• Title/Summary/Keyword: RFID code system

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Vocabularies for Defining Business Process of International Logistics (국제 물류 비즈니스 프로세스 정의를 위한 어휘 사전)

  • Lee, Jong-Yun;Lee, Sang-Ho;Bae, Woo-Sik;Lee, Sun-Young;Song, Byung-Jun
    • Proceedings of the Korean Information Science Society Conference
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    • 2007.10c
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    • pp.179-184
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    • 2007
  • EPCglobal 네트워크란 EPC(Electronic Product Code)와 RFID(Radio Frequency Identification) 기술을 바탕으로 제품에 식별번호를 부여하고 정보를 저장할 수 있는 공간을 네트워크로 연동하여 공급자, 수요자, 소비가 제품에 관련된 정보를 알 수 있게 해주는 시스템을 말한다. 또한 EPCglobal 네트워크 아키텍처 프레임워크(EPCglobal network architecture framework)는 EPC를 사용하여 공급과 유통망 강화라는 업체간의 공동 목표를 위한 서비스하는 것이다. EPCglobal 네트워크 아키텍처 중 EPCIS(EPC Information System) 수집 애플리케이션, EPCIS 접근 애플리케이션에서 이벤트 정의 시 공통적인 의사소통을 위한 표준 어휘 정의가 필수적이며, 그 어휘 종류에는 표준 어휘(standard vocabulary)와 사용자어휘(user vocabulary)가 있다. 이 논문은 이 가운데 EPCglobal 네트워크 아키텍처의 표준 어휘 정의에 초점을 두고, 사용자 어휘는 부분적으로 정의하고자 한다. 따라서 이 논문은 EPCglobal 네트워크 프레임 아키텍처의 이벤트 정의 시 사용될 표준 어휘를 제안하고, XML 구현을 통해 실제 사용 가능한 환경을 제공할 것이다.

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A Study on the Technology Development of User-based Home Automation Service (사용자 위치기반 홈오토메이션 서비스 기술 개발에 관한 연구)

  • Lee, Jung-Gi;Lee, Yeong-Seok
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.18 no.3
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    • pp.327-332
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    • 2017
  • As Internet of Things (IoT) technology advances, there is a growing demand for location-based services (LBSs) to identify users' mobility and identity. The initial LBS system was mainly used to measure position information by measuring the phase of a signal transmitted from a global positioning system (GPS) satellite or by measuring distance to a satellite by tracking the code of a carrier signal. However, the use of GPS satellites is ineffective, because it is difficult to receive satellite signals indoors. Therefore, research on wireless communications systems like ultra-wide band (UWB), radio frequency identification (RFID), and ZigBee are being actively pursued for location recognition technology that can be utilized in an indoor environment. In this paper, we propose an LBS system that includes the 2.45GHz band for chirp spread spectrum (CSS), and the 3.1-10.6GHz band and the 250-750MHz bands for UWB using the IEEE 802.15.4a standard for low power-based location recognition. As a result, we confirmed that the 2.45GHz Industrial, Scientific and Medical (ISM) band RF transceiver and the ranging function can be realized in the hardware and has 0dBm output power.

Development of IoT Searching System Missing Children by utilizing Open Source Hardware (오픈소스 하드웨어를 이용한 IoT 미아찾기 시스템)

  • Heo, Seong-Mu;Kim, Cha-Jong
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2016.10a
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    • pp.277-280
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    • 2016
  • Currently, systems for finding missing children are composed of using communication between a QR code and RFID chip, as the use of a smartphone. However, the current systems for finding missing children have limitations in that children can only be found if there are people in the surrounding area; there is an economic burden on parents required to purchase a smartphone for their children; along with difficulties in finding the missing children without the assistance of those in the surrounding area in critical situations such as a kidnapping, due to the limited duration of the battery life. In order to solve such problems, approaches need to be made from two perspectives: having someone in the surrounding area; and absence of anyone in the surrounding area. This thesis is centered on the development of a IoT (Internet of Things) system for finding missing children that combines two methods, namely, the method of finding missing children without a guardian in the surrounding area -within the limited space in which AP is installed by using a beacon and open source hardware being highlighted as the IoT technology - and the method of finding missing children with the smartphone application in which each individual becomes the Access Point (AP). The Main purpose is to provide accurate information of missing children's location for the 2situations and it is found that the accuracy of smartphones APP is 97.7% and security device AP is 91.1%.

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