Commonsense is of primary interest to AI research since the inception of the field. Traditionally, commonsense knowledge is gathered by using humans to create and insert it in knowledge bases. Automating the collection of commonsense from text that is freely available can reduce the cost and effort of creating large knowledge bases and can enable systems that dynamically adapt to current relevant commonsense. In this thesis, we design, implement and evaluate an online game that classifies, with players' input, text extracted from the Web as commonsense knowledge, domain-specific knowledge or nonsense. We also create a knowledge base that includes commonsense facts in natural language and information on how common a given fact is. The game i...
We present an approach to building systems that emulate human-like intelligence. Our approach uses m...
There is, naturally, a lot of knowledge in games. Those who mostly win some game may have more knowl...
If we are to understand how we can build machines capable of broadpurpose learning and reasoning, we...
Commonsense is of primary interest to AI research since the inception of the field. Traditionally, c...
In order to display human-like intelligence, advanced computational systems should have access to th...
Access to commonsense knowledge is receiving renewed interest for developing neuro-symbolic AI syste...
Good and generous knowledge sources, reliable and efficient induction patterns, and automatic and co...
Commonsense knowledge (CK) in artificial intelligence (AI), is an expanding field of research. Becau...
Despite the ever-growing advances in artificial intelligence (AI), common sense acquisition and reas...
Tacit knowledge, unlike explicit knowledge, is not easily codifiable, yet important for machine lear...
We are after a Wikipedia for formal scientific knowledge; a crowdsourcing system where the crowd dec...
mohsen/lieber @ ccs.neu.edu Formally-specified computations are defined by logical statements (a.k.a...
Commonsense knowledge representation and reasoning is key for tasks such as artificial intelligence ...
Ambiguity, complexity, and diversity in natural language textual expressions are major hindrances to...
Machine learning can still make harmful mistakes. A solution would be tacit knowledge. Machine learn...
We present an approach to building systems that emulate human-like intelligence. Our approach uses m...
There is, naturally, a lot of knowledge in games. Those who mostly win some game may have more knowl...
If we are to understand how we can build machines capable of broadpurpose learning and reasoning, we...
Commonsense is of primary interest to AI research since the inception of the field. Traditionally, c...
In order to display human-like intelligence, advanced computational systems should have access to th...
Access to commonsense knowledge is receiving renewed interest for developing neuro-symbolic AI syste...
Good and generous knowledge sources, reliable and efficient induction patterns, and automatic and co...
Commonsense knowledge (CK) in artificial intelligence (AI), is an expanding field of research. Becau...
Despite the ever-growing advances in artificial intelligence (AI), common sense acquisition and reas...
Tacit knowledge, unlike explicit knowledge, is not easily codifiable, yet important for machine lear...
We are after a Wikipedia for formal scientific knowledge; a crowdsourcing system where the crowd dec...
mohsen/lieber @ ccs.neu.edu Formally-specified computations are defined by logical statements (a.k.a...
Commonsense knowledge representation and reasoning is key for tasks such as artificial intelligence ...
Ambiguity, complexity, and diversity in natural language textual expressions are major hindrances to...
Machine learning can still make harmful mistakes. A solution would be tacit knowledge. Machine learn...
We present an approach to building systems that emulate human-like intelligence. Our approach uses m...
There is, naturally, a lot of knowledge in games. Those who mostly win some game may have more knowl...
If we are to understand how we can build machines capable of broadpurpose learning and reasoning, we...