• The Journal of Korean Institute of Communications and Information Sciences
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• v.37C no.12
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• pp.1318-1327
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• 2012

With the recent increased risk of livestock disease spread and human infection, livestock disease control has become very important. Consequently, there has been an increased attention on an implantable real-time monitoring and traceability system for individual cattle. Therefore, we have developed a robust monitoring and traceability system based on an implantable MFAN/RFID sensor tag. Our design combines the MFAN technology that is capable of robust wireless communication within cattle sheds and the 900MHz RFID technology that is capable of wireless communication without battery. In MFAN/RFID implantable sensor tag monitoring system, UHF sensor tag is implanted under the skin and accurately monitors the body temperature and biological changes without being affected by external environment. In order to acquire power needed by the tag, we install a MFAN/RFID tranceiver on the neck of cattle. The MFAN coordinator passes through the MFAN node and the RFID-reader-combined MFAN/RFID transceiver and transmits/receives the data and power for the sensor tag. The data stored in the MFAN coordinator is transmitted via the internet to the livestock history monitoring system, where it is stored and managed. By developing this system, we hope to alleviate the problems related to livestock disease control.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.19 no.6
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• pp.137-146
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• 2018

The purpose of this study was to derive and analyze the hub facilities that occupy major positions in the vehicle movement networks of livestock facilities. For this purpose, this study used the KAHIS data provided by Animal and Plant Quarantine Agency. The hub facilities were derived from the degree centrality & betweenness centrality. The analysis results are summarized as follows. First, in a livestock facility's vehicle movement network, there are a small number of hub facilities with very high centrality indicator values compared to other facilities. Second, the hub facilities based on the degree centrality are the feed factory, the milk collecting center, slaughterhouse, slaughterhouse for chicken, and livestock markets. Third, the hub facilities based on the betweenness centrality are the livestock markets, the feed factory, and slaughterhouse. Fourth, hub facilities based on the degree centrality are concentrated in a particular area, but the hub facilities based on betweenness centrality are distributed relatively evenly.

• Journal of the korean veterinary medical association
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• v.32 no.4
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• pp.234-246
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• 1996

양의 스크래피(scrapie)는 우리나라에서의 발생보고가 없는 해외가축전염병의 일종이며, 동물의 전염성 해면형 뇌증(Transmissible Spomgifrom Encephalopathies; TSEs)중 역사가 가장 오랜 질병인데, 현재 영국에서 문제되고 있는 새로운 전염병인 소 해면형 뇌증(Bovine Spongiform Encephalopathy; BSE) 즉 일명 광우병(mad cow disease)과의 어떤 연관 가능성 때문에 수의학계의 관심의 대상이 되고 있는 질병이다. 일단 감염되어 발병되면 치료대책 없이 100$\%$ 폐사되는 세기의 불치병으로 알려진, 소 해면형 뇌증(BSE)은 영국에서 현재 사람의 크로이츠휄트-야콥병(Creutzfeldt-Jakob disease; CJD)과의 관련 가능성 여부를 놓고 독특한 문제가 되고 있는 세계적인 희귀질병이다. 이들 질병에 대하여는 아직까지 확실한 병인체가 밝혀져 있지도 않으며, 그렇기 때문에 면역 혈청학적 진단방법도 확립되어 있지 못할 뿐만아니라 예방백신의 개발 또한 불가능하다. 다만, 임상적인 병력과 임상소견, 뇌조직 표본에 대한 현미경 검사 또는 전자현미경 검사에 의한 특이소견 관찰 등 조직병리학적 진단만이 가능할 뿐이다. 본편에서는 소 해면형 뇌증(BSE)의 병리학적 감별진단과 관련, 지금까지 보고된 임상증상을 검토해보고, 우리나라에서 경험한 소의 광견병에 대한 조직병리학적 진단 재료를 근거로하여 감별진단을 위한 참고자료로 설명하고, 국제수역사무국(Office de International Epizooties; O.I.E.)에서 발생한 Manual of Standards for Diagnostic Tests and Vaccines for List A and B Diseases of Mammals, Birds and Bees(1992)(포유류, 조류, 꿀벌에 있어서의 A급 및 B급 질병에 대한 진단시약 및 예방백신에 대한 표준지침) 중에서 소 해면형 뇌증(B 83; p 742-747)과 스크래피(B 32; p 424-427)에 관한 내용 (Chapter 22, 205-215)을 기본자료로 제공하고자 한다.

