会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • Layered reuse for a wireless communication system
    • 无线通信系统的分层重用
    • US20050096061A1
    • 2005-05-05
    • US10858870
    • 2004-06-01
    • Tingfang JiAvneesh AgrawalGavin HornEdward Teague
    • Tingfang JiAvneesh AgrawalGavin HornEdward Teague
    • H04W16/02H04W16/12H04Q7/20
    • H04W16/02H04W16/12H04W72/048H04W72/085
    • To reduce inter-sector interference for “weak” users and combat a potentially large variation in interference levels observed by “strong” and weak users, system resources (e.g., frequency subbands) available for data transmission in a system are partitioned into multiple (e.g., three) disjoint sets. Each sector in the system is assigned one subband set. Neighboring sectors are assigned different subband sets such that the subband set assigned to each sector is orthogonal to the subband sets assigned to neighboring sectors. Each sector has an assigned subband set and an unassigned subband set, which contains all subbands not in the assigned set. Weak users in each sector (which are typically strong interferers to neighboring sectors) are allocated subbands in the assigned set. Strong users in each sector are allocated subbands in the unassigned set. The weak users in each sector are then orthogonal to strong interferers in neighboring sectors.
    • 为了减少“弱”用户的扇区间干扰,并且打击“强”和弱用户观察到的干扰水平的潜在巨大变化,可用于系统中的数据传输的系统资源(例如,频率子带)被划分为多个(例如, ,三)不相交的集合。 系统中的每个扇区被分配一个子带集。 分配相邻扇区的不同子带组,使得分配给每个扇区的子带集与分配给相邻扇区的子带集正交。 每个扇区具有分配的子带集和未分配的子带集合,其包含不在分配集合中的所有子带。 每个扇区(通常是相邻扇区的强干扰源)中的弱用户在分配集中被分配子带。 每个扇区中的强用户在未分配的集合中分配子带。 每个扇区中的弱用户然后与相邻扇区中的强干扰源正交。
    • 3. 发明申请
    • OFDMA control channel interlacing
    • OFDMA控制信道交织
    • US20060285601A1
    • 2006-12-21
    • US11447378
    • 2006-06-05
    • David JulianEdward Teague
    • David JulianEdward Teague
    • H04K1/10
    • H04W74/08H04L5/023H04L27/2601H04L27/2602H04W28/06H04W28/26H04W36/00H04W72/04H04W72/12H04W74/002
    • Apparatus and methods for interlacing communications in random access control channels of an Orthogonal Frequency Division Multiple Access (OFDMA) wireless communication system are described. A wireless communication device communicating over distinct OFDMA control channels to multiple serving sectors may operate under link limited conditions. The wireless communication device can interlace the communications between the multiple serving sectors. The wireless communication device can interlace the control channel communications in a number of interlaces equal to the number of distinct control channels over which communications are scheduled. In another embodiment, the wireless communication device divide the multiple scheduled control channel communications into two or more sets and can interlace the sets. In another embodiment, the wireless communication device can reserve a first interlace for control channel communications with the serving sector and can time multiplex the remaining control channel communications on a second interlace.
    • 描述了正交频分多址(OFDMA)无线通信系统的随机接入控制信道中的通信交织的装置和方法。 在不同的OFDMA控制信道上向多个服务扇区通信的无线通信设备可以在链路有限的条件下操作。 无线通信设备可以交织多个服务扇区之间的通信。 无线通信设备可以将控制信道通信交织在等于通过其调度通信的不同控制信道的数量的多个交织。 在另一个实施例中,无线通信设备将多个调度的控制信道通信划分成两个或多个集合,并且可以交织这些集合。 在另一个实施例中,无线通信设备可以预留用于与服务扇区的控制信道通信的第一交错,并且可以在第二交错上对剩余的控制信道通信进行时间复用。
    • 5. 发明申请
    • Interference control via selective blanking/attenuation of interfering transmissions
    • 通过干扰传输的选择性消隐/衰减进行干扰控制
    • US20050254555A1
    • 2005-11-17
    • US10848023
    • 2004-05-17
    • Edward Teague
    • Edward Teague
    • H04W52/24H04B1/713
    • H04B1/715H04B2001/7154H04W52/243H04W52/38H04W52/44
    • Inter-sector interference for a target user in a sector may be controlled by selectively blanking or attenuating transmit powers for interfering users in neighboring sectors whenever their transmissions collide. The sector provides the frequency hopping (FH) sequence or subband usage for the target user to the neighboring sectors. Each neighboring sector uses the target user's FH sequence to form a blanking pattern. Each neighboring sector then either blanks or reduces transmit power for each subband in its blanking pattern. Each user in each neighboring sector receives either (1) punctured symbols for subbands in the blanking pattern, if blanking is performed, or (2) lower energy symbols for these subbands, if attenuation is performed. In any case, the target user and each neighboring user may process their received symbols in the normal manner and do not need to be informed of the blanking/attenuation.
