• 한국안전학회지
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• 제30권2호
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• pp.56-62
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• 2015

The purpose of this study was to identify the relationship between the index of Electrocardiography(LF/HF) and the occurrence of drowsiness driving while driving in a simulated situation. Participants were 31 undergraduate students with an experience in driving and they participated 30 minutes driving under enough sleep condition and 1 hour under the sleep deprivation condition. The Euro Truck Simulator II was used for driving simulation task and ECG and perceived drowsiness of each participants were measured during two driving conditions. Perceived sleepiness recorded by the checklist every 10 minutes and ECG data extracted before and after 15 seconds of every 10 minutes to verify the relationship between two variables. The results showed that the level of perceived sleepiness under sleep deprivation condition was higher than that under the enough sleep condition, and the level of LF/HF under sleep deprivation condition was lower than that under the enough sleep condition. In addition, the result of analysis of repeated measure ANOVA for ECG indicated that authentic sleepiness revealed in 20 minutes after the start of driving under the sleep deprivation condition. However, the result of perceived drowsiness indicated that authentic sleepiness revealed in 30 minutes after the start of driving. These result suggest that the time difference between biological and perceived response on drowsiness may be exist. Finally, the significant negative correlation between the LF/HF level and perceived drowsiness was observed. These findings suggest that ECG(LF/HF) can be an possible index to measure drowsiness driving.

• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2000년도 춘계학술대회논문집
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• pp.525-530
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• 2000

The vibration shape of the structure with arbitrary boundary condition under excitation is determined by the governing equation and the boundary condition and driving force. In this paper, driving point impedance that is defined by the ratio of the driving force at one point to the velocity of that point is selected as a measure to identify the boundary condition. First, this paper deals with a string with arbitrary boundary condition. It is selected because of its simplicity, but generality of which exhibits the desired physical phenomena. Particularly the relation among the driving point impedance, the boundary condition and the vibration shape is dealt as a primary step to identify the boundary condition by using the driving point impedance.

• 대한교통학회지
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• 제23권2호
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• pp.61-74
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• 2005

본 연구는 운전분노와 교통정체가 운전행동에 미치는 영향을 조사한 것이다. 운전분노란 운전 중 경험하는 분노로서 개인적 특질성향이다. 이 개인전 성향은 운전 중 도발적이고 도전적인 상황에 부딪혔을 때 난폭운전으로 표출된다. 그런데 운전분노는 다른 성격특질처럼 개인차가 있어서 운전분노 수준에 따라 교통상황에서 느끼는 분노의 정도는 차이가 나고, 이 차이는 난폭운전의 차이로 나타날 가능성이 높다. 본 연구에서는 차량 시뮬레이터인 RTSA-DS를 이용하여 세 가지 교통상황(소통원활, 주행차로정체 및 선행차량의 서행으로 인한 진행방해 상황)을 가상현실 교통상황으로 제시하고, 운전분노 수준에 따른 운전행동을 조사 비교하였다. 그 결과 운전분노 수준이 높은 운전자가 낮은 운전자에 비해 주행차로 정체상황에서 빠른 속도로 주행하였으며, 주행차로 정체상황에서 정체를 피하기 위해 차로변경을 시도하였고, 이 과정에서 충돌사고의 개입율이 높은 것으로 나타났다. 이 결과는 운전분노 수준이 높은 운전자가 정체상황에서 난폭운전과 위험운전을 감행한다는 이전의 연구결과와 일치한다. 그러나 운전 분노 수준이 높은 집단이 주로 20대 운전자로 구성되었고, 운전분노와 연령간의 상관이 높은 점을 감안할 때 본 연구의 결과 적용 시 주의가 필요하다.

• 한국자동차공학회논문집
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• 제14권1호
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• pp.60-67
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• 2006

To improve the vehicle fuel economy, various technologies have been studied. Meanwhile it deteriorates fuel economy that the increased driving torque for Power Steering System (PSS) due to weighted vehicle and widened tire for low speed driving and parking. So the larger driving torque for PSS is, the lower fuel economy is. Therefore, the study about the effect of the driving torque for PSS and the engine total friction must be preceded to improve the vehicle fuel economy. In this study, a PSS module separated from the vehicle is used to measure the driving torque for PSS with respect to the pressure of PSS. The result shows that the driving torque for PSS was in direct proportion to the pressure of PSS 3 (N-m) driving torque for PSS vs. 10 (bar) pressure of PSS, and 8 (N-m) vs. 40 (bar). In addition, the driving torque and pressure for PSS was measured according to the engine speed in the component test condition which was in the vehicle condition. Measuring the driving torque for PSP in the vehicle condition was established by using the VeFAS which was a fuel economy analyzer developed in our lab and installing PSS By-pass line. The effect of the driving torque for PSS on the vehicle fuel economy was analyzed with FTP-75 cold start mode.

• 대한산업공학회지
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• 제38권1호
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• pp.41-45
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• 2012

Until now, most studies of foot moving or driving posture have been performed under laboratory driving conditions. But there are many different things between actual driving conditions and laboratory driving conditions because, in laboratory conditions, it is hard to consider vehicle's noise, vibration and people's psychology state while driving. Thus this study is performed through actual driving conditions. And while driving test, we recorded driver's foots with 2 cameras to investigate foots(left and right) heel point and how human foots move to control the three pedals : accel, brake and footrest.. Through driving test, the results of this study show that the position of driver's heel point isn't related to stature and tends to be generalized.

