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gr-ofdm-master

于 2019-12-09 发布
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说明:  提供块和Python类以构建OFDM发送器和接收器 用于研究和教学目的,可动态配置的传输 参数。 包括基于Python Qt的可视化GUI。(Provides blocks and Python classes to build an OFDM transmitter and receiver for research and teaching purposes with dynamically configurable transmission parameters. Includes Python Qt based GUI for visualization.)

文件列表:

gr-ofdm-master, 0 , 2018-03-07
gr-ofdm-master\.gitignore, 84 , 2018-03-07
gr-ofdm-master\AUTHORS, 229 , 2018-03-07
gr-ofdm-master\CMakeLists.txt, 7140 , 2018-03-07
gr-ofdm-master\COPYING, 35147 , 2018-03-07
gr-ofdm-master\MANIFEST.md, 3476 , 2018-03-07
gr-ofdm-master\README.md, 3277 , 2018-03-07
gr-ofdm-master\apps, 0 , 2018-03-07
gr-ofdm-master\apps\CMakeLists.txt, 1357 , 2018-03-07
gr-ofdm-master\apps\CMakeLists.txt~, 1238 , 2018-03-07
gr-ofdm-master\apps\benchmark_mimo, 54 , 2018-03-07
gr-ofdm-master\apps\benchmark_mimo21, 56 , 2018-03-07
gr-ofdm-master\apps\benchmark_mrrc, 54 , 2018-03-07
gr-ofdm-master\apps\benchmark_ofdm, 54 , 2018-03-07
gr-ofdm-master\apps\benchmarking, 0 , 2018-03-07
gr-ofdm-master\apps\benchmarking\README, 492 , 2018-03-07
gr-ofdm-master\apps\benchmarking\benchmarking.py, 8591 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts, 0 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\__init__.py, 0 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_coding.py, 20436 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_decoding.py, 14213 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_demodulator.py, 12089 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_fir_filters.py, 3944 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_modulator.py, 11801 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_noise.py, 3628 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_pskdemod.py, 6246 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_pskmod.py, 2300 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_receiver_fbmc.py, 4506 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_receiver_usrp.py, 4536 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_sig_source.py, 1801 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_transmitter_fbmc.py, 4284 , 2018-03-07
gr-ofdm-master\apps\benchmarking\bm_scripts\bm_transmitter_usrp.py, 4252 , 2018-03-07
gr-ofdm-master\apps\benchmarking\gr_profiler.json, 774 , 2018-03-07
gr-ofdm-master\apps\benchmarking\gr_profiler.py, 8120 , 2018-03-07
gr-ofdm-master\apps\benchmarking\plot_results.py, 4850 , 2018-03-07
gr-ofdm-master\apps\benchmarking\plot_results_transceiver.py, 8009 , 2018-03-07
gr-ofdm-master\apps\benchmarking\plot_results_two_machines.py, 10262 , 2018-03-07
gr-ofdm-master\apps\benchmarking\plot_results_two_machines_coding.py, 10209 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_coding.json, 174 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_decoding.json, 178 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_demodulator.json, 184 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_examples.json, 470 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_filters.json, 514 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_modulator.json, 180 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_psk.json, 285 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_receiver.json, 256 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_receiver_fbmc.json, 256 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_transmitter.json, 266 , 2018-03-07
gr-ofdm-master\apps\benchmarking\run_transmitter_fbmc.json, 266 , 2018-03-07
gr-ofdm-master\apps\cfg, 0 , 2018-03-07
gr-ofdm-master\apps\cfg\benchmark_standard.conf, 61 , 2018-03-07
gr-ofdm-master\apps\cfg\rx1M.conf, 107 , 2018-03-07
gr-ofdm-master\apps\cfg\rx2M.conf, 170 , 2018-03-07
gr-ofdm-master\apps\cfg\rx2M_imgxfer.conf, 184 , 2018-03-07
gr-ofdm-master\apps\cfg\tx1M.conf, 142 , 2018-03-07
gr-ofdm-master\apps\cfg\tx2M.conf, 127 , 2018-03-07
gr-ofdm-master\apps\cfg\tx2M_imgxfer.conf, 164 , 2018-03-07
gr-ofdm-master\apps\data, 0 , 2018-03-07
gr-ofdm-master\apps\data\CMakeLists.txt, 0 , 2018-03-07
gr-ofdm-master\apps\environment_debug, 308 , 2018-03-07
gr-ofdm-master\apps\environment_lab, 470 , 2018-03-07
gr-ofdm-master\apps\environment_release, 188 , 2018-03-07
gr-ofdm-master\apps\grc, 0 , 2018-03-07
gr-ofdm-master\apps\grc\demo.grc, 33114 , 2018-03-07
gr-ofdm-master\apps\grc\demo_1tap.grc, 33150 , 2018-03-07
gr-ofdm-master\apps\grc\demo_1zero.grc, 33160 , 2018-03-07
gr-ofdm-master\apps\grc\demo_1zero_rep.grc, 33168 , 2018-03-07
gr-ofdm-master\apps\grc\demo_1zero_rep_1tap.grc, 33170 , 2018-03-07
gr-ofdm-master\apps\grc\demo_2zero.grc, 33168 , 2018-03-07
gr-ofdm-master\apps\grc\demo_3tap.grc, 33156 , 2018-03-07
gr-ofdm-master\apps\grc\demo_onlyawgn.grc, 33146 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_inner_receiver.grc, 49624 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_main.grc, 61324 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_main.grc~, 69767 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_main_coding.grc, 60685 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_main_masking_after_fft.grc, 77672 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_multiuser_debug.grc, 87671 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_multiuser_scenario.grc, 69183 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_snr_estimator.grc, 16450 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_with_extended_fft.grc, 39568 , 2018-03-07
gr-ofdm-master\apps\grc\fbmc_with_hier_blocks.grc, 23145 , 2018-03-07
gr-ofdm-master\apps\grc\paper_tigr_fbmc_inner_receiver.grc, 44097 , 2018-03-07
gr-ofdm-master\apps\grc\paper_tigr_fbmc_inner_receiver2.grc, 44096 , 2018-03-07
gr-ofdm-master\apps\grc\paper_tigr_fbmc_uncoded_transceiver.grc, 59163 , 2018-03-07
gr-ofdm-master\apps\grc\paper_tigr_ofdm_inner_receiver.grc, 38100 , 2018-03-07
gr-ofdm-master\apps\grc\paper_tigr_ofdm_uncoded_transceiver.grc, 29747 , 2018-03-07
gr-ofdm-master\apps\grc\scfdma_receiver_chain.grc, 13759 , 2018-03-07
gr-ofdm-master\apps\grc\scfdma_transmitter_chain.grc, 12485 , 2018-03-07
gr-ofdm-master\apps\grc\scfdma_with_hier_blocks.grc, 38003 , 2018-03-07
gr-ofdm-master\apps\grc\sync_simple.grc, 35523 , 2018-03-07
gr-ofdm-master\apps\grc\test1.grc, 30771 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_ber_measurement.grc, 15674 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_coded_transceiver.grc, 67602 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_coded_usrp_rx.grc, 48443 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_inner_receiver.grc, 52296 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_snr_estimator.grc, 16565 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_transceiver.grc, 65968 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_uncoded_transceiver.grc, 59174 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_uncoded_usrp_rx.grc, 40006 , 2018-03-07
gr-ofdm-master\apps\grc\tigr_fbmc_usrp_tx.grc, 37250 , 2018-03-07