• Journal of the korean veterinary medical association
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• v.32 no.4
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• pp.220-233
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• 1996

소 해면형 뇌증(Bovine Spongiform Encephalpathy; BSE)은 일명 광우병(mad cow disease)이라고도 불리우는 새로운 해외 가축전염병이며, 세계적인 희귀질병으로 아직까지 확실한 병인체가 밝혀져 있지도 않으며, 그렇기 때문에 면역 혈청학적 진단방법도 확립되어 있지 못할 뿐만아니라 예방백신의 개발 또한 불가능하기 때문에, 일단 감염되어 발병되면 치료대책 없이 100$\%$ 폐사되는 세기의 불치병이다. 본 편에서는 소 해면형 뇌증(BSE)과 관련, 국제수역사무국(OIE) 총회에 보고된 영국정부의 공식보고 자료(Dept of Health, MAFF, 1989) 및 최근의 보고자료(1994, 1995)를 기본으로 하고, 각 회원국의 보고자료(Animal Health Status in Member Countries)와 전산화 역학정보 자료(Handistatus) 등을 근거로 하여, 소 해면형 뇌증이 세계적으로 처음 보고된 1986년 이래 최근 (1996년 3월)까지의 해외발생 역학정보를 수집 분석하고, 아울러 최근 전염병 및 해충의 효과적인 관리를 위하여 새롭게 정립되어 가고 있는 위험도 분석(risk analysis)의 개념을 도입하여, 우리나라에 있어서의 수입 쇠고기의 안전성 문제와 국내에서의 소 해면형 뇌증의 발생 가능성 등에 관하여 고찰해 보고자 한다. 결론적으로 소 해면형 뇌증은 현재 영국(그레이트 브리튼, 북아일랜드 등)에서 가장 크게 문제시 되고 있으며, 유럽 일부국가, 영국으로부터 소를 수입한 극소수의 국가에서 문제가 되었을 뿐, 영국 등 발생국가로부터 소와 쇠고기를 수입하고 있지 않는 우리나라에 있어서는 수입 쇠고기의 안전성에 문제가 없으며, 소 해면형 뇌증이나 양 스크래피의 국내 발생 가능성도 현재로서는 무시할 수 있을 정도로 극히 희박한 것으로 평가된다.

• Journal of the korean veterinary medical association
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• v.47 no.2
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• pp.165-176
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• 2011

구제역은 우제류 동물이 걸리는 급성열성전염병으로, 본 병에 걸린 동물은 발열이나 식욕부진을 지나 병명대로 구강과 혀 점막, 발굽 주위나 유방의 피부에 수포를 형성한다. 이후 이환된 가축은 섭취 장애나 보행장애가 일어나고, 산육능력이나 비유량이 저하됨에 따른 경제동물로서의 가치를 현저하게 떨어지게 한다. 또한 본 병의 전파는 극히 빠르고 동물이나 축산물에 대하여 엄격한 이동제한이나 방역조치가 본 병의 전파나 확대를 막기 위해 실시하기 때문에 본 병에 의해 생기는 경제적 피해는 농가의 지역단위 뿐만 아니라 국가단위에도 미쳐 심각하다. 그 때문에 자유무역을 표방하는 WTO체재하에 있어서도 구제역의 만연방지를 목적으로 한 무역제한은 국제적으로 용인되어져 오고 있고, 세계동물보건기구에 의해 국가나 지역단위의 청정도 구분이 장해져 각국의 법에 반영되어져 있다. 구제역의 병원체로 있는 바이러스는 숙주역이 넓고, 적지 않은 바이러스양에도 감염이 성립, 감염동물체내에서 바이러스가 신속하게 복제, 감염동물로부터 다량의 바이러스가 배설, 접촉전파만이 아닌 공기전파를 일으킨다는 등이 본 병의 전파나 확대에 유리한 복잡한 성성을 가질 경우에 구제역의 방역 및 박멸을 어렵게 하기 때문에 수의학영역에서 가장 경계해야할 전염병의 하나이다. 따라서 본 필자는 최근의 국내 구제역 발생상황속에서 관련자료정리를 하다가 대동물 임상수의사가 알아야 부분과 일본 동물위생연구소 등에서 구제역바이러스 인공감염 및 화학물질(T-1105)투여시험 결과 내역를 정리하여 소개해두고 저 한다.

• Korean Journal of Veterinary Service
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• v.43 no.4
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• pp.267-271
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• 2020

The emergence of highly contagious viral diseases of livestock and poultry such as foot-and-mouth disease (FMD), African swine fever (ASF) and highly pathogenic influenza (HPAI) have necessitated the formulation of policies and regulatory frameworks for preventing ingress of exotic diseases and controlling dissemination of endemic diseases within the country. The disease control ratings to manage contagious livestock disease in farms have not being widely used because the evaluation parameters were not being considered inappropriate. The purpose of this study was to reinforce the validity of the parameters for evaluation factors and the objectivity of the scoring criteria in the application of the current disease management rating system. The diseases subject to intensive management were improved by reflecting farm situation. For the evaluation based on the disease grading system of farms, the diseases subject to intensive management were realized, the list of diseases for evaluating the vaccination rate was revised, and the quarantine and sanitation management standards were revised. The effectiveness of the improved livestock disease management system was confirmed through the application of actual pig farms. Therefore, this system will be used as a means to evaluation the biosecurity at the farm units. Through this, it will contribute to establish effective biosecurity measures for each farm by improving and supplementing the present disease grading system.

