US2009046702
"1. A method for generating a secondary synchronization code (SSC) for wireless communication(無線通信), comprising:
generating a sequence matrix from a base M-sequence and cyclic shifted variations of the base M-sequence;
scrambling at least one M-sequence of the sequence matrix with a common binary scrambling code based on a primary synchronization code (PSC) associated with the wireless communication;
generating an SSC based on the at least one scrambled M-sequence; and
mapping the SSC onto sub-carrier channels of an orthogonal frequency division multiplex (OFDM) transmission(伝送)."
"49. A method of conducting wireless communication, comprising:
receiving wireless transmission(無線伝送)from a mobile network transmitter(送信機);
extracting an SSC from the wireless transmission, the SSC is comprised of(から成る)at least two sequences scrambled with a common PSC-based binary scrambling code;
employing a common PSC-based binary descrambling code to decipher(解読)the SSC; and
determining an identity(ID)of the mobile network transmitter from the deciphered ssc."
US2013083715
"1. An evolved Node B (eNB) comprising:
a communications module(通信モジュール)configured to communicate with(通信する)a user equipment (UE) over a wireless communications network(無線通信ネットワーク); and
a multimedia broadcast multicast service (MBMS) module configured to transmit(送信), via the communications module, MBMS assistance information to the UE, the MBMS assistance information to identify a carrier by which one or more upcoming(次の)MBMSs are to be provided and an indicator of a carrier selection mode to be used by the UE.
2. 2. The eNB of claim 1, wherein the MBMS assistance information is to include a frequency to identify(特定)the carrier.
3. 3. The eNB of claim 1, wherein the carrier selection mode is a first selection mode that prioritizes(優先する)selection of carriers that provide MBMSs or a second selection mode that prioritizes selection of carriers based on signal quality.
4. 4. The eNB of claim 1, wherein the MBMS assistance information further indicates whether the carrier is restricted for non-MBMS access.
5. 5. The eNB of claim 1, wherein the one or more MBMSs are to be provided by another eNB.
6. 6. The eNB of claim 5, wherein the eNB has a lower transmission power(送信電力)than the other eNB."
US2015230206
"5. The method of claim 1, wherein adjusting the radio frequency circuitry to optimize communication(通信)through the combination of the primary component carrier and the secondary component carrier comprises maximizing a combined power transfer(電力伝送)via one or more antennas over a set of radio frequencies used by the primary component carrier and the secondary component carrier.
6. The method of claim 1, wherein the mobile wireless communication device(無線通信機器)adjusts the radio frequency circuitry(無線周波数回路)to optimize communication through the primary component carrier and the secondary component carrier to maximize a downlink data rate.
7. The method of claim 1, wherein the mobile wireless communication device determines uplink communication is power constrained(電力の制約を受けている)when an uplink transmit power headroom(送信電力ヘッドルーム)is less than a power headroom threshold value or an uplink transmit power level exceeds a transmit power threshold value."
WO2010124244
"1. A method, comprising: identifying(識別)control information to be transmitted(送信)to one or more network entities; obtaining information relating to a set of layers designated for uplink multiple input multiple output (MIMO) transmission(伝送); and selecting respective layers from the set of layers on which to schedule uplink MIMO transmission of at least a portion of the control information."
US2015186143
"[0004] The prior art ASIC-based designs do not provide enough flexibility for reprogramming and/or reconfiguring to perform different network features as expected in a SDN processing engine. Otherwise, using state-of-the-art 64-bit general-purpose CPUs for implementing these engines cannot satisfy the network bandwidth and latency requirement of SDN devices which are required to process hundreds of data bytes per cycle. Other prior art implementations using FPGAs are also not appropriate for performing complex network protocols at high throughput(高スループットで)due to their limitations in logic cell capacity and the high complexity in their internal interconnect wirings which make FPGA chips running at low frequency with high latency."
WO2007041057
(Ab)
"An apparatus and method for deflecting electron beams with high precision and high throughput(高精度かつ高スループットで). At least one electrode of a deflecting capacitor is connected to a signal source via a coaxial cable. A termination resistor(終端抵抗器)is further connected to the coaxial cable and the electrode at the joint(ジョイントにおいて;*接合部)of the coaxial cable and the electrode. The termination resistor has a resistance matched to(整合された)the impedance of the coaxial cable and the electrode has an impedance matched to half of the impedance of the coaxial. The deflecting capacitors of the present invention have a minimized loss of precision due to eddy current. The spacing of electrodes in the deflecting capacitors is reduced by a factor of approximately two(2倍低減)compared to the state-the-art system."
quantization 量子化
quantification 定量化、数量化
