• 제어로봇시스템학회:학술대회논문집
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• 제어로봇시스템학회 2001년도 ICCAS
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• pp.117.5-117
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• 2001

This paper presents the key idea of handlebar reaction force and pedal resistance force generation in creating life-like feeling in KAIST bicycle simulator. Also, it provides methods to evaluate its reality level with given reaction force profile. In KAIST bicycle simulator, the pedal resistance force and the handlebar reaction force are calculated using the bicycle dynamic model. With the information handlebar angle, rider´s pedaling torque and road profile transmitted from the handlebar system, the pedal system and the visual part, the bicycle dynamics engine calculates the handlebar reaction force and the pedal velocity. The handlebar system and the pedal resistance system generate reaction force and resistance force transmitted from dynamics engine. However to make more realistic riding feeling ...

• 한국정밀공학회지
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• 제30권1호
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• pp.85-95
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• 2013

As the conventional hydraulic power steering system in the passenger vehicles is being rapidly replaced by EPS (Electric Power Steering) system, performance evaluation of the EPS system has become an important issue in the automotive industries. But the evaluation process takes significant expertise since steering conditions in the test protocols must be implemented with high accuracy. EPS HILS (Hardware-In the-Loop Simulation) system is developed together with robot steering system in this study. Main components of EPS HILS system include: C-EPS hardware, CarSim vehicle model, and road reaction force generation system powered by servo motor. The robot steering system, operated by another servo motor, was combined with EPS HILS system to substitute for steering efforts of human driver. The road reaction force generation system and the robot steering system were carefully validated by using the data obtained from vehicle tests. An on-center handling test was conducted by using EPS HILS system combined with the robot steering system. In the result of this study, robot-steered EPS HILS system developed with its high reliability and no need of skilled driver's, can be widely adopted to evaluate any performance of EPS system.

• 한국산학기술학회논문지
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• 제20권4호
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• pp.632-638
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• 2019

본 논문은 도로와 철도를 포함하는 인터모달 자동화물운송시스템을 위한 화물열차 대차 구조를 소개하고, 레일에 대한 반력 해석 결과를 논한다. 새로운 운송시스템은 시간과 비용을 획기적으로 절약할 수 있는 회전 정렬형 철도차량 방식을 기반으로 한다. 개념 설계 단계에서 고려해야하는 중요한 문제 중의 하나는 궤도 및 대차의 특징적인 형태에서 발생하는 레일에 가해지는 횡력이다. 특히 주행 궤도에서 플랫폼 구간으로 바뀌는 천이구간에서 큰 횡력이 발생하는데, 해석 결과를 바탕으로 향후 시스템 설계 시 참조할 수 있는 설계 가이드를 제공하고자 한다. 해석 결과, 제안하는 구조가 궤도 안정성 및 주행 안정성 면에서 문제가 없어 실제 시스템에 적용할 수 있는 구조이며, 주행 구간에서 플랫폼 구간으로 궤도가 변하는 곳에서 궤도의 선형을 설계할 시, 곡률 반경과 플랫폼 궤도 사이 거리가 중요한 변수임을 밝혀졌다.