Patent application number | Description | Published |
20120157109 | BANDWIDTH CONFIGURATION METHOD, DEVICE, AND SYSTEM - A bandwidth configuration method includes: A terminal acquires that a narrow bandwidth mode is used at a network side by a downlink transmission signal and/or an uplink transmission signal; and the terminal configures a receiving bandwidth and/or a transmitting bandwidth, where the receiving bandwidth and/or the transmitting bandwidth corresponds to the narrow bandwidth mode at the network side. The terminal side can acquire whether the network side uses the narrow bandwidth technology, and automatically adjust a bandwidth of a corresponding channel at the terminal side when the network side uses the narrow bandwidth technology, so that intra-system performance loss and inter-system interference that are caused by different bandwidth modes between the terminal side and the network side are avoided, thus improving performance of a communication system. | 06-21-2012 |
20120244897 | INTERFERENCE ELIMINATION METHOD AND APPARATUS FOR MULTI-ANTENNA SYSTEM - Embodiments of the present invention disclose an interference elimination method and apparatus for a multi-antenna system. The method includes: generating an equalization coefficient according to a baseband signal received on a receiving antenna, a channel estimation matrix, and an obtained cross-correlation matrix of transmitted signals of a downlink channel on multiple transmit antennas; and performing interference elimination processing on the baseband signal according to the equalization coefficient. | 09-27-2012 |
20120254564 | Managing High Speed Memory - A mechanism is provided for managing a high speed memory. An index entry indicates a storage unit in the high speed memory. A corresponding non-free index is set for a different type of low speed memory. The indicated storage unit in the high speed memory is assigned to a corresponding low speed memory by including the index entry in the non-free index. The storage unit in the high speed memory is recovered by demoting the index entry from the non-free index. The mechanism acquires a margin performance loss corresponding to a respective non-free index in response to receipt of a demotion request. The margin performance loss represents a change in a processor read operation time caused by performing a demotion operation in a corresponding non-free index. The mechanism compares the margin performance losses of the respective non-free indexes and selecting a non-free index whose margin performance loss satisfies a demotion condition as a demotion index. The mechanism selects an index entry from the demotion index to perform the demotion operation. | 10-04-2012 |
20130262794 | Managing High Speed Memory - A mechanism is provided for managing a high speed memory. An index entry indicates a storage unit in the high speed memory. A corresponding non-free index is set for a different type of low speed memory. The indicated storage unit in the high speed memory is assigned to a corresponding tow speed memory by including the index entry in the non-free index. The storage unit in the high speed memory is recovered by demoting the index entry from the non-free index. The mechanism acquires a margin performance loss corresponding to a respective non-free index in response to receipt of a demotion request. The mechanism compares the margin performance losses of the respective non-free indexes and selecting a non-free index whose margin performance loss satisfies a demotion condition as a demotion index and selects an index entry from the demotion index to perform the demotion operation. | 10-03-2013 |
20130345294 | Light-Switchable Gene Expression System - Provided is a light-switchable gene expression system, comprising: a) a recombinant light-switchable transcription factor-encoding gene, said recombinant light-switchable transcription factor comprising a first polypeptide as the DNA bonding domain, a second polypeptide as the photosensitive domain, and a third polypeptide as the transcription regulatory domain; b) a target transcription unit comprising at least one reaction element recognized and bound by the first polypeptide, a promoter regulated by the third polypeptide and a nucleotide sequence to be transcribed. Also provided is an eukaryotic expression vector comprising said light-switchable gene expression system, and a method for regulating gene expression in a host cell by using the light-switchable gene expression system. Also provided is a reagent kit containing different elements of the light-switchable gene expression system. The light-switchable gene expression system has a quick, effective and powerful induction with little or no toxicity. It is safer than other inducers, and can spatiotemporally control gene expression. | 12-26-2013 |
20140169331 | Method and Device for Power Control of High Speed Dedicated Physical Control Channel - The present invention provides a method and a device for power control of a High Speed Dedicated Physical Control Channel (HS-DPCCH). If a User Equipment (UE) is in a soft handover state and configured to a multi-flow transmission mode, the UE obtains a first HS-DPCCH power offset and an HS-DPCCH adjustment step size that are corresponding to each cell group in all cell groups of the UE. The UE determines a second HS-DPCCH power offset of the cell group according to the HS-DPCCH adjustment step size and the first HS-DPCCH power offset. The UE adjusts current transmit power of the HS-DPCCH according to the second HS-DPCCH power offset of the cell group. | 06-19-2014 |