• Journal of the Korean Association of Geographic Information Studies
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• v.19 no.4
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• pp.186-198
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• 2016

HPAI(Highly Pathogenic Avian Influenza) is a contagious animal disease that spreads rapidly by diffusion after the first occurrence. The disease has brought tremendous social costs and economic losses. KAHIS (Korea Animal Health Information System) is the integrated system for supporting the task of preventing epidemics. They provide decision-support information, recording vehicle visiting times and facility location, etc., which is possible by enforcing registration of all livestock related facilities and vehicles. KAHIS has accumulated spatial and temporal information that enables effective tracing of potential disease trajectories and diffusion through vehicle movements. The contact network is created utilizing spatial and temporal information in KAHIS to inform facility connection via vehicle visitation. Based on the contact network, it is possible to infer spatial and temporal mechanism of disease spread and diffusion. The study objective is to empirically demonstrate how to utilize primary spatial and temporal information in KAHIS in the form of the contact network. Based on the contact network, facilities with the possibility of infection can be pinpointed within the potential spatial and temporal extent where the disease has spread and diffused. This aids the decision-making process in the task of preventing epidemics. By interpreting our demonstration results, policy implications were presented. Finally, some suggestions were made to comprehensively utilize the contact network to draw enhanced decision-support information.

• Journal of Animal Environmental Science
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• v.8 no.1
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• pp.25-34
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• 2002

In view of increasing environmental pollution, the organic farming in animal production is becoming increasingly urgent. The problems of veterinary medicine have not diminished through the most dangerous epidemic diseases. Organic farming attempts to function in harmony with the environment. The first criterion of the organic farm is that the animal must be self-sustaining. Their food must be produced to a large extent on the farm. The position of ruminants in biological systems is determined by the fact that this group of farm animals is provided with a digestive system which optimizes the utilization of the products of gut microfloral fermentation. The cattle do not require large amounts of concentrate feeling nor gross ugly farm building for intensive rearing. The economic profitability of a cow depends. on the first instance, on the level of milk production and the number of lactations. The length of life is an important factor since the tilde to maturing is relatively high in a cow. The result is that dairy cows in organic farming have greater length of live, and produce more milk in their life time than the shorter lived high input cow. This paper. therefore, discussed the problems of modern cattle farming and development trends of organic farming in Germany and Korea.

• The Journal of Society for e-Business Studies
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• v.23 no.4
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• pp.109-126
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• 2018

With massive and dense production, the livestock industry is rapidly moving into a large-scale, capital-intensive industry especially in swine, poultry, and ducks. However, livestock epidemics can pose a serious threat to the livestock industry and the lives of the people. The government has established and operates the National Animal Protection and Prevention System (KAHIS) since 2013 in order to control the threat, in accordance with the five stages. The digitalized data and information are excellent in ease of management, but it is also pointed out that it is difficult to take countermeasures through linkage with the data in an emergency situation. Recently, the technology of the fourth industrial revolution such as Internet of Things (IoT), Big Data, Artificial intelligence (AI) has been rapidly implemented to the livestock industry, which makes smart livestock disease control system possible. Therefore, this study investigated the domestic and overseas cases which apply 4th Industrial Revolution technology in the industry, and derived 13 possible candidate tasks in the near future. In order to ascertain the priority of policy formulation, we surveyed the expert groups and examined the priority of each of the five stages of the prevention and the priority of each stage. The results of this study are expected to contribute to the establishment of policies for the advancement of smart livestock disease control research and livestock protection.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2019.05a
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• pp.32-35
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• 2019

One of the major problems with the livestock industry is that in the summer, livestock will die from heat waves or infectious diseases. Under these circumstances, what livestock need is a proper indoor temperature and a regular sterilization system. Therefore, in this study, we developed a system that automatically controls the power of the fan according to the temperature inside the shaft, and a function that provides feed and sterilization on a regular basis, so that we could manage the toast efficiently. It also proposed the ability to automatically control the power of the fan, to display the temperature inside the shaft to mobile applications, and to provide food and sterilization. First, the function of controlling the power of the fan automatically turns the fan on when the temperature inside the shaft rises above a certain level. Conversely, if the temperature inside the shaft falls below a certain level, turn off the fan. Second, the function of the mobile application is to check the temperature inside the shaft. The third feeding function is periodically fed using a servo motor, and the feeding provided is delivered to livestock through a conveyor belt. Finally, the sterilization function is a function to sterilize livestock periodically using DC motor pump. The intelligent congratulatory functions proposed in this study may contribute to the health of livestock.