Default reasoning and neural networks

Govender, I. (Irene)

06 1900

In this dissertation a formalisation of nonmonotonic reasoning, namely Default logic, is discussed. A proof theory for default logic and a variant of Default logic - Prioritised Default logic - is presented. We also pursue an investigation into the relationship between default reasoning and making inferences in a neural network. The inference problem shifts from the logical problem in Default logic to the optimisation problem in neural networks, in which maximum consistency is aimed at The inference is realised as an adaptation process that identifies and resolves conflicts between existing knowledge about the relevant world and external information. Knowledge and data are transformed into constraint equations and the nodes in the network represent propositions and constraint equations. The violation of constraints is formulated in terms of an energy function. The Hopfield network is shown to be suitable for modelling optimisation problems and default reasoning. / Computer Science / M.Sc. (Computer Science)

Default logic

Normal default theories

Resolution theorem proving

Neural networks

Penalty logic

Hopfield network

training algorithm

Nonmonotonic inferences

Expectations

Connectionist

Inference mechanism

Conflict resolution strategies

006.32

Non-monotonic logic

Default logic

Neural networks (Computer science)

Nonmonotonic reasoning

Default reasoning and neural networks

Govender, I. (Irene)

06 1900

In this dissertation a formalisation of nonmonotonic reasoning, namely Default logic, is discussed. A proof theory for default logic and a variant of Default logic - Prioritised Default logic - is presented. We also pursue an investigation into the relationship between default reasoning and making inferences in a neural network. The inference problem shifts from the logical problem in Default logic to the optimisation problem in neural networks, in which maximum consistency is aimed at The inference is realised as an adaptation process that identifies and resolves conflicts between existing knowledge about the relevant world and external information. Knowledge and data are transformed into constraint equations and the nodes in the network represent propositions and constraint equations. The violation of constraints is formulated in terms of an energy function. The Hopfield network is shown to be suitable for modelling optimisation problems and default reasoning. / Computer Science / M.Sc. (Computer Science)

Default logic

Normal default theories

Resolution theorem proving

Neural networks

Penalty logic

Hopfield network

training algorithm

Nonmonotonic inferences

Expectations

Connectionist

Inference mechanism

Conflict resolution strategies

006.32

Non-monotonic logic

Default logic

Neural networks (Computer science)

Nonmonotonic reasoning