Your search keyword '"Hyunjoon Cho"' showing total 24 results

1. Fixed-Time Control with an Improved Sparrow Search Algorithm for Robotic Arm Performance Optimization

Author

Ruochen Zhang, Hyeung-Sik Choi, Dongwook Jung, Hyunjoon Cho, Phan Huy Nam Anh, and Mai The Vu

Subjects

fixed-time control, sparrow search algorithm, Barrier Lyapunov, input saturation, robotic arm, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This paper presents an innovative approach that integrates a fixed-time control (FTC) algorithm with an improved sparrow search algorithm (ISSA) to enhance the trajectory tracking accuracy of a two-degree-of-freedom (two-DOF) robotic arm. The FTC algorithm, which incorporates barrier Lyapunov function (BLF) and adaptive neural network strategies, ensures rapid convergence, effective vibration suppression, and the robust handling of system uncertainties and input saturation. The ISSA, inspired by the foraging behavior of sparrows, improves search efficiency through dynamic weight adjustments and chaotic mapping, balancing global and local search capabilities. By optimizing control parameters, ISSA minimizes tracking errors. Simulation results demonstrate that the combined FTC and ISSA approach significantly reduces tracking errors and improves response speed compared to the use of FTC alone, underscoring its potential for achieving high-precision control in robotic arms and offering a promising direction for precise robotic control applications.

Published

2024

2. Research on Clustering-Based Fault Diagnosis during ROV Hovering Control

Author

Jung-Hyeun Park, Hyunjoon Cho, Sang-Min Gil, Ki-Beom Choo, Myungjun Kim, Jiafeng Huang, Dongwook Jung, ChiUng Yun, and Hyeung-Sik Choi

Subjects

ROV, underwater thruster, hovering control, fault diagnosis, DBSCAN, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The objective of this study was to perform fault diagnosis (FD) specific to various faults that can occur in the thrusters of remotely operated vehicles (ROVs) during hovering control. Underwater thrusters are predominantly utilized as propulsion systems in the majority of ROVs and are essential components for implementing motions such as trajectory tracking and hovering. Faults in the underwater thrusters can limit the operational capabilities of ROVs, leading to permanent damage. Therefore, this study focused on the FD for faults frequently caused by external factors such as entanglement with floating debris and propeller breakage. For diagnosing faults, a data-based technique that identifies patterns according to data characteristics was utilized. In imitation of the fault situations, data for normal, breakage and entangled conditions were acquired, and Density-Based Spatial Clustering of Applications with Noise (DBSCAN) was employed to differentiate between these fault conditions. The proposed methodology was validated by configuring an ROV and conducting experiments in an engineering water tank to verify the performance of the FD.

Published

2024

3. Fault-Coping Algorithm for Improving Leader–Follower Swarm-Control Algorithm of Unmanned Surface Vehicles

Author

Jihyeong Lee, Daehyeong Ji, Hyunjoon Cho, Saehun Baeg, and Sangki Jeong

Subjects

unmanned surface vehicle, swarm-control algorithm, leader–follower method, fault-coping algorithm, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This study presents a swarm-control algorithm to overcome the limitations inherent to single-object systems. The leader–follower swarm-control method was selected for its ease of mathematical interpretation and theoretical potential for the unlimited expansion of followers. However, a known drawback of this method is the risk of swarm collapse when the leader breaks down. To address this, a fault-coping algorithm was developed and supplemented to the leader–follower swarm-control method, which enabled the detection and responsive handling of failures, thereby ensuring mission continuity. Comprehensive data, including voltage, current, thruster speed, position, and heading angle were acquired and analyzed using sensors on unmanned surface vehicles (USVs) to monitor potential failures. In the case of a failure, such as thruster malfunction, the nearest USV seamlessly takes charge of the mission under the guidance of the fault-coping algorithm. The leader–follower swarm-control and fault-coping algorithms were successfully validated through actual sea area tests, which confirmed their operational efficacy. This study affirms the well-formed nature of the USV swarm formation and demonstrates the effectiveness of the fault-coping algorithm in ensuring normal mission performance under the virtual failure scenarios applied to the leader USV.

