• Journal of Korean Society of Transportation
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• v.21 no.2
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• pp.83-94
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• 2003

Many cities, recently, have convertedoptimized fixed-time control to adaptive traffic system in the control of their signalized traffic network. The expected benefit from the adaptive traffic system is its ability to constantly modify signal timing to most effectively accommodate changed traffic conditions. While the potential benefits from this control structure may be significant, few studies have compared the effect of implementing this method of signal control against other alternative signal control strategies, because it is too difficult to evaluate the efficiency of the real-time adaptive system. The objectives of this research are : to develop a microscopic simulator and to compare the effect at isolated intersections, corridors, and networks between the fixed signal timing plan and adaptive traffic signal system. This simulator will have allowed more sophisticated analysis techniques for the study of traffic control. Also, this research using this simulator evaluated a real-time traffic responsive signal system used in Seoul Korea

• Journal of Korean Society of Transportation
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• v.19 no.6
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• pp.143-160
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• 2001

Micro-simulation models have been recognized as an efficient assessment tool in developing traffic signal control technologies. In this paper a prototype of a microscopic simulation model which can be applied to evaluate the performance of traffic-adaptive signal control strategies was developed. In the simulation process, space-based arrays were appled to estimate parameters of car following and lane changing models. Two levels of link types, a micro-type and macro-type links, were also embodied in the simulation process. The proposed model was tested on a test network consists of 9 intersections. The performance of the proposed model was evaluated in link by link comparisons with the results of NETSIM. The results show that the proposed model could appropriately simulate traffic flows of the test network. The model also produces traffic adaptive signal timings, cycle lengths and green times for turning movements, based on the detector data. It implies that the optimization process of the model produces reasonable signal timings for the test network on the cycle basis.

• Defense and Technology
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• no.7 s.293
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• pp.38-49
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• 2003

지금까지 IT 기술의 발달에 따른 무전기의 진화 과정과 이른바 디지털 혁명에 따라 새로운 통신기술이 개발됨으로써 열악한 작전 환경과 신호 통신 환경을 극복할 수 있는 첨단 전술 통신 체계에 대하여 살펴보았다. 전술적인 측면에서 크기와 무게는 이전보다 더 작고 가벼우며 성능은 더 좋아지기를 바라는 사용자의 용구 사항과 신기술의 개발에 따라 전술 통신 체계는 앞으로도 계속해서 진화가 이루어질 것으로 예상되고, 디지털 기술과 소프트웨어의 기술을 활용하여 프로그래밍이 가능한 소프트웨어 기반 무전기가 탄생하기에 이르렀으며, 앞으로 작전 양상에 따라 더욱 까다로워질 군 작전 요구 성능을 충족시키기 위해 성능이 더욱 향상될 것으로 전망된다.

• The Journal of the Korea Contents Association
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• v.18 no.3
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• pp.52-61
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• 2018

This research suggested the traffic signal timing calculation model for signal intersections based on sectional travel time. A detection system that collects sectional travel time data such as Urban Transport Information System(UTIS) is applied. This research developed the model to calculate saturation flow rate and demand volume from travel time information using a deterministic delay model. Moreover, this model could determine the traffic signal timings to minimize a delay based on Webster model using traffic demand volume. In micro simulation analysis using VISSIM and its API ComInterface, it checked the saturation conditions and determined the traffic signal timings to minimize the intersection delay. Recently, sectional vehicle detection systems are being installed in various projects, such as Urban Transportation Information System(UTIS) and Advanced Transportation Management System(ATMS) in Korea. This research has important contribution to apply the traffic information system to traffic signal operation sector.

• Journal of Advanced Navigation Technology
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• v.16 no.3
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• pp.480-487
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• 2012

In Busan, the structural limitations of the road, is causing severe traffic congestion and low speed of the vehicle. So the existing traffic control system needs improvements to its structure. A study on Optimal Traffic Signal System and Improvement for User Oriented Public Transit Service are required. U-city is a city or region with ubiquitous information technology. All information systems are linked, and virtually everything is linked to an information technologies. U-Traffic goal is to maximize of traffic information services based on advanced information technology to integrate of transportation infrastructure. The objectives of this research are : a vehicle detection method through a variety of sensors, an algorithm of the traffic signal system, a design and implementation a simulator to compare between the fixed traffic signal and adaptive traffic signal system. This simulator will have allowed analysis techniques for the study of traffic control. Results of simulator test shows that traffic congestion can be some reduce.

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2022.06a
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• pp.79-80
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• 2022

항로표지의 핵심기능은 항행선박에게 위치, 방향, 장애물의 위치 등을 알려주는 항행보조시설로서 현장 중심의 신호체계이며, 고유의 핵심역할 수행을 위한 유지보수는 중요한 이슈이다. 최근 4차 산업혁명 관련 첨단기술의 발전으로 자율운항선박(MASS) 등 다양한 해양교통수단의 개발 및 도입에 따라 항행 보조시설인 항로표지에 대한 스마트 단계에 대한 연구를 진행하고 있다. 지금까지 다양한 산업에서의 스마트 및 자율화 단계에 대한 선행조사·분석을 통해 항로표지의 스마트 단계를 4개로 구분하고, 핵심역할 및 기능을 세분화하여 제시한다.

