• Title/Summary/Keyword: 조향제어기

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A C-Band CMOS Bi-Directional T/R Chipset for Phased Array Antenna (위상 배열 안테나를 위한 C-대역 CMOS 양방향 T/R 칩셋)

  • Han, Jang-Hoon;Kim, Jeong-Geun
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.28 no.7
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    • pp.571-575
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    • 2017
  • This paper presents a C-band bi-directional T/R chipset in $0.13{\mu}m$ TSMC CMOS technology for phased array antenna. The T/R chipset, which is a key component of phased array antenna, consists of a 6 bit phase shifter, a 6 bit step attenuator, and three bi-directional gain amplifiers. The phase shifter is controlled up to $354^{\circ}$ with $5.625^{\circ}$ phase step for precise beam steering. The step attenuator is also controlled up to 31.5 dB with 0.5 dB attenuation step for the side lobe level rejection. The LDO(Low Drop Output) regulator for stable 1.2 V DC power and the SPI(Serial Peripheral Interface) for digital control are integrated in the chipset. The chip size is $2.5{\times}1.5mm^2$ including pads.

Design of Steering Controller of AGV using Cell Mediate Immune Algorithm (세포성 면역 알고리즘을 이용한 AGV의 조향 제어기 설계에 관한 연구)

  • Lee, Yeong-Jin;Lee, Jin-U;Lee, Gwon-Sun
    • Journal of Institute of Control, Robotics and Systems
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    • v.7 no.10
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    • pp.827-836
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    • 2001
  • The PID controller has been widely applied to the most control systems because of its simple structure and east designing. One of the important points to design the PID control system is to tune the approximate control parameters for the given target system. To find the PID parameters using Ziegler Nichols(ZN) method needs a lot of experience and experiments to ensure the optimal performance. In this paper, CMIA(Cell Mediated Immune Algorithm) controller is proposed to drive the autonomous guided vehicle (AGV) more effectively. The proposed controller is based on specific immune responses of the biological immune system which is the cell mediated immunity. To verify the performance of the proposed CMIA controller, some experiments for the control of steering and speed of that AGV are performed. The tracking error of the AGV is mainly investigated for this purpose. As a result, the capability of realization and reliableness are proved by comparing the response characteristics of the proposed CMIA controllers with those of the conventional PID and NNPID(Neural Network PID) controller.

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Sliding Mode Control for an Electric Power Steering System in an Autonomous Lane Keeping System (자동 차선 유지 시스템의 전기식 파워 조향 시스템을 위한 슬라이딩 모드 제어기)

  • Yu, Jun Young;Kim, Wonhee;Son, Young Seop;Chung, Chung Choo
    • Journal of Institute of Control, Robotics and Systems
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    • v.21 no.2
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    • pp.95-101
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    • 2015
  • In this paper, we develop a sliding mode control for steering wheel angle control based on torque overlay in order to resolve the problem of previous methods for Electric Power Steering (EPS) systems in the Lane Keeping System (LKS) of autonomous vehicles. For the controller design, we propose a 2nd order model of the electric power steering system in an autonomous LKS. The desired state model is designed to prevent a rapid change of the steering wheel angle. The sliding mode steering wheel angle controller is developed for the robustness of the disturbance. Since the proposed method is designed based on torque overlay, torque integration with basic functions of the EPS system for the steering wheel angle control is available for the driver's convenience. The performance of the proposed method was validated via experiments.

A Study on AGV Steering Control using TDOF PID Controller (2자유도 PID 제어기를 이용한 AGV의 조향 제어에 관한 연구)

  • Lee, Gwon-Sun;Lee, Yeong-Jin;Son, Ju-Han;Lee, Man-Hyeong
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.49 no.5
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    • pp.241-248
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    • 2000
  • Until now, all of the port goods are transported manually by container transporter in the port. Recently there are a lot of studies about unmanned vehicle driven automatically. In terms of the vehicle automation, the control of steering and velocity on vehicle systems is very important part in container transporter. In common sense, vehicle systems have lots of nonlinear parameters so we have many difficulties in designing the optimal controller of them. In this paper, we present a design of the TDOF PID controller using a hybrid schematic algorithm to control the steering system optimally. We used the single-track model to pre-test the designed controller before appling to AGV. We also used the ES(evolutionary strategy) and SA(simulated annealing) algorithms to construct the hybrid tuning algorithm for parameters of controller. Finally, we had the computer simulation to verify that our designed controller has better performance than the other one.

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Development of Remote control Speed Sprayer(l) -Trial-made Model- (원격제어(遠隔制御) 스피드 스프레이어의 개발(開發)(1) -시작기(詩作機)의 제작(製作)-)

  • Jang, Ik Joo;Lee, Ki Myung
    • Current Research on Agriculture and Life Sciences
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    • v.9
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    • pp.11-20
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    • 1991
  • This study was performed to avoid the chemical spraying environment condition during spraying operation for operator's safety through the development of a remote controlled speed sprayer. The summerized results of this study are as followings. 1. The developed VHF electric wave remote controlling system which could operate sixteen type of operation conditions with the circuit channels of 234 was highly adaptable to speed sprayer for the remote control. 2. The commerical wireless telephones adapted the DTMF type electric wave remote control system need not the tranceiver. 3. The wireless electric wave remote control system combined with one-chip microcomputer, which are low cost with compact in size, could be adaptable to the remote control of the speed sprayer for the wheel steering and speed control system, and to the remote control chemical application system.

