• 제목/요약/키워드: SM(Smart Manufacturing)

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스마트제조 인력양성에 대한 제언 : 중소제조기업 구성원의 특성을 중심으로 (Examining the Effects of Job Roles in Small and Medium Business Corporation on Smart Manufacturing Employee Training)

  • 박상우;이종길;정동열
    • 한국IT서비스학회지
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    • 제20권3호
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    • pp.13-25
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    • 2021
  • The article presents the results of how employee's hierarchical job roles differently recognize a SM(smart manufacturing) and evaluate comprehensively on the SM employees training. The research was focus on small and medium size manufacturing corporation in Banwol·Siwha industrial complex, where is carried out Smart Complex National Policy. The Results from 205 participants working for a manufacturing firms in the Banwol·Siwha industrial complex. The results of study show that managers (vs workers) group is higher recognition of smart manufacturing and more intention to participate a SM employee training and utilize a SM equipments for test a manufacturing process. and these variables were mediated by SM cognition. These results will help SM manpower training center strategically design their training programs to maximize the training effectiveness.

A Human-Centric Approach for Smart Manufacturing Adoption: An Empirical Study

  • Ying PAN;Aidi AHMI;Raja Haslinda RAJA MOHD ALI
    • 유통과학연구
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    • 제22권1호
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    • pp.37-46
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    • 2024
  • Purpose: This study aims to address the overlooked micro-level aspects within Smart Manufacturing (SM) research, rectifying the misalignment in manufacturing firms' estimation of their technological adoption capabilities. Drawing upon the Social-Technical Systems (STS) theory, this paper utilises innovation capability as a mediating variable, constructing a human-centric organizational model to bridge this research gap. Research design, data and methodology: This study collected data from 233 Chinese manufacturing firms via online questionnaires. Introducing innovation capability as a mediating variable, it investigates the impact of social-technical system dimensions (work design, social subsystems, and technical subsystems) on SM adoption willingness. Smart PLS 4.0 was employed for data analysis, and Structural Equation Modelling (SEM) validated the theoretical model's assumptions. Results: In direct relationships, social subsystems, technical subsystems, and work design positively influence firms' innovation capabilities, which, in turn, positively impact SM adoption. However, innovation capability does not mediate the relationship between technical subsystems and SM adoption. Conclusions: This study focuses on the internal micro-level of organisational employees, constructing a human-centric framework that emphasises the interaction between organisations and technology. The study fills empirical gaps in Smart Manufacturing adoption, providing organisations with a means to examine the integration of employees and the organisational social-technical system.

스마트 매뉴팩처링을 위한 자율화 (Autonomy for Smart Manufacturing)

  • 박홍석
    • 한국정밀공학회지
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    • 제31권4호
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    • pp.287-295
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    • 2014
  • Smart manufacturing (SM) considered as a new trend of modern manufacturing helps to meet objectives associated with the productivity, quality, cost and competiveness. It is characterized by decentralized, distributed, networked compositions of autonomous systems. The model of SM is inherited from the organization of the living systems in biology and nature such as ant colony, school of fish, bee's foraging behaviors, and so on. In which, the resources of the manufacturing system are considered as biological organisms, which are autonomous entities so that the manufacturing system has the advanced characteristics inspired from biology such as self-adaptation, self-diagnosis, and self-healing. To prove this concept, a cloud machining system is considered as research object in which internet of things and cloud computing are used to integrate, organize and allocate the machining resources. Artificial life tools are used for cooperation among autonomous elements in the cloud machining system.

Industry 4.0 - A challenge for variation simulation tools for mechanical assemblies

  • Boorla, Srinivasa M.;Bjarklev, Kristian;Eifler, Tobias;Howard, Thomas J.;McMahon, Christopher A.
    • Advances in Computational Design
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    • 제4권1호
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    • pp.43-52
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    • 2019
  • Variation Analysis (VA) is used to simulate final product variation, taking into consideration part manufacturing and assembly variations. In VA, all the manufacturing and assembly processes are defined at the product design stage. Process Capability Data Bases (PCDB) provide information about measured variation from previous products and processes and allow the designer to apply this to the new product. A new challenge to this traditional approach is posed by the Industry 4.0 (I4.0) revolution, where Smart Manufacturing (SM) is applied. The manufacturing intelligence and adaptability characteristics of SM make present PCDBs obsolete. Current tolerance analysis methods, which are made for discrete assembly products, are also challenged. This paper discusses the differences expected in future factories relevant to VA, and the approaches required to meet this challenge. Current processes are mapped using I4.0 philosophy and gaps are analysed for potential approaches for tolerance analysis tools. Matching points of simulation capability and I4.0 intents are identified as opportunities. Applying conditional variations, incorporating levels of adjustability, and the un-suitability of present Monte Carlo simulation due to changed mass production characteristics, are considered as major challenges. Opportunities including predicting residual stresses in the final product and linking them to product deterioration, calculating non-dimensional performances and extending simulations for process manufactured products, such as drugs, food products etc. are additional winning aspects for next generation VA tools.

스마트팩토리 보안 앤드포인트 식별을 위한 토폴로지 제네레이터 설계 및 구현 (Design and Implementation of Topology Generator for Sm art Factory Security Endpoint Identification)

  • 김양훈
    • Journal of Platform Technology
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    • 제11권3호
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    • pp.76-82
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    • 2023
  • 제4차 산업혁명을 기점으로 핵심기술들이 산업에 적용되어 각종 스마트 환경을 구축하기 시작하였다. 제조업의 스마트팩토리는 맞춤형 생산을 위한 광범위한 데이터의 수집과 제어를 실행할 수 있는 IIoT를 핵심기술로 적용하여 고품질 제품을 생산하게 되었다. 그러나, IIoT를 통하여 개방형으로 전환된 스마트팩토리의 네트워크 환경은 다양한 보안 위험에 노출되었다. 보안 침해에 따라 IIoT는 네트워크 망의 교란, 위변조된 IIoT의 사용 및 유지로 인하여 생산 제품, 생산 공정의 품질저하를 나타내었으며, 기업의 비즈니스에 신뢰성에 문제를 발생시킬 수 있다. 이에 따라 본 연구에서는 스마트팩토리 초기 구축 시 IIoT의 안전한 연결 및 활용을 위하여 스마트팩토리에 연결된 IIoT에 대한 실질성 확인과 무해화 환경 구축을 실행할 수 있는 방법으로 IIoT 연결 상황을 확인할 수 있는 연구를 실행하였다.

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