Hydraulic Circuit Synthesis based on Functional Structure : 1st Report, Adaptive Synthesis Method from Design Cases
An adaptive synthesis method for hydraulic circuits is proposed using a case-based reasoning technique based on their functional structure. Since synthesis of hydraulic circuits is a typical problem of conceptual design and is expertise-oriented and combinatorial, it is difficult to declaratively re...
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| Published in | Transactions of the Japan Society of Mechanical Engineers Series C Vol. 62; no. 593; pp. 375 - 382 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
The Japan Society of Mechanical Engineers
25.01.1996
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0387-5024 1884-8354 |
| DOI | 10.1299/kikaic.62.375 |
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| Abstract | An adaptive synthesis method for hydraulic circuits is proposed using a case-based reasoning technique based on their functional structure. Since synthesis of hydraulic circuits is a typical problem of conceptual design and is expertise-oriented and combinatorial, it is difficult to declaratively represent useful design knowledge. In our design method, past design cases are stored in the case base, and then a circuit is generated by arranging suitable past cases which are retrieved from the case base in accordance with the required functional structure. In order to measure such functional structure, design specifications are represented by labels. Design cases are adaptively manipulated into a target design using three synthesis strategies, decomposition, series combination and parallel combination, based on surplus or deficit of labels. This synthesis method is applied to some design problems in order to show its effectiveness and validity. Moreover, it is integrated with a logical simulation method based on symbol manipulation, which will be presented in the second report, in order to verify arranged circuits. |
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| AbstractList | An adaptive synthesis method for hydraulic circuits is proposed using a case-based reasoning technique based on their functional structure. Since synthesis of hydraulic circuits is a typical problem of conceptual design and is expertise-oriented and combinatorial, it is difficult to declaratively represent useful design knowledge. In our design method, past design cases are stored in the case base, and then a circuit is generated by arranging suitable past cases which are retrieved from the case base in accordance with the required functional structure. In order to measure such functional structure, design specifications are represented by labels. Design cases are adaptively manipulated into a target design using three synthesis strategies, decomposition, series combination and parallel combination, based on surplus or deficit of labels. This synthesis method is applied to some design problems in order to show its effectiveness and validity. Moreover, it is integrated with a logical simulation method based on symbol manipulation, which will be presented in the second report, in order to verify arranged circuits. |
| Author | FUJITA, Kikuo SASAKI, Makoto AKAGI, Shinsuke |
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| Copyright | The Japan Society of Mechanical Engineers |
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| DOI | 10.1299/kikaic.62.375 |
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| EndPage | 382 |
