Abstract:
A user library is called from an existing document writer (6), and, if there has occurred no error in calling the user library, the library is converted to a TDS (a document which can be easily processed by the program). If the document pertains to the intended one, it is encoded, and, if the intended data for the page is found, then it is encoded. If the intended data for the block is found, then it is encoded, and, if the final data is the desired one, then it is encoded. With the method, the existing document editing apparatus can be used as a mixed terminal without adding modifications.
Abstract:
Mixed documents are read by receiving them through a communication receiving module (6), and then, the ODIF (the document interchange form) is interpreted. Then a conversion is made to a TDS (internal data which can be processed by the program), and then, the TDS is processed to output them in the form of images. With the method, the greater part of picture data is not stored in the picture memory, but is stored in an auxiliary memory, and therefore, the bulk of memory is reduced.
Abstract:
NFC 무선기술기반 IPv6 패킷전송방법및 이를수행하는장치가개시된다. 일실시예에따른 NFC 무선기술기반 IPv6 패킷전송방법은 IPv6 패킷을 LLCP(Logical Link Control Protocol(LLCP))를통해수신하고, 상기 IPv6 패킷을상기 LLCP의 I PDU(Information Field in Protocol Data Unit)로전송하는단계와, 상기 IPv6 패킷을 NFC 기반 IPv6를위한적응계층을통해전송하는단계를포함하고, 상기 I PDU의최대옥텟수는 MTU(Maximum Transfer Unit)에기초하여결정될수 있다.
Abstract:
소프트웨어 정의 네트워킹 환경에서 네트워크 서비스 체인의 정형 검증 기술이 개시된다. 일 실시예에 따르면, 네트워크 서비스 체인의 정형 검증을 위한 검증 지원 장치는 응용 프로그램으로부터 네트워크 서비스 체인(Network Service Chain) 기술 정보를 수신하는 NSC 기술정보 수신부, 수신된 네트워크 서비스 체인 기술 정보를 이용하여 복수의 네트워크 서비스들 간의 네트워크 서비스 체인을 구성하는 NSC 구성부 및 구성된 네트워크 서비스 체인 상의 각 네트워크 서비스에 대하여 정형 검증부에 정형 검증을 요청하는 검증 요청부를 포함할 수 있다.
Abstract:
본발명은 IP 기반의슬립모드제어방법에관한것으로서, 적어도하나이상의 IP 기반망내호스트, 상기 IP 기반호스트들의통신을관장하는망내라우터로구성되는슬립모드제어망, 상기슬립모드제어망에접속되는외부라우터및 상기외부라우터를통해접속되는 IP 기반의외부호스트로구성된네트워크에서, 망내호스트들중 어느하나로부터슬립모드가요청되는경우의슬립모드제어방법을제공하고, 망내라우터의요구에따라슬립모드제어망 내의망내호스트들이일괄적으로슬립모드로설정될수 있도록하며, 슬립모드제어망의망내호스트들에대한슬립상태정보를제공받지못한외부호스트들로부터외부라우터를통해통신요청이있을경우에도효율적으로대응할수 있도록하는 IP 기반의슬립모드제어방법을제공하는것을요지로한다.
Abstract:
The present invention relates to an information service system and, more particularly, to an information service system using direct communication among vehicle-mounted devices, capable of establishing a machine-to-machine (M2M)-based intelligent transport system (ITS), providing information regarding a vehicle from a roadside device, collecting information from a vehicle, and transmitting and collecting information using direct communication among vehicles. The present invention provides an information service system using direct communication among vehicles, whereby information is provided to a vehicle-mounted device via a roadside device and transmitted using direct communication the among vehicle-mounted devices, information is collected from vehicle-mounted devices via a roadside device and provided to a server, and the vehicle-mounted devices are allocated a credit according to transmission and provision of information provided from the server and receive required information from the server using the credit.
Abstract:
The present invention relates to a machine-to-machine communication system providing multiple transmission paths and a driving method thereof. The machine-to-machine communication system according to the present invention includes: an M2M device which collects transmission path information and supplies the collected information to an M2M server; and the M2M server which transmits QoS and request information to the M2M device based on the transmission path information. [Reference numerals] (AA) IF(emergency&small amount of data) ; Cost = error rate; (BB) IF(non-emergency and large amounts of data) : Cost = (1/transfer rate)^ * price; (CC) Accident, rescue request path navigation, traffic information; (DD) Update a black box backup map; (EE) Fee: \1.7/Kb; (FF) Transfer speed: 3 Mbps; (GG) Error rate: 0.1%; (HH) Fee: \0.5/Kb; (II) Transfer speed: 54 Mbps; (JJ) Error rate: 3%
Abstract:
PURPOSE: A heterogeneous network interworking apparatus and a method thereof are provided to easily interwork between heterogeneous networks by using a common semantic model. CONSTITUTION: A controller (101) classifies a control interface about a virtual network which was established in advance according to class. A processor (103) converts each control interface which is classified according to class into a common semantic model. The processor extracts a changeable range from a language related to a target interface for conversion. The processor converts the each control interface into the common semantic model by converting the version of the extracted changeable range according to a conversion rule. [Reference numerals] (101) Controller; (103) Processor