協創系統科技,強調最佳化實務及知識服務,協助台灣產業鏈廠商生產技術參數化、模組化與標準化,運用軟體工具及雲端平台,面向全球市場;其研發及服務都是為了讓客戶的委託,最終達到技術升級、快速投產及全球販售;跨域協同可以支撐國內產業的弱點,協助縮短新產品開發週期,打造高附加價值研發能量。其使命就是引領國內電機產業融入全球前瞻市場。
AMIT system service Ltd. emphasizes optimization of practical and knowledge services to assist parameterization, modularization and standardization for production technology of Taiwan industrial chain manufacturers by using software tool and cloud platform for global market. Our research and service are to allow customer commission reaches technology upgrade, rapid commissioning and global sales. Cross-domain collaboration supports weakness of domestic industry and helps shorten development cycle of new product in order to build high value-added R&D capabilities. Our mission is to lead domestic motor industry into global proactive market.
※精神價值 Spiritual Value
- 技術服務 Technical service
- 資源整合 Resource integration
- 產業媒合 Industry matching
- 推廣平台 Promotion platform
提升台灣電磁產業競爭力-引進國際市場需求
Enhance competitiveness of Taiwan electromagnetic industry and introduce international market demands.
使命:引領電機產業鏈融入全球高端市場
Mission: lead motor industry into global high end market.
願景:全球電磁動力系統設計中心
Vision: Design center of global electromagnetic power system.
※平台架構 Platform structure
四大領域 Four major scopes
研發 R&D 生產 production 檢測 inspection 銷售 sales
願景 Vision 全球電機系統技術中心 technical center of global motor system.
使命 Mission 引領台灣電機產業融入全球高端市場 lead Taiwan motor industry into global high end market.
方法 Method 全球行銷、專業知識、實務服務、產業鏈結 global marketing, professional knowledge, practical service and industry links.
文化 Culture 翻轉思路、實務協創 overturn ideas, practical co-creation
核心價值 Core value:知識實現 knowledge realization.
1.學術基礎 搜集舊有學術資料,截取並驗證其中實用的部份,做為研究基礎。
1.Academic foundation: collect old academic data and absorb practical parts as basis of research.
2.實務經驗 將實務經驗,重新整理歸納;搭配學術理論,進行分析及驗證,使經驗轉化為實用知識留存。
2.Practical experience: reorganize practical experience for analysis and validation with academic theory to convert experience as practical knowledge for retention.
3.模擬應用 善用模擬軟體,變更系統參數,搜集各種變化趨勢及極限,找出規律法則,做為未來設計依據。
3.Simulation application: change system parameters by using simulation software. Collect all trends and limitations of change to find regularity rule as future design reference.
4.虛實整合 比較模擬與實務差異性,探究真實物理現象,建立對應的物理參數,加入未來設計數據中。
4.Clicks-and-mortar integration: compare difference between simulation and practice to explore real physical phenomena to establish corresponding physical parameters which will be added in future design data.
5.資料庫建立 在真實物理的條件與產品規格下,建構相關資料庫,提高設計準確度。
5.Database establishment: create relevant database under actual physical condition and product specifications to improve design accuracy.
6.技術引進 新技術的引進及解析,確認技術可行性及核心理論,建立模型參數並驗證,以利未來使用。
6.Technology introduction: introduce and analyze new technology to ensure feasibility and core theory to create and validate model parameter for future utilization.
7.系統整合 整合多領域的技術知識,建構系統性的知識應用庫。
7.System integration: integrate technical knowledge from multiple fields to establish systematic knowledge application library.
8.需求引導 從產品面思考,引導真實系統需求,再建立所需技術知識。
8.Demand booting: consider product to lead to actual system needs then build technical knowledge required.
9.創意發想 從累積的知識庫中,提出新的發展可能性,建構理論基礎並驗證。
9.Creation thinking: find new development possibilities from cumulative knowledge to construct theoretical basis for verification.