Published

2024

4. Unmanned Surface Vehicle Thruster Fault Diagnosis via Vibration Signal Wavelet Transform and Vision Transformer under Varying Rotational Speed Conditions

Author

Hyunjoon Cho, Jung-Hyeun Park, Ki-Beom Choo, Myungjun Kim, Dae-Hyeong Ji, and Hyeung-Sik Choi

Subjects

unmanned surface vehicle, underwater thruster, fault diagnosis, vibration signal, continuous wavelet transform, transfer learning, Chemical technology, TP1-1185

Abstract

Among unmanned surface vehicle (USV) components, underwater thrusters are pivotal in their mission execution integrity. Yet, these thrusters directly interact with marine environments, making them perpetually susceptible to malfunctions. To diagnose thruster faults, a non-invasive and cost-effective vibration-based methodology that does not require altering existing systems is employed. However, the vibration data collected within the hull is influenced by propeller-fluid interactions, hull damping, and structural resonant frequencies, resulting in noise and unpredictability. Furthermore, to differentiate faults not only at fixed rotational speeds but also over the entire range of a thruster’s rotational speeds, traditional frequency analysis based on the Fourier transform cannot be utilized. Hence, Continuous Wavelet Transform (CWT), known for attributions encapsulating physical characteristics in both time-frequency domain nuances, was applied to address these complications and transform vibration data into a scalogram. CWT results are diagnosed using a Vision Transformer (ViT) classifier known for its global context awareness in image processing. The effectiveness of this diagnosis approach was verified through experiments using a USV designed for field experiments. Seven cases with different fault types and severity were diagnosed and yielded average accuracy of 0.9855 and 0.9908 at different vibration points, respectively.

Published

2024

5. Time-Optimal Trajectory Design for Heading Motion of the Underwater Vehicle

Author

Ngoc-Duc Nguyen, Mai The Vu, Phi Nguyen, Jiafeng Huang, Dong-Wook Jung, Hyunjoon Cho, Phan Huy Nam Anh, and Hyeung-Sik Choi

Subjects

underwater vehicle, nonlinear decoupled dynamics, heading dynamics, closed-form solution, time-optimal trajectory, super-twisting sliding mode control, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Underwater vehicles are a powerful tool that can assist oceanologists with measuring the state of oceans on a large scale. The heading control is essential for the underwater vehicle to follow a specific path. This study describes the general decoupled dynamics of underwater vehicles, which is a nonlinear second-order differential equation considering linear and quadratic damping hydrodynamics. A novel aspect of this study is the development of a new analytical solution for the second-order nonlinear differential equation, which involves the heading motion of the underwater vehicle. In this study, the time-optimal trajectory is formulated as the closed-form solution for the heading dynamics of the underwater vehicle. The concept of this trajectory is based on the shortest arrival time when the maximum force from the thrusters is applied to the underwater vehicle. Finally, a simulation of the time-optimal trajectory and evaluation of the robustness of the controller were demonstrated in order to verify the effectiveness of the proposed trajectory for controlling underwater vehicles.

Published

2023

6. Study on Unmanned Hybrid Unmanned Surface Vehicle and Unmanned Underwater Vehicle System

Author

Han-Sol Jin, Hyunjoon Cho, Ji-Hyeong Lee, Huang Jiafeng, Myung-Jun Kim, Ji-Youn Oh, and Hyeung-Sik Choi

Subjects

unmanned surface vehicle, unmanned underwater vehicle, autonomy, autonomous control, integrated system, field test, Ocean engineering, TC1501-1800

Abstract

Underwater operating platforms face difficulties regarding power supply and communications. To overcome these difficulties, this study proposes a hybrid surface and underwater vehicle (HSUV) and presents the development of the platform, control algorithms, and results of field tests. The HSUV is capable of supplying reliable power to the unmanned underwater vehicle (UUV) and obtaining data in real time by using a tether cable between the UUV and the unmanned surface vehicle (USV). The HSUV uses global positioning system (GPS) and ultra-short base line sensors to determine the relative location of the UUV. Way point (WP) and dynamic positioning (DP) algorithms were developed to enable the HSUV to perform unmanned exploration. After reaching the target point using the WP algorithm, the DP algorithm enables USV to maintain position while withstanding environmental disturbances. To ensure the navigation performance at sea, performance tests of GPS, attitude/heading reference system, and side scan sonar were conducted. Based on these results, manual operation, WP, and DP tests were conducted at sea. WP and DP test results and side scan sonar images during the sea trials are presented.

