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416 results on '"Kim, Jinwhan"'

1. NV-LIO: LiDAR-Inertial Odometry using Normal Vectors Towards Robust SLAM in Multifloor Environments

Author

Chung, Dongha and Kim, Jinwhan

Subjects
Computer Science - Robotics
Abstract

Over the last few decades, numerous LiDAR-inertial odometry (LIO) algorithms have been developed, demonstrating satisfactory performance across diverse environments. Most of these algorithms have predominantly been validated in open outdoor environments, however they often encounter challenges in confined indoor settings. In such indoor environments, reliable point cloud registration becomes problematic due to the rapid changes in LiDAR scans and repetitive structural features like walls and stairs, particularly in multifloor buildings. In this paper, we present NV-LIO, a normal vector based LIO framework, designed for simultaneous localization and mapping (SLAM) in indoor environments with multifloor structures. Our approach extracts the normal vectors from the LiDAR scans and utilizes them for correspondence search to enhance the point cloud registration performance. To ensure robust registration, the distribution of the normal vector directions is analyzed, and situations of degeneracy are examined to adjust the matching uncertainty. Additionally, a viewpoint based loop closure module is implemented to avoid wrong correspondences that are blocked by the walls. The propsed method is validated through public datasets and our own dataset. To contribute to the community, the code will be made public on https://github.com/dhchung/nv_lio., Comment: Submitted to IEEE Robotics & Automation Letters

Published
2024
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2. Parameter-Varying Koopman Operator for Nonlinear System Modeling and Control

Author

Lee, Changyu, Park, Kiyong, and Kim, Jinwhan

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Robotics, Mathematics - Optimization and Control
Abstract

This paper proposes a novel approach for modeling and controlling nonlinear systems with varying parameters. The approach introduces the use of a parameter-varying Koopman operator (PVKO) in a lifted space, which provides an efficient way to understand system behavior and design control algorithms that account for underlying dynamics and changing parameters. The PVKO builds on a conventional Koopman model by incorporating local time-invariant linear systems through interpolation within the lifted space. This paper outlines a procedure for identifying the PVKO and designing a model predictive control using the identified PVKO model. Simulation results demonstrate that the proposed approach improves model accuracy and enables predictions based on future parameter information. The feasibility and stability of the proposed control approach are analyzed, and their effectiveness is demonstrated through simulation., Comment: 62nd IEEE Conference on Decision and Control (CDC 2023)

Published
2023

3. Nonlinear Model Predictive Control with Obstacle Avoidance Constraints for Autonomous Navigation in a Canal Environment

Author

Lee, Changyu, Chung, Dongha, Kim, Jonghwi, and Kim, Jinwhan

Subjects
Computer Science - Robotics
Abstract

In this paper, we describe the development process of autonomous navigation capabilities of a small cruise boat operating in a canal environment and present the results of a field experiment conducted in the Pohang Canal, South Korea. Nonlinear model predictive control (NMPC) was used for the online trajectory planning and tracking control of the cruise boat in a narrow passage in the canal. To consider the nonlinear characteristics of boat dynamics, system identification was performed using experimental data from various test maneuvers, such as acceleration-deceleration and zigzag trials. To efficiently represent the obstacle structures in the canal environment, we parameterized the canal walls as line segments with point cloud data, captured by an onboard LiDAR sensor, and considered them as constraints for obstacle avoidance. The proposed method was implemented in a single NMPC layer, and its real-world performance was verified through experimental runs in the Pohang Canal.

Published
2023

5. Pohang Canal Dataset: A Multimodal Maritime Dataset for Autonomous Navigation in Restricted Waters

Author

Chung, Dongha, Kim, Jonghwi, Lee, Changyu, and Kim, Jinwhan

Subjects
Computer Science - Robotics
Abstract

This paper presents a multimodal maritime dataset and the data collection procedure used to gather it, which aims to facilitate autonomous navigation in restricted water environments. The dataset comprises measurements obtained using various perception and navigation sensors, including a stereo camera, an infrared camera, an omnidirectional camera, three LiDARs, a marine radar, a global positioning system, and an attitude heading reference system. The data were collected along a 7.5-km-long route that includes a narrow canal, inner and outer ports, and near-coastal areas in Pohang, South Korea. The collection was conducted under diverse weather and visual conditions. The dataset and its detailed description are available for free download at https://sites.google.com/view/pohang-canal-dataset., Comment: Submitted to IJRR as a data paper for review

