[ { "key": "79R4TFWT", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/79R4TFWT", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/79R4TFWT", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Arcidiacono, Gabriele", "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "79R4TFWT", "version": 9652, "itemType": "conferencePaper", "title": "Keys to Success for Six Sigma", "creators": [ { "creatorType": "author", "name": "Arcidiacono, Gabriele" } ], "abstractNote": "This paper describes how the characteristics of the Six Sigma methodology are able, if properly used, to bring new light to process comprehension and problem solving. Each of the 5 phases in which Six Sigma is structured (DMAIC) sets few milestones that indicate the walk to do. The way these milestones are defined, the ability of the people to understand the contest, the proper effort in order to gain the goal are issues that may influence the final results. Correct use (right one for the right information) of the tools, the rigour of the method, the step-bystep approach and a strict time management on projects are surely the basis for a success. The different examples provided in this pages, show what is the most important aspect of the methodology: its possible application to everything we may define as process. Key issues therefore are: extensive application of the methodology to all the processes, great flexibility and customization, the improvement opportunities identification and selection; results evaluation and validation.", "proceedingsTitle": "Proceedings of ICAD2006", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0001", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:10Z" } }, { "key": "74CUPXST", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/74CUPXST", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/74CUPXST", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Yücel and Aktaş", "parsedDate": "2008", "numChildren": 0 }, "data": { "key": "74CUPXST", "version": 9652, "itemType": "journalArticle", "title": "An evaluation methodology for ergonomic design of electronic consumer products based on fuzzy axiomatic design", "creators": [ { "creatorType": "author", "firstName": "G.", "lastName": "Yücel" }, { "creatorType": "author", "firstName": "E.", "lastName": "Aktaş" } ], "abstractNote": "The development life cycle of software and electronic products has been shortened by the growth of rapid prototyping techniques. The evaluation of electronic consumer products should consider hardware and software as well as the ergonomic usability, emotional appeal and aesthetic integrity of the design. This research follows a systematic approach to develop an evaluation methodology for electronic mobile products on ergonomic design. The proposed methodology is based on fuzzy multi attribute decision making and fuzzy axiomatic design realized in three steps; determination of ergonomic attributes for electronic consumer products, determination of a representative set of alternatives, and selection of the best alternative in terms of ergonomic design by utilizing fuzzy axiomatic design. A case study is also provided to support the proposed methodology. © 2008 Old City Publishing, Inc.", "publicationTitle": "Journal of Multiple-Valued Logic and Soft Computing", "publisher": "", "place": "", "date": "2008", "volume": "14", "issue": "3-5", "section": "", "partNumber": "", "partTitle": "", "pages": "475-493", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-38849168902&partnerID=40", "accessDate": "2009-06-08T14:42:29Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0002", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Electronic consumer products", "type": 1 }, { "tag": "Ergonomie designs", "type": 1 }, { "tag": "Fuzzy axiomatic design", "type": 1 }, { "tag": "Mobile phone", "type": 1 }, { "tag": "Multi attribute decision making", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:10Z" } }, { "key": "72XFX2ZD", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/72XFX2ZD", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/72XFX2ZD", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Jeon et al.", "parsedDate": "2008", "numChildren": 0 }, "data": { "key": "72XFX2ZD", "version": 9652, "itemType": "journalArticle", "title": "Parameter design of a coaxial cable insulation manufacturing process using axiomatic design and the taguchi method", "creators": [ { "creatorType": "author", "firstName": "B.J.", "lastName": "Jeon" }, { "creatorType": "author", "firstName": "Y.H.", "lastName": "Kim" }, { "creatorType": "author", "firstName": "K.S.", "lastName": "Lee" }, { "creatorType": "author", "firstName": "S.W.", "lastName": "Cha" }, { "creatorType": "author", "firstName": "G.J.", "lastName": "Nam" }, { "creatorType": "author", "firstName": "C.Y.", "lastName": "Park" }, { "creatorType": "author", "firstName": "G.J.", "lastName": "Lee" } ], "abstractNote": "In modern industries, the development of communication mediums requires high-frequency communication networks in which signal reduction by dielectric loss is increased. Accordingly, the need for an insulator with low permittivity also has grown, making the production of highly foamed insulators now necessary. Considering the mechanical and electrical properties of such insulators, benefits can be seen in multiresponse problems with higher densities of uniform-specific cell size. In this paper, we describe the applicability of a highly foamed polyolefin extrusion process to the manufacturing of insulation for coaxial cable. Moreover, a combination of axiomatic design and the Taguchi method was utilized for solving the multiresponse problem. Through this technique, we propose a new method for optimizing multiresponse problems. Development of manufacturing processes for insulating coaxial cable, and responses for each process variable, become possible with this method.", "publicationTitle": "Polymer - Plastics Technology and Engineering", "publisher": "", "place": "", "date": "2008", "volume": "47", "issue": "8", "section": "", "partNumber": "", "partTitle": "", "pages": "785-790", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-48449087163&partnerID=40", "accessDate": "2009-06-08T14:42:09Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0003", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Foam extrusion", "type": 1 }, { "tag": "Foamed insulation", "type": 1 }, { "tag": "Taguchi method", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:10Z" } }, { "key": "7CQMKJTT", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7CQMKJTT", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7CQMKJTT", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Gu et al.", "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "7CQMKJTT", "version": 9652, "itemType": "journalArticle", "title": "A new approach for robust design of mechanical systems", "creators": [ { "creatorType": "author", "firstName": "P.", "lastName": "Gu" }, { "creatorType": "author", "firstName": "B.", "lastName": "Lu" }, { "creatorType": "author", "firstName": "S.", "lastName": "Spiewak" } ], "abstractNote": "Robust