Published

2020

7. A Research on Fault Diagnosis of a USV Thruster Based on PCA and Entropy

Author

Ki-Beom Choo, Hyunjoon Cho, Jung-Hyeun Park, Jiafeng Huang, Dongwook Jung, Jihyeong Lee, Sang-Ki Jeong, Jongsu Yoon, Jinhun Choo, and Hyeung-Sik Choi

Subjects

USV, underwater thruster, fault diagnosis, PCA, Shannon entropy, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This study focuses on faults in the thrusters of unmanned surface vehicles, which are fatal to the integrity of their missions. As for the fault conditions, the breakage of the thruster blade and the entanglement of floating objects were selected, and a data-driven method was used to diagnose the faults. In the data-driven method, it is important to select the sensitive fault feature. In this study, vibration, current consumption, rotational speed and input voltage were selected as fault features. An experiment was conducted in an engineering water tank to obtain and analyze data on fault conditions to verify the validity of the selected features. In addition, a new fault diagnosis algorithm combining principal component analysis and Shannon entropy was applied for analyzing the correlations among fault features. This algorithm reduces the dimensionality of data while preserving their structure and characteristics, and diagnoses faults by quantifying entropy values. A fault is detected by comparing the entropy value and a predetermined threshold value, and is diagnosed by analyzing the entropy value and visualized 2D or 3D principal component results. Moreover, the fault diagnosis performance of the unmanned surface vehicle’s thruster was verified by analyzing the results for each fault condition.

Published

2023

8. Analysis of a New Twin Hybrid Autonomous Underwater Vehicle

Author

Jiafeng Huang, Hyeung-Sik Choi, Dong-Wook Jung, Ki-Beom Choo, Hyunjoon Cho, Phan Huy Nam Anh, Ruochen Zhang, Joon-Young Kim, Daehyeong Ji, and Jung-Hyeun Park

Subjects

twin hybrid autonomous underwater vehicle, two buoyancy engines, compact structure, simulation, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The twin hybrid autonomous underwater vehicle (THAUV) is a novel type of unmanned underwater platform that consists of a twin torpedo-shaped hull and is actuated by two buoyancy engines and two thrusters proposed in this paper. The THAUV was designed to have faster speed generated by the two buoyancy engines and two thrusters. The two buoyancy engines on each hull and the airfoil are mainly responsible for the diving and surfacing motion, and the thrusters drive the THAUV along the horizontal plane. The THAUV is capable of carrying more instrumentation and energy than a conventional hybrid autonomous underwater vehicle (HAUV) with a single buoyancy engine such that the THAUV can perform more exploration tasks and operate for a longer period in a one-time operation. Different from other unmanned underwater vehicles (UUVs) with two airfoils or wings, the THAUV has a single airfoil connecting the twin hull such that it does not require connecting bars and additional airfoils. For this reason, the structure of THAUV is more compact and simpler. In this paper, a new compact THAUV is designed and CFD simulation is used to obtain the hydrodynamic parameters of THAUV operation in water. The motion model of the THAUV is also established and the operating parameters of the THAUV are obtained by simulation.

