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Non-preemptive demand paging technique for NAND flash-based real-time embedded systems
Wangyu Kim,Dongkun Shin IEEE 2010 IEEE transactions on consumer electronics Vol.56 No.3
<P>NAND flash memory is utilized as code storage as well as for file system storage in consumer electronics. The demand paging technique for NAND flash code storage can reduce the required main memory space. However, in realtime systems, demand paging may invoke several problems, one such example is unpredictable timing behavior. Moreover, when NAND flash memory is used for both code storage and file system storage, the resource conflict issue needs to be resolved to allow for simultaneous accesses of demand paging and file system requests. This paper addresses several practical problems of NAND flash-based demand paging in real-time embedded systems and proposes a non-preemptive demand paging technique to resolve the resource conflict within non-preemptive critical sections. Experiments on a real mobile phone platform show that the proposed demand paging requires no significant overhead.</P>
Research Notes : Occurrence of Clubroot on Shepherd`s-purse Caused by Plasmodiophora brassicae
( Wan Gyu Kim ),( Sang Yeob Lee ),( Hyo Won Choi ),( Sung Kee Hong ),( Young Kee Lee ) 한국균학회 2011 韓國菌學會誌 Vol.39 No.3
Clubroot symptoms were frequently observed on roots of shepherd`s-purse (Capsella bursa-pastoris) grown in a field in Nonsan, Chungnam province, Korea in March, 2009. Many resting spores were found in the cells of the root gall tissues collected from the field. The clubroot pathogen was identified as Plasmodiophora brassicae based on its morphological and pathological characteristics. This is the first report that P. brassicae causes clubroot of shepherd`s-purse in Korea.
Wan-Gyu Kim,Hyo-Won Choi,Gyo-Bin Lee,Weon-Dae Cho The Korean Society of Plant Pathology 2023 식물병연구 Vol.29 No.4
In 2020 and 2021, we surveyed diseases of three-leaf ladybell (Adenophora triphylla) plants grown in fields at two locations in Korea. During the disease surveys, severe leaf rot symptoms were observed on the young plants in Hongseong, and stem rot symptoms on the adult plants in Cheolwon. The incidence of leaf rot was 5-60%, and that of stem rot 1-10%. We obtained 6 fungal isolates each from the leaf rot lesions and the stem rot lesions. All the isolates were morphologically identified as Rhizoctonia solani. Anastomosis test and investigation of cultural features of the fungal isolates revealed that the isolates from the leaf rot lesions corresponded to R. solani AG-1(IB), and those from the stem rot lesions to R. solani AG-2-2(IIIB). Two isolates each of R. solani AG-1(IB) and AG-2-2(IIIB) were used for DNA sequence analysis and pathogenicity test to three-leaf ladybell plants through artificial inoculation. The anastomosis groups and cultural types of the R. solani isolates were confirmed by the sequence analysis. The pathogenicity tests revealed that the isolates of R. solani AG-1(IB) caused only leaf rot symptoms on the inoculated plants, and those of R. solani AG-2-2(IIIB) leaf rot and stem rot symptoms. The induced symptoms were similar to those observed in the fields investigated. Leaf and stem rot of three-leaf ladybell caused by the two anastomosis groups and cultural types of R. solani is first reported in this study.
Occurrence of Clubroot Caused by Plasmodiophora brassicae in Baecheongchae
( Wan-gyu Kim ),( Sang-keun Oh ),( Marc Semunyana ),( Man-jong Han ),( Gyo-bin Lee ),( Weon-dae Cho ) 한국균학회 2020 韓國菌學會誌 Vol.48 No.4
Clubroot symptoms were frequently observed on the roots of Baecheongchae plants grown in vinyl greenhouses of a farmer located in Yangpyeong area of Korea during a disease survey in June 2019. The incidence of diseased Baecheongchae plants ranged from 30 to 90% in the vinyl greenhouses investigated. Many resting spores were found in the tissue of root galls collected. The resting spores were hyaline and spherical and measured 2.5-4.2 ㎛ in diameter. Three inoculum suspensions of resting spores prepared from the root galls were inoculated to the roots of healthy Baecheongchae plants. All the inoculum suspensions caused clubroot symptoms to appear on the roots of the inoculated Baecheongchae plants. The symptoms on the roots induced by artificial inoculation were similar to those observed in the plants of the vinyl greenhouses during the disease survey. Resting spores of the pathogen were recovered from the root galls of the inoculated plants. Three root gall isolates obtained from the inoculated plants were used for molecular identification. Comparing the isolates to the Plasmodiophora brassicae strains in GenBank, the amplification products demonstrated 100% similarity with the internal transcribed spacer (ITS2) sequences. The clubroot pathogen was identified as P. brassicae according to its morphological, pathological, and molecular characteristics. This is the first report of P. brassicae causing clubroot in Baecheongchae.
Fusarium Wilt of Korean Blackberry Caused by Fusarium cugenangense
Wan-Gyu Kim,Hyo-Won Choi,Gyun-Sung Park,Weon-Dae Cho 한국식물병리학회 2021 식물병연구 Vol.27 No.4
Wilt symptoms were frequently observed in Korean blackberry (Rubus coreanus) plants grown in farmers’ fields located in Gochang and Jeongeup, Jeonbuk Province, Korea during disease surveys in July 2020. The disease occurred in 10 of the 13 fields surveyed in the two locations. The incidence of diseased plants in the fields was 5-80%. Seven isolates of Fusarium sp. were obtained from the diseased plants and examined for their morphological and molecular characteristics. All the isolates belonged to Fusarium oxysporum species complex based on the morphological characteristics but were identified as F. cugenangense based on the molecular characteristics. Two isolates of F. cugenangense were tested for pathogenicity on Korean black- berry plants by artificial inoculation. Pathogenicity of the two isolates on the plants was confirmed with the inoculation tests, which showed wilt symptoms similar to those observed in the diseased plants in the fields investigated. This is the first report of F. cugenangense causing Fusarium wilt in Korean blackberry.