product design aims to develop a product that satisfies design requirements while ensuring minimal effects of environmental variability on product performance. Environmental variations may come from raw materials, manufacturing processes, and/or operational environments, which can cause deviations of product functions. This research can verify that the independence axiom can lead to a robust design, while robust designs do not necessarily require functional independence. Thus, designs can be divided into three categories - feasible designs, robust designs and ideal designs. In the first level of the design process, the designers should generate a feasible design, then seek to acquire robustness, and finally determine the possibility of independence. Axiomatic design aims to achieve the independent design; the traditional robust design is an experimental method that may not reach design independence. The proposed approach introduces the integration of the independent analysis that is based on axiomatic design, with the robust analysis that is based on the traditional robust technique. It can help the designer to seek an ideal design or a robust design in respect to the specific design conditions.", "publicationTitle": "CIRP Annals - Manufacturing Technology", "publisher": "", "place": "", "date": "2004", "volume": "53", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "129-133", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-3142730013&partnerID=40", "accessDate": "2009-06-08T14:48:09Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Product design", "type": 1 }, { "tag": "Robust design", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:10Z" } }, { "key": "7CAADJI4", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7CAADJI4", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7CAADJI4", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Cao et al.", "parsedDate": "2005", "numChildren": 0 }, "data": { "key": "7CAADJI4", "version": 9652, "itemType": "journalArticle", "title": "Axiomatic verification of behavior matrix model in conceptual design", "creators": [ { "creatorType": "author", "firstName": "D.", "lastName": "Cao" }, { "creatorType": "author", "firstName": "R.", "lastName": "Tan" }, { "creatorType": "author", "firstName": "G.", "lastName": "Yao" }, { "creatorType": "author", "firstName": "J.", "lastName": "Liu" } ], "abstractNote": "The paper first gave a matrix model as well as attributes of the matrix elements, realized an axiomatic verification of behavior matrix model according to the independence and information axioms of axiomatic design. Then, the paper studied transforming properties of matrix attributes and resolving process of the matrix model based on bond graph theory, and quickly produced multi-solutions by behavior matrix attribute transformation. At last, a simple design verification case of weighting mechanism was presented to show an application.", "publicationTitle": "Zhongguo Jixie Gongcheng/China Mechanical Engineering", "publisher": "", "place": "", "date": "2005", "volume": "16", "issue": "4", "section": "", "partNumber": "", "partTitle": "", "pages": "337-340", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-15944420214&partnerID=40", "accessDate": "2009-06-08T14:47:50Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Behavior matrix; axiomatic design", "type": 1 }, { "tag": "Bond graph", "type": 1 }, { "tag": "Conceptual design", "type": 1 }, { "tag": "Functional means tree", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:10Z" } }, { "key": "7DA6M3QK", "version": 9652, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7DA6M3QK", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7DA6M3QK", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Ng and Jiao", "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "7DA6M3QK", "version": 9652, "itemType": "journalArticle", "title": "A domain-based reference model for the conceptualization of factory loading allocation problems in multi-site manufacturing supply chains", "creators": [ { "creatorType": "author", "firstName": "N.K.", "lastName": "Ng" }, { "creatorType": "author", "firstName": "J.", "lastName": "Jiao" } ], "abstractNote": "In a networked manufacturing supply chain, allocating proper production volumes to various manufacturing sites is a complex task as it may involve many quantitative and qualitative variables and constraints that span across different geographical boundaries. As many final- and sub-assembly production facilities are networked worldwide, it is necessary to synchronize production volume allocation along the whole horizon of the chain by taking advantages of resources and production strengths of different sites. Such a large scope of the problem requires a holistic and comprehensive framework to conceptualize various issues involved in factory loading allocation. To facilitate the conceptualization of such a factory loading allocation problem (FLAP), this paper adopts the axiomatic design theory and develops a domain-based reference model. A five-domain scheme is introduced to model interdependences among markets, product families, production volumes, final-production and sub-assembly supplies. Such important issues of FLAP as resource utilization, inventory volumes and WIP levels are characterized by specific variables of each domain. The synchronization of volume allocation along the multi-site manufacturing supply chain is achieved through cascading mappings between domains. The reference model suggests itself as a foundation for further exploration of sound FLAP solutions. A case study in a multi-site enterprise is reported to illustrate the feasibility and potential of the proposed reference model. © 2002 Elsevier Ltd. All rights reserved.", "publicationTitle": "Technovation", "publisher": "", "place": "", "date": "2004", "volume": "24", "issue": "8", "section": "", "partNumber": "", "partTitle": "", "pages": "631-642", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-3042730311&partnerID=40", "accessDate": "2009-06-08T14:48:07Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Global manufacturing", "type": 1 }, { "tag": "Resource allocation", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "7TRU5SXW", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7TRU5SXW", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7TRU5SXW", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Nordlund, Mats", "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "7TRU5SXW", "version": 9651, "itemType": "conferencePaper", "title": "Optimizing Life Cycle Issues Using Axiomatic Design", "creators": [ { "creatorType": "author", "name": "Nordlund, Mats" } ], "abstractNote": "The design of a product involves meeting a multitude of requirements from many stakeholders. Typically, in research focus has been on mapping and decomposing requirements starting with Customer Requirements and continuing