Published

2023

9. Study on Control System of Integrated Unmanned Surface Vehicle and Underwater Vehicle

Author

Hyunjoon Cho, Sang-Ki Jeong, Dae-Hyeong Ji, Ngoc-Huy Tran, Mai The Vu, and Hyeung-Sik Choi

Subjects

unmanned surface vehicle (USV), unmanned underwater vehicle (UUV), integrated system, underwater cable, offshore field test, Chemical technology, TP1-1185

Abstract

In this paper, in order to overcome certain limitations of previously commercialized platforms, a new integrated unmanned surface vehicle (USV) and unmanned underwater vehicle (UUV) platform connected via underwater cable capable of acquiring real-time underwater data and long-time operation are studied. A catamaran-type USV was designed to overcome the limitations of an ocean environment and to play the role as the hub of power supply and communication for the integrated platform. Meanwhile, the UUV was designed as torpedo-shaped to minimize hydrodynamic resistance and its hardware design was focused on processing and sending the underwater camera and sonar data. The underwater cable driven by a winch system was installed to supply power from the USV to the UUV and to transmit acquired data form underwater sonar sensor or camera. Different from other previously studied cooperation system of USVs and autonomous underwater vehicles (AUVs), the merit of the proposed system is real-time motion coordination control between the USV and UUV while transmitting large amount of data using the tether cable. The main focus of the study is coordination of the UUV with respect to the global positioning system (GPS) attached at USV and verification of its performance throughout field tests. Waypoint tracking control algorithm was designed and implemented on USV and relative heading, distance control for USV–UUV coordination was implemented to UUV. To ensure the integrity of the coordination control of the integrated platform, a study on accurate measurement system of the relative position between the USV and the UUV by using the GPS and the ultrashort baseline (USBL) device was performed. Individual tests were conducted to verify the performance of USBL and AHRS, which provide the position and heading data of UUV among the sensors mounted on the actual platform, and the effectiveness of the obtained sensor data is presented. Using the accurate measurement system, a number of field tests were conducted to verify the performance of the integrated platform.

Published

2020

10. Rural Transitions to Net Zero GHG Emissions in Korea.

Author

Hutfilter, Andrés Fuentes, Hyunjoon Cho, Ventricelli, Valentina, Derecichei, Daiana, and Noels, Jolien

Subjects

GREENHOUSE gases, CARBON offsetting, CARBON emissions

Abstract

This policy paper analyses the role of Korean rural regions in the country's transition to carbon neutrality by 2050, drawing on a conference organised by the OECD in collaboration with the Ministry of Land, Infrastructure, and Transport (MOLIT) of Korea. The report outlines the emissions profile of Korea's rural regions, compares them with other OECD countries and takes a deep dive on the three most emitting sectors: power generation, manufacturing, and transport. The paper then describes Korea's action plan to reach carbon neutrality. It discusses the just transition challenges in rural regions, highlighting employment risks and opportunities. [ABSTRACT FROM AUTHOR]

Published

2023

11. Feature Selection for Unmanned Surface Vehicle Fault Diagnosis Research and Experimental Verification

Author

Hyunjoon Cho, Hyeung-Sik Choi, Hyung-Jin Kim, Keon-Seok Nam, Je-Doo Ryu, and Kyoung-Nam Ha

Subjects

Control and Systems Engineering, Applied Mathematics, Software

Published

2022

12. Dynamics of Bacterial Communities on Eggshells and on Nest Materials During Incubation in the Oriental Tit (Parus minor)

Author

Hokyung Song, Keesan Lee, Injae Hwang, Eunjeong Yang, Jungmoon Ha, Woojoo Kim, Sungjin Park, Hyunjoon Cho, Jae Chun Choe, Sang-im Lee, and Piotr Jablonski