• 한국소음진동공학회논문집
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• 제24권8호
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• pp.592-599
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• 2014

A torsional vibration at driveline happens seriously at rapid vehicle acceleration. The torsional vibration at driveline can be reduced by optimization of joint angle and yoke phase angle of driveline. But, the joint angle of driveline is changed according to vehicle driving condition as acceleration, deceleration, forward and backward driving, so that excessive vibration is transmitted to vehicle body at specific driving condition. Especially under rapid acceleration condition, vibration transmitted to body could be maximized because excitation force at rapid acceleration is bigger than that at normal driving condition due to changed joint angle. The torsional vibration of driveline can be kept at low level by controlling suspension parameter to minimize rigid axle displacement as well as optimizing joint angles considering the vehicle acceleration condition.

• International journal of advanced smart convergence
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• 제11권1호
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• pp.94-100
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• 2022

It is common for commercial vehicles to make the top part according to the use after making the bear chassis, and to connect various devices with the bear chassis. Various brackets used in bear chassis for the development of all automobiles, including commercial vehicles, play a role of connecting the components required for driving and operating the car to the car body. In commercial vehicles, components necessary for operation are installed in the bear chassis; that is, the bear chassis of commercial vehicles is a space where the devices required for driving and operating the vehicle are installed. The devices required for the configuration of the vehicle are drive, brake, exhaust and steering, etc. These devices are basically connected to the body, the front axis, or the rear axis. The part interlinking the apparatuses required for the vehicle drive to the car body or axis is bracket. In this study, we analyzed the boundary conditions to evaluate the stability of the three brackets that connect the components of the car to the front axis of the new type of 30-seater bus in the development process. In order to analyze the boundary conditions, the boundary conditions according to the driving condition of the vehicle were classified. For stress analysis to evaluate the stability of brackets according to the driving state of the vehicle, it is reasonable to give the bracket a boundary condition of harsh conditions.

• 한국공작기계학회:학술대회논문집
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• 한국공작기계학회 2002년도 춘계학술대회 논문집
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• pp.608-613
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• 2002

In this paper we developed the MPC sensor for steering control and steering control of the AGVDS(Autonomous Guided Vehicle Driving System) for Durability test. Among durability tests, the accelerated durability test has been widely used to evaluate the durability of vehicle structure and chassis parts in a short period of time on the designed road that has severe surface conditions. However it increased the drivers fatigue mainly caused by the severe driving conditions. The driver's difficulty to maintain the constant speed and control the steering wheel reduces the reliability of test results. In addition to the general detecting sensor for steering control was restricted by surrounding condition. So we need to develop steering control sensor was robust in the bad driving condition. In this paper we developed steering control sensor using magnetic induction which is robust in the bad driving condition and implemented the AGVDS.

• 감성과학
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• 제6권3호
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• pp.1-11
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• 2003

본 연구는 운전 시뮬레이션 실험을 통해 운전 중 휴대 전화 사용이 운전 속도의 변화에 따라 운전 수행에 어떠한 영향을 미치는지를 알아보고자 할 목적으로 수행되었다. 본 연구에서는 일반적인 토로 상황을 모사하기 위해 직선 도로와 곡선 도로가 모두 제시되었으며, 운전자는 60, 80, 100및 120km/h의 주행 속도를 체계적으로 변화시킨 조건에서 운전하도록 하였다 이러한 운전 조건에 따라 운전자들은 핸즈-프리 장치 조건과 핸즈-헬드 장치조건 중 한 조건에 할당되었으며, 각각의 휴대전화 유형에서 전화를 사용하는 조건(실험 조건)과 사용하지 않는 조건(통제 조건)을 모두 수행하였다 이러한 조건에 대해 운전자들이 보인 차량의 종적 통제와 횡적 통제를 측정하여 운전 수행을 비교하였다. 본 연구의 결과를 요약하면 다음과 같다. (1) 전체적인 분석에서 전화를 사용하는 조건과 사용하지 않는 조건에서 운전 수행의 차이가 관찰되었고, (2) 전화 사용의 유형(즉, 핸즈-프리와 핸즈-헬드 조건) 사이에는 차이가 없었다. (3) 일반적으로, 운전 속도가 증가함에 따라 전화를 사용하면서 운전을 하는 조건에서 속도의 변산성과 차선 내 횡적 위치, 그리고 차간 거리의 변산성이 증가하였다. 이러한 결과들은 운전 중에 어떠한 유형의 휴대폰을 사용하는 것이 더 운전 수행에 손상을 주는지의 여부보다 단순히 전화를 사용하는 것 자체가 운전 수행을 손상시킬 수 있다는 것을 시사하며, 특히 운전 수행과 휴대폰 사용의 관계를 고려할 때 다른 운전 조건(예를 들면, 운전 속도)을 고려해야 한다는 것을 시사한다.

• 한국자동차공학회논문집
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• 제21권1호
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• pp.1-8
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• 2013

Recently, the automotive technology has developed with electronics and information technology as convergence technology while vehicles had been regarded as machines. Moreover, vehicles are becoming more intelligent and safer devices, assembly of advanced technologies by customers' demand. Even though all of installations of vehicle have attracted as diverting devices, it cause drivers' mistakes like delay of response on traffic condition. Here, we proposed the Field Operational Test (FOT) environment which could be used as driving and road conditions collector(Vehicle motion, Traffic condition, Driver input, Driver state, etc.) for researches about Driver Friendly Intelligent System(SCC, LDWS, etc.), Human Vehicle Interface(Driving Workload, etc.) and Economic Drive Model. Furthermore driving patten and fuel consumption patten of drivers were analyzed by measured data and direction of future research was suggested.