to Functional Requirements, Design Parameters and so on. In this address, it will be shown how axiomatic design, applied at the level of systems architecture, can accommodate requirements from stakeholders that are concerned with lifecycle cost and life cycle management of the future product. When applied at this level, axiomatic design provides decision makers with the power to make the right decisions and set the right direction in early design phases to meet life cycle goals as well as customer requirements.", "proceedingsTitle": "Proceedings of ICAD2006", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "lifecycle" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "7GN3U5D8", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7GN3U5D8", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7GN3U5D8", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Wang et al.", "parsedDate": "2008", "numChildren": 0 }, "data": { "key": "7GN3U5D8", "version": 9651, "itemType": "journalArticle", "title": "Axiomatic-design-based design method of the programmable logic controller control system", "creators": [ { "creatorType": "author", "firstName": "X.-Y.", "lastName": "Wang" }, { "creatorType": "author", "firstName": "D.-B.", "lastName": "Tang" }, { "creatorType": "author", "firstName": "P.-H.", "lastName": "Lou" }, { "creatorType": "author", "firstName": "W.-T.", "lastName": "Ma" } ], "abstractNote": "To improve the systematicness and scientificalness of Programmable Logic Controller (PLC) control system design, the PLC control system design method based on axiomatic design theory was proposed and the design process model was constructed. The PLC control system design process was divided into the system design process and the software design process. Design in each design process was conducted by using the axiomatic design theory. The two processes were connected by the hierarchy mapping, the axiomatic design theory and the traditional PLC control system design knowledge were integrated in the whole design process. Finally, an example was presented to verify the method's feasibility.", "publicationTitle": "Jisuanji Jicheng Zhizao Xitong/Computer Integrated Manufacturing Systems, CIMS", "publisher": "", "place": "", "date": "2008", "volume": "14", "issue": "11", "section": "", "partNumber": "", "partTitle": "", "pages": "2097-2104", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-57749089683&partnerID=40", "accessDate": "2009-06-08T14:41:55Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0002", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Control system", "type": 1 }, { "tag": "Design method", "type": 1 }, { "tag": "Programmable logic controller", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "8ITAIV7X", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/8ITAIV7X", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/8ITAIV7X", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Miller and Nelson", "parsedDate": "2008", "numChildren": 0 }, "data": { "key": "8ITAIV7X", "version": 9651, "itemType": "journalArticle", "title": "Novel mechanical actuation of a modular laparoscopic surgical tool", "creators": [ { "creatorType": "author", "firstName": "D.J.", "lastName": "Miller" }, { "creatorType": "author", "firstName": "C.A.", "lastName": "Nelson" } ], "abstractNote": "A functional analysis of current laparoscopic surgical technology prompted a redesign of the tools in order to provide multiple functionalities within a single tool. With this redesign came the need for a number of novel mechanisms to actuate and deploy functional tips to the surgical site from their storage locations. In this study we have adopted a multifaceted approach to biomedical device design: functional decomposition to determine problems with the current minimally invasive surgery paradigm, axiomatic design to ensure an efficient design, and quality function deployment to mathematically determine important design criteria. These methods were applied to the design of several novel mechanisms for achieving multifunctionality in a modular surgical instrument. The new actuation mechanism transfers squeezing motion from the hand through a gear train to the distal end of the tool where a pin-slot mechanism actuates the tool tip. The most pronounced change from current technology is the method for rotating the tool's shaft: rather than a rotary/rotary interaction using the index finger a more ergonomic slider mechanism translates linear thumb motion into rotation of the tool's shaft through a gear train. Finally, rather than locking or unlocking the jaws of the tool using multiple trigger/ ratchet interaction, the new tool uses a binary ratcheting mechanism (similar to a retractable ballpoint pen) to lock or unlock the tool with only one motion. In addition to the actuation mechanisms, the methods for indexing functional tips within the tool and interfacing the tips with a lead screw were redesigned for a modular tool. Rotary indexing of the tool cartridge is done using a Geneva-type mechanism and cam/follower to provide positive locking once the tip is in place. Transferring the tool tip from the rotary chamber to contact the actuation/shuttling screw is accomplished using a screw/wedge assembly to ensure proper attachment. Each of these mechanisms is described and analyzed in detail to show the overall improvement in surgical performance of this novel tool. The benefits identified include multiple functionalities in a single tool, ergonomic benefits of an increased input/output force scaling, decreased out-of-plane motion required to rotate the tool's shaft, and decreased cognitive load required to lock and unlock the tool's jaws. Copyright © 2008 by ASME.", "publicationTitle": "Journal of Medical Devices, Transactions of the ASME", "publisher": "", "place": "", "date": "2008", "volume": "2", "issue": "3", "section": "", "partNumber": "", "partTitle": "", "pages": "", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-55749095351&partnerID=40", "accessDate": "2009-06-08T14:42:05Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Functional decomposition", "type": 1 }, { "tag": "Laparoscopic surgical tool", "type": 1 }, { "tag": "Minimally invasive surgery", "type": 1 }, { "tag": "Modular design", "type": 1 }, { "tag": "Quality function deployment", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "7SURB4TP", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7SURB4TP", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7SURB4TP", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Houshmand and Jamshidnezhad", "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "7SURB4TP", "version": 9651, "itemType": "journalArticle", "title": "A lean manufacturing roadmap for an automotive body assembly line within axiomatic design framework", "creators": [ { "creatorType": "author", "firstName": "M.", "lastName": "Houshmand" }, { "creatorType": "author", "firstName": "B.", "lastName": "Jamshidnezhad" } ], "abstractNote": "In this paper we are