This study presents an ultrasonic location awareness system for the ubiquitous computing with absolute position. The flight time of ultrasonic waves is determined by a period detecting technique which is able to extend the sensing range compared with traditional methods. For location awareness, ultrasonic waves are sent successively from each ultrasonic transmitter and synchronized by radio frequency (RF) signal, where the transmitting part is fixed and the receiving part is movable. To expand the recognizing range, cell matching technique and coded ultrasonic technique are introduced. The experimentation for various distances is accomplished to verify the used period detecting technique of U-SAT system. The positioning accuracy by using cell matching is also verified by finding the locations of settled points and the usability of coded ultrasonic technique is verified. As a result, the possibility of ultrasonic location awareness system for the ubiquitous computing can be discussed as a pseudo-satellite system with low cost, a high update rate, and relatively high precision, in the places where CPS is not available.
부분 의미 분석 시스템은 문장의 구성 요소들이 술어와 갖는 관계를 분석하는 것으로 문장에서 술어의 주체, 객체, 도구 등을 나타내는 의미 논항을 확인하게 된다. 본 논문에서 개발한 부분 의미 분석 시스템은 두 단계로 구성되어 있는데, 먼저 부분 구문 분석 결과로부터 의미 논항의 경계를 찾는 의미 논항 확인 단계를 수행하고 다음으로 확인된 의미 논항에 적절한 의미역을 부착하는 의미역 할당 단계를 수행한다. 순차적인 두 단계 방법을 적용하는 것에 의해서, 학습 성능 저하의 주요한 원인인 클래스 분포의 불균형 문제를 완화할 수 있고, 각 단계에 적합한 자질을 선별하여 사용할 수 있다. 본 논문에서는 PropBank 말뭉치에 기반한 CoNLL-2004 shared task의 데이터 집합 및 평가 프로그램을 사용하여 각 단계가 시스템의 전체 성능에 기여하는 정도를 보인다. A shallow semantic parsing system analyzes the relationship that a syntactic constituent of the sentence has with a predicate. It identifies semantic arguments representing agent, patient, instrument, etc. of the predicate. In this study, we propose a two-phase shallow semantic parsing model which consists of the identification phase and the classification phase. We first find the boundary of semantic arguments from partial syntactic parsing results, and then assign appropriate semantic roles to the identified semantic arguments. By taking the sequential two-phase approach, we can alleviate the unbalanced class distribution problem, and select the features appropriate for each task. Experiments show the relative contribution of each phase on the test data.
Mobile IPv6에서 이동노드가 서브넷 사이를 이동할 때 핸드오버 처리가 필요하며 그로인한 지연시간이 문제가 되고 있다. 이러한 핸드오버 지연시간을 줄이기 위해서, IETF의 Mipshop 워킹그룹에서, 이동할 서브넷에 사용될 이동노드의 새로운 주소의 생성과 검증을 2계층 핸드오버 이전에 수행하는 Fast Handover(FMIPv6)을 연구하여 핸드오버 지연시간을 줄였다. 그러나 FMIPv6 또한 이동한 후에 홈에이전트와 상대노드에게 이동을 알려야 하기 때문에, 등록 지연시간은 여전히 존재하게 된다. 본 논문은 FMIPv6을 기반으로 하여 홈에이전트에게 새로운 주소에 대한 바인딩 갱신을 수행할 때까지의 지연시간을 단축시키는 방법을 제안한다. FMIPv6 과정에서 사용되는 Fast Binding Upate(FBU) 메시지에 홈에이전트로의 임시 바인딩 갱신 메시지를 인캡슐하여 전송함으로써 2계층 핸드오버 수행과정 동안에 미리 홈에이전트에게 바인딩 갱신을 하는 방법이다. 본 논문은 성능평가를 위하여 핸드오버시의 시그널링 비용과 전송비용을 비교 분석하였으며, 성능평가를 통하여 제안하는 방법이 FMIPv6보다 핸드오버 지연시간을 단축시켜 핸드오버 성능을 약 21% 향상시킬 수 있음을 보여준다. In Mobile IPv6, a handover latency is an important issue. To reduce the handover latency, mipshop working group in IETF has studied the fast handover(FMIPv6) which creates and verifies a new care-of address(NCoA) in advance before a layer 2 handover resulting in reduced handover latency. Even in FMIPv6, the NCoA must be registered in a home agent(HA). This registration still creates a significant amount of delay. To reduce registration latency, we propose a tentative and early binding update(TEBU) scheme that the NCoA is registered in the HA in advance during the layer 2 handover based on FMIPv6. We use cost analysis for the performance evaluation. As a result, we found that the TEBU scheme guarantees lower handover latency than FMIPv6 as much as approximately 21%.
Mobile IP는 노드의 이동성을 제공함으로써 보다 향상된 서비스를 제공해 준다. Mobile IP에서 이동노드는 이동시마다 홈 주소와 외부 네트워크에서의 주소를 바인딩 하기 위한 메시지를 홈에이전트에게 보내야 한다. 이러한 이동관리 메시지는 노드 자체의 처리비용과 네트워크상의 많은 트래픽을 유발할 수 있다. Paging Hierarchical Mobile IPv6(PHMIPv6)는 위치 관리 비용을 줄이기 위해 Hierarchical Mobile IPv6 (HMIPv6) 환경에서 페이징 기법을 적용하여 이동노드의 상태를 고려한 위치 관리를 수행한다. PHMIPv6에서 이동노드는 통신 중이지 않을 경우 도메인 내부에서 이동을 하여도 위치 바인딩 메시지를 보내지 않음으로써 위치 관리에 사용되는 비용을 절약할 수 있다. 그러나 외부에서 패킷이 도착 시 수행하는 페이징 메카니즘의 비용이 크기 때문에 상황에 따라 많은 위치 관리 비용이 발생할 수 있다. 본 논문에서는 PHMIPv6의 문제점을 분석하고 이동관리 시그널을 줄이기 위한 방안을 제안한다. 제안방안은 효율적으로 페이징 시그널을 줄임으로써 전체적인 위치 관리 비용을 줄이게 되고, 서브넷 수에 의존하지 않고 동작함으로써 HMIPv6 보다 약 50% 정도의 성능향상을 보였다. The Mobile IPv6 provides the enhanced internet services to user by supporting a node's mobility. In Mobile IPv6(MIPv6), the mobile node sends the binding message which binds home address(HoA) with care-of address(CoA) to the home agent whenever it changes its point of attachment to the internet. To reduce the mobility management signal message the Paging Hierarchical Mobile IPv6(PHMIPv6) is proposed. The mobile node does not send the binding message within the domain if the mobile node's state is idle. Therefore the mobility signal message cost can be reduced. However, when the mobile node's session arrival rate is high the many mobility management signal cost are needed because the paging cost is very high. In this paper, we analysis the drawback of PHMIPv6 and propose the scheme which can reduce the mobility management signal cost. The proposed scheme works independent of the number of subnet in the domain. Therefore the proposed scheme can improve the mobile node's mobility management scheme.
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