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[전기 전자부문] DESK/VDX 표준과 CAN 프로토콜을 사용한 차체 네트웍 시스템 개발
신민석(Minsuk Shin),이우택(Wootaik Lee),선우명호(Myoungho Sunwoo) 한국자동차공학회 2001 한국자동차공학회 춘 추계 학술대회 논문집 Vol.2001 No.11_2
In order to satisfy the requirements of time reduction and cost saving for development of electronic control systems(ECU) in automotive industry, the applications of standardized real-time operating system(RTOS) and communication protocol to ECUs are increased. In this study, a body control module(BCM) that employs OSEK/VDX(open system and corresponding interfaces for automotive electronics/vehicle distributed executive) OS for the RTOS and a controller area network(CAN) for the communication protocol is designed and the performances of the system are evaluated. The BCM controls doors, mirrors, and windows of the vehicle through the in-vehicle network. To identify all the transmitted and received control messages, a PC connected with the CAN communication protocol behaves as a CAN bus emulator. The control system based upon in-vehicle network allows increasing system stability as well as educing wiring harness. Furthermore it is easy to maintain and simple to add new features because the system is designed based on the standards of RTOS and communication protocol.
Modeling a time delay model to analyze network-induced delays for networked control systems
Minsuk Shin(신민석),Seongyon Ryu(류성연),Myoungho Sunwoo(선우명호) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
Networked control systems(NCSs) have been used in many areas because of their advantages such as low cost of installation, ease of maintenance, higher reliability, and greater flexibility. However, the network-induced delays, which may degrade the system performance and may cause system instability, are unavoidable in the NCSs. Therefore, it is necessary to consider and analyze the network-induced delays when an NCS is designed. In this paper, a periodic time delay model for an NCS is proposed. Time delay attributes of an NCS were defined and analyzed. The stability of an NCS was analyzed by using the proposed time delay model.
Balancing the Tension between Freedom and Responsibility through Peter F. Drucker’s MBO&SC
Matthew Minsuk Shin(신민석) 피터드러커 소사이어티 2016 창조와 혁신 Vol.9 No.2
본 논문은 피터 드러커의 주요 경영철학 중 하나인 목표와 자제에 의한 관리(Management by Objectives & Self-control: MBO&SC)를 그 철학의 뿌리를 통해 재 해석한다. 드러커의 저서와 논문 또 경영/정치 철학분야의 많은 문헌을 통해 MBO&SC를 기업관리 도구로써 뿐만 아니라 전체주의의 부활을 방지하는 사회관리 도구로써의 의미를 되새겨 본다. 그 일환으로 드러커가 영향을 받은 개인의 자유와 책임 사이의 갈등에 대한 키에르케고르 (Soren Kierkegaard)의 철학을 소개 한다. 그 관점에 따라 본 논문은 개인의 자유와 책임 그리고 기업의 자유와 책임을 정의 한다. 그리고 MBO&SC를 기업의 여덟 가지 목표분야에 적용하여 기업 입장의 자유와 책임의 갈등을 살펴본다. 끝으로 MBO&SC를 통해 이룰 수 있는 기업의 자유와 책임간 갈등의 균형을 설명한다. The aim of this paper is to revisit and discuss the root of Peter F. Drucker’s main managerial philosophy: Management by Objectives and Self-control (MBO&SC). Based on an extensive review of Drucker and other management literature, this paper redefines MBO&SC not only as a management tool but also as a social tool that prevents society from totalitarian revival. In doing so, this paper introduces Drucker’s observation of on Kierkegaard’s ideas regarding the tension between freedom and responsibility. Then, this paper defines individual freedom and responsibility, as well as organizational freedom and responsibility. Lastly, this paper applies MBO&SC to business organizations’ eight key objective areas and describes how the ideas of MBO&SC balance the tension between freedom and responsibility within a business enterprise.
시간 모델을 이용한 네트워크기반 제어시스템의 지연 보상 제어기 설계
류성연(Seongyon Ryu),신민석(Minsuk Shin),선우명호(Myoungho Sunwoo) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
The employment of networked control systems(NCSs) where control systems are interconnected by communication networks is a major trend in modem industry using control applications. The networked-induced delays are inevitable in NCSs and they may deteriorate the control performance and system stability. Therefore, it is necessary to design an appropriate controller in order to compensate the time delays. The objective of this paper is to design a controller using a time delay model for desired control performance of NCSs. LQR optimal controllers are designed using the time delay model. The control performance is validated through a case study.