to present a practical application of Axiomatic Design (AD) methodology, as a roadmap to lean production, in redesigning a car body assembly line. Axiomatic Design theory provides a framework to simplify the whole problem. According to the AD principles, a hierarchical structure has been developed. The developed structure originated in lean manufacturing principles and existing conditions of an assembly line, revealed that elimination of all kinds of waste is a prerequisite for other functional requirements. Several main sources of waste were recognized in the assembly line and some practical solutions are suggested to alleviate these problems. In the initial survey, it became obvious that high work-in-progress is the major problem of this assembly line, which is the symptom of an unbalanced flow. Two cells have more problems than others and require to be modified first: the door cell and the underbody cell. Based on the hierarchy, these cells are redesigned. In addition to interior space of the cells, two automatic material handling systems - overhead chain conveyor- are employed respectively to facilitate handling operation of these cells. Main Line is another part of the assembly line, have to being modified by adding spot welding robots. The proposed plan is justified both technically and economically to the managers of the assembly line.", "publicationTitle": "International Journal of Engineering, Transactions A: Basics", "publisher": "", "place": "", "date": "2004", "volume": "17", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "51-72", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-2542423777&partnerID=40", "accessDate": "2009-06-08T14:48:59Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0003", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Assembly", "type": 1 }, { "tag": "Automotive", "type": 1 }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Body", "type": 1 }, { "tag": "Lean", "type": 1 }, { "tag": "Manufacturing", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "7TJRCDU5", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7TJRCDU5", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7TJRCDU5", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Han et al.", "parsedDate": "2007", "numChildren": 0 }, "data": { "key": "7TJRCDU5", "version": 9651, "itemType": "journalArticle", "title": "Axiomatic design of a spatial micromanipulator and experimental verification", "creators": [ { "creatorType": "author", "firstName": "S.Y.", "lastName": "Han" }, { "creatorType": "author", "firstName": "S.J.", "lastName": "Yoon" }, { "creatorType": "author", "firstName": "S.R.", "lastName": "Kim" }, { "creatorType": "author", "firstName": "J.Y.", "lastName": "Park" }, { "creatorType": "author", "firstName": "B.J.", "lastName": "Yi" }, { "creatorType": "author", "firstName": "S.J.", "lastName": "Kim" } ], "abstractNote": "The micromanipulator is basically required sufficient workspace and high natural frequency. However, previous designs are hard to satisfy the required workspace and natural frequency simultaneously. In this study, a previous design was analyzed from the viewpoint of the axiomatic design. Then, a new design parameter as displacement amplifier which transforms a coupled design into a decoupled design, was suggested. And a design procedure based on axiomatic design was developed. A spatial 3-DOF parallel-type micromanipulator was chosen as an exemplary device. According to the suggested design procedure, the micromanipulator having the required natural frequency was designed in the first step, and then the displacement amplifier satisfying the required work space was designed sequentially. To check the effectiveness of the manipulator and displacement amplifier, simulations and experiments were performed. Those are verified that the displacement amplifiers implemened work very well for satisfying the required task workspace.", "publicationTitle": "Key Engineering Materials", "publisher": "", "place": "", "date": "2007", "volume": "353-358", "issue": "PART 4", "section": "", "partNumber": "", "partTitle": "", "pages": "2843-2846", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-36048960118&partnerID=40", "accessDate": "2009-06-08T14:42:51Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Displacement amplifier", "type": 1 }, { "tag": "Micromanipulator", "type": 1 }, { "tag": "Natural frequency", "type": 1 }, { "tag": "Work space", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "8I4DI493", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/8I4DI493", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/8I4DI493", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Feng et al.", "parsedDate": "2007", "numChildren": 0 }, "data": { "key": "8I4DI493", "version": 9651, "itemType": "journalArticle", "title": "Self-organized evolution of mechanism kinetic scheme based on axiomatic design", "creators": [ { "creatorType": "author", "firstName": "Y.", "lastName": "Feng" }, { "creatorType": "author", "firstName": "J.", "lastName": "Tan" }, { "creatorType": "author", "firstName": "Z.", "lastName": "Wei" }, { "creatorType": "author", "firstName": "H.", "lastName": "Hao" } ], "abstractNote": "The self-organized evolution technology of the mechanism kinetic scheme based on axiomatic design is presented. This technology tries to express the constraints between kinetic mechanisms briefly in a semantic form which is more familiar to the designers. Through the mapping process between the kinetic chain unit and the unit instance, the evolution from abstract unit to concrete engineering instance is achieved. The subdivision of unit coupling semantics is studied, and the evolution of semantics is finished. Also, the semantic constraints evolution of unit coupling semantics is described. The product structure models with function and assembly meanings are constructed based on the kinematic chain unit and unit coupling. It provides a basis to realize the inheritance and transfer of constraint information from conceptual design to design for assembly (DFA). As the engineering practice result shows, the method can help the engineers express their design intension more clearly and naturally in a high semantic level. And die automation, recursion and visualization of the mechanism kinetic scheme design are realized.", "publicationTitle": "High Technology Letters", "publisher": "", "place": "", "date": "2007", "volume": "13", "issue": "4", "section": "", "partNumber": "", "partTitle": "", "pages": "373-378", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-37449005557&partnerID=40", "accessDate": "2009-06-08T14:42:45Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Evolution", "type": 1 }, { "tag": "Mechanism kinetic scheme", "type": 1 }, { "tag": "Self-organization", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "7UKD82DZ", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/7UKD82DZ", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/7UKD82DZ", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Bae