본 연구에서는 최근 패션산업 내에서 등장하였던 AR 사례들을 제품과 착용자, 공간을 기준으로 그리고 활용 목적 이나 용도를 기준으로 분류하여 분석하였다. 국내외 포털(구글, 네이버 등) 및 연구논문에서 분석되었던 패션산업 내에서의 AR기술 활용 사례들을 76개를 수집하여 분석하였다. 연구결과는 다음과 같다. 패션산업 내 AR 사례들은 제품 및 착용자, 공간의 측면에서 모두 실제 및 가상, 실제와 가상의 혼합 형태과 다양하게 활용되고 있었다. 활용 용도 측면에서도 디자인 및 상품개발, 마케팅 및 홍보, 패션쇼, 시착, 온라인 및 오프라인 판매 및 유통 등을 위해 다양하고 창의적으로 활용되고 있었다. 특히 AR 기술을 통해 패션제품의 범주, 패션쇼의 개념, 시착의 방식, 마케팅 과 홍보 툴, 판매 툴 등이 기존의 틀에서 더욱 창의적으로 확장되고 있음을 확인할 수 있었다. 향후 패션산업 내의 포용적 성장을 위해서 기술적 준비도나 자본, 연령 등에 따른 AR기술 활용 등의 디지털 격차를 해소하는데 정부 및 지자체, 대기업 등이 함께 그 방안을 마련해야 한다.

This study was carried out in order to provide suggestions with regard to optimal control methods for various odor emission facilities (162 companies and 26 industrial classifications) through comparative analysis of effective odor treatment technologies for each type of odor substance by literature reviews, based on measured 22 odor substance data for 162 samples taken from A city. The industrial classification of Pulp showed the highest odor quotient (7,589 as average value) and was followed by the industrial classifications of Wastewater, Woods, and Furniture, indicating average odor quotient values of 2,361, 1,396 and 1,392, respectively. Absorption using chlorine dioxide and sodium hydroxide can be an optimal treatment method to remove the odor substances of sulfide and aldehyde groups. Biofilers with microbial communities will be effective to remove odors caused by volatile organic compounds (VOCs) and an absorption method using sulfuric acid is proper for the removal of odor substances caused by nitrogens.

The technology of the SWG (Smart Water Grid) as one of most important national projects results in significant assignment that is closely associated with systematic management and effective operation. The individual component technics are required to establish directory and classification for the purpose of effectively managing their information related to research and development (R&D). The national science technology (S&T) standard classification tree which results in the representative example has been established with an intention to manage R&D information, human resource, and budget. It has been also revised every five years and then used in the various fields related to the evaluation, administration, and prediction of the national R&D projects. In addition, the standard classification system for R&D projects has been widely used in the UNESCO (United Nations Educational, Scientific and Cultural Organization) and EU (European Union) since the Frascati Manual was established in the Organization for Economic Cooperation and Development (OECD). Therefore, it is necessary for SWG techniques to develop the standard S&T classification tree for research management and evaluation. For this, it is essential to draw the core techniques for the SWG, which are incorporated with IT (Information Technology), NT (Nano Technology), and BT (Biology Technology).