LTE系统目前定义了5种下行信道:物理下行共享信道PDSCH、物理广播信道PBCH、物理多播信道PMCH、物理控制格式指示信道PC FICH、物理下行控制信道PDCCH。系统还定义了3种上行物理信道:物理随机接入信道PRACH、物理上行共享信道PUSCH、物理上行控制信道PUCCH。LTE下行主要采用QPSK、IGQAM、64QAM三种调制方式,上行主要采用BPSK、QPSK、8PSK和16QAM。针对广播业务,36PP提出了一种独特的分层调制方式。其基本思想是,在应用层将一个逻辑业务分成两个数据流,一个是高优先级的基本层,一个是低优先级的增强层。在物理层,这两个数据流分别映射大信号星座图的不
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Contents 1 总体介绍(Overview) ................................................................................................ 4 1.1 物理信道 ............................................................................................................................... 4 1.2 物理信号 ............................................................................................................................... 4 2 时隙结构和物理资源(Slot structure and physical resource) ................................... 5 2.1 资源栅格(Resource grid) ................................................................................................. 5 2.2 资源粒子(Resource element) ........................................................................................... 6 2.3 资源块(Resource blocks) ................................................................................................. 7 3 物理上行共享信道(Physical uplink shared channel) .............................................. 8 3.1 PUSCH中的基带信号处理步骤 .......................................................................................... 8 3.2 PUSCH中控制信令的传送 ................................................................................................ 10 4 物理上行控制信道(Physical uplink control channel) ........................................... 11 4.1 物理上行控制信道的格式 ................................................................................................. 11 4.2 PUCCH的用户复用 ........................................................................................................... 11 4.3 PUCCH的物理映射 ........................................................................................................... 12 5 上行参考信号(Uplink reference signals) ............................................................... 13 5.1 解调参考信号(Demodulation) ...................................................................................... 13 5.2 Sounding参考信号 ............................................................................................................. 14 6 物理随机接入信
2021-09-10 15:32:00 665KB LTE物理信道
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Contents 1 简介(Overview) 4 1.1 物理信道 4 1.2 物理信号 4 2 时隙结构和物理资源粒子(Slot structure and physical resource elements) 5 2.1 资源栅格(Resource grid) 5 2.2 资源粒子(Resource element) 7 2.3 资源块(Resource blocks) 7 2.4 资源粒子组(Resource-element groups) 9 3 下行物理信道处理(Downlink physical channel processing) 11 4 下行物理信道(Downlink physical channels) 14 4.1 物理下行共享信道(Physical downlink shared channel) 14 4.2 物理多播信道(Physical multicast channel) 14 4.3 物理广播信道(Physical broadcast channel) 14 4.4 物理控制格式指示信道(Physical control format indicator channel) 15 4.5 物理下行控制信道(Physical downlink control channel) 15 4.6 物理混合ARQ指示信道(Physical hybrid ARQ indicator channel) 16 5 参考信号(Reference signals) 18 5.1 小区专用参考信号(Cell-specific reference signals, CRS) 18 5.2 多播单频网参考信号(MBSFN reference signals,MBSFN-RS) 19 5.3 UE专用参考信号(UE-specific reference signals,UE-RS) 20 5.4 定位参考信号(Positioning reference signals,PRS) 22 5.5 信道状态信息参考信号(CSI reference signals,CSI-RS) 23 6 同步信号(Synchronization signals) 24 6.1 主同步信号(Primary synchronization signals, PSS) 24 6.2 第二同步信号(Secondary synchronization signals, PSS) 24
2021-07-21 10:17:15 5.19MB LTE物理信道
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