This study is concerned with image information management system form small scale hospital. We intended to developing image management system which is used of the existing analog devices such as medical camera, supersonic analyser, endoscope etc. We developed a video in interface board based USB 2.0 for handling image in real time. It is capable of transmitting image input signal like as NTSC, PAL to personal computer through USB 2.0. The developed board can transmit image up to 40times speed compared with the exiting system based USB 1.0. Especially the developed system is very helpful for small hospital like as dental clinic, because it is easy and convenient to manage image information without expert. So it will provide reduction of time and cost for handling image information(collecting, saving, retrieval, transmitting image).

The official ebXML white paper states that the vision of ebXML is to create a single global "electronic marketplace" where enterprises of any size and in any geographical location can meet and conduct business with each other through the exchange of XML based messages. ebXML is an end-to-end solution between ebXML compliant software. However, B2B e-marketplace business models do not include such end-to-end B2B models that trading partners exchange XML or EDI based messages with each other. Therefore, this paper aims to clarify the difference between ebXML and B2B public e-marketplace as well as to discuss the application of ebXML to public e-marketplace for making a right decision to adopt a new B2B e-business technology.

This paper presents the business model and system functionalities of a B2B e-marketplace solution that not only can overcome some problems of the public e-marketplace, but also can be applicable to both public and private types of e-marketplaces. This sol

본 연구에서는 안정제를 이용하는 반회분식 분산 중합(semi batch dispersion polymerization)공정으로 전도성 고분자인 p-Doped polypyrrole 입자를 제조하였다. 반회분식 분산 중합은 단량체를 monomer starved 조건하에서 연속 주입하여 중합시키는 방법으로써 polyvinylalcohol(PVA)을 안정제로 사용한 경우 평균 50nm, methylcellulose를 안정제로 사용한 경우평균 95nm 정도의 입자 크기를 갖는 dispersion을 제조할 수 있었으며, 이의 입자 크기 및 전도도는 단량체 투입 속도, 개시제 농도와 안정제의 종류, 분자량 및 농도에 따라 변화하였다. 이는 도입 성분중 개시제와 안정제의 역할(친수성 정도, 분자량)에 따라 달라지는 것으로, 이에 따른 물성의 최적점을 찾을 수 있었다.