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    • 3. 发明申请
    • APPARATUS, METHOD AND COMPUTER PROGRAM PRODUCT FOR DETECTING NON-SYNCHRONIZED RANDOM ACCESS CHANNEL PREAMBLE
    • 用于检测非同步随机访问信道的装置,方法和计算机程序产品序言
    • WO2008084381A1
    • 2008-07-17
    • PCT/IB2008/000037
    • 2008-01-09
    • NOKIA CORPORATIONNOKIA, INC.HOOLI, KariKORHONEN, Juha S.PAJUKOSKI, KariTIIROLA, Esa
    • HOOLI, KariKORHONEN, Juha S.PAJUKOSKI, KariTIIROLA, Esa
    • H04B1/707
    • H04B1/708H04B1/70753H04B1/70755H04L7/042
    • A detect decision is made by non-coherently combining results from correlating a preamble (CAZAC) sequence with base/root sequences used in the cell and setting a detection threshold based on those combined results. Another threshold can be set based on coherently combining results from correlating the preamble sequence, in which case the detect decision is based on satisfying either one of the thresholds. Where the sequence repeats in the same preamble, the results that are combined are from correlating the first instance of the CAZAC sequence and from correlating the second instance of the CAZAC sequence. Where the sequence does not repeat, different segments of the CAZAC sequence, each less than the whole and not necessarily of the same length, are correlated for a partial correlation on each segment, then the segments are combined and used to set the detection threshold. Detection may be done in stages, adjusting the threshold after the first stage based on comparing the results of non-coherent and coherent combining.
    • 通过将前导码(CAZAC)序列与在该小区中使用的基本/根序列进行相关的结果非相干地组合并根据这些组合结果设置检测阈值来进行检测判定。 可以基于相关地组合前导序列的相关结果来设置另一个阈值,在这种情况下,检测决策基于满足任一个阈值。 在序列在同一个前导码中重复的地方,结合的结果来自CAZAC序列的第一个实例和CAZAC序列的第二个实例的相关。 在序列不重复的情况下,CAZAC序列的不同片段(每个片段小于整个片段并且不一定具有相同长度)在每个片段上相互关联用于部分相关,然后片段被组合并用于设置检测阈值。 可以分阶段完成检测,基于比较非相干和相干组合的结果在第一阶段之后调整阈值。
    • 9. 发明申请
    • SCHEDULING REQUEST TRANSMISSION SUPPORTING HIGH DOPPLER
    • 调度请求传输支持高多普勒
    • WO2009021952A2
    • 2009-02-19
    • PCT/EP2008/060589
    • 2008-08-12
    • NOKIA SIEMENS NETWORKS OYHOOLI, KariPAJUKOSKI, KariTIIROLA, Esa
    • HOOLI, KariPAJUKOSKI, KariTIIROLA, Esa
    • H04L5/02H04B1/707
    • H04L5/023H04J13/00H04L1/1671
    • Block spreading generating partial orthogality is applied for the uplink control channel for E-UTRA. For instance, a problem of maximizing the multiplexing capacity leads to numerology causing odd-length sequences which do not have the favorable property of even-length sequences (partial orthogonality). The consequence of this is poor performance in cases of high Doppler effects. Maximal multiplexing capacity is taught without loss of performance at high Doppler by modifying an earlier scheduling request (SR) scheme. The earlier SR multiplexing scheme has a number of parallel SR resources per slot equal to 12*7=84. In one example, the spreading factor of block spreading is changed to an even number, e.g., from 7 to 6. This enables usage of the partial orthogonality properties of CAZAC sequences and as a result inter-code interference in the case of high Doppler is reduced. Other ways to generate partial orthogonality are shown with similar results.
    • 针对E-UTRA的上行链路控制信道应用块扩展生成局部正交性。 例如,最大化多路复用容量的问题导致命理学引起不具有偶数长度序列(部分正交性)的有利特性的奇数序列。 其结果是高多普勒效应的情况下表现不佳。 通过修改较早的调度请求(SR)方案来教授最大复用容量,而不会在高多普勒下的性能损失。 较早的SR复用方案具​​有每个时隙等于12 * 7 = 84的多个并行SR资源。 在一个示例中,块扩展的扩展因子被改变为偶数,例如从7到6.这使得可以使用CAZAC序列的部分正交性质,并且作为高多普勒情况下的码间干扰的结果 降低。 显示了产生部分正交性的其他方法,结果类似。