• 제목/요약/키워드: LRF(Laser Range Finder

검색결과 44건 처리시간 0.03초

장파장 레이저를 이용한 거리 측정기 개발 (Development of range finder using long wavelength laser)

  • 유병헌;신보성;장원석;김재구;황경현
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2003년도 춘계학술대회 논문집
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    • pp.938-941
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    • 2003
  • As the application area of range finder initially developed for military purpose has been extended, the necessity of precision measurement for long distance and its miniaturization is being presented. Recently, LRF(Laser Range Finder) is widely used because it shows more accurate results of range finding. However, most of LRFs use laser source which have wavelength ranges harmful to the human eyes. In this study, we developed the LRF using OPO(Optical Parametric Oscillator) which can stretch laser wavelength to safe region and realized more compact one using solid state laser

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레이저 다이오드를 이용한 이진 신호누적 방식의 거리측정기 기술 (A DLRF(Diode Laser Range Finder) Using the Cumulative Binary Detection Algorithm)

  • 양동원
    • 한국군사과학기술학회지
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    • 제10권4호
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    • pp.152-159
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    • 2007
  • In this paper, a new design technique on the LRF which is useful for low power laser and a CBDA(Cummulative Binary Detection Algorithm) is proposed. The LD(Laser Diode) and Si-APD(Silicon Avalanche Photo Diode) are used for saving a power. In order to prove the detection range, the Si-APD binary data are accumulated before the range computation and the range finding algorithm. A prototype of the proposed DLRF(Diode Laser Range Finder) system was made and tested. An experimental result shows that the DLRF system have the same detection range using a less power(almost 1/32) than an usual military LRF. The proposed DLRF can be applied to the Unmanned Vehicles, Robot and Future Combat System of a tiny size and a low power LRF.

LRF (Laser Range Finder) 거리와 반사도를 이용한 보행자 보호용 노면표시 검출기법 연구 (Pedestrian Safety Road Marking Detection Using LRF Range and Reflectivity)

  • 임성혁;임준혁;유승환;지규인
    • 제어로봇시스템학회논문지
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    • 제18권1호
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    • pp.62-68
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    • 2012
  • In this paper, a detection method of a pedestrian safety road marking was proposed. The proposed algorithm uses laser range and reflectivity of a range finder (LRF). For a detection of crosswalk marking and stop line, the DFT (Discrete Fourier Transform) of reflectivity and cross-correlation method between the reference replica and the measured reflectivity are used. A speed bump is detected through measuring an altitude difference of two LRFs which have the different tilted angle. Furthermore, we proposed a velocity constrained a detection method of a speed bump. Finally, the proposed methods are tested in on-line, on the pavement of a road. The considered road markings are wholly detected. The localization errors of both road markings are smaller than 0.4 meter.

레이저 거리계를 이용한 이동 로봇을 위한 강인한 위치 추정 알고리즘 (Robust Localization Algorithm for Mobile Robots Using Laser Range Finder)

  • 김병국;손희진
    • 제어로봇시스템학회논문지
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    • 제11권6호
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    • pp.530-542
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    • 2005
  • We proposed a robust localization algorithm for mobile robots using LRF. A novel cost function for localization is suggested, which was used for calculating correct rotation angle and translation vector. We examined validity of our algorithm with various simulations and experiments, and also revealed robustness and accuracy compared to previous localization algorithms.

다중센서 융합 상이 지도를 통한 다중센서 기반 3차원 복원 결과 개선 (Refinements of Multi-sensor based 3D Reconstruction using a Multi-sensor Fusion Disparity Map)

  • 김시종;안광호;성창훈;정명진
    • 로봇학회논문지
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    • 제4권4호
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    • pp.298-304
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    • 2009
  • This paper describes an algorithm that improves 3D reconstruction result using a multi-sensor fusion disparity map. We can project LRF (Laser Range Finder) 3D points onto image pixel coordinatesusing extrinsic calibration matrixes of a camera-LRF (${\Phi}$, ${\Delta}$) and a camera calibration matrix (K). The LRF disparity map can be generated by interpolating projected LRF points. In the stereo reconstruction, we can compensate invalid points caused by repeated pattern and textureless region using the LRF disparity map. The result disparity map of compensation process is the multi-sensor fusion disparity map. We can refine the multi-sensor 3D reconstruction based on stereo vision and LRF using the multi-sensor fusion disparity map. The refinement algorithm of multi-sensor based 3D reconstruction is specified in four subsections dealing with virtual LRF stereo image generation, LRF disparity map generation, multi-sensor fusion disparity map generation, and 3D reconstruction process. It has been tested by synchronized stereo image pair and LRF 3D scan data.