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Developement of Planar Active Array Antenna System for Radar (평면형 능동 위상 배열 레이더용 안테나 시스템 개발)

  • Chon, Sang-Mi;Na, Hyung-Gi;Kim, Soo-Bum;Lee, Jeong-Won;Kim, Dong-Yoon;Kim, Seon-Joo;Ahn, Chang-Soo;Lee, Chang-Hee
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.20 no.12
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    • pp.1340-1350
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    • 2009
  • The design and implementation of planar Active Phased Array Antenna System are described in this paper. This Antenna system operates at X-band with its bandwidth 10 % and dual polarization is realized using dual slot feeding microstrip patch antenna and SPDT(Single Pole Double Through) switch. Array Structure is $16\times16$ triangular lattice structure and each array is composed of TR(Transmit & Receive) module with more than 40 dBm power. Each TR module includes digital attenuator and phase shifter so that antenna beam can be electronically steered over a scan angle$({\pm}60^{\circ})$. Measurement of antenna pattern is conducted using a near field chamber and the results coincide with the expected beam pattern. From these results, it can be convinced that this antenna can be used with control of beam steering and beam shaping.

Implementation of a Controller in a Steering Feel Simulator for SBW systems (SBW시스템을 위한 조향반력 시뮬레이터의 제어기 구현)

  • Park, Won-Yong;You, Choon-Young;Kim, Il-Hwan;Heo, Seung-Jin;Ahn, Hyun-Sik
    • Proceedings of the KIEE Conference
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    • 2008.10b
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    • pp.318-319
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    • 2008
  • In this paper, a steering feel simulator is designed and implemented using a steering wheel with a rotation angle sensor, torque sensor, and an ac motor for the generation of the required torque. The controller in the simulator consists of a 16-bit micro-controller, a D/A converter and A/D converters. The main objective of the controller is to perform torque control where the reference torque is calculated from the torque map for both the vehicle velocity and the wheel sensor cutout. It is shown via the experimentation using the proposed simulator that the simulator output performance can be easily understood for the variation of vehicle parameters or controller parameters.

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Setting method of virtual rigid axles for steering control (조향제어를 위한 가상고정축 설정 방법)

  • Moon, Kyeong-Ho;Mok, Jai-Kyun;Chang, Se-Ky;Lee, Soo-Ho;Park, Tae-Won
    • Proceedings of the KSR Conference
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    • 2007.11a
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    • pp.236-243
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    • 2007
  • Steering systems are classified as FWS(front-wheel steering), RWS(rear-wheel steering) and AWS(all-wheel steering) according to steering position. AWS is effective to reduce turning radius and platform length because all wheels are steered. Although various rear wheel control logics for AWS were developed, these are applied to four wheel steering cars. Therefore new control logics must be developed to apply articulated vehicles. In the present study, it is suggested how to control the real wheels based on the virtual rigid axles and also how to set it to minimize the turning radius.

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A Design of Steering Controller for AGV using Immune Algorithm (면역 알고리즘을 이용한 AGV의 조향 제어기 설계에 관한 연구)

  • Lee, Chang-Hoon;Lee, Jin-Woo;Lee, Young-Jin;Lee, Kwon-Soon
    • Proceedings of the KIEE Conference
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    • 2002.07d
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    • pp.2824-2826
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    • 2002
  • Immune system is an evolutionary biological system to protect innumerable foreign materials such as virus, germ cell, and etcetera. Immune algorithm is the modeling of this systems response that has adaptation and reliability when disturbance occur. In this paper, immune algorithm is proposed to control four wheels steering AGV(Automated Guided Vehicle) in container yard. The adaptive immune system is applied to the PID controller. For design the PID controller using immune algorithm, we tune PID parameters by off-line manner, in order to avoid the damage from abrupt control force. Repeatedly, the PID parameters are adjusted to be accurate by on-line fine tuner of immune algorithm. And then the computer simulation result from the viewpoint of yaw rate and lateral displacement are analyzed and compared with result of conventional PID controller.

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A Design of Two Degree of Freedom PID Controller for AGV using Immune Algorithm (면역 알고리즘을 이용한 AGV의 2자유도 PID조향 제어기 설계에 관한 연구)

  • 이창훈;이진우;이영진;이권순
    • Proceedings of the Korean Institute of Navigation and Port Research Conference
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    • 2002.03a
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    • pp.229-234
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    • 2002
  • Immune system is an evolutionary biological system to protect Innumerable foreign materials such as virus, germ cell, and et cetera. Immune algorithm is the modeling of this system'response that has adaptation and reliableness when disturbance occur. In this paper, immune algorithm controller was proposed to control four wheels steering(4ws) Automated Guided vehicle(AGV) in container yard. And then the simulation result was analysed and compared with the results of NN-PID controller.

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