Patent application number | Description | Published |
20090213800 | Device and Method for Controlling State in Cellular System - A terminal state controlling method and apparatus are provided. The terminal state includes a connected state and an idle state, and the connected state includes an active state and a dormant state. The active state includes a scheduling-ON state and a scheduling-OFF state. In the state controlling apparatus, a radio resource control (RRC) layer controls a transition between the active state and the dormant state, and a media access control (MAC) layer controls a transition between the scheduling-ON state and the scheduling-OFF state. | 08-27-2009 |
20100034145 | METHOD FOR RECEIVING PACKET IN MOBILE COMMUNICATION SYSTEM - Provided is a method of receiving a packet in a mobile communication system. According to a type of service provided in the present invention and activity of packet service, a mobile station operates in an operation level among DRX (discontinuous reception) operation levels that are based on operation parameters of different values and receives a packet. This results in performing efficient power consumption such that it is possible to minimize power consumption. | 02-11-2010 |
20100110879 | METHOD AND APPARATUS FOR PROVIDING MULTIMEDIA BROADCAST MULTICAST SERVICE - Provided are a method and an apparatus for providing a multimedia broadcast multicast service. The method for providing a multimedia broadcast multicast service (MBMS) in a base station includes determining the number of terminals receiving the MBMS and determining a unit-cell or multi-cell transmission scheme by comparing predetermined unit-cell and multi-cell thresholds with the determined number of terminals. | 05-06-2010 |
20100136987 | WIRELESS COMMUNICATION SYSTEM WITH PROTOCOL ARCHITECTURE FOR IMPROVING LATENCY - The present invention relates to a wireless communication system having protocol architecture for reducing latency of a cellular system. In the protocol architecture of the wireless communication system in the cellular system, a physical layer supports wireless transmission of the cellular system and estimates a radio channel condition. A data link layer determines a data transmission mode based on a QoS of user data and the radio channel condition estimated by the physical layer and performs segmentation and assembly of the packet data, and a network layer establishes and releases a radio bearer for transmitting packet data transmitted from the data link layer and a control command. A control service access point is provided for control information transmission between the data link layer and the physical layer. | 06-03-2010 |
20100316016 | APPARATUS AND METHOD FOR RANDOM ACCESS IN CELLULAR SYSTEM - Disclosed is a method and apparatus for RA in a cellular system. The RA in the cellular system includes receiving an RA preamble from a terminal for RA, transmitting, to the terminal, an RA response message including a sequence of the received RA preamble and uplink resource information of the terminal and overload state information with respect to the RA, receiving control information generated based on the RA response message from the terminal through the uplink resource information, and transmitting control response information with respect to the received control information. | 12-16-2010 |
20110194480 | METHOD AND DEVICE FOR MANAGING OF MULTICAST AND BROADCAST SERVICE - A method for managing a multicast and broadcast service in a base station according to an embodiment of the present invention includes: transmitting a multicast and broadcast service control channel to a terminal; transmitting an indicator channel for indicating a change of the multicast and broadcast service control channel by using a unicast control channel when the multicast and broadcast service control channel is changed, to the terminal; and transmitting the changed multicast and broadcast service control channel to the terminal. | 08-11-2011 |
20110194643 | LAYERED TRANSMISSION APPARATUS AND METHOD, RECEPTION APPARATUS AND RECEPTION METHOD - A layered transmission apparatus for transmitting information regarding a plurality of layers includes: a plurality of coding units configured to code an information bit of a corresponding layer to generate code bits; a plurality of bit interleaving units configured to bit-interleave a corresponding code bit to generate interleaved symbols; a modulation unit configured to classify the plurality of layers into a plurality of layer groups, and modulate the plurality of the interleaved symbols corresponding to each of the layer groups to generate a modulation symbol of each of the layer groups; a gain control unit configured to control the gain of the modulation symbol of each of the layer groups; and an adding unit configured to add the gain-controlled modulation symbols of the plurality of layer groups to generate a transmission symbol. A reception apparatus includes: a symbol metric estimation unit configured to estimate a symbol metric of a layer transmission signal received from a layered transmission apparatus; a plurality of bit metric calculation units configured to calculate a bit metric corresponding to an interleaved bit generated from the layered transmission apparatus based on the estimated symbol metric; a plurality of deinterleaving units configured to calculate a code bit metric based on the bit metric; a plurality of layer symbol metric calculation units, configured to calculate a symbol metric of the corresponding layer based on the code bit metric of the corresponding layer; and a plurality of decoding units, configured to decode an information bit of the corresponding layer based on the symbol metric of the corresponding layer. | 08-11-2011 |
