Fog removal using laser beam penetration, laser intensity, and geometrical features for 3D measurements in fog-filled room. (17th June 2016)

Record Type:: Journal Article
Title:: Fog removal using laser beam penetration, laser intensity, and geometrical features for 3D measurements in fog-filled room. (17th June 2016)
Main Title:: Fog removal using laser beam penetration, laser intensity, and geometrical features for 3D measurements in fog-filled room
Authors:: Shamsudin, Abu Ubaidah
Ohno, Kazunori
Westfechtel, Thomas
Takahiro, Suzuki
Okada, Yoshito
Tadokoro, Satoshi
Abstract:: Abstract: Three dimension (3D) point cloud data in fog-filled environments were measured using light detection and ranging (LIDAR). Disaster response robots cannot easily navigate through such environments because this data contain false data and distance errors caused by fog. We propose a method for recognizing and removing fog based on 3D point cloud features and a distance correction method for reducing measurement errors. Laser intensity and geometrical features are used to recognize false data. However, these features are not sufficient to measure a 3D point cloud in fog-filled environments with 6 and 2 m visibility, as misjudgments occur. To reduce misjudgment, laser beam penetration features were added. Support vector machine (SVM) and K-nearest neighbor (KNN) are used to classify point cloud data into 'fog' and 'objects.' We evaluated our method in heavy fog (6 and 2 m visibility). SVM has a better F -measure than KNN; it is higher than 90% in heavy fog (6 and 2 m visibility). The distance error correction method reduces distance errors in 3D point cloud data by a maximum of 4.6%. A 3D point cloud was successfully measured using LIDAR in a fog-filled environment. Our method's recall (90.1%) and F -measure (79.4%) confirmed its robustness. Abstract :
Is Part Of:: Advanced robotics. Volume 30:Number 11/12(2016)
Journal:: Advanced robotics
Issue:: Volume 30:Number 11/12(2016)
Issue Display:: Volume 30, Issue 11/12 (2016)
Year:: 2016
Volume:: 30
Issue:: 11/12
Issue Sort Value:: 2016-0030-NaN-0000
Page Start:: 729
Page End:: 743
Publication Date:: 2016-06-17
Subjects:: Disaster response robot -- 3D measurement -- LIDAR -- multiechoes -- fog recognition
Robotics -- Periodicals
Robotics -- Japan -- Periodicals
Robotics
Japan
Periodicals
629.89205
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DOI:: 10.1080/01691864.2016.1164620 ↗
Languages:: English
ISSNs:: 0169-1864
Deposit Type:: Legaldeposit
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