Connected Automated Vehicles and ITS |
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Local Disturbance Cooperative Control of Heterogeneous Vehicle Platoon Based on Situation Assessment
Ting Fang , Qidong Wang , Linfeng Zhao , Wuwei Chen , Bixin Cai
Int J Automot Technol. 2024;25(2):183-200. DOI: https://doi.org/10.1007/s12239-024-00008-8
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Chassis, Connected Automated Vehicles and ITS, Electrical and Electronics, Vehicle Dynamics and Control |
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PERSONALIZED STEERING FEEL DESIGN FOR STEER-BY-WIRE
SYSTEMS BASED ON THE RACK FORCE ESTIMATION
Chengrui Su , Huanghe Li , Bangjun Qiao , Xiaodong Wu
Int J Automot Technol. 2023;24(4):1151-1161. DOI: https://doi.org/10.1007/s12239-023-0094-6
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Cited By 2 |
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Chassis, Electric, Fuel Cell, and Hybrid Vehicle, Transmission and Driveline, Vehicle Dynamics and Control |
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CHATTERING REDUCTION OF SLIDING MODE CONTROL VIA
NONLINEAR DISTURBANCE OBSERVER FOR ANTI-LOCK BRAKING
SYSTEM AND VERIFICATION WITH CARSIM SIMULATION
Minseong Choi , Kyunghwan Choi , Minsu Cho , Minyoung Lee , Kyung-Soo Kim
Int J Automot Technol. 2023;24(4):1141-1149. DOI: https://doi.org/10.1007/s12239-023-0093-7
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Transmission and Driveline, Vehicle Dynamics and Control |
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EXPERIMENTAL VERIFICATIONS OF ELECTRIC POWER STEERING
CONTROLLER BASED ON DISCRETE-TIME SLIDING MODE CONTROL
WITH DISTURBANCE OBSERVER
Sukwon Kim , Mooryong Choi , Jonghoon Sung
Int J Automot Technol. 2023;24(3):883-888. DOI: https://doi.org/10.1007/s12239-023-0072-z
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Connected Automated Vehicles and ITS, Electric, Fuel Cell, and Hybrid Vehicle, Vehicle Dynamics and Control |
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DISTURBANCE OBSERVER BASED ACTIVE INDEPENDENT FRONT
STEERING CONTROL FOR IMPROVING VEHICLE YAW STABILITY
AND TIRE UTILIZATION
Murat Gözü , Basar Ozkan , Mümin Tolga Emirler
Int J Automot Technol. 2022;23(3):841-854. DOI: https://doi.org/10.1007/s12239-022-0075-1
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Cited By 1 |
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Electric, Fuel Cell, and Hybrid Vehicle, Electrical and Electronics |
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TRACTION CONTROL USING A DISTURBANCE OBSERVER FOR
HYBRID ELECTRIC VEHICLES
Sangjoon Kim, Sung Hoon Yu, Hyeongcheol Lee
Int J Automot Technol. 2021;22(6):1485-1494. DOI: https://doi.org/10.1007/s12239-021-0128-x
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Cited By 1 |
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Electric, Fuel Cell, and Hybrid Vehicle, Transmission and Driveline |
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ROBUST VEHICLE SPEED LIMITER USING DISTURBANCE AND SPEED OBSERVER
Sangjoon Kim, Huiun Son, Hyeongcheol Lee
Int J Automot Technol. 2021;22(6):1475-1483. DOI: https://doi.org/10.1007/s12239-021-0127-y
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Engine and Emissions, Fuels and Lubricants |
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DIESEL ENGINE AIRPATH CONTROLLER VIA DATA DRIVEN DISTURBANCE OBSERVER
Volkan Aran, Mustafa Unel
Int J Automot Technol. 2020;21(4):971-980. DOI: https://doi.org/10.1007/s12239-020-0092-x
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Cited By 1 |
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Electric, Fuel Cell, and Hybrid Vehicle, Transmission and Driveline |
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ROBUST VEHICLE SPEED CONTROL USING DISTURBANCE OBSERVER IN HYBRID ELECTRIC VEHICLES
Sangjoon Kim, Jae Sung Bang, Sungdeok Kim, Hyeongcheol Lee
Int J Automot Technol. 2020;21(4):931-942. DOI: https://doi.org/10.1007/s12239-020-0089-5
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Cited By 15 |
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Chassis, Connected Automated Vehicles and ITS, Electrical and Electronics, Vehicle Dynamics and Control |
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DESIGN OF A ROBUST RACK POSITION CONTROLLER BASED ON 1-DIMENSIONAL AMESIM MODEL OF A STEER-BY-WIRE SYSTEM
Haseo Hwang, Kanghyun Nam
