• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2016.10a
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• pp.670-671
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• 2016

AMT(Automated Manual Transmission) is manual transmission that can shift gear automatically by actuator. AMT is applied many commercial vehicles, for easy to operate and high fuel efficiency. 12-Steps AMT that is applied heavy duty commercial vehicle determine gear shifting point by using shifting map and auto shifting logic like other common auto transmissions. But shifting 1-step like common auto transmissions makes shifting crush, clutch abrasion, decrease fuel efficiency problems. In this paper, it deals with design of shifting map and auto shifting logic for 12-step AMT and result of performance test.

• Proceedings of the Korean Institute of Intelligent Systems Conference
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• 2002.05a
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• pp.149-153
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• 2002

자동 변속기 차량은 여러 가지의 장점을 지니고 있으며, 쉬프트 맵의 특징이 수동 변속기차량과는 달리 이미 규정된 패턴을 따른다. 하지만 킥 다운, 킥 업, 리프트 풋 업 등의 현상이 어느 운전자에게나, 어떤 추행 상황에서나 일괄 적용되고 있기에 불만스러움을 느끼는 운전자가 있을 수 있다. 이에 본 논문에서는 이런 일반적으로 정해진 쉬프트 맵을 운전자의 조작 정도와 차량의 상태를 종합적으로 고려하여 쉬프트 맵을 수정, 적용할 수 있도록 지능형 변속 시스템을 구현하였다. 변속 시스템의 학습 과정에서는 뛰어난 학습 능력을 지니고 있기 때문에 판단 및 추론이 요구되는 지능형 시스템의 학습 도구로 다양하게 적용되고 있는 소프트 컴퓨팅(Soft Computing) 기법을 이용하였으며, 각 학습 내용에 따라 필요 입력을 별도로 구성한 모듈 형태의 망구조를 지니고 있다. .

• Transactions of the Korean Society of Automotive Engineers
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• v.25 no.3
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• pp.367-373
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• 2017

In this paper, a new shift map was proposed to improve the fuel economy of a transmission mounted electric device(TMED) type dual clutch transmission(DCT) plug-in hybrid electric vehicle(PHEV) by considering transmission and motor losses. To construct the shift map, powertrain efficiencies of the engine-DCT-motor were obtained at each gear step. A shift map that provides the highest powertrain efficiency was constructed for the given wheel torque and vehicle speed. Simulation results showed that the fuel economy of the target PHEV can be improved by the new shift map compared with the existing engine optimal operating line(OOL) shift control.

• Proceedings of the Korean Institute of Intelligent Systems Conference
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• 2002.05a
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• pp.60-63
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• 2002

자동 변속기 차량은 여러 가지의 장점을 지니고 있으며, 쉬프트 맵의 특징이 수동 변속기 차량과는 달리 이미 규정된 패턴을 따른다 하지만 킥 다운, 킥 업, 리프트 풋 업 등의 현상이 어느 운전자에게나, 어떤 주행 상황에서나 일괄 적용되고 있기에 불만스러움을 느끼는 운전자가 있을 수 있다. 이에 본 논문에서는 지능형 자동 변속 시스템의 변속 결과에 따른 운전자의 불만 정도를 고려하고 다음 변속에 반영하도록 고안한 만족도 보정 기법을 제안하고자 한다 만족도 평가는 변속이후 운전자의 조작을 관찰하며, 불만족 정도에 따라 최종 쉬프트 선도의 조정을 결정하도록 고안하였으며, 변속 시스템의 변속 결정과 운전자의 스로틀 및 브레이크 조작을 입력으로 한 신경 회로망을 구성하여 학습하였다

• Journal of ILASS-Korea
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• v.19 no.2
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• pp.64-68
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• 2014

A driving vehicle performance which is driven by FTP-75 mode was simulated by computer. Throttle valve position, engine speed, air mass flow rate, fuel consumption et al. were computer simulated. A set of engine part load performance data, automatic transmission shift map and vehicle specifications were used for the computer simulation. Throttle valve position, engine speed, air mass flow rate et al. measured for evaluating the computer simulation results by driving the vehicle with FTP-75 mode on a chassis dynamometer. GT-Power$^{(R)}$ software was used for the computer simulation of the driving vehicle performance. Experimental fuel consumption rate was measured by using an ECU HILS fuel injection system. The experimental data and simulation results were compared. The computer simulation of the driving vehicle performance predicts the measured data well comparatively.

• Journal of the Korean Magnetics Society
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• v.25 no.3
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• pp.92-100
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• 2015

Electric Vehicle (EV) can be categorized by the driving method into in-wheel and in-line types. In-wheel type EV does not have transmission shaft, differential gear and other parts that are used in conventional cars, which simplifies and lightens the structure resulting in higher efficiency. In this paper, design method for in-wheel motor for automobiles using Parameter Map is proposed, and motor with continuous power of 5 kW is designed, built and its performance is verified. To decide the capacity of the in-wheel motor that meets the automobile's requirement, Vehicle Dynamic Simulation considering the total mass of vehicle, gear efficiency, effective radius of tire, slope ratio and others is performed. Through this step, the motor's capacity is decided and initial design to determine the motor shape and size is performed. Next, the motor parameters that meet the requirement is determined using parametric design that uses parametric map. After the motor parameters are decided using parametric map, optimal design to improve THD of back EMF, cogging torque, torque ripple and other factors is performed. The final design was built, and performance analysis and verification of the proposed method is conducted by performing load test.

• Journal of the Korean Society of International Agriculture
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• v.31 no.1
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• pp.8-16
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• 2019

Alternatives for increasing the competitiveness of locally manufactured agricultural machinery in domestic and foreign markets has been proposed. This was done by analyzing the major agricultural machinery's price and market share as well as their performance and quality. In the Korean domestic market, the market share of Japanese agricultural machinery has been identified to be 14.5% for tractors, 31.1% for combine harvesters, and 35.8% for rice transplanters, and on track for further increase. Japanese manufacturers' domestic patent shares are 58.5% for tractors, 79.9% for combine harvesters, and 69.8% for rice transplanters, showing the dire need for Korean domestic firms to expand their technological rights. To strengthen the industrial competitiveness of agricultural machinery, therefore, researches that develop the fundamental and elemental technology to reduce the frequency of breakdown should be needed in the short term. To achieve this, it is imperative to establish technology roadmap, promote greater cooperation between academia and industry, and systematically increase research funding. In addition, as a long-term solution for enhancing the competitiveness, an establishment of Agricultural Equipment Technology Institute is strongly recommended to systematically support R&D for developing core technologies, particularly high-quality components that guarantee durability and quality.