• Archives of design research
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• v.19 no.4 s.66
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• pp.205-208
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• 2006

This work is a interactive digital art work which used the multiplex of jitter. It is an work which used a cross concept of two images. This work shows two kinds of images. One is on the wall through the gap of fluorescent lamp screen, and the other is on the fluorescent lamp screen. Two images are intercepted and comes out to the length as the multiplex of the jitter. The appearance of the spectator be recognized on the fluorescent lamp screen or on the wall, by two branch image which comes out intersecting of a length with multiplex function of the jitter. Two branch features of the image which it produces and the spectator which is input at real-time is equally divided, or in impression of juxtaposition goes in the spectator. It expresses the duplicity of the human being, with physical existence space divides the time space which we feel and there is a governing grammar which is different with each other and to express the thing it becomes. It used the image of the screen which it produces with the fluorescent lamp and cross concept.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.15 no.10
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• pp.829-841
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• 1990

On assuming that the transmission speed of the original information is the fifth-order transmission speed of the Korea digital multiplex hierarchy (564.992Mb/s), this paper proposes a new structure of the transmission line frame at the terminal repeater system, in order to not only maintain and conserve 565Mb/s optical fiber transmission system but also make the B.S.I. of digital communication network for the optical transmission. And the structure uses the mBIZ transmission line code, which is considered the optimal transmission line code of conventional transmission line codes. System hardware of the transmission line frame structure proposed in this paper is consisted by a method of pulse stuffing after converting the speed of the original information signal sequence at the terminal repeater system for 565Mb/s optical transmission. As a result of this, we can prevent the optical transmission system from a domino phenomenon, the phenomenon of the continuous error multiplication of systems by the transmission error, and suppress timing jitter and the identical consecutive digit number. And also we can improve SNR of the optical transmission system about 2dB because of raising total BER at the optical terminal system up to 10.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2012.10a
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• pp.259-262
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• 2012

This paper describes a delay-locked loop (DLL) that generates a 64-phase clock with the operating frequency of 125MHz. The proposed DLL use a $4{\times}8$ matrix-based delay line to improve the linearity of a delay line. The output clock with 64-phase is generated by using a CMOS multiplex and a inverted-based interpolator from 32-phase clock which is the output clock of the $4{\times}8$ matrix-based delay line. The circuit for an initial phase lock, which is independent on the duty cycle ratio of the input clock, is used to prevent from the harmonic lock of a DLL. The proposed DLL is designed using a $0.18-{\mu}m$ CMOS process with a 1.8 V supply. The simulated operating frequency range is 40 MHz to 200 MHz. At the operating frequency of a 125 MHz, the worst phase error and jitter of a 64-phase clock are +11/-12 ps and 6.58 ps, respectively.