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Hierarchical planning with state abstractions for temporal task specifications

Authors
Oh, YoonseonPatel, RomaNguyen, ThaoHuang, BaichuanBerg, MatthewPavlick, EllieTellex, Stefanie
Issue Date
Aug-2022
Publisher
Kluwer Academic Publishers
Keywords
Hierarchical task planning; Linear temporal logic; Language
Citation
Autonomous Robots, v.46, no.6, pp 667 - 683
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
Autonomous Robots
Volume
46
Number
6
Start Page
667
End Page
683
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/203907
DOI
10.1007/s10514-022-10043-y
ISSN
0929-5593
1573-7527
Abstract
We often specify tasks for a robot using temporal language that can include different levels of abstraction. For example, the command "go to the kitchen before going to the second floor" contains spatial abstraction, given that "floor" consists of individual rooms that can also be referred to in isolation ("kitchen", for example). There is also a temporal ordering of events, defined by the word "before". Previous works have used syntactically co-safe Linear Temporal Logic (sc-LTL) to interpret temporal language (such as "before"), and Abstract Markov Decision Processes (AMDPs) to interpret hierarchical abstractions (such as "kitchen" and "second floor"), separately. To handle both types of commands at once, we introduce the Abstract Product Markov Decision Process (AP-MDP), a novel approach capable of representing non-Markovian reward functions at different levels of abstractions. The AP-MDP framework translates LTL into its corresponding automata, creates a product Markov Decision Process (MDP) of the LTL specification and the environment MDP, and decomposes the problem into subproblems to enable efficient planning with abstractions. AP-MDP performs faster than a non-hierarchical method of solving LTL problems in over 95% of path planning tasks, and this number only increases as the size of the environment domain increases. In a cleanup world domain, AP-MDP performs faster in over 98% of tasks. We also present a neural sequence-tosequence model trained to translate language commands into LTL expression, and a new corpus of non-Markovian language commands spanning different levels of abstraction. We test our framework with the collected language commands on two drones, demonstrating that our approach enables robots to efficiently solve temporal commands at different levels of abstraction in both indoor and outdoor environments.
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