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  • q_LDPC_zip
    关于Q元LDPC码的C++仿真程序,绝对正确,应经调试过了……请参考(Q yuan LDPC code on the C++ Simulation program, is absolutely correct, shall be subject to adjustment after a ... ... please refer to)
    2008-04-04 10:01:26下载
    积分:1
  • wvtf
    说明:  重排二次型时频分布应用例程,对信号进行频率归一化处理,时频分布和重排(Rearrangement of quadratic time-frequency distribution of the application of routine, the signal frequency normalized, time-frequency distribution and rearrangement)
    2008-11-19 16:13:00下载
    积分:1
  • eye
    本试验是用数字基带处理方法来实现调试期算法的基带硬件实验。 通过用软件matlab进行了GMSK相位路径和眼图的仿真,之后对任何一种五位随机码,每周期八次的任一抽样时刻,和任一相位区域(0、1、2、3)的任一组合,计算出相位 ,并对 以及 进行1024位的量化、编码成10位二进制码表。进一步利用matlab从上述的码表得出GMSK基带波形的眼图,和理论上计算的眼图比较,一致性很好。(眼图主程序) (This test is a method to realize the digital baseband processor debugging phase algorithms with hardware-based experiments. By using the software matlab a GMSK phase path and the eye diagram of the simulation, after any one of five random code, eight times per cycle of any one sampling time, and any one-phase region (0,1,2,3) of any combination of one to calculate the phase, and 1024 as well as quantitative, encoded into a binary code table 10. Further use of matlab code from the above tables GMSK baseband waveform eye diagram and eye diagram theoretically compared to a good consistency. (Eye diagram of main program))
    2008-07-18 16:08:04下载
    积分:1
  • KF
    说明:  卡尔曼滤波,对一个做匀加速直线运动的目标进行跟踪,跟踪效果较好(Kalman filtering, do a linear motion with constant acceleration target tracking, track better)
    2011-07-05 16:44:10下载
    积分:1
  • MUSIC
    说明:  实现雷达的空间谱估计,采用MUSIC算法,可实现多目标的位置估计(Space spectrum estimation of radar)
    2020-03-01 16:53:58下载
    积分:1
  • OFDM_channelEstimation
    11.txt为产生信道冲激响应的源码, 22.txt为各种OFDM信道估计算法的源码(11.txt for producing channel impulse response of the source, 22.txt for a variety of OFDM channel estimation algorithm for the source)
    2007-12-30 10:35:10下载
    积分:1
  • maichongyasuo
    在发射端发射大时宽、带宽信号,以提高信号的速度测量精度和速度分辨力,而在接收端,将宽脉冲信号压缩为窄脉冲,以提高雷达对目标的距离分辨精度和距离分辨力。(In order to improve the speed measurement accuracy and speed resolution of the signal at the transmitter, the wide pulse signal is compressed into a narrow pulse at the receiving end to improve the range resolution and range resolution of the radar.)
    2018-04-18 20:34:53下载
    积分:1
  • m
    说明:  M序列的调制 ,很好用 ,大家可以下来看看。(M sequence modulation, a very good use, we can look down.)
    2008-06-17 10:24:46下载
    积分:1
  • 欧洲标准DVB-S2的LDPC编码的实现代码
    欧洲标准DVB-S2的LDPC编码的实现代码(European standard DVB-S2 LDPC encoding implementation code)
    2013-05-22 23:29:15下载
    积分:1
  • FBG4
    可以正确仿真出FBG布拉格光纤光栅的反射光谱(The reflection spectra of FBG Bragg gratings can be simulated correctly)
    2018-02-05 16:46:50下载
    积分:1
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