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    Title: 以設計科學研究法開發歐盟環境法規 : 綠色生態圈服務平台
    Authors: 毛穎崙
    Contributors: 2019智慧企業資訊應用發展國際研討會
    Keywords: 綠色供應鏈管理系統
    Platform;Ecosystems;DSRM
    Date: 2019-06
    Issue Date: 2019-07-17 15:12:31 (UTC+8)
    Abstract: 自2007年歐盟發布RoHS環境法規以來,全球受到歐盟環境法規管制之電子業及電機業者,紛紛建置綠色供應鏈管理系統(GSCMS)以因應法規要求。為了有效管理其多階供應商,大都採用私有雲的架構來建置GSCMS。隨著GSCMS私有雲系統建置數量越多,導致上游供應商回應多個GSCMS的調查作業更加困難。因此GSCMS無法滿足電子、電機業者及其多階供應商所形成之生態圈的料件承認需求。本研究旨在依據設計科學研究方法(DSRM)創新設計一混合雲多企業服務平台,並創新設計加入跨體系服務及上下游串接服務,以減少買賣雙方在GSCMS中大量重複綠色料件承認作業。期望未來透過本綠色生態圈多邊服務平台系統設計,可以大幅降低電子、電機製造業因應歐盟環境法規之管理成本。
    Since the EU issued the RoHS environmental regulations in 2007, the electronics industry and the motor industry, which are regulated by EU environmental regulations, have established green supply chain management systems (GSCMS) to meet regulatory requirements. In order to effectively manage its multi-level suppliers, most of them use the private cloud architecture to build GSCMS. With the increase in the number of GSCMS private cloud systems, it is more difficult for upstream suppliers to respond to multiple GSCMS surveys. Therefore, GSCMS cannot meet the material recognition requirements of the ecosystem formed by electronics and motor manufacturers and their multi-level suppliers. This research aims to innovatively design a hybrid cloud multi-enterprise service platform based on the Design Science Research Method (DSRM), and innovatively design and join cross-system services and upstream and downstream concatenation services to reduce the large number of repeated green material recognition operations in the GSCMS. It is expected that in the future, through the design of the green ecosystem multilateral service platform system, the management costs of the electronics and motor manufacturing industry in response to EU environmental regulations can be greatly reduced.
    Relation: 2019智慧企業資訊應用發展國際研討會
    Data Type: conference
    Appears in Collections:[2019智慧企業資訊應用發展國際研討會] Conference papers

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