A Framework for Simultaneous Task Allocation and Planning under Uncertainty

IF 2.2 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE ACM Transactions on Autonomous and Adaptive Systems Pub Date : 2024-05-28 DOI:10.1145/3665499
Fatma Faruq, Bruno Lacerda, Nick Hawes, David Parker
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Abstract

We present novel techniques for simultaneous task allocation and planning in multi-robot systems operating under uncertainty. By performing task allocation and planning simultaneously, allocations are informed by individual robot behaviour, creating more efficient team behaviour. We go beyond existing work by planning for task reallocation across the team given a model of partial task satisfaction under potential robot failures and uncertain action outcomes. We model the problem using Markov decision processes, with tasks encoded in co-safe linear temporal logic, and optimise for the expected number of tasks completed by the team. To avoid the inherent complexity of joint models, we propose an alternative model that simultaneously considers task allocation and planning, but in a sequential fashion. We then build a joint policy from the sequential policy obtained from our model, thus allowing for concurrent policy execution. Furthermore, to enable adaptation in the case of robot failures, we consider replanning from failure states and propose an approach to preemptively replan in an anytime fashion, replanning for more probable failure states first. Our method also allows us to quantify the performance of the team by providing an analysis of properties such as the expected number of completed tasks under concurrent policy execution. We implement and extensively evaluate our approach on a range of scenarios. We compare its performance to a state-of-the-art baseline in decoupled task allocation and planning: sequential single-item auctions. Our approach outperforms the baseline in terms of computation time and the number of times replanning is required on robot failure.

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不确定性条件下的任务分配与规划同步框架
我们介绍了在不确定条件下运行的多机器人系统中同时进行任务分配和规划的新技术。通过同时执行任务分配和规划,机器人个体的行为为任务分配提供了信息,从而提高了团队行为的效率。我们在现有工作的基础上,根据潜在机器人故障和不确定行动结果下的部分任务满意度模型,对整个团队的任务重新分配进行规划。我们使用马尔可夫决策过程对问题进行建模,任务以共安全线性时间逻辑进行编码,并对团队完成任务的预期数量进行优化。为了避免联合模型固有的复杂性,我们提出了一个替代模型,该模型同时考虑任务分配和规划,但以顺序的方式进行。然后,我们根据从模型中获得的顺序策略建立联合策略,从而实现策略的并行执行。此外,为了能够在机器人发生故障时进行调整,我们考虑了从故障状态重新规划的问题,并提出了一种以随时方式进行抢先重新规划的方法,首先对更有可能发生的故障状态进行重新规划。我们的方法还允许我们通过分析并发策略执行下完成任务的预期数量等属性来量化团队的性能。我们在一系列场景中实施并广泛评估了我们的方法。我们将其性能与任务分配和规划解耦的最先进基线(顺序单项拍卖)进行了比较。在计算时间和机器人故障时需要重新规划的次数方面,我们的方法优于基准方法。
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来源期刊
ACM Transactions on Autonomous and Adaptive Systems
ACM Transactions on Autonomous and Adaptive Systems 工程技术-计算机:理论方法
CiteScore
4.80
自引率
7.40%
发文量
9
审稿时长
>12 weeks
期刊介绍: TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community -- and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community - and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. Contributions are expected to be based on sound and innovative theoretical models, algorithms, engineering and programming techniques, infrastructures and systems, or technological and application experiences.
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