Sttar: A Simheuristics-Enabled Scheme for Multi-Stakeholder Coordination Of Aircraft Turnaround Operations

2019 Winter Simulation Conference (WSC) Pub Date : 2019-12-01 DOI:10.1109/WSC40007.2019.9004787

M. Tomasella, Alexandra Clare, Yagmur S. Gök, Daniel Guimarans, Cemalettin Ozturk

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引用次数: 15

Abstract

Aircraft turnaround operations involve all services to an aircraft (e.g. passenger boarding/disembarking, re-fuelling, deicing) between its arrival and immediately following departure. The aircraft, parked at its stand, witnesses a number of service providers move around it to perform their duties. These companies run substantially independent operations, working for different airlines/flights within a confined area where many resources, including physical space itself, have inescapably to be shared. Inter-dependencies among service providers abound, and knock-on effects at disrupted times are rife. Coordination from the side of the airport operator is difficult. We envisage a tactical robust scheme whereby ground handlers and the airport operator cooperate, albeit indirectly, in the development of plans for the next day that are less likely to be impacted by at least the more frequent operational disruptions. The scheme is based on a simheuristic approach which integrates ad-hoc heuristics with a hybrid simulation model (agent-based/discrete-event).

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基于相似启发式的飞机周转作业多利益相关者协调方案

飞机周转作业涉及飞机从抵达到起飞之间的所有服务(例如乘客登机/下机、加油、除冰)。这架停在停机坪上的飞机，见证了许多服务提供商在它周围移动，履行他们的职责。这些公司基本上是独立运营的，在一个有限的区域内为不同的航空公司/航班服务，在这个区域内，许多资源，包括物理空间本身，都不可避免地要共享。服务提供商之间的相互依赖比比皆是，在混乱时期的连锁反应也很普遍。机场运营方的协调是困难的。我们设想了一个强有力的战术方案，即地勤人员和机场运营商合作(尽管是间接合作)制定第二天的计划，这些计划不太可能受到至少更频繁的运营中断的影响。该方案基于一种将自组织启发式方法与混合仿真模型(基于智能体/离散事件)相结合的相似启发式方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 Winter Simulation Conference (WSC)

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