Int J Automot Technol. 2020;21(2):419-425. DOI: https://doi.org/10.1007/s12239-020-0039-2
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Cited By 6 |
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Electric, Fuel Cell, and Hybrid Vehicle |
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DISTURBANCE OBSERVER-BASED SIDESLIP ANGLE CONTROL
FOR IMPROVING CORNERING CHARACTERISTICS OF IN-WHEEL
MOTOR ELECTRIC VEHICLES
Hee Seong Kim, Young Jin Hyun, Kang Hyun Nam
Int J Automot Technol. 2018;19(6):1071-1080. DOI: https://doi.org/10.1007/s12239-018-0105-1
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Cited By 8 |
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Chassis |
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DC MOTOR CURRENT CONTROL ALGORITHM USING
PROPORTIONAL-INTEGRAL LQT WITH DISTURBANCE OBSERVER
Ung Jon, Jihwan Kim, Hyeongcheol Lee
Int J Automot Technol. 2018;19(6):959-967. DOI: https://doi.org/10.1007/s12239-018-0093-1
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Cited By 3 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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PEDALING TORQUE SENSOR-LESS POWER ASSIST CONTROL OF AN ELECTRIC BIKE VIA MODEL-BASED IMPEDANCE CONTROL
D. S. CHEON, K. H. NAM
Int J Automot Technol. 2017;18(2):327-333. DOI: https://doi.org/10.1007/s12239-017-0033-5
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Cited By 15 |
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Automobile Chassis & Vehicle Dynamic |
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ROAD DISTURBANCE ESTIMATION FOR THE OPTIMAL PREVIEW CONTROL OF AN ACTIVE SUSPENSION SYSTEMS BASED ON TRACKED VEHICLE MODEL
I. YOUN, M. A. KHAN, N. UDDIN, E. YOUN, M. TOMIZUKA
Int J Automot Technol. 2017;18(2):307-316. DOI: https://doi.org/10.1007/s12239-017-0031-7
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Cited By 32 |
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Automobile Chassis & Vehicle Dynamic |
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STEERING TORQUE CONTROL USING VARIABLE IMPEDANCE MODELS FOR A STEER-BY-WIRE SYSTEM
D. S. CHEON, K. H. NAM
Int J Automot Technol. 2017;18(2):263-270. DOI: https://doi.org/10.1007/s12239-017-0026-4
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Cited By 12 |
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Engine, Emission Technology |
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IDLE SPEED CONTROLLER BASED ON ACTIVE DISTURBANCE REJECTION CONTROL IN DIESEL ENGINES
E. KANG, S. HONG, M. SUNWOO
Int J Automot Technol. 2016;17(6):937-945. DOI: https://doi.org/10.1007/s12239-016-0091-0
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Cited By 28 |
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Automobile Chassis & Vehicle Dynamic |
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ESTIMATION OF LATERAL DISTURBANCE UNDER PARAMETER UNCERTAINTIES
K. W. KIM, S. B. LEE, C. S. PARK, K. YI
Int J Automot Technol. 2015;16(3):427-433. DOI: https://doi.org/10.1007/s12239-015-0044-z
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Cited By 5 |
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Materials and Recycling, Manufacturing |
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DEVELOPMENT OF A BIOLOGY INSPIRED MANUFACTURING SYSTEM FOR MACHINING TRANSMISSION CASES
H. S. PARK, N. H. TRAN
Int J Automot Technol. 2013;14(2):233-240. DOI: https://doi.org/10.1007/s12239-013-0026-y
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Cited By 3 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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ROBUST YAW STABILITY CONTROL FOR ELECTRIC VEHICLES BASED ON ACTIVE FRONT STEERING CONTROL THROUGH A STEER-BY-WIRE SYSTEM
K. NAM, H. FUJIMOTO, Y. HORI
Int J Automot Technol. 2012;13(7):1169-1176. DOI: https://doi.org/10.1007/s12239-012-0120-6
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Cited By 78 |
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Other Fields of Automotive Engineering |
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ALMOST DISTURBANCE DECOUPLING CONTROL OF MIMO NONLINEAR SYSTEM SUBJECT TO FEEDBACK LINEARIZATION AND A FEEDFORWARD NEURAL NETWORK: APPLICATION TO HALF-CAR ACTIVE SUSPENSION SYSTEM
T. H. S. LI, C. J. HUANG, C. C. C
Int J Automot Technol. 2010;11(4):581-592. DOI: https://doi.org/10.1007/s12239-010-0070-9
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Cited By 9 |
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