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Description: ofdma matlab code....orthogonal FDMA
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Size: 2048 |
Author: cops |
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Description: Fof SC-FDMA in MATLAB
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Size: 7168 |
Author: Chisato |
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Description: FDMA- based Multiuser Transmit Optimization
for Broadcast Channels
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Size: 524288 |
Author: malihe |
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Description: 给出很详细的LTE中上行链路的SC-FDMA仿真信噪比,经验证可以运行。-Given in great detail LTE uplink SC-FDMA signal to noise ratio simulation, validated to run.
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Size: 1024 |
Author: qihonghao |
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Description: 对CDMA TDMA FDMA等通信系统进行模拟仿真的MATLAB程序-For CDMA TDMA FDMA communication systems such as the MATLAB simulation program
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Size: 223232 |
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Description: OFDM和SC-FDMA是LTE系统的下行和上行调制方式,本例仿真了OFDM和SC-FDMA的峰均比-simulation:papr of OFDM and SC-FDMA
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Size: 4096 |
Author: 王萌 |
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Description: 利用51单片机控制实现cc1110无线通信模块在无线网络实验中的频分复用功能-51 MCU Control cc1110 wireless communication module in the wireless network experiments in frequency-division multiplexing function
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Size: 568320 |
Author: |
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Description: zigbee 点对多点的程序设计,通过本程序可以看出点对多点的重要函数-ZigBee point to multi point programming, through this program can be seen on the important function
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Size: 1054720 |
Author: 李琳 |
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Description: a file talking about the phy layer in sc-fdma LTE
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Size: 225280 |
Author: bass |
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Description: Single carrier frequency division multiple acess papr simulation and SER simulation
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Size: 425984 |
Author: milktea |
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Description: LTE上行单载波全部模拟!其中包括PAPR和CubicMetric的计算-LTE uplink single-carrier analog all! Including the calculation of PAPR and CubicMetric,
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Size: 26086400 |
Author: 韩冰 |
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Description: sc-fdma lte design explain
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Size: 225280 |
Author: ahmed |
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Description: LTE Sc-FDMA详细程序 matlaB编写 -LTE Sc-FDMA prepared by the procedure matlaB
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Size: 1024 |
Author: chenglei |
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Description: 是针对SC-FDMA基础进行描述的概括,为ppt格式。对于初学者有一定帮助。-This document introduces the basic knowledge about SC_FDMA. It will help the beginner who want to learn LTE or LTE-A.
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Size: 719872 |
Author: lvbonhm |
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Description: LTE ADVANCE MODULATION SC FDMA
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Size: 25600 |
Author: Naim |
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Description: 在OFDM的基础上做DFT扩展,生成SC-FDMA符号 程序简单适合初学者学习-DFT-spread OFDM-based, generate SC-FDMA symbol simple for beginners to learn
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Size: 1024 |
Author: 王玲 |
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Description: The overall objective for LTE is to provide an extremely high performance radio-access technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the -The overall objective for LTE is to provide an extremely high performance radio-access technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the
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Size: 3072 |
Author: SREENESH.T.K |
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Description: mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the - mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the
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Size: 1024 |
Author: SREENESH.T.K |
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Description: Technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the -Technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the
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Size: 1024 |
Author: SREENESH.T.K |
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Description: Extremely high performance radio-access technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the -Extremely high performance radio-access technology that offers full vehicular speed mobility and that can readily coexist with HSPA and earlier networks. OFDM/OFDMA technology is introduced for the LTE downlink, supporting very high data rates of up to 300Mbps while Single-Carrier FDMA (SC-FDMA) is used in the uplink with data rates of 80Mbps possible. Additionally, LTE supports operation both in paired and unpaired spectrum (FDD and TDD) using channel bandwidths of approximately 1.4MHz up to 20MHz. The frequency domain scheduling can be done in OFDMA. One of the main challenges in OFDMA is the high peak-to-average radio of the transmitted signal, which requires linearity in the transmitter. The linear amplifiers have low efficiency therefore, OFDMA is not an optimized solution for a mobile uplink where the
Platform: |
Size: 1024 |
Author: SREENESH.T.K |
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