Published
2023
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6. Bearing-constrained Formation Tracking Control of Nonholonomic Agents without Inter-agent Communication

Author

Van Tran, Quoc and Kim, Jinwhan

Subjects
Mathematics - Optimization and Control
Abstract

This letter presents two bearing-constrained formation tracking control protocols for multiple nonholonomic agents based respectively on the bearing vectors and displacements between the agents. The desired formation pattern of the system is specified by the desired inter-agent bearing vectors. In the proposed control schemes, there are two or more leaders moving with the same constant velocity; the other follower agents do not have the information of the leaders' velocity nor communicate variables with their neighbors. Under both the proposed control laws, the system achieves the moving target formation asymptotically. Simulation results are provided to support the theoretical development., Comment: 8 pages, Manuscript submitted to the IEEE Control Systems Letters (L-CSS)

Published
2022

7. Direction-only Orientation Alignment of Leader-Follower Networks

Author

Van Tran, Quoc, Ahn, Hyo-Sung, and Kim, Jinwhan

Subjects
Mathematics - Optimization and Control
Abstract

When a team of agents, such as unmanned aerial/underwater vehicles, are operating in $3$-dimensional space, their coordinated action in pursuit of a cooperative task generally requires all agents to either share a common coordinate system or know the orientations of their coordinate axes with regard to the global coordinate frame. Given the coordinate axes that are initially unaligned, this work proposes an orientation alignment scheme for multiple agents with a type of leader-following graph typologies using only inter-agent directional vectors, and the direction measurements to one or more landmarks of the first two agents. The directional vectors are expressed in the agents' body-fixed coordinate frames and the proposed alignment protocol works exclusively with the directional vectors without the need of a global coordinate frame common to all agents or the construction of the agents' orientation matrices. Under the proposed alignment scheme, the orientations of the agents converge almost globally and asymptotically to the orientation of the leader agent. Finally, numerical simulations are also given to illustrate the effectiveness of the proposed method., Comment: Preprint accepted by the 2022 American Control Conference

Published
2022

10. Nanoparticle stereochemistry-dependent endocytic processing improves in vivo mRNA delivery

Author

Hatit, Marine Z. C., Dobrowolski, Curtis N., Lokugamage, Melissa P., Loughrey, David, Ni, Huanzhen, Zurla, Chiara, Da Silva Sanchez, Alejandro J., Radmand, Afsane, Huayamares, Sebastian G., Zenhausern, Ryan, Paunovska, Kalina, Peck, Hannah E., Kim, Jinwhan, Sato, Manaka, Feldman, Jacob I., Rivera, Michael-Alexander, Cristian, Ana, Kim, YongTae, Santangelo, Philip J., and Dahlman, James E.

Published
2023
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33. Field experiment of autonomous ship navigation in canal and surrounding nearshore environments.

Author

Kim, Jonghwi, Lee, Changyu, Chung, Dongha, Cho, Yonghoon, Kim, Jinwhan, Jang, Wangseok, and Park, Saeyong

Abstract

In this paper, we present the development of autonomous navigation capabilities for small cruise boats, and their verification by field experiments in a canal and its surrounding waters. A cruise boat was converted to an autonomous surface vehicle (ASV) by installing various sensors and actuators to enable autonomous navigation. Navigation and perception sensors, such as global positioning system, attitude and heading reference system, radar, light detection and ranging (LiDAR), and cameras, were mounted on the ASV to estimate its motion and perceive the surrounding environment. Motors and potentiometers were installed for active control of the ASV. Software system components including navigation filters, object‐detection, path‐planning, and control algorithms were designed and implemented. In the narrow canal region, LiDARs were used to detect the side walls and boundaries of the canal. In open areas outside the canal, obstacles and object features were detected using various combinations of onboard sensors. A model‐based path‐planning algorithm was designed to avoid the detected obstacles, and the line‐of‐sight guidance was employed to control the vehicle. The performance of the developed system was verified through a field experiment in a real‐world maritime environment. [ABSTRACT FROM AUTHOR]

Published
2024
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