Commonsense Reasoning refers to the ability of individuals to make logical deductions, inferences, and decisions based on their everyday understanding of the world. It involves using practical knowledge, intuition, and general principles to navigate various situations, solve problems, and make judgments.

Unlike formal reasoning, which often relies on explicit rules and logical frameworks, commonsense reasoning draws upon implicit knowledge and experiences acquired through everyday interactions with the environment and other people.


Open-ended Commonsense Reasoning with Unrestricted Answer Scope

Open-ended Commonsense Reasoning is defined as solving a commonsense question without providing 1) a short list of answer candidates and 2) a pre-defined answer scope. Conventional ways of formulating the commonsense question into a question-answering form or utilizing external knowledge to learn retrieval-based methods are less applicable in the open-ended setting due to an inherent challenge. Without pre-defining an answer scope or a few candidates, open-ended commonsense reasoning entails predicting answers by searching over an extremely large searching space. Moreover, most questions require implicit multi-hop reasoning, which presents even more challenges to our problem. In this work, we leverage pre-trained language models to iteratively retrieve reasoning paths on the external knowledge base, which does not require task-specific supervision. The reasoning paths can help to identify the most precise answer to the commonsense question. We conduct experiments on two commonsense benchmark datasets. Compared to other approaches, our proposed method achieves better performance both quantitatively and qualitatively.