Your search keyword '"de Tinguy, Daria"' showing total 8 results

1. Exploring and Learning Structure: Active Inference Approach in Navigational Agents

Author

de Tinguy, Daria, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Artificial Intelligence, Computer Science - Neural and Evolutionary Computing, Computer Science - Robotics

Abstract

Drawing inspiration from animal navigation strategies, we introduce a novel computational model for navigation and mapping, rooted in biologically inspired principles. Animals exhibit remarkable navigation abilities by efficiently using memory, imagination, and strategic decision-making to navigate complex and aliased environments. Building on these insights, we integrate traditional cognitive mapping approaches with an Active Inference Framework (AIF) to learn an environment structure in a few steps. Through the incorporation of topological mapping for long-term memory and AIF for navigation planning and structure learning, our model can dynamically apprehend environmental structures and expand its internal map with predicted beliefs during exploration. Comparative experiments with the Clone-Structured Graph (CSCG) model highlight our model's ability to rapidly learn environmental structures in a single episode, with minimal navigation overlap. this is achieved without prior knowledge of the dimensions of the environment or the type of observations, showcasing its robustness and effectiveness in navigating ambiguous environments., Comment: IWAI workshop 2024

Published

2024

2. Spatial and Temporal Hierarchy for Autonomous Navigation using Active Inference in Minigrid Environment

Author

de Tinguy, Daria, van de Maele, Toon, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Robotics

Abstract

Robust evidence suggests that humans explore their environment using a combination of topological landmarks and coarse-grained path integration. This approach relies on identifiable environmental features (topological landmarks) in tandem with estimations of distance and direction (coarse-grained path integration) to construct cognitive maps of the surroundings. This cognitive map is believed to exhibit a hierarchical structure, allowing efficient planning when solving complex navigation tasks. Inspired by human behaviour, this paper presents a scalable hierarchical active inference model for autonomous navigation, exploration, and goal-oriented behaviour. The model uses visual observation and motion perception to combine curiosity-driven exploration with goal-oriented behaviour. Motion is planned using different levels of reasoning, i.e., from context to place to motion. This allows for efficient navigation in new spaces and rapid progress toward a target. By incorporating these human navigational strategies and their hierarchical representation of the environment, this model proposes a new solution for autonomous navigation and exploration. The approach is validated through simulations in a mini-grid environment., Comment: arXiv admin note: text overlap with arXiv:2309.09864

Published

2023

3. Learning Spatial and Temporal Hierarchies: Hierarchical Active Inference for navigation in Multi-Room Maze Environments

Author

de Tinguy, Daria, Van de Maele, Toon, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Artificial Intelligence

Abstract

Cognitive maps play a crucial role in facilitating flexible behaviour by representing spatial and conceptual relationships within an environment. The ability to learn and infer the underlying structure of the environment is crucial for effective exploration and navigation. This paper introduces a hierarchical active inference model addressing the challenge of inferring structure in the world from pixel-based observations. We propose a three-layer hierarchical model consisting of a cognitive map, an allocentric, and an egocentric world model, combining curiosity-driven exploration with goal-oriented behaviour at the different levels of reasoning from context to place to motion. This allows for efficient exploration and goal-directed search in room-structured mini-grid environments., Comment: IROS 2023 Workshop World Models and Predictive Coding in Cognitive Robotics. arXiv admin note: text overlap with arXiv:2306.13546

Published

2023

4. Learning to Navigate from Scratch using World Models and Curiosity: the Good, the Bad, and the Ugly

Author

de Tinguy, Daria, Remmery, Sven, Mazzaglia, Pietro, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Robotics

Abstract

Learning to navigate unknown environments from scratch is a challenging problem. This work presents a system that integrates world models with curiosity-driven exploration for autonomous navigation in new environments. We evaluate performance through simulations and real-world experiments of varying scales and complexities. In simulated environments, the approach rapidly and comprehensively explores the surroundings. Real-world scenarios introduce additional challenges. Despite demonstrating promise in a small controlled environment, we acknowledge that larger and dynamic environments can pose challenges for the current system. Our analysis emphasizes the significance of developing adaptable and robust world models that can handle environmental changes to prevent repetitive exploration of the same areas., Comment: IROS 2023 workshop World Models and Predictive Coding in Cognitive Robotics and IROS 2023 workshop Learning Robot Super Autonomy

Published

2023

5. Inferring Hierarchical Structure in Multi-Room Maze Environments

Author

de Tinguy, Daria, Van de Maele, Toon, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Artificial Intelligence

Abstract

Cognitive maps play a crucial role in facilitating flexible behaviour by representing spatial and conceptual relationships within an environment. The ability to learn and infer the underlying structure of the environment is crucial for effective exploration and navigation. This paper introduces a hierarchical active inference model addressing the challenge of inferring structure in the world from pixel-based observations. We propose a three-layer hierarchical model consisting of a cognitive map, an allocentric, and an egocentric world model, combining curiosity-driven exploration with goal-oriented behaviour at the different levels of reasoning from context to place to motion. This allows for efficient exploration and goal-directed search in room-structured mini-grid environments., Comment: ICML 2023 Workshop

Published

2023

6. Home Run: Finding Your Way Home by Imagining Trajectories

Author

de Tinguy, Daria, Mazzaglia, Pietro, Verbelen, Tim, and Dhoedt, Bart

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

When studying unconstrained behaviour and allowing mice to leave their cage to navigate a complex labyrinth, the mice exhibit foraging behaviour in the labyrinth searching for rewards, returning to their home cage now and then, e.g. to drink. Surprisingly, when executing such a ``home run'', the mice do not follow the exact reverse path, in fact, the entry path and home path have very little overlap. Recent work proposed a hierarchical active inference model for navigation, where the low level model makes inferences about hidden states and poses that explain sensory inputs, whereas the high level model makes inferences about moving between locations, effectively building a map of the environment. However, using this ``map'' for planning, only allows the agent to find trajectories that it previously explored, far from the observed mice's behaviour. In this paper, we explore ways of incorporating before-unvisited paths in the planning algorithm, by using the low level generative model to imagine potential, yet undiscovered paths. We demonstrate a proof of concept in a grid-world environment, showing how an agent can accurately predict a new, shorter path in the map leading to its starting point, using a generative model learnt from pixel-based observations., Comment: accepted for International Workshop on Active Inference IWAI 2022, ECML PKDD workshop

Published

2022

7. Spatial and Temporal Hierarchy for Autonomous Navigation Using Active Inference in Minigrid Environment

Author

de Tinguy, Daria, primary, Van de Maele, Toon, additional, Verbelen, Tim, additional, and Dhoedt, Bart, additional

Published

2024

8. Chunking space and time with information geometry

Author

Verbelen, Tim, de Tinguy, Daria, Mazzaglia, Pietro, Catal, Ozan, and Safron, Adam

Subjects

Technology and Engineering

Abstract

Humans are exposed to a continuous stream of sensory data, yet understand the world in terms of discrete concepts. A large body of work has focused on chunking sensory data in time, i.e. finding event boundaries, typically identified by model prediction errors. Similarly, chucking sensory data in space is the problem at hand when building spatial maps for navigation. In this work, we argue that a single mechanism underlies both, which is building a hierarchical generative model of perception and action, where chunks at a higher level are formed by segments surpassing a certain information distance at the level below. We demonstrate how this can work in the case of robot navigation, and discuss how this could relate to human cognition in general.

Published

2022