and a cooperative task management method for autonomous handling of faults and exceptional events by the parafoil group. The autonomous operation is based on inter-parafoil ad-hoc communication. A parafoil or a number of parafoils can dynamically react to events that prevent one or more parafoils from successfully completing their mission. Two recovery methods are presented - Swap, which enables parafoils to dynamically exchange their targets, and Replace, which gives precedence to prioritized targets over low-priority targets. The parafoil guidance method, combined with the task management algorithm, significantly increases the probability of successful airdrop. The small overhead of the communication layer and the low complexity of the swap and replace recovery algorithms enable these procedures to run in a distributed environment under real-time limitations.
UR - http://www.scopus.com/inward/record.url?scp=84867091486&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84867091486
SN - 9781605601274
T3 - Technion Israel Institute of Technology - 48th Israel Annual Conference on Aerospace Sciences 2008
SP - 379
EP - 415
BT - Technion Israel Institute of Technology - 48th Israel Annual Conference on Aerospace Sciences 2008
T2 - 48th Israel Annual Conference on Aerospace Sciences 2008
Y2 - 27 February 2008 through 28 February 2008
ER -