Subjects

Ecology, Soil Science, Ecology, Evolution, Behavior and Systematics

Abstract

Eggshell bacterial communities may affect hatching success and nestling's condition. Nest materials are in direct contact with the eggshells, but the relationships with the eggshell microbiome during incubation have not been fully elucidated. Here, we characterize eggshell and nest material bacterial communities and their changes during incubation in the Oriental Tit (Parus minor). Bacterial communities on the nest material were relatively stable and remained distinct from the eggshell communities and had higher diversity and greater phylogenetic clustering than the eggshell communities from the same nest, resulting in lower phylogenetic turnover rate of nest material microbiome during incubation than expected by chance. While the species diversity of both communities did not change during incubation, we found significantly greater changes in the structure of bacterial communities on the eggshell than on the nest material. However, eggshell microbiome remained distinct from nest material microbiome, suggesting independent dynamics of the two microbiomes during incubation. We detected an increase in the relative abundance of several bacterial taxa on the eggshell that likely come from the bird's skin, feathers, cloaca/intestine, or uropygial secretion which suggests some exchange of bacteria between the incubating bird and the eggshell. Furthermore, incubation appeared to promote the abundance of antibiotic producing taxa on the eggshell, which may hypothetically inhibit growth of many bacteria including pathogenic ones. Our results suggest that the future studies should focus on simultaneous monitoring of absolute abundance as well as relative abundance in communities on eggshells, nest materials, and the incubating bird's body.

Published

2022

13. A Genetic Information Based Load Redistribution Approach Including High-Response Time in Distributed Computing System.

Author

SeongHoon Lee, DongWoo Lee, Wankwon Lee, and HyunJoon Cho

Published

2005

14. An Adaptive Load Balancing Approach in Distributed Computing Using Genetic Theory.

Author

SeongHoon Lee, DongWoo Lee, Wankwon Lee, and HyunJoon Cho

Published

2004

15. Performance Comparison of Different Cache-Replacement Policies for Video Distribution in CDN.

Author

Umesh Chejara, Heung-Keung Chai, and Hyunjoon Cho

Published

2004

16. Fecal microbiota and diet compositions of muskox female adults and calves

Author

Ji-Yeon Cheon, Hyunjoon Cho, Mincheol Kim, Hyun Je Park, Tae-Yoon Park, and Won Young Lee

Abstract

Gut microbiome is vertically transmitted by maternal lactation at birth in mammals. In this study, we investigated the gut microbiome and diet compositions of muskox, a large herbivore in the high Arctic. From muskox feces in Ella Island, East Greenland, we compared the microbiota composition using bacterial 16S rRNA gene sequencing and the dietary compositions of six female adults and four calves have been compared. Firmicutes was the most abundant bacterial phylum in both adults and calves, comprising 94.36% and 94.03%, respectively. There were significant differences in the relative abundance of two Firmicutes families: the adults were mainly dominated by Ruminococcaceae (73.90%), while the calves were dominated by both Ruminococcaceae (56.25%) and Lachnospiraceae (24.00%). Stable isotope analysis on the feces and eight referential plant samples in the study area showed that both adults and calves had similar ranges of 13C and 15N, possibly derived from the dominant diet plants of Empetrum nigrum and Salix glauca. Despite the similar diets, the different gut microbiome compositions in muskox adults and calves indicate that the gut microbiome of the calves may not be fully colonized yet as much as the one of the adults.

Published

2022

17. On the advantages of optimal end-to-end QoS budget partitioning.

Author

Hyunjoon Cho, André Girard, and Catherine Rosenberg

Published

2007

18. Design of Underwater Thruster Fault Detection Model Based on Vibration Sensor Data: Generative Adversarial Network-based Fault Data Expansion Approach for Data Imbalance

Author

Myungjun Kim, Hyunjoon Cho, Ki-Beom Choo, Huang Jiafeng, Dong-Wook Jung, Jung-Hyeun Park, Ji-Hyeong Lee, Sang-Ki Jeong, Dae-Hyeong Ji, and Hyeung-Sik Choi

Subjects

General Materials Science, Instrumentation

Published

2022

19. Hovering control of UUV through underwater object detection based on deep learning

Author

Han-Sol Jin, Hyunjoon Cho, Huang Jiafeng, Ji-Hyeong Lee, Myung-Jun Kim, Sang-Ki Jeong, Dae-Hyeong Ji, Kibum Joo, Dongwook Jung, and Hyeung-Sik Choi

Subjects

Environmental Engineering, Ocean Engineering

Published

2022

20. Measurement of the Absorption Coefficient of Yb-Doped Fibers by a Side Light Analysis

Author

Jonghoon Yi, Hojae Lee, Kyungyung Kim, Uihyeon Seo, Min Oh, Hyunjoon Cho, and Minseung Hwang

