A feature-based fixture design methodology for the manufacturing of aircraft structural parts

Abstract In fixture design for the manufacturing of aircraft structural parts, there are various challenges and serious problems in industry, such as difficulty in design knowledge capture and reuse, and the arbitrary or non-standard nature of design, which influence the efficiency and quality of fixture design. This paper proposes a feature-based fixture design methodology in which previous fixture design cases and design rules are described in association with features and thus the design knowledge is integrated with geometric information of aircraft structural parts, which are the main concern of this project. In this methodology, machining features of the structural parts and their associated attributes are identified by feature recognition technique from the 3 dimensional (3D) part models defined based on model-based definition (MBD) technique. The feature-based part information models are then established and are used to retrieve previous fixture design cases and design rules stored in the knowledge base. Fixture designers will choose the appropriate retrieved design cases as the starting point for new fixture design or use previous designs to assess his/her current design. In this way the process of new fixture design can be improved. In the current stage of the research, a prototype feature-based fixture design system based on CATIA for the manufacturing of aircraft structural parts has been developed and used by a large airplane manufacturer.

[1]  Michael R. Genesereth,et al.  Software agents , 1994, CACM.

[2]  UTPAL ROY,et al.  Geometric reasoning for re-allocation of supporting and clamping positions in the automated fixture design system , 1999 .

[3]  T. T. Narendran,et al.  Neural network model for design retrieval in manufacturing systems , 1992 .

[4]  Richard Fikes,et al.  The Ontolingua Server: a tool for collaborative ontology construction , 1997, Int. J. Hum. Comput. Stud..

[5]  Yiming Rong,et al.  Case-based agile fixture design , 2001 .

[6]  Alan Harrison,et al.  A database architecture for reusable CommonKADS agent specification components , 2002, Knowl. Based Syst..

[7]  Hui Wang,et al.  Case based reasoning method for computer aided welding fixture design , 2008, Comput. Aided Des..

[8]  Y G Li,et al.  Feature recognition technology for aircraft structural parts based on a holistic attribute adjacency graph , 2010 .

[9]  Wang Hui Using the Genetic Algorithm to Facilitate Case-adaptation of Injection Mould Cost Estimation CBR System , 2002 .

[10]  Utpal Roy,et al.  Application of a blackboard framework to a cooperative fixture design system , 1998 .

[11]  Necmettin Kaya,et al.  Machining fixture locating and clamping position optimization using genetic algorithms , 2006, Comput. Ind..

[12]  Ying Bao Case-based and Rule-based Reasoning Integration Research , 2002 .

[13]  Louis Rivest,et al.  Will Model-based Definition replace engineering drawings throughout the product lifecycle? A global perspective from aerospace industry , 2010, Comput. Ind..

[14]  Ioannis Hatzilygeroudis,et al.  Integrating (rules, neural networks) and cases for knowledge representation and reasoning in expert systems , 2004, Expert Syst. Appl..

[15]  Huaiqing Wang,et al.  A commonsense knowledge base supported multi-agent architecture , 2009, Expert Syst. Appl..

[16]  Raymond M. Kolonay,et al.  A FEDERATED INTELLIGENT PRODUCT ENVIRONMENT , 2000 .

[17]  Dieter Fensel,et al.  UPML: A Framework for Knowledge System Reuse , 1999, IJCAI.

[18]  Larry R. Medsker,et al.  Instructional technology: A key to successful information systems , 1987, Inf. Manag..

[19]  Tao Wu,et al.  Knowledge organisation of product design blackboard systems via graph decomposition , 2002, Knowl. Based Syst..

[20]  Vivek Patkar,et al.  CommonKADS analysis and description of a knowledge based system for the assessment of breast cancer , 2009, Expert Syst. Appl..

[21]  Dieter Fensel,et al.  The Unified Problem-Solving Method Development Language UPML , 2003, Knowl. Inf. Syst..

[22]  Shreyes N. Melkote,et al.  Machining fixture layout optimization using the genetic algorithm , 2000 .

[23]  Ibrahim Zeid,et al.  Development of a Prototype for Transfer of Drawing Annotations Into the ASME Y14.41 Standard , 2006 .