Patent application number | Description | Published |
20110085511 | Signal Encoding Method and Device, Method for Encoding Joint Feedback Signal - A signal encoding method and device and a method for encoding a joint feedback signal are provided. The signal encoding method includes the following steps. When two carriers are configured with multiple-input and multiple-output (MIMO), Hybrid Automatic Repeat Request-Acknowledgement (HARQ-ACK) signals of the two carriers are combined into a joint feedback signal. The joint feedback signal is mapped into a codeword according to a predetermined mapping relationship between signals and codewords. Therefore, through the method for combining and encoding feedback signals of two carriers for transmission on a code channel in a dual cell (DC)-MIMO mode, bit error ratio (BER) and detection error cost are decreased, power overhead is saved, and a cubic metric (CM) value of the system is not affected, thereby enhancing the performance of the system. | 04-14-2011 |
20110087945 | METHOD AND APPARATUS FOR ENCODING FEEDBACK SIGNAL - A method and apparatus for encoding feedback signals is provided. The method includes: encoding feedback signals of three carriers to output a bit sequence; and transmitting the bit sequence on a High Speed-Dedicated Physical Control Channel (HS-DPCCH). The step of encoding the feedback signals of the three carriers may specifically include: mapping the feedback signals of the three carriers into a codeword, in which the codeword can be selected from a codebook, and codewords in the codebook satisfy a particular code distance relationship. The method for jointly encoding feedback signals of three carriers in a Ternary Cell (TC) mode is provided. Feedback signals are transmitted over a single code channel. Therefore, power overhead is reduced, and system performance is improved. | 04-14-2011 |
20110188517 | METHOD AND APPARATUS FOR DETERMINING TRANSMIT POWER - A method and an apparatus for determining transmit power are disclosed. The method includes: determining an E-DPDCH gain factor in compressed mode according to the number of E-DPDCH required for initial transmission of data; and determining transmit power of E-DPDCH according to the E-DPDCH gain factor in compressed mode. The E-DPDCH gain factor in compressed mode is determined according to the number of E-DPDCH required for initial transmission of data, and therefore, the E-DPDCH gain factor in compressed mode is determined accurately, the transmit power of E-DPDCH is determined accurately according to the E-DPDCH gain factor, the waste of transmit power of E-DPDCH is reduced, and therefore the system capacity is improved. | 08-04-2011 |
20110317605 | Signal Encoding Method and Device, Method for Encoding Joint Feedback Signal - A signal encoding method and device and a method for encoding a joint feedback signal are provided. The signal encoding method includes the following steps. When two carriers are configured with multiple-input and multiple-output (MIMO), Hybrid Automatic Repeat reQuest-ACKnowledgement (HARQ-ACK) signals of the two carriers are combined into a joint feedback signal. The joint feedback signal is mapped into a codeword according to predetermined mapping relationship between signals and codewords. Therefore, through the method for combining and encoding feedback signals of two carriers for transmission on a code channel in a dual cell (DC)-MIMO mode, bit error ratio (BER) and detection error cost are decreased, power overhead is saved, and a cubic metric (CM) value of the system is not affected, thereby enhancing the performance of the system. | 12-29-2011 |
20150257140 | METHOD, NETWORK SIDE DEVICE AND USER EQUIPMENT OF VARIABLE BANDWIDTH - The present invention provides a method, network side device and user equipment of variable bandwidth. The method includes: configuring a first type carrier and a second type carrier, wherein a chip rate of the first type carrier is 3.8 Mcps, a chip rate of the second type carrier is P*3.84 Mcps, and P is smaller than 1 and larger than 0; using the first type carrier and/or the second type carrier for communication. In this way, since the chip rate of the second type carrier is low and occupied bandwidth is small, the second type carrier may be suitable for non-standard bandwidth, thus utilization efficiency of bandwidth may be improved and waste of the bandwidth may be reduced. | 09-10-2015 |
20150271804 | USER EQUIPMENT, BASE STATION AND METHOD FOR INFORMATION TRANSMISSION - The present invention discloses a user equipment, base station and method for information transmission. The method includes the following steps: receiving user data and a pilot signal of a first system sent by a first base station; generating feedback information according to the user data and the pilot signal, and sending the feedback information to a second base station through an uplink control channel of a second system. By means of the above-mentioned manner, in the present invention, the feedback information of the first system may be transmitted by the second system, in order to reduce power consumption and improve user experience. | 09-24-2015 |
20150280860 | CHANNEL QUALITY INDICATOR FEEDBACK METHOD AND APPARATUS, AND USER EQUIPMENT - Embodiments of the present invention provide a channel quality indicator feedback method and apparatus, and a user equipment, so as to improve accuracy of channel quality reflection. The method includes: acquiring a first channel quality indicator CQI | 10-01-2015 |
20150280879 | PILOT SIGNAL SENDING METHOD AND NETWORK SIDE DEVICE - A pilot signal sending method and a related network side device are disclosed. The method includes: sending a first pilot signal to a user equipment when it is detected that data needs to be sent on a data channel, where the first pilot signal is used by the user equipment to demodulate data sent by a network side device. | 10-01-2015 |
20150280889 | CHANNEL TIMING METHOD, APPARATUS, AND COMMUNICATION SYSTEM FOR MULTIFLOW TRANSMISSION - Embodiments of the present invention disclose a channel timing method and apparatus for multiflow transmission, where the method includes: configuring time reference information of a non-time reference cell in a case of multiflow transmission; and sending the time reference information to the non-time reference cell, so that the non-time reference cell obtains a high speed dedicated physical control channel (HS-DPCCH) timing by using the time reference information. According to the foregoing solution, time reference information of a non-time reference cell is configured at a higher layer, and is sent to a user equipment, so that the user equipment obtains a high speed dedicated physical control channel (HS-DPCCH) timing by using the time reference information, so that the UE can obtain correct timing relationships between the HS-DPCCH in the non-time reference cell and an uplink DPCH, and between the HS-DPCCH and an HS-PDSCH. | 10-01-2015 |
20150282209 | METHOD FOR GROUP SCHEDULING GRANT, USER EQUIPMENT AND RADIO NETWORK CONTROLLER - The present invention provides a method for group scheduling grant, a user equipment and a radio network controller. The method for group scheduling grant includes: reporting, by a UE, to an RNC a capability of the UE to support an uplink enhanced dedicated channel; receiving a configuration message transmitted by the RNC, where the configuration message carries an E-RNTI; where the E-RNTI carried in the configuration message includes an E-RNTI allocated to a group to which the UE belongs; monitoring, by the UE, a first channel by using the E-RNTI carried in the configuration message, and activating or deactivating an HARQ process according to an absolute grant received by the UE in the first channel. The present invention can reduce the utilization of E-AGCHs, improve the utilization efficiency of downlink code resources, and prevent the downlink throughput from being limited. | 10-01-2015 |