Projecten per jaar
Samenvatting
We propose a novel framework to controller design in environments with a two-level structure: a high-level graph in which each vertex is populated by a Markov decision process, called a ``room', with several low-level objectives. We proceed as follows. First, we apply deep reinforcement learning (DRL) to obtain low-level policies for each room and objective. Second, we apply reactive synthesis to obtain a planner that selects which low-level policy to apply in each room. Reactive synthesis refers to constructing a planner for a given model of the environment that satisfies a given objective (typically specified as a temporal logic formula) by design. The main advantage of the framework is formal guarantees. In addition, the framework enables a “separation of concerns”: low-level tasks are addressed using DRL, which enables scaling to large rooms of unknown dynamics, reward engineering is only done locally, and policies can be reused, whereas users can specify high-level tasks intuitively and naturally. The central challenge in synthesis is the need for a model of the rooms. We address this challenge by developing a DRL procedure to train concise “latent” policies together with latent abstract rooms, both paired with PAC guarantees on performance and abstraction quality. Unlike previous approaches, this circumvents a model distillation step. We demonstrate feasibility in a case study involving agent navigation in an environment with moving obstacles
Originele taal-2 | English |
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Status | Published - 18 nov 2024 |
Evenement | BNAIC/BeNeLearn 2024: Joint International Scientific Conferences on AI and Machine Learning - Jaarbeurs Supernova, Utrecht, Netherlands Duur: 18 nov 2024 → 20 nov 2024 Congresnummer: 36 https://bnaic2024.sites.uu.nl/ |
Conference
Conference | BNAIC/BeNeLearn 2024: Joint International Scientific Conferences on AI and Machine Learning |
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Verkorte titel | BNAIC/BeNeLearn 2024 |
Land/Regio | Netherlands |
Stad | Utrecht |
Periode | 18/11/24 → 20/11/24 |
Internet adres |
Projecten
- 2 Actief
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VLAAI1: Vlaams Artificiële Intelligentie Onderzoeksprogramma (VAIOP) – tweede cyclus
1/01/24 → 31/12/28
Project: Toegepast
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iBOF/21/027: DESCARTES - infectieziekten economie en artificiële intelligentie met garanties
Nowe, A., Hens, N. & Beutels, P.
1/01/21 → 31/12/26
Project: Fundamenteel
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Activating formal verification of deep reinforcement learning policies by model checking bisimilar latent space models
Delgrange, F., 2024, VUB Press. 348 blz.Onderzoeksoutput: PhD Thesis
Open AccessBestand -
Controller Synthesis from Deep Reinforcement Learning Policies
Delgrange, F., Avni, G., Lukina, A., Schilling, C., Nowe, A. & Pérez, G. A., 28 okt 2024.Onderzoeksoutput: Unpublished paper
Open Access -
Controller Synthesis from Deep Reinforcement Learning Policies
Delgrange, F., Avni, G., Lukina, A., Schilling, C., Nowe, A. & Pérez, G. A., 20 okt 2024, blz. 1-25. 25 blz.Onderzoeksoutput: Unpublished paper
Open Access