• International journal of advanced smart convergence
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• v.1 no.2
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• pp.47-51
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• 2012

In highly developed society, information and communication technologies are widely used for better medical services. These information and communication technologies should be more and more acceptable in all hospitals for exchange medical records. EMR becomes more convenient than the previously used paper charts. It will be able to record medical institutions every time and dual treatment. Each is different specifications for each medical institution to use the program or document to exchange it. The personal clinic records still does not exchange well. To solve this gap between medical alienation, this paper describes the concepts of HL7-CDA and proposes types of telemedicine system. To resolve time and space constraints, new form of treatment methods presents in future directions after described about related systems. CDA enables electronic medical records to the each medical center and gradually expanded by exchanging the patient's medical records. This paper is using XML-based CDA documents as a hierarchical for medical information exchange standards compliant HL7-CDA documents. It could be possible currently used structural variety of multimedia data. Thus It is able to send and receive HL7-CDA-based medical information and clinical information to identify the medical institutions of medical information with interchange system design and building standards, and through mutual exchange of clinical information.

• Journal of Internet Computing and Services
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• v.18 no.6
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• pp.75-84
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• 2017

As there has been growing interests in PHR-based personalized health management project, various institutions recently explore safe methods of recording personal medical and health information. In particular, innovative medical solution can be realized when medical researchers and medical service institutes can generally get access to patient data. As EMR data is extremely sensitive, there has been no progress in clinical information exchange. Moreover, patients cannot get access to their own health data and exchange it with researchers or service institutions. It can be operated in terms of technology, yet policy environment are affected by state laws as well as Privacy and Security Policy. Blockchain technology-independent, in transaction, and under test-is introduced in the medical industry in order to settle these problems. In other words, medical organizations can grant preliminary approval on patient information exchange by using the safely encrypted and distributed Blockchain ledger and can be managed independently and completely by individuals. More apparently, medical researchers can gain access to information, thereby contributing to the scientific advance in rare diseases or minor groups in the world. In this paper, we focused on how to manage personal medical information and its protective use and proposes medical treatment exchange system for patients based on a permissioned Blockchain network for the safe PHR operation. Trusted Model for Sharing Medical Data (TMSMD), that is proposed model, is based on exchanging information as patients rely on hospitals as well as among hospitals. And introduce medical treatment exchange system for patients based on a permissioned Blockchain network. This system is a model that encrypts and records patients' medical information by using this permissioned Blockchain and further enhances the security due to its restricted counterfeit. This provides service to share medical information uploaded on the permissioned Blockchain to approved users through role-based access control. In addition, this paper presents methods with smart contracts if medical institutions request patient information complying with domestic laws by using the distributed Blockchain ledger and eventually granting preliminary approval for sharing information. This service will provide an independent information transaction and the Blockchain technology under test will be adopted in the medical industry.

• Journal of the Korea Society of Computer and Information
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• v.17 no.9
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• pp.157-164
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• 2012

Recently medical service environment, the clinical information exchange which contribute to medical safety, promotion of service quality and patient's convenience, efficiency of medical procedures and medical management is essential medical service model. But, practical exchange of clinical information which variation of information level, absence of standardization system, build of heterogeneous information systems is difficult in each medical institute. In this paper, We analyzed the related technical standardizations and the models of clinical information exchange. So, we designed the clinical information exchange system based on the ideal lazy response model which is aimed at vitalizations the exchange of clinical information under domestic law environment. In case of exchange the clinical information, we separate CDA document flow from metadata flow. As a experimental result we acquired 24% improved performance compared with existed system based on the lazy response model.

• Korean Journal of Oriental Medicine
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• v.2 no.1
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• pp.407-416
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• 1996

${\ulcorner}$Ilbonseogi${\lrcorner}$(edited A.D. 720) )was studied to investagate the medical and pharmaceutical exchange among ancient Korea, China and Japan. It seemed that Korean and Chinese traditional medicine was introduced to Japan through Korea. It was also shown in ${\ulcorner}$Ilbonseogi${\lrcorner}$ that Koreans who lived in china and Japan during that time seemed to hove active medical idea exchange. From various facts indicated in ${\ulcorner}$Ilbonseogi${\lrcorner}$, it was believed that Korean and Chinese traditional medicine was the basis for the foundation of Japanese traditional medicine.

• Korean Journal of Oriental Medicine
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• v.14 no.3
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• pp.155-171
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• 2008

This study examined from "SangHanChangHwaHunJiJip" how medical exchange between doctors of Joseon and Japan affected medical science of Japan. "SangHanChangHwaHunJiJip" is a record that organized the written conversation between doctors and scholars of the Joseon and Edo period when the delegation so-called Joseon Tongsinsa visited Japan in 1719. Even though "SangHanChangHwaHunJiJip" was written by Japanese, but it was comprised of Joseon's advanced medical ideology, especially "DongEuiBogam" that has occupied an important part of the Joseon medical ideology. As a matter of fact, "SangHanChang HwaHunJiJip" contains general theme and medical subject. But until now, it has been hardly studied by medical historians. Many studies were generally made related to Joseon Tongsinsa, a governmental delegation, focused on literary and cultural exchange between Joseon and Japan by historians. "SangHanChangHwaHunJiJip" is no exception to this trend. We can find that doctors of the Joseon and Edo period entered into colloquium, a form of group discussion, about the clinical theme in "SangHanChangHwaHunJiJip". Concretely, the conversation between doctors of Joseon and Japan was about infant disease, infectious disease, folk remedies, medical herbs, moxa cautery, acupuncture, the study of nature, the study of medical books, etc. For example, when doctors of Japan ask a confirmed disease, doctors of Joseon explained it particularly. They had a great effect on in every cultural aspect of Japan, especially its medical field. Through this study of the medical questions and answers in "SangHanChangHwaHunJiJip", I came to know that the doctors of GiHae envoys gave great influence to the medical knowledge of Japan and the GiHae inherited and developed the medical tradition of SinMyo envoys. Through the examination of this study, I could deduct that "JeongJeongDongEuiBogam" which was published by the government of the Edo period is due to not only the contents of DongEuiBogam's advanced medical thought, but also the doctors of GiHae envoy. Also, "SangHanChangHwaHunJiJip" gives us an idea that doctors of GiHae envoys have medical trend of the OnBoHakFa and a group of Japanese doctors has medical trend of the study of nature. I am confident that the improvement of medical science and natural history of the Edo period is due to influence of medical exchange between Joseon and Japan. "SangHanChangHwaHunJiJip" confirms that medical exchange between two countries affected doctors and scholars of the Edo period.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.33 no.5B
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• pp.379-385
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• 2008

