Structural Analysis Consultation System Developed by Use of Knowledge Bases and Symbolic Manipulation
スポンサーリンク
概要
- 論文の詳細を見る
An attempt is made to constitute an integrated consultation system for structural analysis. The objective at present is to furnish a prototype consultation system with the ability to recognize a structure and its properties in terms of the physical model and to predict the model response qualitatively. Elastic beams and plates are taken as the physical model. The system consists of the analysis knowledge base and structure-domain base of the physical model linked mutually by message communication and supported by the inference engine. The knowledge is stated in the form of the frame model. A symbolic processor is provided for the manipulation of equations and formulae. The inference engine is described in Prolog language. The system is implemented on a personal computer PC 9801 VX 2. The case studies of beam problems confirm the potential of the prototype system to evolve into sophisticated consultation systems for large computers in the future.
- 一般社団法人日本機械学会の論文
- 1990-07-15
著者
-
Nakagiri S
Yokohama National Univ. Yokohama Jpn
-
KUDOH Michiharu
IBM Research, Tokyo Research Laboratory
-
NAKAGIRI Shigeru
Institute of Industrial Science, University of Tokyo
-
Kudoh Michiharu
Ibm Research Tokyo Research Laboratory
-
Nakagiri Shigeru
Institute Of Industrial Science The University Of Tokyo
関連論文
- Structural Analysis Consultation System Developed by Use of Knowledge Bases and Symbolic Manipulation
- Time History and Spectrum Analysis of a Four-Wheeled Vehicle on an Uneven Road
- Model and Spectrum Analysis of an Uneven Road Surface by Means of the Two-Dimensional Filtered Poission Process : Solid-Mechanics, Strength of Materials
- Random Response Analysis of Vehicle on Uneven road Expressed as Filtered Poisson Process : Series C : Vibration, Control Engineering, Engineering for Industry
- Finite Element Synthesis of Structure Shapes Due to Stress Criteria
- Homology Design for Eigenvector of Bending Vibration Using Finite Element Method
- Shift synthesis to realize linear homologous deformation
- Interval Estimation of Eigenvalue Problem Based on Finite Element Sensitivity Analysis and Convex Model
- Design Change to Realize Homologous Deformation
- Tangent Hypersphere Method for Optimal Design : Maximization of Vibration Eigenvalue and Minimization of Weight
- Stochastic Finite Element Analysis of Thermal Deformation of fiber Reinforced Plastic Laminated Plate : Series A : Solid-Mechanics, Strength of Materials
- Finite Element Reanalysis of Real Eigenvalue Problem (Case Study of Vibration Eigenvalue) : Series C : Vibration, Control Engineering, Engineering for Industry
- Stochastic Finite Element Analysis of Thermal Deformation and Thermal Stresses of CFRP Laminated Plates
- Structural Optimization under Topological Constraint Represented by Homology Groups : Topological Constraint on One-Dimensional Complex by Use of Zero- and One-Dimensional Homology Groups
- Optimization of Frame Topology Using Boundary Cycle and Genetic Algorithm
- Optimization of Truss Topology Using Boundary Cycle : Derivation of Design Variables to Avoid Inexpedient Structure
- Fluctuation of Structural Response, Why and How