    • 对于扇区中的目标用户的扇区间干扰可以通过有选择地消隐或衰减相邻扇区中的干扰用户的发射功率来控制,只要它们的传输发生碰撞。 该扇区向目标用户提供对相邻扇区的跳频(FH)序列或子带使用。 每个相邻扇区使用目标用户的FH序列来形成消隐模式。 然后每个相邻扇区在其消隐模式中为每个子带空白或降低发射功率。 每个相邻扇区中的每个用户在消隐模式中接收(1)用于子带的穿孔符号,如果执行消隐,或者(2)如果执行衰减,则这些子带的能量符号较低。 在任何情况下,目标用户和每个相邻用户可以以正常方式处理其接收到的符号,并且不需要被告知消隐/衰减。
    • 6. 发明申请
    • Channel estimation for an OFDM communication system with inactive subbands
    • 具有无效子带的OFDM通信系统的信道估计
    • US20050135509A1
    • 2005-06-23
    • US10741524
    • 2003-12-19
    • Ashok MantravadiAamod KhandekarEdward TeagueTamer Kadous
    • Ashok MantravadiAamod KhandekarEdward TeagueTamer Kadous
    • H04L25/02H04L27/06
    • H04L25/022H04L25/0218H04L25/0232
    • For channel estimation in a spectrally shaped wireless communication system, an initial frequency response estimate is obtained for a first set of P uniformly spaced subbands (1) based on pilot symbols received on a second set of subbands used for pilot transmission and (2) using extrapolation and/or interpolation, where P is a power of two. A channel impulse response estimate is obtained by performing a P-point IFFT on the initial frequency response estimate. A final frequency response estimate for N total subbands is derived by (1) setting low quality taps for the channel impulse response estimate to zero, (2) zero-padding the channel impulse response estimate to length N, and (3) performing an N-point FFT on the zero-padded channel impulse response estimate. The channel frequency/impulse response estimate may be filtered to obtain a higher quality channel estimate.
    • 对于频谱形状的无线通信系统中的信道估计,基于在用于导频传输的第二组子带上接收的导频符号,获得对于第一组P均匀间隔子带(1)的初始频率响应估计,以及(2)使用 外插和/或插值,其中P是2的幂。 通过对初始频率响应估计执行P点IFFT来获得信道脉冲响应估计。 通过(1)将信道脉冲响应估计的低质量抽头设置为零,(2)将信道脉冲响应估计零填充到长度N,得到N个总子带的最终频率响应估计,以及(3)执行N 点零点填充信道脉冲响应估计。 可以对信道频率/脉冲响应估计进行滤波以获得更高质量的信道估计。
    • 8. 发明申请
    • Fast Frequency Hopping With a Code Division Multiplexed Pilot in an OFDMA System
    • 在OFDMA系统中使用码分多路复用导频进行快速跳频
    • US20070211790A1
    • 2007-09-13
    • US11614470
    • 2006-12-21
    • Avneesh AgrawalEdward Teague
    • Avneesh AgrawalEdward Teague
    • H04B1/00
    • H04L27/2613H04B1/713H04B2201/70701H04L5/0007H04L5/0016H04L5/0041H04L5/0051H04L25/0232H04L25/03866H04L27/2647H04L2025/03414H04L2025/03509H04L2025/03789
    • Techniques are provided to support fast frequency hopping with a code division multiplexed (CDM) pilot in a multi-carrier communication system (e.g., an OFDMA system). Each transmitter (e.g., each terminal) in the system transmits a wideband pilot on all subbands to allow a receiver (e.g., a base station) to estimate the entire channel response at the same time. The wideband pilot for each transmitter may be generated using direct sequence spread spectrum processing and based on a pseudo-random number (PN) code assigned to that transmitter. This allows the receiver to individually identify and recover multiple wideband pilots transmitted concurrently by multiple transmitters. For a time division multiplexed (TDM)/CDM pilot transmission scheme, each transmitter transmits the wideband pilot in bursts. For a continuous CDM pilot transmission scheme, each transmitter continuously transmits the wideband pilot, albeit at a low transmit power level. Any frequency hopping rate may be supported without impacting pilot overhead.
    • 提供技术以在多载波通信系统(例如,OFDMA系统)中用码分多路复用(CDM)导频来支持快速跳频。 系统中的每个发射机(例如,每个终端)在所有子带上发送宽带导频,以允许接收机(例如,基站)同时估计整个信道响应。 可以使用直接序列扩频处理并基于分配给该发射机的伪随机数(PN)码来生成每个发射机的宽带导频。 这允许接收机单独地识别和恢复由多个发射机同时传输的多个宽带导频。 对于时分复用(TDM)/ CDM导频传输方案,每个发射机以突发方式发送宽带导频。 对于连续的CDM导频传输方案,每个发射机连续发射宽带导频,尽管传输功率水平较低。 可以支持任何跳频率,而不会影响导频开销。