Subjects

Materials science, Attenuation coefficient, Doping, Analytical chemistry, General Physics and Astronomy

Published

2017

21. A Genetic Information Based Load Redistribution Approach Including High-Response Time in Distributed Computing System

Author

Hyunjoon Cho, Wankwon Lee, Dong-Woo Lee, and SeongHoon Lee

Subjects

Computer science, Load redistribution, Distributed computing, Transfer (computing), Genetic algorithm, CPU time, Response time, Throughput (business)

Abstract

Load redistribution algorithm is a critical element in distributed system. We propose a new load redistribution algorithm based on genetic information to obtain high response time in distributed systems. Under sender-initiated load redistribution algorithms, the sender continues to send unnecessary request messages for load transfer until a receiver is found while the system load is heavy. Because of these unnecessary request messages, it results in inefficient communications, low cpu utilization, and low system throughput. This algorithm decreases response time and increases acceptance rate.

Published

2005

22. An Adaptive Load Balancing Approach in Distributed Computing Using Genetic Theory

Author

Wankwon Lee, Dong-Woo Lee, SeongHoon Lee, and Hyunjoon Cho

Subjects

Genetic theory, Network Load Balancing Services, Computer science, Distributed computing, CPU time, Round-robin DNS, Throughput, Load balancing (computing)

Abstract

In sender-initiated load balancing algorithms, the sender continues to send unnecessary request messages for load transfer until a receiver is found while the system load is heavy. Meanwhile, in the receiver-initiated load balancing algorithms, the receiver continues to send an unnecessary request message for load acquisition until a sender is found while the system load is low. These unnecessary request messages result in inefficient communications, low CPU utilization, and low system throughput in distributed systems. To solve these problems, we propose a genetic based approach for improved sender-initiated and receiver-initiated load balancing in distributed systems.

Published

2004

23. Performance Comparison of Different Cache-Replacement Policies for Video Distribution in CDN

Author

Hyunjoon Cho, Umesh Chejara, and Heung-Keung Chai

Subjects

Hardware_MEMORYSTRUCTURES, Database, Computer science, business.industry, CPU cache, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Internet traffic, computer.software_genre, Telecommunications network, Performance comparison, The Internet, Cache, business, computer, Cache algorithms, Computer network

Abstract

Content Distribution Network(CDN) is one of the key components of the Internet nowadays. Many users, served by same ISP/node, request same data resulting in higher Internet traffic. Caching of data has been popular mechanism to avoid fetching the same data repeatedly from a source. There exist different caching algorithms and strategies and much of work has been done to measure their performance for general data. Although both CDN and cache replacement policies have been actively looked into by the research community, the interplay of them is still less well-understood. Moreover, performance comparison for the data as a video content has not been done much in depth. In this paper, we investigate the interaction between CDN and cache replacement algorithms for video/movie distribution in a CDN. Issues covered include 1)comparative impact of different cache replacement policies on a CDN and 2) the effect of cooperative caching versus hierarchical caching schemes. By extensive simulations, we observed that LFU is the most efficient cache-replacement algorithm and cooperative caching is better than hierarchical caching in terms of user experienced latency and CDN system cost.

Published

2004

24. A Genetic Information Based Load Redistribution Approach Including High-Response Time in Distributed Computing System.

Author

Khosla, Rajiv, Howlett, Robert J., Jain, Lakhmi C., Seong Hoon Lee, Dongwoo Lee, Wankwon Lee, and Hyunjoon Cho

Abstract

Load redistribution algorithm is a critical element in distributed system. We propose a new load redistribution algorithm based on genetic information to obtain high response time in distributed systems. Under sender-initiated load redistribution algorithms, the sender continues to send unnecessary request messages for load transfer until a receiver is found while the system load is heavy. Because of these unnecessary request messages, it results in inefficient communications, low cpu utilization, and low system throughput. This algorithm decreases response time and increases acceptance rate. [ABSTRACT FROM AUTHOR]

Published

2005