• Proceedings of the Korean Society of Precision Engineering Conference
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• 2003.10a
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• pp.179-179
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• 2003

• Journal of the Speleological Society of Korea
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• no.77
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• pp.1-7
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• 2007

Nowaday, prohibition of smoking is getting more important issue. So we designed "non-smoking area control system". This system is organized with AVR(ATmega8535), smoke sensor, comparator(LM339) and etc. In non-smoking condition sensor's output voltage is about 5V, and in smoking condition sensor's output voltage is under 5V. So we used comparator(LM339) to devide two conditions. In both conditions AVR(ATmega8535) transmits datas to the computer of administrator. At this time method of communication is RS-232.

• Journal of the Speleological Society of Korea
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• no.81
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• pp.21-24
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• 2007

본 프로젝트에서는 건물에 출입하는 사람들의 특성을 파악하여 진열과 상가 배치에 대해 어른과 아이를 구분함으로써 과학적이고 통계학적인 접근을 하기 위함에 목적이 있다. 구분 방법으로는 Optical Sensor를 이용하여 어른과 아이를 구별하고, 측정 결과를 AVR8535를 이용 처리한 후 RS232 방식으로 컴퓨터에 Data를 보내게 되며, 컴퓨터에서는 Windows Application을 통하여 받은 Data를 즉시 관리자에게 보여주게 되고, 또한 Data를 축적하여 실시간 통계 그래프로 보여주는 방식으로 채택하였다.

• Proceedings of the KAIS Fall Conference
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• 2006.11a
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• pp.129-132
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• 2006

본 논문에서는 AVR8535 Micro Controller와 PC의 Parallel EPP Protocol을 이용하여 PC환경에서의 디지털 오실로스코프를 개발하였다. 기존의 오실로스코프는 고가이고 휴대하기가 어려워 필요시에 실험을 측정하기에 불편한 점을 해결하기 위해 저가격의 사용하고 휴대하기 편리한 디지털 오실로스코프를 개발하였다. 어플리케이션 프로그램은 MFC를 이용하였으며 파형 측정 기능과 측정된 데이터를 범용의 데이터형식으로 추출하여 여러 측정환경에 응용할 수 있도록 개발하였다.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2002.11a
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• pp.719-722
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• 2002

임베디드 시스템을 이용하여 TCP/IP 상의 인터넷 제어시스템을 구현하였다. AT90S8535 마이크로 컨트롤러 구조 및 각종명령 레지스터 동작 원리, avr-gcc 하드웨어 프로그래밍 및 명령 레지스터의 구현원리, JAVA 애플릿 프로그래밍, 전반적인 하드웨어 기초 이론을 바탕으로 Mellow Device 1300 임베디드 시스템과 AVR90S853S 마이크로 컨트롤러 상호간의 시리얼 통신을 이용하여 원격지의 온/습도 검침 및 각종 하드웨어 디바이스의 on/off를 구현하도록 설계하였고 실시간으로 검출된 온/습도 데이터를 JAVA 애플릿을 이용하여 그래픽 챠트로 보기 쉽게 표현하였으며 A/D 변환된 온도 및 습도 데이터와 각종 H/W 디바이스 on/off 상태 데이터를 RS232 인터페이스를 이용하여 Mellow Device 1300로 송/수신하도록 구현하였다.

• Proceedings of the KIEE Conference
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• 2006.10b
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• pp.175-180
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• 2006

In this paper, we develope a type of humanoid robot which can express its emotion against human actions. To interact with human, the developed robot has several abilities to express its emotion, which are verbal communication with human through voice/image recognition, motion tracking, and facial expression using fourteen Servo Motors. The proposed humanoid robot system consists of a control board designed with AVR90S8535 to control servor motors, a framework equipped with fourteen server motors and two CCD cameras, a personal computer to monitor its operations. The results of this research illustrate that our intelligent emotional humanoid robot is very intuitive and friendly so human can interact with the robot very easily.

• Journal of Magnetics
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• v.17 no.1
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• pp.27-32
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• 2012

Transcranial magnetic stimulation requires an electric field composed of dozens of V/m to achieve stimulation. The stimulation system is composed of a stimulation coil to form the electric field by charging and discharging a capacitor in order to save energy, thus requiring high-pressure kV. In particular, it is charged and discharged in capacitor to discharge through stimulation coil within a short period of time (hundreds of seconds) to generate current of numerous kA. A pulse-type magnetic field is formed, and eddy currents within the human body are triggered to achieve stimulation. Numerous pulse forms must be generated to initiate eddy currents for stimulating nerves. This study achieved high internal pressure, a high number of repetitions, and rapid switching of elements, and it implemented numerous control techniques via introduction of the half-bridge parallel load method. In addition it applied a quick, accurate, high-efficiency charge/discharge method for transcranial magnetic stimulation to substitute an inexpensive, readily available, commercial frequency condenser for a previously used, expensive, high-frequency condenser. Furthermore, the pulse repetition rate was altered to control energy density, and grafts compact, one-chip processor with simulation to stably control circuit motion and conduct research on motion and output characteristics.

• Journal of Magnetics
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• v.16 no.3
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• pp.234-239
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• 2011

Transcranial magnetic stimulation utilizes the method of controlling applied time and changing pulse by output pulse through power density control for diagnosis purposes. Transcranial magnetic stimulation can also be used in cases where diagnosis and treatment are difficult since output pulse shape can be changed. As intensity, pulse range, and pulse shape of the stimulation pulse must be changed according to lesion, the existing sine wave-shaped stimulation treatment pulse poses limitations in achieving various treatments and diagnosis. This study actualized a new method of transcranial magnetic stimulation that applies a 3 Stage 2 Switch( power semiconductor 2EA) for controlling pulse repetition rate by achieving numerous switching control of stimulation coil. Intensity, pulse range, and pulse shape of output can be freely changed to transform various treatment pulses in order to overcome limitations in stimulation treatment presented by the previous sine wave pulse shape. The method of freely changing pulse range by using 3 Stage 2 Switch discharge method is proposed. Pulse shape, composed of various pulse ranges, was created by grafting PFN (Pulsed Forming Network) through AVR AT80S8535 one-chip microprocessor technology, and application in transcranial magnetic stimulation was achieved to study the output characteristics of stimulation treatment pulse according to delaying time of the trigger signal applied in section switch.