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| References | (12) Kota, S. and Lee, C., A look at an expert system for hydraulic design, Part 2, Hydraulics & Pneumatics, (July 1990), 41-44. (8) Kinoglu, F., Riley, D., Donath. M. and Torok, D., Streamlining Hydraulic Circuit Designs With Computer Aid, Computers in Mechanical Engineering, (Oct. 1982), ASME, 21-25. (13) Nakajima, Y. and Baba, T., OHCS: hydraulic circuit design assistant, Proceeding of the First Annual Conference on lnnovative Applications on Artificial Intelligence, 1, (1989), AAAI, 225-236. (5) 服部•田中•末田, 事例ベース推論による機械設計, 人工知能学会誌, 7-4, (1992), 597-602. (14) 松田•新名•溝口, 設計例の理解に基づく知識獲得インタビューシステム, 人工知能学会誌, 7-6, (1992), 1038-1048. (3) 特集:「事例べース推論」, 人口知能学会誌, 7-4, (1992), 558-607. (7) Pu. P. (ed.), Special Issue: Cased based reasoning in design, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 7-2, (1993), 79-143. (6) Pearce, M., et al., Case-Based Design Support A Case Study in Architectural Design, IEEE Expert, 7-5, (1992), 14-20. (9) Westman, R., Sargent, C. and Burton, R., A Knowledge-based Modular Approach to HydraulicCircuit Design, Computers in Engineering, 1, (1987), 37-41, ASME. (2) Slade, S., Case-Based Reasoning: A ResearchParadigm, AI Magazine, 12-1, (1991), 42-55. (4) 藤田•赤木•上平•佐々木, 機能構造に基づ<油圧回路の合成手法に関する研究 (第2報:記号ベース制約伝播による回路検証とシステム構築), 機論, 62-593, C (1996), 383-390. (1) Riesbeck, C. K. and Schank, R. C., Inside Case-besed Reasoning, (1989), Lawrence Erlbaum Associates. (10) Congxin, L., Shuhuai, II. and Yungan, W., An Expert System for Designing Hydraulic Schemes, Artificial Intelligence in Design, Pham, D. T. (ed.), Chapter 16, (1991), Springer-Verlag, 391-413. (11) Kota, S. and Lee, C., A look at an expert system forhydraulic design, Part 1, Hydraulics & Pneumatics, (May 1990), 48-51, 71. |
| References_xml | – reference: (5) 服部•田中•末田, 事例ベース推論による機械設計, 人工知能学会誌, 7-4, (1992), 597-602. – reference: (9) Westman, R., Sargent, C. and Burton, R., A Knowledge-based Modular Approach to HydraulicCircuit Design, Computers in Engineering, 1, (1987), 37-41, ASME. – reference: (1) Riesbeck, C. K. and Schank, R. C., Inside Case-besed Reasoning, (1989), Lawrence Erlbaum Associates. – reference: (14) 松田•新名•溝口, 設計例の理解に基づく知識獲得インタビューシステム, 人工知能学会誌, 7-6, (1992), 1038-1048. – reference: (7) Pu. P. (ed.), Special Issue: Cased based reasoning in design, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 7-2, (1993), 79-143. – reference: (11) Kota, S. and Lee, C., A look at an expert system forhydraulic design, Part 1, Hydraulics & Pneumatics, (May 1990), 48-51, 71. – reference: (12) Kota, S. and Lee, C., A look at an expert system for hydraulic design, Part 2, Hydraulics & Pneumatics, (July 1990), 41-44. – reference: (2) Slade, S., Case-Based Reasoning: A ResearchParadigm, AI Magazine, 12-1, (1991), 42-55. – reference: (8) Kinoglu, F., Riley, D., Donath. M. and Torok, D., Streamlining Hydraulic Circuit Designs With Computer Aid, Computers in Mechanical Engineering, (Oct. 1982), ASME, 21-25. – reference: (10) Congxin, L., Shuhuai, II. and Yungan, W., An Expert System for Designing Hydraulic Schemes, Artificial Intelligence in Design, Pham, D. T. (ed.), Chapter 16, (1991), Springer-Verlag, 391-413. – reference: (13) Nakajima, Y. and Baba, T., OHCS: hydraulic circuit design assistant, Proceeding of the First Annual Conference on lnnovative Applications on Artificial Intelligence, 1, (1989), AAAI, 225-236. – reference: (3) 特集:「事例べース推論」, 人口知能学会誌, 7-4, (1992), 558-607. – reference: (6) Pearce, M., et al., Case-Based Design Support A Case Study in Architectural Design, IEEE Expert, 7-5, (1992), 14-20. – reference: (4) 藤田•赤木•上平•佐々木, 機能構造に基づ<油圧回路の合成手法に関する研究 (第2報:記号ベース制約伝播による回路検証とシステム構築), 機論, 62-593, C (1996), 383-390. |
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| Snippet | An adaptive synthesis method for hydraulic circuits is proposed using a case-based reasoning technique based on their functional structure. Since synthesis of... |
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| SubjectTerms | Adaptive Synthesis Artificial Intelligence Case-Based Reasoning Conceptual Design Design Engineering Functional Structure Hydraulic Circuits |
| Title | Hydraulic Circuit Synthesis based on Functional Structure : 1st Report, Adaptive Synthesis Method from Design Cases |
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