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Your search keyword '"An, Jhonghyun"' showing total 7 results
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7 results on '"An, Jhonghyun"'

1. Knowledge Distillation for Traversable Region Detection of LiDAR Scan in Off-Road Environments

Author

Nahyeong Kim and Jhonghyun An

Subjects
knowledge distillation, off-road, LiDAR point cloud, self-driving, point cloud projection, range image, Chemical technology, TP1-1185
Abstract

In this study, we propose a knowledge distillation (KD) method for segmenting off-road environment range images. Unlike urban environments, off-road terrains are irregular and pose a higher risk to hardware. Therefore, off-road self-driving systems are required to be computationally efficient. We used LiDAR point cloud range images to address this challenge. The three-dimensional (3D) point cloud data, which are rich in detail, require substantial computational resources. To mitigate this problem, we employ a projection method to convert the image into a two-dimensional (2D) image format using depth information. Our soft label-based knowledge distillation (SLKD) effectively transfers knowledge from a large teacher network to a lightweight student network. We evaluated SLKD using the RELLIS-3D off-road environment dataset, measuring the performance with respect to the mean intersection of union (mIoU) and GPU floating point operations per second (GFLOPS). The experimental results demonstrate that SLKD achieves a favorable trade-off between mIoU and GFLOPS when comparing teacher and student networks. This approach shows promise for enabling efficient off-road autonomous systems with reduced computational costs.

Published
2023
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2. Traversable Region Detection and Tracking for a Sparse 3D Laser Scanner for Off-Road Environments Using Range Images

Author

Jhonghyun An

Subjects
3D, laser scanner, LIDAR, traversability, traversable region, detection, Chemical technology, TP1-1185
Abstract

This study proposes a method for detecting and tracking traversable regions in off-road conditions for unmanned ground vehicles (UGVs). Off-road conditions, such as rough terrain or fields, present significant challenges for UGV navigation, and detecting and tracking traversable regions is essential to ensure safe and efficient operation. Using a 3D laser scanner and range-image-based approach, a method is proposed for detecting traversable regions under off-road conditions; this is followed by a Bayesian fusion algorithm for tracking the traversable regions in consecutive frames. Our range-image-based traversable-region-detection approach enables efficient processing of point cloud data from a 3D laser scanner, allowing the identification of traversable areas that are safe for the unmanned ground vehicle to drive on. The effectiveness of the proposed method was demonstrated using real-world data collected during UGV operations on rough terrain, highlighting its potential as a solution for improving UGV navigation capabilities in challenging environments.

Published
2023
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5. Novel Intersection Type Recognition for Autonomous Vehicles Using a Multi-Layer Laser Scanner

Author

Jhonghyun An, Baehoon Choi, Kwee-Bo Sim, and Euntai Kim

Subjects
multi-laser scanner, intersections, recognition, local coordinate, occupancy grid map, static map, Chemical technology, TP1-1185
Abstract

There are several types of intersections such as merge-roads, diverge-roads, plus-shape intersections and two types of T-shape junctions in urban roads. When an autonomous vehicle encounters new intersections, it is crucial to recognize the types of intersections for safe navigation. In this paper, a novel intersection type recognition method is proposed for an autonomous vehicle using a multi-layer laser scanner. The proposed method consists of two steps: (1) static local coordinate occupancy grid map (SLOGM) building and (2) intersection classification. In the first step, the SLOGM is built relative to the local coordinate using the dynamic binary Bayes filter. In the second step, the SLOGM is used as an attribute for the classification. The proposed method is applied to a real-world environment and its validity is demonstrated through experimentation.

Published
2016
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6. Novel Intersection Type Recognition for Autonomous Vehicles Using a Multi-Layer Laser Scanner

Author

Kwee Bo Sim, Baehoon Choi, Euntai Kim, and Jhonghyun An

Subjects
Occupancy grid mapping, Laser scanning, Computer science, intersections, local coordinate, Type (model theory), multi-laser scanner, occupancy grid map, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Intersection, 0502 economics and business, Computer vision, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Multi layer, 050210 logistics & transportation, static map, business.industry, 010401 analytical chemistry, 05 social sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, recognition, Artificial intelligence, business, Recursive Bayesian estimation
Abstract

There are several types of intersections such as merge-roads, diverge-roads, plus-shape intersections and two types of T-shape junctions in urban roads. When an autonomous vehicle encounters new intersections, it is crucial to recognize the types of intersections for safe navigation. In this paper, a novel intersection type recognition method is proposed for an autonomous vehicle using a multi-layer laser scanner. The proposed method consists of two steps: (1) static local coordinate occupancy grid map (SLOGM) building and (2) intersection classification. In the first step, the SLOGM is built relative to the local coordinate using the dynamic binary Bayes filter. In the second step, the SLOGM is used as an attribute for the classification. The proposed method is applied to a real-world environment and its validity is demonstrated through experimentation.

Published
2016

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