20110194645 | LAYERED TRANSMISSION APPARATUS AND METHOD, RECEPTION APPARATUS, AND RECEPTION METHOD - A layered transmission apparatus for transmitting information regarding a plurality of layers includes: a plurality of coding units, which correspond to each of the plurality of layers, configured to code an information bit of a corresponding layer to generate code bits; a plurality of symbol interleaving units, which correspond to each of the plurality of coding units, configured to symbol-interleave the code bit of a corresponding coding unit to generate an interleaved symbol; a modulation unit configured to classify the plurality of layers into a plurality of layer groups, and modulate the interleaved symbol corresponding to each of the layer groups to generate a modulation symbol of each of the layer groups; a gain control unit configured to control the gain of the modulation symbol of each of the layer groups; and an adding unit configured to add the gain-controlled modulation symbols of the plurality of layer groups to generate a transmission symbol. | 08-11-2011 |
20110194653 | RECEIVER AND RECEPTION METHOD FOR LAYERED MODULATION - A receiver for receiving a layer-modulated signal includes: a base layer decoding unit configured to calculate a bit metric including code bit information of a base layer based on the reception signal and decode an information bit of the base layer; and at least one enhancement layer decoding unit configured to decode an information bit of an upper layer of a lower layer based on the decoding results of the lower layer, wherein the base layer decoding unit and the at least one enhancement layer decoding unit are sequentially connected according to the order of the corresponding layers. | 08-11-2011 |
20110195658 | LAYERED RETRANSMISSION APPARATUS AND METHOD, RECEPTION APPARATUS AND RECEPTION METHOD - A retransmission apparatus for retransmitting information received from a base station to a reception apparatus includes: a reception unit configured to receive information regarding a plurality of layers from the base station; determining unit configured to determine retransmission control information including at least one layer to be retransmitted among the plurality of layers based on feedback information received from the reception apparatus; and a transmission unit configured to retransmit the at least one layer information to the reception apparatus based on the results of the determining unit. | 08-11-2011 |
20110206158 | TRANSMITTER AND METHOD FOR TRANSMITTING MULTIPLE INPUT MULTIPLE OUTPUT AND RECEIVER AND METHOD FOR RECEIVING MULTIPLE INPUT MULTIPLE OUTPUT - A transmitter that transmits data using a multiple antenna includes a multiple description coder that generates a plurality of descriptions by performing multiple description coding of the data, and a multiple input multi output (MIMO) transmitting unit that performs channel coding of the plurality of descriptions and that transmits a description in which channel coding is performed through the multiple antenna. | 08-25-2011 |
20120155464 | COMMUNICATION NODE AND COMMUNICATION METHOD - A communication node that requests and receives data contents is provided. The communication node broadcasts a first type of interest packet and receives one or more response packets in response thereto. The communication node selects one node among one or more nodes that have transmitted response packets, transmits a second type of interest packet to the selected node, and receives data contents from the selected node. | 06-21-2012 |
20130198369 | METHOD AND APPARATUS FOR MAPPING LOCATOR AND IDENTIFIER OF MOBILE HOST - Disclosed are a method and an apparatus for mapping a locator and an identifier of a host by using an administrative domain identifier. | 08-01-2013 |
20130336365 | APPARATUS AND METHOD FOR MODULATING DATA MESSAGE BY EMPLOYING ORTHOGONAL VARIABLE SPREADING FACTOR (OVSF) CODES IN MOBILE COMMUNICATION SYSTEM - A method for converting source data to a channel-modulated signal having a plurality of pairs of in-phase (I) and quadrature-phase (Q) data in a mobile station, wherein the mobile station uses at least one channel, includes the steps of: a) encoding the source data to generate at least one data part and a control part; b) generating at least one spreading code to be allocated to the channel, wherein each spreading code is selected on the basis of a data rate of the data part and the control part and spreading codes are selected so that two consecutive pairs of the I and Q data are correspondent to two points located on same point or symmetrical with respect to a zero point on a phase domain; and c) spreading the control part and the data part by using the spreading code, to thereby generate the channel-modulated signal. | 12-19-2013 |
20140098819 | CONVERGENCE NETWORK BASED ON IDENTIFIER AND COMMUNICATION METHOD USING THE SAME - A convergence network based on an identifier and a communication method using the same are provided. The convergence network based on the identifier includes an underlying network including a plurality of communication entities and an access router configured to separate IDs and locators of the communication entities; at least one domain network configured in an overlay form using the access router, and configured to have a different identifier based on a communication type or a service type; and a global name server GNS configured to register an identifier for identifying each of a communication entities and a domain network. The communication entities communicate over the at least one domain network using the identifier. | 04-10-2014 |
