成果報告書詳細
管理番号20160000000674
タイトル*平成27年度中間年報 SIP(戦略的イノベーション創造プログラム)/革新的設計生産技術 革新的デライトデザインプラットフォーム技術の研究開発  
公開日2016/8/23
報告書年度2015 - 2015
委託先名国立大学法人東京大学
プロジェクト番号P14030
部署名IoT推進部
和文要約
英文要約Title:SIP (Cross-Ministerial Strategic Innovation Promotion Program) / Innovative Design/Manufacturing Technologies, Delight Design Platform Project (FY2014-FY2018) FY2015 Annual Report

The progress of this program is summarized for each of the four major working items.
1. Kansei database: Using a data schema for representing the relationship between human senses and product attractiveness, we started developing several kinds of Kansei database using our motives such as hair dryers and crane operation cabin. We also consider visualization of the database for engineers is of significant importance. A delight map is a graphical representation of the Kansei database which can also assist a designer to navigate the design space associated with the attractiveness. The basic specification of the delight map was set down and prototype implementation was made. We will test this software and distribute to some potential users with some example database in the next year.
2. Kansei Modeling: Our kansei modeling framework is based on 1DCAE modeling framework. We continue developing a Kansei model for a few kinds of products such as a hair dryer and a crane manipulator. We also started investigation of modeling technologies for allowing engineers to describe design concept more intuitively. We found such technologies are key for Kansei modeling as modeling using 1DCAE modeling such as Modelica is quite difficult for the engineers. Our discussion reached to a rough specification of methods for such concept modeling. We will study and develop a new modeling framework from the next year.
3. Kansei Integration: Software for extending the base tools of the System Planner for Kansei modeling was developed. An interface was developed to import 1DCAD models defined in SimulationX system to the Logical Visionary module of SystemPlanner. An editing tool for material properties of parts in Geometry Visionary was also developed, with which users can easily define those properties needed by Icepak (ANSYS). In addition, basic tools added on SystemPlanner were developed to allow quick evaluation of delightfulness of products by using equations and macro programs defined on circuit part’s properties. Integration capability from 1DCAE models to XVL was extended to read Modelica models to XVL environment. This interface allows to also transfer computation results from 1DCAE to XVL.
4. Kansei Reverse Engineering: The function developed last year to import dense mesh models to XVL from 3D scanners was tuned to become more efficient. As for development using the XCT system installed last year, by scanning various types of products, good skill for scanning operation was accumulated. From this year, basic algorithm of CT data segmentation which is the most fundamental function for the reverse engineering of assembly parts was initiated. A new algorithm was developed and its prototype software was developed. Initial evaluation of this software showed its good performance. We optimize its algorithm and also develop an application software in the next year.
ダウンロード成果報告書データベース(ユーザ登録必須)から、ダウンロードしてください。

▲トップに戻る