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Influence of Diverse Atmospheric Conditions on Optical Properties of a Pulse Laser in a Time-of-Flight Laser Range Finder

  • Shim, Young Bo;Kwon, Oh-Jang;Choi, Hyun-Yong;Han, Young-Geun
    • Journal of the Optical Society of Korea
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    • 제19권1호
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    • pp.1-6
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    • 2015
  • We investigate the propagation characteristics of a pulse laser in a time-of-flight laser range finder (TOF-LRF) system with variations in atmospheric conditions, such as temperature, pressure, relative humidity, and the concentration of $CO_2$. The measurement error of distance related with the group velocity change in the TOF-LRF system is analyzed by considering the refractive index of the standard atmosphere with variations in atmospheric conditions. The dependence of the pulse width broadening induced by chromatic dispersion of the standard atmosphere on the operating wavelength and the initial pulse width of the light sources is discussed. The transmission of air with variations in the relative humidity or the concentration of $CO_2$ is analyzed by using different values of absorption coefficients depending on the operation wavelength of the light source in the TOF-LRF system.

2차원 LRF의 Raw Sensor Data로부터 추출된 다른 타입의 기하학적 특징 (Extraction of Different Types of Geometrical Features from Raw Sensor Data of Two-dimensional LRF)

  • 염서군;무경;원조;한창수
    • 제어로봇시스템학회논문지
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    • 제21권3호
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    • pp.265-275
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    • 2015
  • This paper describes extraction methods of five different types of geometrical features (line, arc, corner, polynomial curve, NURBS curve) from the obtained raw data by using a two-dimensional laser range finder (LRF). Natural features with their covariance matrices play a key role in the realization of feature-based simultaneous localization and mapping (SLAM), which can be used to represent the environment and correct the pose of mobile robot. The covariance matrices of these geometrical features are derived in detail based on the raw sensor data and the uncertainty of LRF. Several comparison are made and discussed to highlight the advantages and drawbacks of each type of geometrical feature. Finally, the extracted features from raw sensor data obtained by using a LRF in an indoor environment are used to validate the proposed extraction methods.

An obstacle avoidance system of an unmanned aerial vehicle using a laser range finder

  • Kim, Hyun;Miwa, Masafumi;Shim, Joonhwan
    • Journal of Advanced Marine Engineering and Technology
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    • 제37권7호
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    • pp.737-742
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    • 2013
  • Recently, unmanned aircrafts for safe measurement in hazardous locations have been developed. In a method of operation of unmanned aircraft vehicles (UAV), there are two methods of manual control and automatic control. Small UAVs are used for low altitude surveillance flights where unknown obstacles can be encountered. Obstacle avoidance is one of the most challenging tasks which the UAV has to perform with high level of accuracy. In this study, we used a laser range finder as an obstacle detector in automatic navigation of unmanned aircraft to patrol the destination automatically. We proposed a system to avoid obstacles automatically by measuring the angle and distance of the obstacle using the laser range finder.

펄스형 eye-safe 레이저를 이용한 거리측정 (Distance measurement using pulsed eye-safe laser)

  • 유병헌;조성학;장원석;김재구;황경현;이동주
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2004년도 추계학술대회 논문집
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    • pp.106-109
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    • 2004
  • In this project, we have developed the eye-safe LRF system of 1.54 ${\mu}{\textrm}{m}$ wavelength using OPO. The maximum measured distance was 3.7km in outdoor experiment. We used Nd:YAG (1064nm) as a laser medium. It was applied BBO to construct the system. We also developed a time-counter for the range finder using a method of TOF (time of flight). The counter-clock used at the time counter was 320MHz making resolution within $\pm$1m. Start and stop signals were detected by two channel systems using PIN and APD. The LRF's repetition rate was 4 times per minute. The energy was measured to be over 9mJ. And, pulse-duration was 23ns. Resolution was $\pm$2m at the distance measurement using a target.

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