20140204862 | SIGNALING TRANSMITTING METHOD, USER EQUIPMENT, AND BASE STATION - The present invention provides a signaling transmitting method, a user equipment and a base station. In the present invention, a first DPCCH is transmitted to a base station over an uplink main carrier, where information borne over the first DPCCH at least includes: first Pilot information, downlink TPC information, and the downlink TPC is at least used for the base station to perform power control on a downlink main carrier; and a second DPCCH is transmitted to the base station over an uplink secondary carrier, where the second DPCCH is used to bear uplink signaling, and the uplink signaling is second Pilot information, or, the uplink signaling is the second Pilot information and TFCI information, or, the uplink signaling is the second Pilot information and FBI information, or, the uplink signaling is the second Pilot information, the TFCI information and the FBI information. | 07-24-2014 |
20140324774 | TECHNIQUES FOR MANAGING A DATA REPLICATION MODE - A technique for managing a data replication mode between a primary storage device and a secondary storage device includes in response to a data replication state between the primary storage device and the secondary storage device satisfying a first predetermined condition, selecting at least one candidate logical unit from a plurality of logical units implementing synchronous replication in the primary storage device at least according to priority information of the plurality of logical units. A data replication mode of the at least one candidate logical unit is then modified from synchronous replication to asynchronous replication. | 10-30-2014 |
20140329718 | Nicotinamide Adenine Dinucleotide Gene Encoding Fluorescent Probe, Preparation Method Therefor and Application Thereof - The invention relates to a genetically encoded fluorescent sensor for nicotinamide adenine dinucleotide, as well as methods of preparation and uses thereof. In one aspect, this invention relates to a sensor for detecting nicotinamide adenine dinucleotide, particularly, a recombinant fluorescent fusion protein sensor for detecting nicotinamide adenine dinucleotide. In one specific aspect, this invention relates to a recombinant fluorescent fusion protein sensor for detecting reduced nicotinamide adenine dinucleotide (NADH); in another specific aspect, this invention relates to a recombinant fluorescent fusion protein sensor for detecting oxidized nicotinamide adenine dinucleotide (NAD | 11-06-2014 |
20140337292 | Managing High Speed Memory - A mechanism is for managing a high speed memory. An index entry indicates a storage unit in the high speed memory. A corresponding non-free index is set for a different type of low speed memory. The indicated storage unit in the high speed memory is assigned to a corresponding low speed memory by including the index entry in the non-free index. The storage unit in the high speed memory is recovered by demoting the index entry from the non-free index. The mechanism acquires a margin performance loss corresponding to a respective non-free index in response to receipt of a demotion request. The margin performance loss represents a change in a processor read operation time caused by performing a demotion operation in a corresponding non-free index. The mechanism compares the margin performance losses of the respective non-free indexes and selecting a non-free index whose margin performance loss satisfies a demotion condition as a demotion index. The mechanism selects an index entry from the demotion index to perform the demotion operation. | 11-13-2014 |
20140341162 | Method and Apparatus for Selecting Transport Format - A method and an apparatus for selecting a transport format are provided. The method includes: receiving a transport format parameter of a user equipment sent by a base station, where the transport format parameter of the user equipment includes a primary stream grant value and an association between the primary stream and the secondary stream; determining a maximum transport block length of the primary stream according to a preset value of the maximum transmit power of the user equipment and the association between the primary stream and the secondary stream; determining an actual transport block length of the primary stream according to a size relationship between a theoretical transport block length of the primary stream and the maximum transport block length; and determining a transport block length of the secondary stream. | 11-20-2014 |
20140362834 | Scheduling Information Transmission Method, Device, and Communications System - A scheduling information transmission method, device, and communications system are provided. The method includes: generating a channel attribute parameter and a serving grant (SG), where the channel attribute parameter and the SG are used for data scheduling of uplink multiple input multiple output (MIMO); and delivering the channel attribute parameter and the SG to a user equipment (UE) through a target channel, where the channel attribute parameter is used by the UE to determine a primary-stream enhanced dedicated channel transport format combination indicator (E-TFCI) and a secondary-stream E-TFCI. In the scheduling information transmission method, device, and communications system that are provided in embodiments of the present invention, the determined E-TFCIs can better adapt to different channel conditions, which improves data transmission performance. | 12-11-2014 |
20150067387 | METHOD AND APPARATUS FOR DATA STORAGE - In response to detecting a failure on a secondary storage device, a transmission of a data write request to the primary storage device is suspended. Identifying an outstanding data write request, wherein the outstanding data write request has been performed by the primary storage device, but has not been performed by a disaster recovery (DR) storage device. Instructing the DR storage device to update data on the DR storage device according to the identified outstanding data write request. Setting the primary storage device to enable the primary storage device to forward a subsequently received data write request to the DR storage device. And restoring the transmission of the data write requests to the primary storage device. | 03-05-2015 |