Threat Detection and Tracking using 3D FLASH LADAR Data

被引:1
|
作者
Gronwall, Christina [1 ]
Tolt, Gustav [1 ]
Karlsson, Daniel [1 ]
Esteki, Hadi [1 ]
Rydell, Joakim [1 ]
Armstrong, Ernest E. [2 ]
Woods, Jack [3 ]
机构
[1] Swedish Def Res Agcy FOI, POB 1165, SE-58111 Linkoping, Sweden
[2] OptiMetr Inc, Ann Arbor, MI 48104 USA
[3] RYJM, US Air Force Res Lab, Wright Patterson AFB, OH 45433 USA
来源
AUTOMATIC TARGET RECOGNITION XX; ACQUISITION, TRACKING, POINTING, AND LASER SYSTEMS TECHNOLOGIES XXIV; AND OPTICAL PATTERN RECOGNITION XXI | 2010年 / 7696卷
关键词
detection; tracking; occlusion; laser radar; range data;
D O I
10.1117/12.849973
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
Laser-based 3D sensors measure range with high accuracy and allow for detection of objects behind various type of occlusion, e. g., tree canopies. Range information is valuable for detection of small objects that are typically represented by 5-10 pixels in the data set. Range information is also valuable in tracking problems when the tracked object is occluded under parts of its movement and when there are several objects in the scene. In this paper, on-going work on detection and tracking are presented. Detection of partly occluded vehicles is discussed. To detect partly occluded objects we take advantage of the range information for removing foreground clutter. The target detection approach is based on geometric features, for example local surface detection, shadow analysis and height-based detection. Initial results on tracking of humans are also presented. The benefits with range information are discussed. Results are illustrated using outdoor measurements with a 3D FLASH LADAR sensor and a 3D scanning LADAR.
引用
收藏
页数:12
相关论文
共 50 条
  • [31] Remote sensing solution using 3-D Flash LADAR for automated control of aircraft
    Neff, Brian J.
    Fuka, Jennifer A.
    Burwell, Alan C.
    Gray, Stephen W.
    Hubbard, Mason J.
    Schenkel, Joseph W.
    UNCONVENTIONAL IMAGING AND WAVEFRONT SENSING 2015, 2015, 9617
  • [32] TRAFFIC SIGN DETECTION AND TRACKING USING ROBUST 3D ANALYSIS
    Marinas, Javier
    Salgado, Luis
    Arrospide, Jon
    Camplani, Massimo
    2012 THIRD INTERNATIONAL CONFERENCE ON EMERGING SECURITY TECHNOLOGIES (EST), 2012, : 78 - 81
  • [33] Efficient Detection and Tracking of Human Using 3D LiDAR Sensor
    Gomez, Juan
    Aycard, Olivier
    Baber, Junaid
    SENSORS, 2023, 23 (10)
  • [34] Integrity Analysis in 3D LADAR Odometry
    Zhu, Zhen
    de Haag, Maarten Uijt
    PROCEEDINGS OF THE 28TH INTERNATIONAL TECHNICAL MEETING OF THE SATELLITE DIVISION OF THE INSTITUTE OF NAVIGATION (ION GNSS+ 2015), 2015, : 2319 - 2328
  • [35] Natural terrain classification using 3-D ladar data
    Vandapel, N
    Huber, DF
    Kapuria, A
    Hebert, M
    2004 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION, VOLS 1- 5, PROCEEDINGS, 2004, : 5117 - 5122
  • [36] Detection and Tracking of Small Objects in Sparse 3D Laser Range Data
    Razlaw, Jan
    Quenzel, Jan
    Behnke, Sven
    2019 INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION (ICRA), 2019, : 2967 - 2973
  • [37] RFCM FOR DATA ASSOCIATION AND MULTITARGET TRACKING USING 3D RADAR
    Chan, Chun-Nien
    Fung, Carrson C.
    2018 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH AND SIGNAL PROCESSING (ICASSP), 2018, : 2621 - 2625
  • [38] Tracking marine mammals in 3D using electronic tag data
    Laplanche, Christophe
    Marques, Tiago A.
    Thomas, Len
    METHODS IN ECOLOGY AND EVOLUTION, 2015, 6 (09): : 987 - 996
  • [39] Scene-based Algorithm for Range/Intensity Estimation Correction for the FLASH 3D LADAR System
    Jordan, Steven
    Armstrong, Ernest
    Larsson, Hakan
    Gebhardt, Matthew
    Steinvall, Ove
    LASER RADAR TECHNOLOGY AND APPLICATIONS XV, 2010, 7684
  • [40] 3D scannerless LADAR for orbiter inspection
    Nellums, Robert O.
    Habbit, Robert D.
    Heying, Mark R.
    Pitts, Todd A.
    Sandusky, John V.
    SPACEBORNE SENSORS III, 2006, 6220
12345