A blackboard architecture for control
Artificial Intelligence
Neurocomputing: foundations of research
Neurocomputing: foundations of research
Learning internal representations by error propagation
Parallel distributed processing: explorations in the microstructure of cognition, vol. 1
The Hearsay-II Speech-Understanding System: Integrating Knowledge to Resolve Uncertainty
ACM Computing Surveys (CSUR)
The Metaphorical Brain 2: Neural Networks and Beyond
The Metaphorical Brain 2: Neural Networks and Beyond
Embodiments of Mind
A multi-level organization for problem solving using many, diverse, cooperating sources of knowledge
IJCAI'75 Proceedings of the 4th international joint conference on Artificial intelligence - Volume 1
IEEE Expert: Intelligent Systems and Their Applications
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A proprietary air brake-balance analysis system for trucks gathers five sets of data relating air pressure, time, braking force, and temperature. Each test produces a complex, color graph plotted against axes chosen from pressure, time, and temperature. A human expert can make impressive diagnoses about the brake and air systems after studying these graphs. I describe five artificial neural networks that are trained to render a judgment about these graphs and a knowledge-based system that accepts these judgments and combines them with additional information to arrive at a precise problem identification and a procedure to solve the problem. The brake-balance system is innovative because it uses a rare approach to a real problem: cooperative problem solving and diagnostics between a knowledge-based system and a suite of neural networks. Success rates are 90 percent for the neural nets and 100 percent for the knowledge-based system. The annual savings is at least $100,000.