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무인잠수정 제어시스템을 위한 네트워크 전송지연 및 패킷분실 보상기법
양인석,강선영,이동익,Yang, Inseok,Kang, Sun-Young,Lee, Dongik 대한임베디드공학회 2011 대한임베디드공학회논문지 Vol.6 No.3
Transmission delay and packet loss induced by a communication network can degrade the control performance and, even make the system unstable. This paper presents a method for compensating transmission delay and packet loss in a networked control system for unmanned underwater vehicle. The proposed method is based on Lagrange interpolation in order to satisfy the requirements of simplicity and model-independency. In this work, the lost/delayed data are estimated in real time by only using the past data without requiring any mathematical model of the controlled system. Consequently, the proposed method can be implemented independent of the controlled system, and also it can achieve fast and accurate compensation performance. The performance of the proposed technique is evaluated by numerical simulations with an unmanned underwater vehicle.
지능형 전력량계 SW의 안전한 배포 및 업그레이드를 위한 스마트카드 기반 보안 메커니즘에 대한 연구
양인석 ( Inseok Yang ),홍석희 ( Seokhie Hong ) 한국인터넷정보학회 2014 인터넷정보학회논문지 Vol.15 No.2
최근 지능형 전력망 사업에서 가장 큰 이슈로 부각되고 있는 것이 지능형 전력량계의 보안과 미래 기능을 만족하기 위한 SW 업그레이드 기능이다. 그러나, 일반 기기와 달리 법정계량기에 속하는 지능형 전력량계는 공정한 상거래기반의 확립을 위해 그 기능 및 변경이 법으로 엄격히 제한되고 있다. 따라서 본 논문에서는 지능형 전력량계의 SW업그레이드와 관련된 요구사항을 분석하여, 법정 계량기 요건에 준한 미래 지능형전력량계의 기능 개선을 위해 배포되는 SW이미지에 대한 인증을 통한 배포방안을 제시하고, 스마트 카드를 이용한 지능형 전력량계의 보안기능을 구현하는 방법을 제안한다. Latest in Smart Grid projects are emerging as the biggest issue that smart meter should meet the security goal and the SW upgrade for compliance with future standard. However, unlike regular equipment, Smart meters should be designed in accordance with the regulation of legal metrology instrument in order to establish a fair trade-based business and unauthorized changes, it is not allowed and it is strictly limited by law. Therefore, this paper propose a new scheme of certification regarding type approval and verification for legal smart meter as analyzing the requirements of a smart meter regarding upgrade and security. This analysis shows that the proposed scheme comply with the regulation and the specification of smart meter by applying it to smart meter with smart card.
Lagrange 보간법을 이용한 네트워크 제어 시스템의 전송지연 및 패킷분식 보상 기법
양인석(Inseok Yang),강선영(Sunyoung Kang),김동길(Donggil Kim),서병석(Byungseok Seo),이동익(Dongik Lee) 한국자동차공학회 2011 한국자동차공학회 부문종합 학술대회 Vol.2011 No.5
In this paper, a technique for compensating network-induced time delay and packet loss in a networked control system is proposed. The proposed method exploits the Lagrange polynomial interpolation to compensate lost data while transmitting. Since the proposed approach only requires the input data without using any mathematical models, it can be implemented as an independent network device. Numerical simulation results with application to a Steer-by-Wire system demonstrate a fast and accurate tracking performance.
양인석(Inseok Yang) Korean Society for Precision Engineering 2018 한국정밀공학회지 Vol.35 No.4
The unit of the thermodynamic temperatures, kelvin, will be redefined after May of 2019, by the new process of fixing the numerical value of the Boltzmann constant. In this respect, the Boltzmann constant, which is a conversion factor between the thermal energy and the thermodynamic temperature, will be assigned as 1.380 649 × 10<SUP>-23</SUP> J K<SUP>-1</SUP> after the redefinition procedure. This paper reviews the three experiments which have contributed to the determination of the Boltzmann constant, which are namely: the acoustic gas thermometry, dielectric constant gas thermometry and the noise thermometry. By and large, the physical principles of these experiments are important even after the redefinition takes place, because they are methods used as primary thermometers for the determination of the thermodynamic temperatures. The status of the redefinition and the relation between the thermodynamic temperature and temperature scale is reviewed in this paper.
지능형 액추에이터와 제어면 재분배를 이용한 무인항공기 고장대처 제어시스템
양인석(Inseok Yang),김지연(Jiyeon Kim),이동익(Dongik Lee) 제어로봇시스템학회 2011 제어·로봇·시스템학회 논문지 Vol.17 No.10
This paper presents a FTNCS (Fault-Tolerant Networked Control System) that can tolerate control surface failure and packet delay/loss in an UAV (Unmanned Aerial Vehicle). The proposed method utilizes the benefits of self-diagnosis by smart actuators along with the control allocation technique. A smart actuator is an intelligent actuation system combined with microprocessors to perform self-diagnosis and bi-directional communications. In the event of failure, the smart actuator provides the system supervisor with a set of actuator condition data. The system supervisor then compensate for the effect of faulty actuators by re-allocating redundant control surfaces based on the provided actuator condition data. In addition to the compensation of faulty actuators, the proposed FTNCS also includes an efficient algorithm to deal with network induced delay/packet loss. The proposed algorithm is based on a Lagrange polynomial interpolation method without any mathematical model of the system. Computer simulations with an UAV show that the proposed FTNCS can achieve a fast and accurate tracking performance even in the presence of actuator faults and network induced delays.
다중 제어면 고장에 대한 제어면 재분배 고장 대처 기법
양인석(Inseok Yang),김동길(Donggil Kim),이동익(Dongik Lee) 제어로봇시스템학회 2011 제어·로봇·시스템학회 논문지 Vol.17 No.11
In this paper, the methodology of a CA (Control Allocation) based FTNCS (Fault-Tolerant Networked Control System) is proposed. Control allocation is a control surface management technique by redistributing the redundant control surfaces in over-actuated systems. In modern high performance aircrafts, they adopt many redundant control surfaces to provide high performance and to satisfy various tactical requirements. Moreover, redundant control surfaces provide an opportunity to compensate performance degradation due to failures in more than one actuator by re-allocating redundant control surfaces. Simulation results with an F-18 HARV demonstrate that the proposed CA based FTNCS can achieve a fast and accurate tracking performance even in the presence of actuator faults.