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Single-Chip 마이크로 콘트롤러를 이용한 이상 전류 검출기
김경렬,나채동,문학룡,유두영 崇實大學校 生産技術硏究所 1993 論文集 Vol.23 No.-
The development of the measurement technology has occupied an important position of not only the electrical, electronic but also scientific technology sphere. In the past, the abnormal current detector was used by the analog method, had many the trouble and the inconvenience of measurement, dissatisfied the accuracy and had difficulty in storing, preserving the data. In this paper, these are improved by using single-chip microcontroller which detects the abnormal current and saves in back-up RAM after digitizing. For the efficient management, processing of the memory, it was used the index method. The data in the memory can be transmitted to the personal computer by the serial communication, and also be independently transmitted by the parallel communication to the personal computer which is interfaced with. The software to control system components are structured in assembly language and C language, in order to process and analyze the software is used in C language.
박창진,양재의,유경열,장용선,김원일 한국환경농학회 2004 한국환경농학회지 Vol.23 No.4
The objective of this research was to develop the adsorbent for heavy metals by activating the bark sample. Barks from pine tree with diameters of 2~4 mm were activated in the muffle furnace under a high relative humidity condition at temperatures of 600~900℃. The removal efficiency of the activated bark (ACTBARK) for Cu and Cd was temperature dependent showing the order of 900℃ > 800℃ > 700℃ > 600℃. The critical temperature was considered to be 900℃ to become an efficient adsorbent for Cu and Cd. The bark samples activated at temperatures lower than 700℃ showed a less removal efficiency than the crude bark The ACTBARK activated at 900℃ removed more Cu and Cd from solution than the commercial activated carbon and charcoal. The ACTBARK (activated at 900℃) adsorbed all of the Cu and Cd in solution with concentrations less than 150 mg/L. The selectivity of the ACTBARK was in the order of Cu>Zn>Ni>Pb>Fe>Cd>Mn.
Kyeong-Ryeol Lee,Kong Sik Shin,Seok Cheol Suh,Ki Young Kim,Yong Hee Jeon,Beom Seok Park,김주곤,Soon-Jong Kweon,Yeon-Hee Lee 한국식물생명공학회 2009 Plant biotechnology reports Vol.3 No.4
The insecticidal toxin gene of Bacillus thuringiensis (Bt) is one of the most commonly used in the development of genetically modified (GM) crops. In this research, we analyzed Bt rice showing lepidopteran pestresistance. The Bt gene is a synthetic Cry1Ac composed of optimal codons for plants, and the Bt protein is targeted to the chloroplast by a transit peptide. Three Cry1Ac rice events (C103-3, C127-1, and C7-1) were analyzed for molecular characterization. C103-3 contains two copies of T-DNA where the left border (LB) region is truncated. Both C7-1 and C127-1 have a single copy of T-DNA, but a part of the vector backbone DNA is inserted into the genome of C127-1; thus, only C7-1 had intact T-DNA. Progenies of C7-1 crossed with the original cultivar, Nakdong, and double-haploid lines from anther culture of lines crossed with the elite cultivar, Dongjin, were analyzed for T-DNA flanking genomic DNA and genotyping. Results showed that an intact T-DNA region without the vector backbone was inserted into the genome and was stably inherited through generations. The C7-1 homozygous event could be used as breeding material to develop GM rice with pest resistance.
고밀도 3D 형상 계측 시스템에서의 고속 시차 추정을 위한 NCC 알고리즘 기반 하드웨어 구조
배경렬 ( Kyeong Ryeol Bae ),권순 ( Soon Kwon ),이용환 ( Yong Hwan Lee ),이종훈 ( Jong Hun Lee ),문병인 ( Byung In Moon ) 한국센서학회 2010 센서학회지 Vol.19 No.2
This paper proposes an efficient hardware architecture to estimate disparities between 2D images for generating 3D depth images in a stereo vision system. Stereo matching methods are classified into global and local methods. The local matching method uses the cost functions based on pixel windows such as SAD(sum of absolute difference), SSD(sum of squared difference) and NCC(normalized cross correlation). The NCC-based cost function is less susceptible to differences in noise and lighting condition between left and right images than the subtraction-based functions such as SAD and SSD, and for this reason, the NCC is preferred to the other functions. However, software-based implementations are not adequate for the NCC-based real-time stereo matching, due to its numerous complex operations. Therefore, we propose a fast pipelined hardware architecture suitable for real-time operations of the NCC function. By adopting a block-based box-filtering scheme to perform NCC operations in parallel, the proposed architecture improves processing speed compared with the previous researches. In this architecture, it takes almost the same number of cycles to process all the pixels, irrespective of the window size. Also, the simulation results show that its disparity estimation has low error rate.
High-oleic oilseed rapes developed with seed-specific suppression of FAD2 gene expression
Lee, Kyeong-Ryeol,Kim, Eun-Ha,Roh, Kyung Hee,Kim, Jong-Bum,Kang, Han-Chul,Go, Young Sam,Suh, Mi Chung,Kim, Hyun Uk The Korean Society for Applied Biological Chemistr 2016 Applied Biological Chemistry (Appl Biol Chem) Vol.59 No.4
Vegetable oil is not only important for its edibility but for industrial purposes. High-oleic vegetable oil is especially useful for making biodiesel because it is highly stable against oxidation. Transgenic oilseed crops with modified fatty acid compositions have been developed with several biotechnological gene-silencing methods. The seed oils with the most successfully altered fatty acid compositions are produced from high-oleic oilseed crops in which FAD2 gene expression is suppressed. Vegetable oil from oilseed rape (Brassica napus) is one of the most commonly used vegetable oils throughout the world and its oleic acid content is moderately high (about 65 %). Therefore, oilseed rape can be modified to produce high-oleic oilseed crops. Oilseed rape has four FAD2 genes, originating from B. rapa and B. oleracea, with nucleotide identities of 88-97 %. To produce transgenic high-oleic oilseed rape, plant transformation vectors were constructed using antisense RNA and RNA interference (RNAi) to modify the BrFAD2-1 gene, and canola-type cultivar Youngsan was transformed with Agrobacterium carrying the vectors. The transgenic lines generated, AS9A, HP15, and HPAS29, showed high-oleic phenotypes, which were stably inherited. Their oleic acid contents increased from 67 (Youngsan) to 78, 85, and 86 %, respectively, and their polyunsaturated fatty acid (PUFA) contents decreased from 24 (Youngsan) to 13, 8, and 6 %, respectively. HPAS29, developed with a combined antisense RNA-RNAi method, produced seed oil with the highest oleic acid and lowest PUFA contents. These transgenic high-oleic oilseed rapes could be useful in the manufacture of high-temperature frying oils and high-quality biodiesel fuel.