et al.", "parsedDate": "2002", "numChildren": 0 }, "data": { "key": "7UKD82DZ", "version": 9651, "itemType": "journalArticle", "title": "Axiomatic design of automotive suspension systems", "creators": [ { "creatorType": "author", "firstName": "S.", "lastName": "Bae" }, { "creatorType": "author", "firstName": "J.M.", "lastName": "Lee" }, { "creatorType": "author", "firstName": "C.N.", "lastName": "Chu" } ], "abstractNote": "This paper presents kinematic design methodology of a suspension system using Axiomatic Design (AD). AD is applied to typical three types of the front suspension systems: McPherson strut, double wishbone and multilink. Our study includes the analysis of the functional independencies of current suspension design configurations, which would add to the understanding of how various suspension hardpoints influence the suspension functional requirements (FRs). In addition, this paper also proposes sequential design orders in suspension kinematic design to satisfy all of the suspension FRs. Of the current kinematic designs, the multilink is a decoupled design, whereas McPherson strut and double wishbone are coupled designs. It is shown that a coupled design can be decoupled by applying the independence axiom. The design matrices formulated for the suspension systems indicate a specific design order to satisfy all FRs.", "publicationTitle": "CIRP Annals - Manufacturing Technology", "publisher": "", "place": "", "date": "2002", "volume": "51", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "115-118", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-0038515265&partnerID=40", "accessDate": "2009-06-08T14:49:38Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0006", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Kinematics", "type": 1 }, { "tag": "Suspension system", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:09Z" } }, { "key": "8TXP8V5I", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/8TXP8V5I", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/8TXP8V5I", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "8TXP8V5I", "version": 9651, "itemType": "conferencePaper", "title": "A New Integrated Approach to the Design of a Race Car Suspension", "creators": [], "abstractNote": "An innovative approach has been used to design the front suspension of the Formula SAE race car of the Università degli Studi di Firenze. The critical review of the 2005 car showed that it’s necessary to improve suspension reliability, reduce Time to Market and costs. DFSS is the only design methodology that allows to resolve these criticities integrating in an organized and structured way several design tools. An Identify – Design – Optimize – Verify (IDOV) approach has been used and through Qualica QFD® has been possible to manage every project phase and the used methodologies like Quality Function Deployment (QFD), Value Analysis and Design Failure Mode Effects Analysis (DFMEA). In the Identify phase, QFD has been used in order to correlate the Voice of Customer (VOC) with the Critical To Quality characteristics (CTQs) and to calculate their importance. In the Design phase the Functional Surfaces methodology has allowed to characterize Functional Requirements (FR) which has been then correlated with CTQs through QFD. Then the Value Analysis has allowed to determine the Design Parameters (DPs) which need to be improved. The suspension Short Long Arm (SLA) is the most important DP, so a new DFSS project has been created to study it. In the new Design phase, Value Analysis has been repeated, Rod Ends and their mounts has proved to be the DP which needed to be improved. These DPs have been redesign, using a Design for Manufacturability (DfM) approach, replacing the spherical Rod End with groved one. DfM has allowed to plan manufacturing processes and to estimate costs with a Bill of Material.", "proceedingsTitle": "Proceedings of ICAD2006", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "8P9Q3T95", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/8P9Q3T95", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/8P9Q3T95", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Yang et al.", "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "8P9Q3T95", "version": 9651, "itemType": "journalArticle", "title": "Application of the axiomatic design methodology to the design of PBGA package with polyimide coating layer", "creators": [ { "creatorType": "author", "firstName": "J.H.", "lastName": "Yang" }, { "creatorType": "author", "firstName": "K.Y.", "lastName": "Lee" }, { "creatorType": "author", "firstName": "C.Y.", "lastName": "Dong" } ], "abstractNote": "The purposes of the paper are to apply the axiomatic design methodology to the design of PBGA package with polyimide coating under hygrothermal loading in the IR soldering process and to suggest more reliable design conditions by stress analysis. The analysis model is a 256-pin perimeter Plastic Ball Grid Array (PBGA) package with the polyimide coating surrounding chip and above surface of BT-substrate. The polyimide coating is suggested to depress the maximum stresses occurred on the stress concentration positions. The axiomatic design methodology is proved to be useful to find the more reliable design conditions for PBGA package. Finally, the optimal values of design variables to depress the stress in the PBGA package are obtained.", "publicationTitle": "KSME International Journal", "publisher": "", "place": "", "date": "2004", "volume": "18", "issue": "9", "section": "", "partNumber": "", "partTitle": "", "pages": "1572-1581", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-11444269675&partnerID=40", "accessDate": "2009-06-08T14:48:05Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "BGA Package", "type": 1 }, { "tag": "IR Soldering", "type": 1 }, { "tag": "Polyimide Coating", "type": 1 }, { "tag": "Stress", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "8MDVRKWA", "version": 9651, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/8MDVRKWA", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/8MDVRKWA", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Kazmef and Zhu", "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "8MDVRKWA", "version": 9651, "itemType": "conferencePaper", "title": "An integrated performance modeling system", "creators": [ { "creatorType": "author", "firstName": "D.", "lastName": "Kazmef" }, { "creatorType": "author", "firstName": "L.", "lastName": "Zhu" } ], "abstractNote": "An integrated performance modeling system is presented for use in general decision making problems including engineering design, manufacturing process and quality control, and other applications. The system relies on a function matrix that relates decision variables to performance variables. The system utilizes both global and local linearization of non-linear functions, after which the Extensive Simplex Method is used to derive the set of all feasible decisions based upon the specification limits for the performance