Forschungszentrum Informationstechnik GmbH GMD

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Data Mining und Regelextraktion

1997 , Diederich, J. , Wrobel, S.

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Künstliche neuronale Netze und elektronische Kommunikation

1992 , Diederich, J. , Wasserschaff, M. , Mark, S.

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Connectionist question answering

1991 , Diederich, J.

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Recruitment vs. backpropagation learning: An empirical study on re-learning in connectionist networks

1990 , Diederich, J.

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Explanation and artificial neural networks

1992 , Diederich, J.

Explanation is an important function in symbolic artificial intelligence (AI). For instance, explanation is used in machine learning, in case-based reasoning and, most important, the explanation of the results of a reasoning process to a user must be a component of any inference system. Experience with expert systems has shown that the ability to generate explanations is absolutely crucial for the user acceptance of Al systems. In contrast to symbolic systems, neural networks have no explicit, declarative knowledge representation and therefore have considerable difficulties in generating explanation structures. In neural networks, knowledge is encoded in numeric parameters (weight) and distributed all over the system. It is the intention of this paper to discuss the ability of neural networks to generate explanations. It will be shown that connectionist systems benefit from the explicit coding of relations and the use of highly structured networks in order to allow explanation and explanation components (ECs). Connectionist semantic networks (CSNs), i.e. connectionist systems with an explicit conceptual hierarchy, belong to a class of artificial neural networks which can be extended by an explanation component which gives meaningful responses to a limited class of "How" questions. An explanation component of this kind is described in detail.

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Neue Trends im Konnektionismus

1991 , Diederich, J.

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Steps toward knowledge-intensive connectionist learning

1991 , Diederich, J.

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Recurrent and feedforward networks for human-computer interaction

1992 , Diederich, J. , Thümmel, A. , Bartels, E.

The classification, selection and organization of electronic messages (e-mail) is a task that can be supported by an artificial neural network (ANN). The ANNs (simple recurrent networks and feedforward nets) extract relevant information from incoming messages during a training period, learn the reaction to the incoming message, i.e., a sequence of user actions, and use the learned representation for the proposal of user reactions. The results show that (1) simple recurrent nets and feedforward networks can learn a mapping from random input vectors (a coding of an incoming message) to output patterns (sequences of user reactions), (2) both types of networks absorb random noise as part of the input pattern and generalize well, and (3) simple recurrent networks for sequence production, though significantly larger, learn faster than feedforward nets trained on a similar-structured data set.

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Re-learning in connectionist semantic networks

1991 , Diederich, J.

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Connectionist question answering

1990 , Diederich, J. , Long, D.L.

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