机载传感器的机会共享

2016 International Conference on Distributed Computing in Sensor Systems (DCOSS) Pub Date : 2016-05-26 DOI:10.1109/DCOSS.2016.43

J. Beal, K. Usbeck, J. Loyall, J. Metzler

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引用次数: 12

摘要

机载传感器通常在飞行的大部分时间处于空闲状态，例如，当携带它们的平台在往返传感器任务地点的途中时。因此，许多其他潜在信息消费者的感知需求可能通过共享这些传感器而得到满足，从而允许其他信息消费者在其其他未安排的时间内机会地执行任务。为此，我们开发了信息生产者任务驱动任务(MTIP)，这是一种用于机载传感器机会共享的原型系统。本文将其实现描述为基于代理的任务分配系统，该系统位于Marti服务质量(QoS)管理的发布-订阅信息管理系统之上，并模拟了一个灾难响应场景，演示了MTIP如何增加服务的传感器任务数量以及减少服务给定传感器任务集所需的无人机数量。

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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Opportunistic Sharing of Airborne Sensors

Airborne sensors are often idle for much of their flight, e.g., while the platform carrying them is in transit to and from the locations of sensor tasks. The sensing needs of many other potential information consumers might thus be served by sharing such sensors, allowing other information consumers to opportunistically task them during their otherwise unscheduled time. Toward this end, we have developed Mission-Driven Tasking of Information Producers (MTIP), a prototype system for opportunistic sharing of airborne sensors. This paper describes its implementation as an agent-based task allocation system on top of the Marti Quality of Service (QoS)-managed publish-subscribe information management system, and presents simulations of a disaster response scenario demonstrating how MTIP can increase the number of sensor tasks served as well as reducing the number of UAVs required to serve a given set of sensor tasks.

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2016 International Conference on Distributed Computing in Sensor Systems (DCOSS)

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