variables and the control limits on the decision variables. Beyond current Six Sigma best practices, the described system explicitly considers both modeling uncertainty and uncontrolled variation. The specification limits may be automatically tightened by the confidence intervals and variation limits to ensure feasibility to a desired level of confidence and robustness. Three sets of feasible decisions are established including 1) the global feasible set that establishes the extreme limits of feasibility by allowing all the decision variables to vary simultaneously within their range of the control limits, 2) the local feasibility, which shows the immediate feasibility for each decision variable holding other decision variables at their current value, and 3) the controllable feasibility for each performance variable holding other performance variables at their current value. The system provides a perspective view of 1) the function matrix, 2) a historical view of the decision variables which may be used in a manner similar to statistical process control X-Bar charts, 3) a historical view of the performance variables which may be used in a manner similar to statistical quality control charts, 4) a set of decision windows showing the joint feasibility of all pairs of decision variables, which may be used in a manner similar to process windows, and 5) a set of performance windows showing the joint feasibility of all pairs of performance variables, which may be used in a manner similar to Pareto Optimal graphs. An example is provided for a beam design model with four decision variables and three performance variables. Copyright © 2004 by ASME.", "proceedingsTitle": "American Society of Mechanical Engineers, Design Engineering Division (Publication) DE", "conferenceName": "", "publisher": "", "place": "", "date": "2004", "eventPlace": "", "volume": "117", "issue": "", "numberOfVolumes": "", "pages": "3-12", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-19544376126&partnerID=40", "accessDate": "2009-06-08T14:47:57Z", "ISSN": "", "archive": "Scopus", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Decision support", "type": 1 }, { "tag": "Engineering design", "type": 1 }, { "tag": "Pareto optimal design", "type": 1 }, { "tag": "Quality function deployment", "type": 1 }, { "tag": "Robust design", "type": 1 }, { "tag": "Robustness", "type": 1 }, { "tag": "Uncertainty", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "974U4ABP", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/974U4ABP", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/974U4ABP", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Kim et al.", "parsedDate": "2002", "numChildren": 0 }, "data": { "key": "974U4ABP", "version": 9650, "itemType": "journalArticle", "title": "Design of Micro-photonic Beam Steering Systems", "creators": [ { "creatorType": "author", "firstName": "Sang Gook", "lastName": "Kim" }, { "creatorType": "author", "firstName": "Yong", "lastName": "Shi" }, { "creatorType": "author", "firstName": "Yongbae", "lastName": "Jeon" } ], "abstractNote": "The paper introduces a direct photonic beam steering device, which is intended to be used as a large scale all optical switch array for communication networks. The objective is to direct the light beam with two degrees of freedom, so the beam from any of the input ports can be sent to any of the output ports, satisfying the optical and operation requirements. The technology is enabled through the integration of microelectromechanical systems, thin film piezo actuators, optical engineering technologies, and Axiomatic approach to systems design. The curved electrode electrostatic and thin film piezoelectric actuators are simulated in advance to the microfabrication processes. This technology has the potential of many novel applications such as: all optical switching, microendoscopy and gazable microeye among others.", "publicationTitle": "CIRP Annals - Manufacturing Technology", "publisher": "", "place": "", "date": "2002", "volume": "51", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "335-338", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "10.1016/S0007-8506(07)61530-3", "citationKey": "", "url": "http://www.sciencedirect.com/science/article/B8CXH-4P3DTXJ-2S/2/77bfdbbb7eee10d1b50ea66a2fa55163", "accessDate": "2009-06-17T16:33:23Z", "PMID": "", "PMCID": "", "ISSN": "0007-8506", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "ScienceDirect", "callNumber": "0002", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "MEMS", "type": 1 }, { "tag": "optical", "type": 1 }, { "tag": "piezoelectric", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "99W99H8G", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/99W99H8G", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/99W99H8G", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Jiang et al.", "parsedDate": "2007", "numChildren": 0 }, "data": { "key": "99W99H8G", "version": 9650, "itemType": "conferencePaper", "title": "The product family design based on axiomatic design", "creators": [ { "creatorType": "author", "firstName": "P.", "lastName": "Jiang" }, { "creatorType": "author", "firstName": "X.", "lastName": "Zhao" }, { "creatorType": "author", "firstName": "B.", "lastName": "Yang" }, { "creatorType": "author", "firstName": "L.", "lastName": "Zhao" }, { "creatorType": "author", "firstName": "R.", "lastName": "Tan" } ], "abstractNote": "A product family comprises a set of variables, features or components that remain constant from product to product which called product platform, and other that vary from product to product. Modularization and commonality is the basic properties of product family and it demands that the architecture of product family should be decomposed into modules to perform different functions independently. Axiomatic design is introduced to aid to decomposing the function and structure with its framework of independence axiom to minimize the dependence of functions of product. The product family architecture of butterfly valve is design by this method and as a case study. © 2007 IEEE.", "proceedingsTitle": "IEEM 2007: 2007 IEEE International Conference on Industrial Engineering and Engineering Management", "conferenceName": "", "publisher": "", "place": "", "date": "2007", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "758-762", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-40649087402&partnerID=40", "accessDate": "2009-06-08T14:42:44Z", "ISSN": "", "archive": "Scopus", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0001", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Mass customization", "type": 1 }, { "tag": "Product family", "type": 1 }, { "tag": "Product platform", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "9D2AXNGJ", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9D2AXNGJ", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9D2AXNGJ", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Donnarumma et al.", "parsedDate": "2002", "numChildren": 0 }, "data": { "key": "9D2AXNGJ", "version": 9650, "itemType": "journalArticle", "title": "Measure of independence in soft design", "creators": [ { "creatorType": "author", "firstName": "A.", "lastName": "Donnarumma" }, { "creatorType": "author", "firstName": "M.", "lastName": "Pappalardo" }, { "creatorType": "author", "firstName": "A.", "lastName": "Pellegrino" } ], "abstractNote": "In this paper is analysed the problem, using soft models, of soft dependence of parameters in design systems. A new form of computing, called Soft Computing, is recently used in many emerging disciplines because it is tolerant to imprecision, uncertainty and partial truth. The Soft Computing uses many disciplines as Bayesian inference and maximum entropy method. The logic relationship that ties the different elements can be defined more easily using the axioms of soft design emanating from MinEnt principle. The fundamental axiom of design is: valid design has minimum values of information and depends on a finite and limited number of independent, or soft dependent, parameters. © 2002 Published by Elsevier Science B.V.", "publicationTitle": "Journal of Materials Processing Technology", "publisher": "", "place": "", "date": "2002", "volume": "124", "issue": "1-2", "section": "", "partNumber": "", "partTitle": "", "pages": "32-35", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-1642264221&partnerID=40", "accessDate": "2009-06-08T14:49:51Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0003", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Entropy", "type": 1 }, { "tag": "MaxEnt", "type": 1 }, { "tag": "Soft Computing", "type": 1 }, { "tag": "Soft design", "type": 1 }, { "tag": "Uncertainty", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:08Z" } }, { "key": "9JFR6I6F", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9JFR6I6F", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9JFR6I6F", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Cavique, Miguel, António Freire Mourão, António M. Gonçalves-Coelho", "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "9JFR6I6F", "version": 9650, "itemType": "conferencePaper", "title": "Reducing Complexity in Fresh Air Systems", "creators": [ { "creatorType": "author", "name": "Cavique, Miguel, António Freire Mourão, António M. Gonçalves-Coelho" } ], "abstractNote": "The outdoor air system is a major subsystem of any heating, ventilating and air conditioning (HVAC) system. In this paper, the most used outdoor air systems are described and the usual design recommendations are enounced. Good indoor air quality is the highest-level functional requirement of an outdoor air system. Its accomplishment depends on indoor pollution control, as for example CO2 control, and on the outdoor airflow rate. Reducing the complexity of outdoor air systems may be as easy as increasing the outdoor airflow rate to take into account the worst operating scenario. This solution affects the system dimensions, initial cost and energy consumption, which in some instances may be difficult to handle. The system range of indoor air quality might be evaluated in terms of independence and information content. On the other hand, the dedicated outdoor air system can be regarded as an independent design for which the outdoor airflow rate and the filtration efficiency must be defined. The present paper proposes a new computation method for the information content that is based on the fuzzy definition of membership, instead of probability density function.", "proceedingsTitle": "Proceedings of ICAD2006", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:07Z" } }, { "key": "9RCC55HA", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9RCC55HA", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9RCC55HA", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Allan L Dickinson", "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "9RCC55HA", "version": 9650, "itemType": "conferencePaper", "title": "Integrating Axiomatic Design into a Design For Six Sigma Deployment", "creators": [ { "creatorType": "author", "name": "Allan L Dickinson" } ], "abstractNote": "Design For Six Sigma (DFSS) is a systematic process for design conception intended to yield robust products that meet customer expectations. Robustness is defined here as product performance that is insensitive to variation, both in manufacturing and in the application environment.\nIt is widely accepted that no amount of robust optimization at the detailed design level can succeed if the design concept itself is flawed (does not satisfy all functional requirements). The author has specifically focused on DFSS deployment in his company in the area of concept generation. Integration of Axiomatic Design has been the most critical element of this improvement. This paper describes how Axiomatic Design has been integrated smoothly into a pre-existing DFSS deployment. It demonstrates how Axiomatic Design links with other wellaccepted DFSS tools. The author emphasizes the importance of educating leadership and utilizing experienced trainers of axiomatic design to ensure deployment success.", "proceedingsTitle": "", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "http://www.axiomaticdesign.com/technology/icad/icad2006/icad2006_13.pdf", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0001", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:07Z" } }, { "key": "9F5EI78S", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9F5EI78S", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9F5EI78S", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Ilsin Bae and Woonbong Hwang", "parsedDate": "2006-06-13", "numChildren": 0 }, "data": { "key": "9F5EI78S", "version": 9650, "itemType": "conferencePaper", "title": "Improvement of Carriers for Semiconductor Device Test Handler Using Axiomatic Design", "creators": [ { "creatorType": "author", "name": "Ilsin Bae" }, { "creatorType": "author", "name": "Woonbong Hwang" } ], "abstractNote": "Apparatuses such as testers and test handlers are widely used together for test process of semiconductor devices. A carrier is a test handler component which carries a semiconductor device during test process. Some semiconductor devices are required to be tested at high temperature and low temperature as well as room temperature. The conventional carrier considerably deflects due to the test temperature variation. This causes unreliable results and frequent test handler jams. To analyze the carrier design, functional requirements of carriers were defined: position the device on the socket, and let the carrier engage smoothly with the socket guide. Design parameters of the previous design adopting a pin-hole guidance mechanism are location of carrier holes, and diameter of the holes. The holes are on the diagonal opposite corners of the carrier, and deviate due to thermal deflection. It is analyzed that the design is coupled according to the independence axiom. To overcome the thermal problem, new design parameters were found by changing