For the sharing and exchange of information between medical clinics, the clinical document has to be built on a standardized protocol such as a HL7-CDA. But it is difficult to exchange information between medical clinics because clinical document such as electronic medical record that include text and image, have different structure of document and type of expression. In this paper, we propose the electronic medical record system based on HL7-CDA that can share and exchange clinical information between medical institute. For this purpose, we have to design the schema of the clinical document architecture after we select the essential items of medical record and define templates. The proposed system can minimize integrating process and save parsing time when clinical information exchange and refer, by converting electronic medical record to base64 encoding scheme and integrate it in a XML document.

• The Journal of Korean Medical History
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• v.22 no.2
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• pp.1-6
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• 2009

This paper analyzes the relationship of international exchange of Medical School of Sin-an (新安醫學) at the time of Myung and Chung Dynasty, which is one of the most famous regional traditional medicine. The internal reason for the active exchange of Medical School of Sin-an (新安醫學) throughout the ocean was that its major theories were mostly based on Confucianism, which was also the major current in Korea and Japan at the time. This leaded to active interchange between Medical School of Sin-an (新安醫學) of China and Japan and Korea. Secondly, the proliferation of Medical School of Sin-an (新安醫學) was achieved with great help from developing printing operations at the time. Also, the active operation of practitioners of Medical School of Sin-an (新安醫學) such as the attempt to advance to foreign countries along with the 徽州商人 offered an opportunity to introduce Medical School of Sin-an (新安醫學). The international traits of Medical School of Sin-an (新安醫學) can be easily proved by numerous quotes of its classics in many significant classics of Korea and Japan. The influence of Medical School of Sin-an (新安醫學) to Korea started from the Chosun Dynasty; the Treasured Mirror of Eastern Medicine "東醫寶鑑" of Huh Jun and "麻科會通" of 丁若鏞 are the few examples of classics of Korea with quotes of Medical School of Sin-an (新安醫學). The influence of Medical School of Sin-an (新安醫學) on Japanese medicine can be found much before, since Nanbeichao Dynasty. However, the time when many books were imported was during Myung and Chung Dynasty. Also, some of the classics of Medical School of Sin-an (新安醫學) mentioned in "醫籍考" remain only in Japan and not in China; this shows the active exchange between the two countries.

• The Journal of the Korea Contents Association
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• v.17 no.10
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• pp.483-491
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• 2017

Compared to penetration of Electronic Medical Record(EMR) system, Healthcare Information Exchange(HIE) has been less active in South Korea. The aim of this study is to explore medical law newly legislated to introduce HIE through the nation. The important insights are that the medical institutions exchange the patient's healthcare information based on the consent of the patient, and it is expected to be set up and managed the medical record exchange support system by the government and a consignment organization. In addition, the certification program for standardization and interoperability on the EMR system would be conducted. Nevertheless, continued policy developments and researches for the promotion of HIE will be urgently needed such as the education for the vendors and developers, developments of the certification programs and the incentive payment programs and the public relations.

• International journal of advanced smart convergence
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• v.4 no.2
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• pp.145-153
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• 2015

Development of IT technology, in combination with the medical area, a number of developments have been made of the digital advanced medical devices, also increased interest in health, sharing of medical information has become increasingly necessary. Standardization for medical information sharing to satisfy these requirements have been studied. However, the medical information system is to build a system independent hospital itself, is difficult to share and exchange medical data with other medical institutions. In this paper, we provide a medical cloud system that can share medical information. Use DBaaS of cloud services. And is an international standard to have a HL7 share information by forming a meta-schema, each of the data transfer, the format of the document oriented data solves the heterogeneity between hospitals. Extracts the required field name of examination information, to exchange information with each of the local information and mapping. Health diagnostic information in the present study and diagnosis through accurate information sharing and exchange is possible ongoing management.

• Journal of Digital Convergence
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• v.18 no.6
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• pp.373-378
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• 2020

For improving interoperability of medical information, health level 7 has initiated the development of a next-generation framework for the exchange of medical information called the Fast health interoperability resources (FHIR). However, there was no attempt to exchange the medical three-dimensional (3D) image with clinical data via FHIR. Thus, we designed a new method. The 3D image to be made from computed tomography was converted to the javascript object notation (JSON) file format, and clinical data was added. We made a test FHIR server, and the client used the postman. The JSON file was attached to the body, and was then transmitted. The transmitted 3D image could be seen through a web browser, and attached clinical data was identified in the source code. This is the first attempt to exchange the medical 3D image. Additional researches will be needed to develop applications or FHIR resources that apply this method.