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박이준(Park I-Jun) 역사문화학회 2003 지방사와 지방문화 Vol.6 No.1
The Land-Retaking Movement in Gungsam-myun, Naju refers to the continuous struggles to settle the land ownership disputes. It lasted for eithty years, which began with the seizure of private lands by Jeon, Seongchang in 1888 and ended with the completion of land reform in 1970. The movement in Gungsam-myun is regarded as a typical case of land ownership disputes which had gone through a series of different ownership: lands owned privately during the Chosun dynasty lands owned by royal family during the late Chosun dynasty tenant lands owned by Dongyang Colonization Company under the Japanese rule - lands owned by the Shinhan Corporation under the U.S. military administration - private land ownership admitted by the Korean government. This paper studies the developmental process of land-retaking movement in Gungsam-myun, Naju under the U.S. military administration. The peasants in Gungsam-myun rehabilitated a peasant union and autonomously managed farmlands owned by Dongyang Colonization Company in order to retake the land ownership. In the process, there were some troubles between the peasant union and other organizations like the people’ s committee and the preparatory committee for na tional foundation. However, under the U. S. military administration, farmlands in Gungsam-myun were classified as government-vested property and belonged to the Shinhan Corporation. The Gungsam-myun peasants were not rewarded even though they struggled to retake the land ownership against the U.S. military administration and the Shinhan Corporation. The antagonism against them exploded with the December uprising in 1946 and the Mayday assembly in 1947. The characteristics of the Gungsam-myun movement under the U.S. military administration can be summarized as follows. First, The Gungsam-myun peasants organized a peasant union and a youth self-defence corps. The youth self-defence corps was an organization similar to the union for land-retaking movement under the Japanese rule. Second, the Gungsam-myun peasants took the initiative in the movement and exercised autonomous rights. Third, with the leadership of the peasant union, the Gungsam-myun peasants voluntarily managed the farmlands owned by the Dongyang Colonization Company. Fourth, the claim of the union was proper. which said that farmlands in Gungsam-myun did not belong to the Dongyang Colonization cCompany and that it was unreasonable to classify them as enemy property. Fifth, the peasant resistance against the U.S. military administration took shape in the refusal of rent payment and the negotiations with outside organizations. It reached the peak in the December uprising in 1946. In sum, disputes of the farmland ownership in Gungsam-myun were expressed in various ways under the U.S. military administration. But the U.S. military administration denied and suppressed the proper claim of the Gungsam-myun peasants. Because of the responses of the military administration, the peasants had the impression that the U.S. military administration was the same as the Japanese imperialistic government and the Shinhan Corporation as the Dongyang Colonization Company. As a result, the peasants regarded the administration and the corporation as a subject to be overthrown. The disputes unsloved under the U.S. military administration were flared up again with the establishment of the Korean government.
특화 회귀 모델을 활용한 디지털 회로 설계의 기계 학습 기반 최적화
장이준(I-Jun Jang),강지수(Ji-Su Kang),박관우(Gwan-Woo Park),전인성(In-Seong Jeon),박지환(Ji-Hwan Park),정한울(Hanwool Jeong) 대한전자공학회 2024 대한전자공학회 학술대회 Vol.2024 No.6
This paper proposes a regression analysis model based on circuit delay knowledge to optimize the delay of a Full Adder. The role of the adder within the processing unit is significant and has a substantial impact on the overall delay. Consequently, the proposed regression model aims to train with data considering the characteristics of the circuit to achieve the minimum delay. The model is designed to effectively manage the complexity of circuit design and finely tune the essential delay parameters for more efficient performance improvement. This approach focuses on enhancing the efficiency of the adder components and improving the overall system performance.