the holes into slots and relocating them: location of carrier slots, and width of the slots. The two longitudinal slots restrict the carrier to vertical motion; the one lateral slot does the carrier to lateral motion. Although the slots deviate from their original positions due to thermal deflection, the device under test (DUT) at the center of the carrier does not move. The design becomes decoupled, and enables the concise design of carrier.", "proceedingsTitle": "Proceedings of ICAD2006", "conferenceName": "The Fourth International Conference on Axiomatic Design", "publisher": "", "place": "Firenze", "date": "June 13-16, 2006", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "", "accessDate": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "design-improvement" }, { "tag": "electronics" }, { "tag": "manufacturing" } ], "collections": [], "relations": {}, "dateAdded": "2009-07-17T16:26:58Z", "dateModified": "2024-10-22T16:17:07Z" } }, { "key": "9HT92ASP", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9HT92ASP", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9HT92ASP", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Suh and Sekimoto", "parsedDate": "1990", "numChildren": 0 }, "data": { "key": "9HT92ASP", "version": 9650, "itemType": "journalArticle", "title": "Design of Thinking Design Machine", "creators": [ { "creatorType": "author", "firstName": "N.P.", "lastName": "Suh" }, { "creatorType": "author", "firstName": "S.", "lastName": "Sekimoto" } ], "abstractNote": "The concept of an intelligent machine which generates creative design is presented. First, the general design process is described based on the design axioms. According to the axiomatic design concept, four steps of a \"thinking design machine\" are described; definition of functional requirements (FRs), creation of design parameters (DPs), analysis of design solution, and check of final solution. Computer software which deals with each one of the four steps is discussed, me database required for the design process is also discussed. Using the database or working interactively with designers, the system synthesizes the design solutions which satisfy the functional requirements defined by the designer. The system then analyzes the proposed design solutions based on the design axiom 1 (Independence Axiom). When there are many acceptable solutions, the system evaluates them based on the design axiom 2 (Information Axiom). Finally, the system selects the solution with a minimum information content them based as on the best design solution. © 1990 CIRP.", "publicationTitle": "CIRP Annals - Manufacturing Technology", "publisher": "", "place": "", "date": "1990", "volume": "39", "issue": "1", "section": "", "partNumber": "", "partTitle": "", "pages": "145-148", "series": "", "seriesTitle": "", "seriesText": "", "journalAbbreviation": "", "DOI": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-58149206146&partnerID=40", "accessDate": "2009-06-08T14:53:27Z", "PMID": "", "PMCID": "", "ISSN": "", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "Scopus", "callNumber": "0026", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "artificial-intelligence" }, { "tag": "creative-design" }, { "tag": "design-axioms" }, { "tag": "design-database" }, { "tag": "root" } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:07Z" } }, { "key": "9HI2WX84", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9HI2WX84", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9HI2WX84", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "creatorSummary": "Kaboli et al.", "parsedDate": "2008", "numChildren": 0 }, "data": { "key": "9HI2WX84", "version": 9650, "itemType": "conferencePaper", "title": "Axiomatic design of step down DC/DC converter", "creators": [ { "creatorType": "author", "firstName": "S.", "lastName": "Kaboli" }, { "creatorType": "author", "firstName": "A.", "lastName": "Haddadi" }, { "creatorType": "author", "firstName": "A.", "lastName": "Khaligh" } ], "abstractNote": "In this paper, the axiomatic design is introduced for designing the power electronic converters. The main idea of axiomatic design is to introduce variables affecting the desired performances of the system most independently possible. The design process is presented for a Buck converter. ©2008 IEEE.", "proceedingsTitle": "Proceedings of the IEEE International Conference on Industrial Technology", "conferenceName": "", "publisher": "", "place": "", "date": "2008", "eventPlace": "", "volume": "", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-54549127466&partnerID=40", "accessDate": "2009-06-08T14:41:58Z", "ISSN": "", "archive": "Scopus", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" }, { "tag": "Axiomatic design", "type": 1 }, { "tag": "Design procedure.", "type": 1 }, { "tag": "Power electronics converter", "type": 1 } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:07Z" } }, { "key": "9SGQT7Z5", "version": 9650, "library": { "type": "group", "id": 1679, "name": "Axiomatic Design", "links": { "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/1679/items/9SGQT7Z5", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/axiomatic_design/items/9SGQT7Z5", "type": "text/html" } }, "meta": { "createdByUser": { "id": 23937, "username": "kutabar", "name": "Windo Hutabarat", "links": { "alternate": { "href": "https://www.zotero.org/kutabar", "type": "text/html" } } }, "parsedDate": "2004", "numChildren": 0 }, "data": { "key": "9SGQT7Z5", "version": 9650, "itemType": "conferencePaper", "title": "Proceedings of the ASME Design Engineering Division - 2004", "creators": [], "abstractNote": "The proceedings contain 104 papers from the Proceedings of the ASME Design Engineering Division - 2004. The topics discussed include: an integrated performance modeling system; product platform design and the gate model: lessons from industry case studies; predicting cost of poor quality and reliability for systems using failure modes and effects analysis; design and simulation of a smart endoscope: part II; examination of platform and differentiating elements in product design; dynamic analysis of constrained mechanical systems considering their statistical properties; and sensitivity analysis of the rating scales and worth calculation schemes used in QFD matrices.", "proceedingsTitle": "American Society of Mechanical Engineers, Design Engineering Division (Publication) DE", "conferenceName": "", "publisher": "", "place": "", "date": "2004", "eventPlace": "", "volume": "117", "issue": "", "numberOfVolumes": "", "pages": "", "series": "", "seriesNumber": "", "DOI": "", "ISBN": "", "citationKey": "", "url": "http://www.scopus.com/inward/record.url?eid=2-s2.0-19544375575&partnerID=40", "accessDate": "2009-06-08T14:47:59Z", "ISSN": "", "archive": "Scopus", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0000", "rights": "", "extra": "", "tags": [ { "tag": "#nosource" } ], "collections": [], "relations": {}, "dateAdded": "2009-06-09T11:34:22Z", "dateModified": "2024-10-22T16:17:06Z" } } ]