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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
> Journal Vol & Issue
Journal of information and communication convergence engineering
Journal Basic Information
Journal DOI :
The Korean Institute of Information and Commucation Engineering
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Volume & Issues
Volume 4, Issue 4 - Dec 2006
Volume 4, Issue 3 - Sep 2006
Volume 4, Issue 2 - Jun 2006
Volume 4, Issue 1 - Mar 2006
Selecting the target year
Performance Evaluation of Medical Image Transmission System using TH UWB-IR Technology
Lee, Yang-Sun ; Kang, Heau-Jo ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 97~100
In this paper, the transmission service for medical image is proposed via IEEE 802.15.4a on WPAN environment. Also, transmission and receiving performance of medical image using TH UWB-IR system is evaluated on indoor multi-path fading environment. On the results, the proposed scheme can solve the problem of interference from the medical equipment in same frequency band, and minimize the loss due to the indoor multi-path fading environment. Therefore, the transmission with low power usage is possible.
Analyses of Characteristics for Direct Intensity Modulation Scheme
Kim, Jung-Tae ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 101~104
We have investigated the spectral characteristics of the semiconductor lasers locked to the sidebands of the master laser in this paper, which were expressed by a series of the Bessel function. The numerical model for the semiconductor lasers based on the typical Lang's equation has been extended in order to take into account the simultaneous injection of the multiple sidebands of the directly modulated ML. We analyses characteristics of direct intensity modulation.
a-Si:H Photosensor Using Cr silicide Schottky Contact
Hur, Chang-Wu ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 105~107
Amorphous silicon is a kind of optical to electric conversion material with current or voltage type after generating a numerous free electron and hole when it is injected by light. It is very effective technology to make schottky diode by bonding thin film to use optical diode. In this paper, we have fabricated optical diode device by forming chrome silicide film through thermal processing with thin film(
) having optimal amorphous silicon. The optimal condition is that we make a thin film by using PECVD(Plasma Enhanced Chemical Vapor Deposition) to improve reliability and characteristics of optical diode. We have obtained high quality diode by using chrome silicide optical diode from dark current and optical current measurement compared to previous method. It makes a simple process and improves a good reliability.
Modeling of FBAR Devices with Bragg Reflectors
Lee, Jae-Young ; Yoon, Gi-Wan ; Linh, Mai ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 108~110
Film bulk acoustic resonators for radio frequency wireless applications are presented. Various simulations and modeling were carried out. The impedance of a five-layered FBAR showed almost the same trend of the wideband characteristics as that of an ideal FBAR, but the characteristics of the higher modes appear to be much more suppressed. In addition, the wideband impedance decreased with increasing device size. The resonance characteristics depend strongly on the physical dimensions.
Thin Film Bulk Acoustic Resonators for RF Applications
Linh, Mai ; Lee, Jae-Young ; Yoon, Gi-Wan ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 111~113
A new thin film deposition technique of piezoelectric ZnO film and its successful application for film bulk: acoustic resonator (FBAR) devices are presented. The two-step deposition used seems to be able to deposit ZnO film with a highly preferred orientation. The FBAR devices with the ZnO films show an excellent return loss of
Development of the Electromagnetic Wave Absorber for 94 GHz Radar Sensors Using Permalloy
Choi, Chang-Mook ; Kim, Dong-Il ; Li, Rui ; Ko, Kwang-Soob ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 114~117
In this paper, we fabricated the EM wave absorber for 94 GHz radar sensors using Permalloy of magnetic material with chlorinated polyethylene (CPE), and S-parameter was measured. The complex relative permittivity and permeability are calculated by the measured data. Absorption abilities are simulated according to different thickness of the EM wave absorbers, and the EM wave absorber was manufactured based on the simulated design. Simulated and measured results agree very well. As a result, we developed the EM wave absorber with the thickness of 1.15 mm which has an absorption ability of 18 dB at 94 GHz.
Design of Sliding Mode Controller with Uncertainty Adaptation
Kim, Min-Chan ; Nam, Jing-Rak ; Park, Seung-Kyu ; Kwak, Gun-Pyong ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 118~122
In this paper, a sliding mode control method with uncertainty adaptation is proposed by introducing the virtual state. Because upper bound of the uncertainty is very difficult to know, we estimate this by using the simple adaptation law and design the sliding surface which has dynamic of nominal system. An optimal controller is used by nominal controller. And if initial values of the virtual state are chosen properly, the reaching phase is removed.
Vehicle Shadow Removal For Intelligent Traffic System
Jang, Dae-Geun ; Kim, Eui-Jeong ;
Journal of information and communication convergence engineering, volume 4, issue 3, 2006, Pages 123~129
The limited number of roads and the increasing number of vehicles demand the automatic regulation of overspeed vehicles, illegal vehicles, and overloaded vehicles and the automatic charge calculation depending on the type of the vehicle. To meet such requirements, it is important to remove the shadow of the vehicle as processing and recognizing an image captured by a camera. The shadow of the vehicle is likely to cause misclassification of the vehicle type due to diverse errors and mistakes occurring when detecting geometrical properties of the vehicle. In case that shadows of two different vehicles are overlapped, not only the type of the vehicles may be misclassified but also it is difficult to accurately identify the type of the vehicles. In this paper, we propose a robust algorithm to remove the shadow of a vehicle by calculating the luminance, the chrominance, the gradient density of the cast shadow from information acquired using the image subtraction of the background, and to recognize the substantial vehicle figure. Even when it is hard to detect and split a target vehicle from its shadow as shadows of vehicles are attached to each other, our robust algorithm can detect the vehicle figure only. We implemented our system with a general camera and conducted experiments on various vehicles on general roads to find out our vehicle shade removal algorithm is efficient when detecting and recognizing vehicles.