• Journal of Korean Society of Transportation
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• v.30 no.6
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• pp.71-80
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• 2012

This research suggested a real-time traffic signal control algorithm using individual vehicle travel times on an isolated signal intersection. To collect IDs and passing times from individual vehicles, space-based surveillance systems such as DSRC were adopted. This research developed models to estimate arrival flow rates, delays, and the change rate in delay, by using individual vehicle's travel time data. This real-time signal control algorithm could determine optimal traffic signal timings that minimize intersection delay, based on a linear programming. A micro simulation analysis using CORSIM and RUN TIME EXTENSION verified saturated intersection conditions, and determined the optimal traffic signal timings that minimize intersection delay. In addition, the performance of algorithm varying according to market penetration was examined. In spite of limited results from a specific scenario, this algorithm turned out to be effective as long as the probe rate exceeds 40 percent. Recently, space-based traffic surveillance systems are being installed by various projects, such as Hi-pass, Advanced Transportation Management System (ATMS) and Urban Transportation Information System (UTIS) in Korea. This research has an important significance in that the propose algorithm is a new methodology that accepts the space-based traffic surveillance system in real-time signal operations.

• Journal of Korean Society of Transportation
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• v.20 no.5
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• pp.81-98
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• 2002

This paper documents the development of a bi-objective(minimizing delays and Queue lengths) cycle-free signal timing length model using Genetic Algorithm. The model was embodied using MATLAB. the language of technical computing. A special feature of this model is its ability to concurrently manage delays and queue lengths of turning movement concurrently. The model produces a cycle-free signal timing(cycles and green times) for each intersection on the cycle basis. Appropriate offsets could be also accomplished by applying cycle-free based signal timings for respective intersections. The model was applied to an example network which consists of four intersections. The result shows that the model produces superior signal timings to the existing signal timing model in terms of managing delays and queue lengths of turning movements.

• Proceedings of the Korean Operations and Management Science Society Conference
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• 2000.04a
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• pp.197-200
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• 2000

지능형 교통 시스템(ITS. Intelligent Transportation System)은 도로, 차량, 신호시스템 등 기본 교통체계의 구성요소에 첨단 정보통신 기술을 접목함으로써 교통시설의 기반구조에 대해 지능화와 첨단화를 꾀하고자 하는 차세대 교통체계로 우리 나라가 처한 교통 환경의 실태와 기존 교통체계의 문제점을 고려할 때 당면한 교통 문제를 해결해 줄 수 있는 유력한 방안으로 여겨진다. ITS는 운전자 혹은 도로 교통 시스템에 각종 응용 서비스를 제공하게 되는데 이를 위해서는 도로변에 위치하는 기지국 등의 ITS 기반 요소들과 도로를 운행 중인 차량간의 빠르고 정확한 정보교환이 가능해야 한다. 정보교환을 위한 통신 기술 중 하나인 DSRC(Dedicated Short Range Communication)는 저출력의 양방향 통신 특성을 갖고 ITS가 제공하는 대부분의 서비스에 다양하게 적용될 수 있으므로 효과적인 ITS의 구축과 빠른 확산을 위해 필수적인 기술로 간주되고 있다. 본 논문에서는 이러한 DSRC를 기반으로 하는 ITS통신망의 구조 정립에 대해 논하고 있다. 효과적인 ITS 서비스를 위해서는 물리적 통신망은 물론 통신망을 구성하고 있는 각 요소들과 관련되어있는 정보시스템들이 동시에 연구되어야 하므로 ISCNA(Information Systems and Communication Networks Architecture) 준거모형에 의한 접근을 하였다. 세부적인 측면으로는 서버 시스템의 구조, 서버와 서버간, 서버와 노변 기지국, 노변 기지국과 차량 단말 간의 통신망 구조 정립에 대해 살펴보았다.

• Journal of the Speleological Society of Korea
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• no.70
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• pp.63-74
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• 2006

소리의 파동, 특히 밀폐된 동굴 속에서 일어나는 음향파동에 대한 과학적 접근과 함께 첨단과학을 통한 소리의 분석기법을 통하여 소리과학과 동굴 및 그 구조에 따른 음파의 공명(증폭)현상과 인류생활의 소리문화의 상관성을 재조명하였다. 따라서 동굴 속에서 음악을 연주하는 경우 작은 소리라도 매우 웅장한 소리효과를 낼 수 있으며, 고음보다는 저음에서의 울림효과를 크게 가져 올 수 있다. 특히 이러한 파동현상과 음향효과를 통하여 기 발굴된 동굴의 체계적 관리 방안과 미 발굴 지하 동굴의 발굴에도 적용할 수 있을 것으로 기대되며, 동굴의 음향파동현상을 응용한 기술로 지각운동과 변화 및 동굴의 상태 분석과 변화 요인을 관찰하는데 효과적인 역할과 방법을 제공할 수 있을 것으로 기대된다.