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A probabilistic logic network (PLN) is a conceptual, mathematical, and computational approach to uncertain inference; inspired by logic programming, but using probabilities in place of crisp (true/false) truth values, and fractional uncertainty in place of crisp known/unknown values. In order to carry out effective reasoning in real-world circumstances, artificial intelligence software must robustly handle uncertainty. However, previous approaches to uncertain inference do not have the breadth of scope required to provide an integrated treatment of the disparate forms of cognitively critical uncertainty as they manifest themselves within the various forms of pragmatic inference. Going beyond prior probabilistic approaches to uncertain inference, PLN is able to encompass within uncertain logic such ideas as induction, abduction, analogy, fuzziness and speculation, and reasoning about time and causality.[citation needed]
PLN was developed by Ben Goertzel, Matt Ikle, Izabela Lyon Freire Goertzel, and Ari Heljakka for use as a cognitive algorithm used by MindAgents within the OpenCog Core. PLN was developed originally for use within the Novamente Cognition Engine.[citation needed]
The basic goal of PLN is to provide reasonably accurate probabilistic inference in a way that is compatible with both term logic and predicate logic and scales up to operate in real-time on large dynamic knowledge bases.[citation needed]
The goal underlying the theoretical development of PLN has been the creation of practical software systems carrying out complex, useful inferences based on uncertain knowledge and drawing uncertain conclusions. PLN has been designed to allow basic probabilistic inference to interact with other kinds of inference such as intensional inference, fuzzy inference, and higher-order inference using quantifiers, variables, and combinators, and be a more convenient approach than Bayesian networks (or other conventional approaches) for the purpose of interfacing basic probabilistic inference with these other sorts of inference. In addition, the inference rules are formulated in such a way as to avoid the paradoxes of Dempster–Shafer theory.[citation needed]
Implementation
PLN begins with a term logic foundation and then adds on elements of probabilistic and combinatory logic, as well as some aspects of predicate logic and autoepistemic logic, to form a complete inference system, tailored for easy integration with software components embodying other (not explicitly logical) aspects of intelligence.
PLN represents truth values as intervals, but with different semantics than in imprecise probability theory. In addition to the interpretation of truth in a probabilistic fashion, a truth value in PLN also has an associated amount of certainty. This generalizes the notion of truth values used in autoepistemic logic, where truth values are either known or unknown and when known, are either true or false.[citation needed]
The current version of PLN has been used in narrow-AI applications such as the inference of biological hypotheses from knowledge extracted from biological texts via language processing, and to assist the reinforcement learning of an embodied agent, in a simple virtual world, as it is taught to play "fetch".[citation needed]
References
Ben Goertzel, Matthew Iklé, Izabela Lyon Freire Goertzel, Ari Heljakka (2008). Probabilistic Logic Networks: A Comprehensive Conceptual, Mathematical and Computational Framework for Uncertain Inference. Springer. pp. 333. ISBN978-0-387-76871-7.{{cite book}}: CS1 maint: uses authors parameter (link)
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This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages This article relies largely or entirely on a single source Relevant discussion may be found on the talk page Please help improve this article by introducing citations to additional sources Find sources Probabilistic logic network news newspapers books scholar JSTOR April 2011 This article relies excessively on references to primary sources Please improve this article by adding secondary or tertiary sources Find sources Probabilistic logic network news newspapers books scholar JSTOR September 2016 Learn how and when to remove this template message This article contains content that is written like an advertisement Please help improve it by removing promotional content and inappropriate external links and by adding encyclopedic content written from a neutral point of view June 2020 Learn how and when to remove this template message Learn how and when to remove this template message A probabilistic logic network PLN is a conceptual mathematical and computational approach to uncertain inference inspired by logic programming but using probabilities in place of crisp true false truth values and fractional uncertainty in place of crisp known unknown values In order to carry out effective reasoning in real world circumstances artificial intelligence software must robustly handle uncertainty However previous approaches to uncertain inference do not have the breadth of scope required to provide an integrated treatment of the disparate forms of cognitively critical uncertainty as they manifest themselves within the various forms of pragmatic inference Going beyond prior probabilistic approaches to uncertain inference PLN is able to encompass within uncertain logic such ideas as induction abduction analogy fuzziness and speculation and reasoning about time and causality citation needed PLN was developed by Ben Goertzel Matt Ikle Izabela Lyon Freire Goertzel and Ari Heljakka for use as a cognitive algorithm used by MindAgents within the OpenCog Core PLN was developed originally for use within the Novamente Cognition Engine citation needed Contents 1 Goal 2 Implementation 3 References 4 See also 5 External linksGoal EditThe basic goal of PLN is to provide reasonably accurate probabilistic inference in a way that is compatible with both term logic and predicate logic and scales up to operate in real time on large dynamic knowledge bases citation needed The goal underlying the theoretical development of PLN has been the creation of practical software systems carrying out complex useful inferences based on uncertain knowledge and drawing uncertain conclusions PLN has been designed to allow basic probabilistic inference to interact with other kinds of inference such as intensional inference fuzzy inference and higher order inference using quantifiers variables and combinators and be a more convenient approach than Bayesian networks or other conventional approaches for the purpose of interfacing basic probabilistic inference with these other sorts of inference In addition the inference rules are formulated in such a way as to avoid the paradoxes of Dempster Shafer theory citation needed Implementation EditPLN begins with a term logic foundation and then adds on elements of probabilistic and combinatory logic as well as some aspects of predicate logic and autoepistemic logic to form a complete inference system tailored for easy integration with software components embodying other not explicitly logical aspects of intelligence PLN represents truth values as intervals but with different semantics than in imprecise probability theory In addition to the interpretation of truth in a probabilistic fashion a truth value in PLN also has an associated amount of certainty This generalizes the notion of truth values used in autoepistemic logic where truth values are either known or unknown and when known are either true or false citation needed The current version of PLN has been used in narrow AI applications such as the inference of biological hypotheses from knowledge extracted from biological texts via language processing and to assist the reinforcement learning of an embodied agent in a simple virtual world as it is taught to play fetch citation needed References EditBen Goertzel Matthew Ikle Izabela Lyon Freire Goertzel Ari Heljakka 2008 Probabilistic Logic Networks A Comprehensive Conceptual Mathematical and Computational Framework for Uncertain Inference Springer pp 333 ISBN 978 0 387 76871 7 a href Template Cite book html title Template Cite book cite book a CS1 maint uses authors parameter link See also EditMarkov logic network Probabilistic logicExternal links EditOpenCog Wiki GNU FDL Retrieved from https en wikipedia org w index php title Probabilistic logic network amp oldid 1112793201, wikipedia, wiki, book, books, library,
