Neuro Symbolic
Neuro-symbolic AI integrates neural networks' learning capabilities with symbolic AI's reasoning and explainability, aiming to create more robust, interpretable, and efficient AI systems. Current research focuses on developing hybrid models that combine neural networks (e.g., transformers, graph neural networks) with symbolic reasoning frameworks (e.g., logic tensor networks, logic programming), often applied to tasks like planning, question answering, and knowledge graph reasoning. This approach addresses limitations of purely neural or symbolic methods, offering potential for improved performance and trustworthiness in various applications, including robotics, natural language processing, and knowledge representation.
Papers
VisualPredicator: Learning Abstract World Models with Neuro-Symbolic Predicates for Robot Planning
Yichao Liang, Nishanth Kumar, Hao Tang, Adrian Weller, Joshua B. Tenenbaum, Tom Silver, João F. Henriques, Kevin Ellis
A Walsh Hadamard Derived Linear Vector Symbolic Architecture
Mohammad Mahmudul Alam, Alexander Oberle, Edward Raff, Stella Biderman, Tim Oates, James Holt