20140126611 | ORTHOGONAL COMPLEX SPREADING METHOD FOR MULTICHANNEL AND APPARATUS THEREOF - An orthogonal complex spreading method for a multichannel and an apparatus thereof are disclosed. The method includes the steps of complex-summing α | 05-08-2014 |
20140247788 | METHOD FOR PAGING INFORMATION IN CELLULAR SYSTEM - Provided is a method for transmitting paging information in a cellular system. An object of the method is transmitting paging information which can improve applicability of a limited radio resource by variably and flexibly setting up and mapping a transport channel and a physical channel in order to transmit information notifying start of downlink information from a base station to a terminal in a cellular system for packet transmission. The method includes the steps of: forming a paging channel (PCH) in a transport channel corresponding to generation of paging information; setting a paging indication channel (PICH) based on the paging information and forming the paging indication channel in a radio resource of a physical layer; and allocating the paging channel to the radio resource of the physical layer. | 09-04-2014 |
20150030055 | APPARATUS AND METHOD FOR MODULATING DATA MESSAGE BY EMPLOYING ORTHOGONAL VARIABLE SPREADING FACTOR (OVSF) CODES IN MOBILE COMMUNICATION SYSTEM - A method for converting source data to a channel-modulated signal having a plurality of pairs of in-phase (I) and quadrature-phase (Q) data in a mobile station, wherein the mobile station uses at least one channel, includes the steps of: a) encoding the source data to generate at least one data part and a control part; b) generating at least one spreading code to be allocated to the channel, wherein each spreading code is selected on the basis of a data rate of the data part and the control part and spreading codes are selected so that two consecutive pairs of the I and Q data are correspondent to two points located on same point or symmetrical with respect to a zero point on a phase domain; and c) spreading the control part and the data part by using the spreading code, to thereby generate the channel-modulated signal. | 01-29-2015 |
Patent application number | Description | Published |
20090097580 | Apparatus and Method For Modulating Data Message By Employing Orthogonal Variable Spreading Factor (OVSF) Codes In Mobile Communicating System - A method for converting source data to a channel-modulated signal having a plurality of pairs of in-phase (I) and quadrature-phase (Q) data in a mobile station, wherein the mobile station uses at least one channel, includes the steps of: a) encoding the source data to generate at least one data part and a control part; b) generating at least one spreading code to be allocated to the channel, wherein each spreading code is selected on the basis of a data rate of the data part and the control part and spreading codes are selected so that two consecutive pairs of the I and Q data are correspondent to two points located on same point or symmetrical with respect to a zero point on a phase domain; and c) spreading the control part and the data part by using the spreading code, to thereby generate the channel-modulated signal. The method is capable of improving a power efficiency of a mobile station by reducing a peak-to-average power ratio in a mobile communication system. | 04-16-2009 |
20090285265 | APPARATUS AND METHOD FOR MODULATING DATA MESSAGE BY EMPLOYING ORTHOGONAL VARIABLE SPREADING FACTOR (OVSF) CODES IN MOBILE COMMUNICATION SYSTEM - A method for converting source data to a channel-modulated signal having a plurality of pairs of in-phase (I) and quadrature-phase (Q) data in a mobile station, wherein the mobile station uses at least one channel, includes the steps of: a) encoding the source data to generate at least one data part and a control part; b) generating at least one spreading code to be allocated to the channel, wherein each spreading code is selected on the basis of a data rate of the data part and the control part and spreading codes are selected so that two consecutive pairs of the I and Q data are correspondent to two points located on same point or symmetrical with respect to a zero point on a phase domain; and c) spreading the control part and the data part by using the spreading code, to thereby generate the channel-modulated signal. The method is capable of improving a power efficiency of a mobile station by reducing a peak-to-average power ratio in a mobile communication system. | 11-19-2009 |
20120114017 | Apparatus and Method for Modulating Data Message By Employing Orthogonal Variable Spreading Factor (OVSF) Codes in Mobile Communication System - A method for converting source data to a channel-modulated signal having a plurality of pairs of in-phase (I) and quadrature-phase (Q) data in a mobile station, wherein the mobile station uses at least one channel, includes the steps of: a) encoding the source data to generate at least one data part and a control part; b) generating at least one spreading code to be allocated to the channel, wherein each spreading code is selected on the basis of a data rate of the data part and the control part and spreading codes are selected so that two consecutive pairs of the I and Q data are correspondent to two points located on same point or symmetrical with respect to a zero point on a phase domain; and c) spreading the control part and the data part by using the spreading code, to thereby generate the channel-modulated signal. | 05-10-2012 |