Journal of the Korea Convergence Society (한국융합학회논문지)

Korea Convergence Society (한국융합학회)
권호 표지
DOI QR코드

DOI QR Code

A Study on Network Interface Scheme of Heterogeneous Systems for SEM's Smart Factory Preliminary Preparation

중소기업 스마트공장 사전준비를 위한 이기종 시스템에 대한 네트워크 인터페이스 방안의 연구

  • Kim, Jaepyo (Dept. Of Smart Convergence Consulting, Hansung University) ;
  • Kim, Seungcheon (Dept. Of IT Convergence, Hansung University)
  • 김재표 (한성대학교 스마트융합컨설팅학과 제품분야) ;
  • 김승천 (한성대학교 IT융합학과)
  • Received : 2020.09.24
  • Accepted : 2020.11.20
  • Published : 2020.11.28
Download PDF
⟨ Previous Next ⟩

Abstract

The communication issues expected for SMEs are that 1) IT systems are not easy to connect, 2) data collection and integration by heterogeneous systems are difficult, and 3) various fieldbuses and protocols make interfaces difficult. Usually, SMEs often have automation built before the introduction of smart factories. It is necessary to provide communication technology such as Sensing to meet the heterogeneous system level with the old aged sensors in the automation equipment and communication network of SMEs. We will consider how to improve the network interface before applying the latest network technology at the time of preparation using PI.

중소기업에 예상되는 통신 관련 이슈는 1) IT 시스템이 구축되어 있는 경우 연계가 쉽지 않고, 2) 이기종 시스템에서 데이터 수집과 통합이 어렵고, 3) 다양한 Fieldbus 및 프로토콜이 존재하여 인터페이스가 쉽지 않다는 것이다. 보통 스마트공장 도입 전에 중소기업은 자동화가 구축되어 있는 경우가 많다. 중소기업의 자동화 대상 설비와 통신네트워크에 노후 된 Sensor와 이기종 시스템 수준에 맞게 Sensing 등 통신기술을 함께 제공할 필요가 있다. PI를 활용한 사전준비 시점에 최신 네트워크 기술을 적용하기 전에 각 유형별 네트워크 인터페이스 개선방안을 고찰하고자 한다.

Keywords

References

  1. J. P. Kim. (2020). A Study on Improvement of Network Interface between Obsolete Equipment Sensors and Heterogeneous Systems for SME's smart Factory Preliminary Preparation, The 10th International Conference on Convergence Technology, 128-129.
  2. J. P. Kim. (2019). A Study on Protocol and general purpose Communication of Network Interface between Heterogeneous Systems, 2019 Hansung University Autumn Joint Conference, 15-18
  3. S. H. Song. (2000). The Adoption of Process Organization: A Case of Samsung Electronic Corporation, Gyong Hee Management Research Institute, 73-75.
  4. D. O. Kwon. (2018). Manufacturing Core Competencies and Engineering-based Design for Smart Factory, Process control instrumentation technology monthly journal, 90-96
  5. G. S. Jeong. (2018). ICT-based consulting methodology in the 4th industrial revolution era, Korea Smart Consulting Association. 3-24
  6. D. H. Kwon.(2016), G. Yoon & S. G. Lee(2016) Trends of Industrial Network for Smart Factory, Process control instrumentation technology monthly journal, 114-123
  7. G. H. Han et al. (2013). A Study on the Efficient CAN to Ethernet Protocol Converter based on Heterogeneous Field Bus Sensor Network, Korea Institute Of Communication Sciences, 331-332
  8. Big Data Management System of Plant & Sensor for Smart Factory http://www.plantpulse.co.kr/ 4-5
  9. S. G. Moon. (2006). Problem Analysis of Real Time Transaction and Fieldbus Communication Industrial Networks, Korean Institute of Information Technology, 303-306
  10. S. G. Moon. (2007). Consideration of Wireless Technology in Industrial Networks, The journal of the Korea Institute of Maritime Information & Communication Sciences, 157-162
  11. D. O. Kwon. (2018). Engineering Design of Automation System for Smart Factory Implementation, Korea Industry Intelligentization Association, Smart Factory Conference 2018.
  12. S. I. Jeong & I. G. Kwon. (2018). Implementation of Low-Cost Data Management System for Smar factory 1-2
  13. G. H. Han et a.l (2014). A Study on the Efficient Multiple Heterogeneous Data Converter Protocol based on Field Bus Network, Korea Institute Of Communication Sciences, 167-168
  14. T. W. Chang, S. I. Sung & J. C. Lee. (2019). Survey Analysis on Small and Medium-Sized Suppliers of Smart Factory and Improvement Plan for Them, Entrue Journal of Information Technology, 77-88
  15. KOSF. (2017). Smart Factory Reference Model-version 3.1, Korea of smartfactory, 676-692.