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교통안전에 대한 공학심리학적 접근

Perspective of Engineering Psychology on Traffic Safety

한국심리학회지: 인지 및 생물 / The Korean Journal of Cognitive and Biological Psychology, (P)1226-9654; (E)2733-466X
2005, v.17 no.3, pp.279-297
이재식 (부산대학교)

초록

본 논문에서는 교통사고의 두 가지 주요 원인(차량 통제 상실과 과속)의 심리적 기제에 대해 살펴보고, 교통사고 방지 및 교통안전을 확보하기 위한 공학적 개입 즉, 안전 운전을 보조해 줄 수 있는 시스템 설계(도로 설계, 추돌 경고 시스템 및 항법 시스템 설계)가 어떠한 방식으로 이루어져야 하는지 기존의 심리학적 연구 결과들을 바탕으로 논의하였다. 구체적으로, 도로 설계와 관련하여 회화적 단서들에 대한 운전자의 과속 행동을 방지하는데 어떻게 적용되는지 살펴보았고, 추돌 가능 상황에서 운전자의 추돌 회피 행동을 보조해 줄 수 있는 추돌 경고 시스템의 설계 방안과 그 효과를 구체적인 연구 결과와 함께 예시하였다. 특히 자동차 항법 시스템 설계에 운전자의 시각적 주시 특성, 작업기억 부담과 예측 능력, 심적 회전, 주의 자원 할당 등에 대한 심리학적 연구 결과들이 시스템의 물리적 위치, 디스플레이의 정보량 및 정보 제시 형태를 결정하는데 어떻게 활용될 수 있는지 구체적으로 기술하였다.

keywords
교통안전, 교통사고, 도로설계, 추돌 경고 시스템, 자동차 항법 시스템, traffic safety, road accident, road design, front-to-rear-end collision warning system, in-vehicle navigation system, traffic safety, road accident, road design, front-to-rear-end collision warning system, in-vehicle navigation system

Abstract

In the present paper, two major sources of traffic accident(loss of vehicle control and speeding) were described in terms of driver's information-processing. Also, several guidelines for designing driver-aid systems such as front-to-rear-end collision warning system and in-vehicle navigation system as well as road configuration were considered based on the psychological research findings. For example, careful implementation of pictorial cues(in particular, texture gradient) can be used in designing road to prevent driver from speeding. Similarly, visual or auditory warnings can prepare the drivers for avoiding collision. Other research findings related to information-processing characteristics of drivers(i.e., visual scanning pattern, workload, ability of anticipation, mental rotation, and resource allocation) can also be applied to designing in-vehicle navigation system.

keywords
교통안전, 교통사고, 도로설계, 추돌 경고 시스템, 자동차 항법 시스템, traffic safety, road accident, road design, front-to-rear-end collision warning system, in-vehicle navigation system, traffic safety, road accident, road design, front-to-rear-end collision warning system, in-vehicle navigation system

참고문헌

1.

(2005) 운전 중 실내 소음의 유형 및 강도에 따른 주관적 속도감에 관한 연구,

2.

(2003) 과속운전의 행동배경과 형성과정에 미치는 사회심리적 요인,

3.

(1996) 운전자의 속도통제와 정보처리에서의 인간요인 운전자의 눈높이와 인지 부하의 효과 ,

4.

(2000) 운전 시뮬레이션을 이용한 운전자의 추돌 회피 행동에 관한 연구 ,

5.

(2002) 추돌 경고시스템의 정보 제공방식에 따른 운전자의 추돌 회피 행동 및 주관적 평가에 관한 연구 ,

6.

(2003) 운전 시뮬레이션을 이용한 추돌상황 재현 및 차량내 추돌 경고 시스템의 효과에 관한 연구 ,

7.

(1991) Real-time responses to in-vehicle intelligent vehicle-highway system technologies,

8.

(1991) Driver compliance with route guidance advice,

9.

(1988) Is driver training contributing enough towards road safety? In J,

10.

(1988) Changes with death and injury associated with safety belt laws 1985-1987 University of North Carolina Highway Safety Res,

11.

(1973) Chronometric studies of ratation of mental images, In Chase Academic Press

12.

(1980) The influence of visual pattern on perceived speed,

13.

(1985) The technical base for center high mounted stop lamp,

14.

(1990) Preliminary human factors test and evaluation of the TravTek and highway driver's assistant conceptual designs submitted to General Motors University of Idaho,

15.

(1988) Human factors issues associated with in-car navigation system usage Proceedings of the 32nd Annual Meeting of the Human Factors Society,

16.

(1989) Attentional demand requirements of an automobile moving-map navigation system,

17.

(1985) Misperception of small cars Trends in Ergonomics/ Human Factors Ⅱ, and MacMillan North Holland Elsevier Science Publishers

18.

(1991) Traffic Safety and the Driver, Van Nostrand

19.

(1996) A crash course in traffic safety: 1997 Medical and Health Annual,

20.

(1997) Perceptual counter measures to speeding,

21.

(1989) An evaluation of center high mounted stop lamps based on 1987 data(D0T HS 807 442).,

22.

(1994) Benefits of in-car head-up displays,

23.

(1996) Quantifying the consequences of the "Eyes on the Road" benefit attributed to Head Up Displays.,

24.

(1995) Defining the HUD benefit time window" In Vision in vehicle VI Conference. , Elsevier Science Publishers B

25.

(1990) Comparison of auditory and visual presentation In Proceedings of the Human Factors Society 34th Annual Meeting, In-car road information

26.

(1995) Commercial vehicle operators (CVOs) driver fatigue and complex in-vehicle information systems, Technical Report submitted to NHATSA, U.S.,

27.

(1998) Collision avoiding behavior of unalerted driver using a front-to-rear-end collision warning display on the Iowa driving simulator,

28.

(1989) Human factor considerations of motorist navigation and information systems,

29.

(1994) The effects of visual and auditory display on in-vehicle signing and information system Proceedings of the Human Factors and Ergonomics Society 38th Annual Meeting,

30.

(1990) Effects of incentives and enforcement on the use of seat belts by drivers Journal of Safety Research,

31.

(1990) The effect of a simulated head-up display speed meter on perceptual task performance,

32.

(1997) Effect of selected in-vehicle route guidance systems on driver reaction times,

33.

(1996) From fly-by-wire to drive-by-wire:Safety implications of automation in vehicles,

34.

(1995) Insurance Institute for Highway safety,

35.

(1985) Interface considerations in the design of an electronic navigator,

36.

(1988) Zero-Risk theory of driver behaviour,

37.

(1991) technology design considerations for highway applications,

38.

(1984) Speed as a measure of driver risk:Observed speeds versus driver and vehicle characteristics,

39.

(1985) Runway to HUD transition monitoring eye focus and decision times Proceedings of the 29th Annual Meeting of the Human Factors Society,

40.

(1997) Automotive automation: Effects, problems and implications for driver mental workload. ,

한국심리학회지: 인지 및 생물