Patent application number | Description | Published |
20160023399 | METHOD OF FORMING ALIGNED PATTERN IN PATTERN FORMATION REGION BY USING IMPRINT PROCESS - A method of forming a pattern by using an imprint process includes: forming an adhesion promoting layer only in a pattern formation region on a substrate; coating a resin to cover the substrate and the adhesion promoting layer; transferring a pattern of a stamp mold to the resin covering the substrate and the adhesion promoting layer, by pressing the stamp mold onto the resin; irradiating ultraviolet light onto the resin covering the substrate and the adhesion promoting layer, to cure the resin and form a pattern of the cured resin to correspond to the pattern of the stamp mold, on the substrate; and detaching the stamp mold from the substrate, to leave a portion of the cured resin pattern only on the adhesion promoting layer on the substrate and to remove a remaining portion of the cured resin pattern from the substrate. | 01-28-2016 |
20160023400 | METHOD OF TRANSFERRING REVERSE PATTERN BY USING IMPRINT PROCESS - A method of transferring a reverse pattern using an imprint process includes: preparing a master mold, where a first pattern is defined on a surface of the master mold; coating an imprint resin on the master mold to cover the first pattern; pressing the imprint resin toward the master mold using a stamp member; curing the imprint resin to form a second pattern between the master mold and the stamp member, where the second pattern has a reverse shape to a shape of the first pattern; detaching the stamp member from the master mold to separate the second pattern from the master mold; and transferring the second pattern onto a transfer substrate. | 01-28-2016 |
20160033818 | PATTERN STRUCTURE AND METHOD OF MANUFACTURING THE PATTERN STRUCTURE, AND LIQUID CRYSTAL DISPLAY DEVICE - A pattern structure includes a plurality of pattern structure units arranged on a same plane, where each of the plurality of pattern structure units includes a plurality of microstructures defined on a surface thereof and having a width of less than about 1 micrometer (μm); and a connection layer disposed between the plurality of pattern structure units and having a width of less than about 10 μm, where the connection layer connects the plurality of pattern structure units to each other. | 02-04-2016 |
20160054498 | PATTERN STRUCTURE AND METHOD OF MANUFACTURING THE PATTERN STRUCTURE - A pattern structure includes a plurality of pattern structure units arranged substantially on a same plane, where each of the pattern structure units has a first surface and a second surface, which are opposite to each other, and a microstructure is defined on the first surface of each of the pattern structure units, and a flattening layer disposed on the second surface of each of the plurality of pattern structure units, where the flattening layer connects the pattern structure units with each other, and a vertical step difference exists between second surfaces of the pattern structure units. | 02-25-2016 |
20160062132 | MASTER WAFER, METHOD OF MANUFACTURING THE SAME, AND METHOD OF MANUFACTURING OPTICAL DEVICE BY USING THE SAME - A master wafer includes: a plurality of unit wafers each including a pattern disposed thereon; a coupling surface defined on each of the unit wafers; and a coupling part which couples adjacent unit wafers among the plurality of unit wafers on which the coupling surface is defined, to each other. | 03-03-2016 |
Patent application number | Description | Published |
20090193408 | INTERFACE AND METHOD FOR INTERFACING ELEMENT MANAGEMENT SERVER IN WIRELESS TELECOMMUNICATION SYSTEM - Disclosed is an interface for interfacing an element management server in a wireless telecommunication system and a method for the same. The element management server for managing an ACR and an RAS, which are elements of the wireless telecommunication system, are adapted to interwork with the ACR and the RAS, respectively, so that the server can directly manage the ACR and the RAS and, particularly, the RAS can be operated more efficiently and maintained/repaired more quickly. The element management server manages the version of a package regarding all processors of lower elements and software to be loaded, and respective processors of the lower elements store nothing but their setup information (e.g. software, version) so that, if necessary, the element management server can transmit specific software only to the lower elements. This guarantees fast software download and provides users with stable services. | 07-30-2009 |
20100211629 | EXPANDABLE ELEMENT MANAGEMENT SYSTEM IN WIRELESS COMMUNICATION NETWORK - Disclosed is an expandable EMS that can efficiently manage an RAS and an ACR (i.e. network elements of a wireless communication network) and flexibly expand performance and functions of a system according to an increase in the elements. The expansible EMS of a wireless communication network, the expansible EMS including: an EMS application server for performing at least one of a configuration management function, a fault management function, a download management function, and a status management function for elements, in response to a command transmitted from an EMS client; and at least one EMS element interface server directly connected with the elements, the at least one EMS element interface server receiving a message and data from the elements and providing the received message and data to the EMS application server, wherein the EMS element interface server is separated from the EMS application server. | 08-19-2010 |
20100228843 | ELEMENT MANAGEMENT SYSTEM IN WIRELESS COMMUNICATION NETWORK - Disclosed are an element management system and a method thereof that efficiently manage network elements of a wireless communication network, such as an RAS and an ACR. According to the present invention, it is possible to efficiently manage an RAS and an ACR so as to provide a stable wireless communication service, by implementing an element management system for managing network elements of a wireless communication network. Further, it is possible to implement an EMS server, which has a modularized construction including modules, which correspond to functions of the EMS and are arranged in a physically separated manner, so as to facilitate future addition and change of functions of the EMS. Moreover, it is possible to reduce loads on an EMS server by efficiently implementing information transmission and control paths of an EMS server and an EMS client. | 09-09-2010 |
Patent application number | Description | Published |
20080298393 | METHOD FOR TRANSMITTING SIGNAL OF MEDIUM ACCESS CONTROL SUBLAYER IN MOBILE COMMUNICATION SYSTEM - A method for transmitting a signal of a medium access control sublayer in a mobile communication system which has mobile and base stations for providing a bearer service. A bearer service profile type is decided according to a bearer service combination type of the bearer service for the provision of the bearer service. A transport format indicator is set according to the decided bearer service profile type, and a transport format combination indicator is appended to a dedicated physical control channel. The most efficient data is transmitted on the basis of a service type and a measured radio environment result. Therefore, a data frame format most suitable to a channel environment can be produced, thereby providing the best service. | 12-04-2008 |
20090067406 | METHOD FOR BRANCHING DATA IN MOBILE COMMUNICATION TERMINAL - A method for branching data in a mobile communication terminal to perform data communication between a mobile station and a network which have media access control sublayers. In a data sending mode, each of the media access control sublayers of the mobile station and network attaches logical channel types based on traffic characteristic information and a radio bearer status to a media access control header contained in data to be sent. Then, each of the media access control sublayers branches the data to be sent, to transport channels corresponding to the attached logical channel types. In a data receiving mode, each of the media access control sublayers determines logical channels corresponding to logical channel types of a media access control header contained in received data. Then, each of the media access control sublayers branches the received data to the determined logical channels. Each of the media access control sublayers performs mapping and multiplexing/demultiplexing between logical channels and transport channels according to traffic characteristics to branch data. Therefore, it is possible to efficiently provide various multimedia and packet services. | 03-12-2009 |
20090092121 | METHOD FOR BRANCHING DATA IN MOBILE COMMUNICATION TERMINAL - A method for branching data in a mobile communication terminal to perform data communication between a mobile station and a network which have media access control sublayers. In a data sending mode, each of the media access control sublayers of the mobile station and network attaches logical channel types based on traffic characteristic information and a radio bearer status to a media access control header contained in data to be sent. Then, each of the media access control sublayers branches the data to be sent, to transport channels corresponding to the attached logical channel types. In a data receiving mode, each of the media access control sublayers determines logical channels corresponding to logical channel types of a media access control header contained in received data. Then, each of the media access control sublayers branches the received data to the determined logical channels. Each of the media access control sublayers performs mapping and multiplexing/demultiplexing between logical channels and transport channels according to traffic characteristics to branch data. Therefore, it is possible to efficiently provide various multimedia and packet services. | 04-09-2009 |
20090103514 | METHOD FOR BRANCHING DATA IN MOBILE COMMUNICATION TERMINAL - A method for branching data in a mobile communication terminal to perform data communication between a mobile station and a network which have media access control sublayers. In a data sending mode, each of the media access control sublayers of the mobile station and network attaches logical channel types based on traffic characteristic information and a radio bearer status to a media access control header contained in data to be sent. Then, each of the media access control sublayers branches the data to be sent, to transport channels corresponding to the attached logical channel types. In a data receiving mode, each of the media access control sublayers determines logical channels corresponding to logical channel types of a media access control header contained in received data. Then, each of the media access control sublayers branches the received data to the determined logical channels. Each of the media access control sublayers performs mapping and multiplexing/demultiplexing between logical channels and transport channels according to traffic characteristics to branch data. Therefore, it is possible to efficiently provide various multimedia and packet services. | 04-23-2009 |
20100290423 | METHOD FOR FORMATTING SIGNAL IN MOBILE COMMUNICATION SYSTEM - A method for formatting a signal in a mobile communication system by appending a plurality of medium access control headers to a plurality of medium access control-service data units for data transfer between a mobile station and network in the mobile communication system. If the service data units have the same characteristics, a medium access control-protocol data unit is formed by successively coupling the service data units to any one of the medium access control headers. If the service data units have different characteristics, the protocol data unit is formed by sequentially coupling each of the service data units and each of the medium access control headers. The formed protocol data unit is then transformed into a transport block with a predetermined size. A medium access control sublayer formats medium access control-protocol data units according to transport channel characteristics in peer-to-peer communication in such a manner that the protocol data units can have different formats with respect to different transport channels. This makes it possible to provide more efficient functions. | 11-18-2010 |
20130148606 | METHOD FOR FORMATTING SIGNAL IN MOBILE COMMUNICATION SYSTEM - A method for formatting a signal in a mobile communication system by appending a plurality of medium access control headers to a plurality of medium access control-service data units for data transfer between a mobile station and network in the mobile communication system. If the service data units have the same characteristics, a medium access control-protocol data unit is formed by successively coupling the service data units to any one of the medium access control headers. If the service data units have different characteristics, the protocol data unit is formed by sequentially coupling each of the service data units and each of the medium access control headers. The formed protocol data unit is then transformed into a transport block with a predetermined size. A medium access control sublayer formats medium access control-protocol data units according to transport channel characteristics in peer-to-peer communication in such a manner that the protocol data units can have different formats with respect to different transport channels. This makes it possible to provide more efficient functions. | 06-13-2013 |