登录
首页 » matlab » anti_jamming-master

anti_jamming-master

于 2020-12-19 发布
0 274
下载积分: 1 下载次数: 11

代码说明:

说明:  抗干扰,雷达,调制,空时,space-time,还有一些自己仿真的图片。(anti-jamming space-time)

文件列表:

anti_jamming-master, 0 , 2019-01-13
anti_jamming-master\.gitignore, 5 , 2019-01-13
anti_jamming-master\2节复原时域.jpg, 37108 , 2019-01-13
anti_jamming-master\2节复原频域.jpg, 20076 , 2019-01-13
anti_jamming-master\2节干扰时域.jpg, 34942 , 2019-01-13
anti_jamming-master\2节干扰频域.jpg, 16972 , 2019-01-13
anti_jamming-master\2节性能分析.jpg, 23805 , 2019-01-13
anti_jamming-master\2节总时域.jpg, 34431 , 2019-01-13
anti_jamming-master\2节总频域.jpg, 20455 , 2019-01-13
anti_jamming-master\2节方法2复原时域.jpg, 29325 , 2019-01-13
anti_jamming-master\2节方法2复原频域.jpg, 16866 , 2019-01-13
anti_jamming-master\2节方法2性能分析.jpg, 14576 , 2019-01-13
anti_jamming-master\2节方法2总时域.jpg, 34969 , 2019-01-13
anti_jamming-master\2节方法2总频域.jpg, 18268 , 2019-01-13
anti_jamming-master\AM.m, 2599 , 2019-01-13
anti_jamming-master\CEMEE——07、研究报告封面模板.doc, 53248 , 2019-01-13
anti_jamming-master\Detction_Parameter_Estimation_Main.m, 5422 , 2019-01-13
anti_jamming-master\Higher-Order Spectral Analysis (HOSA) Toolbox, 0 , 2019-01-13
anti_jamming-master\Higher-Order Spectral Analysis (HOSA) Toolbox\README.TXT, 3534 , 2019-01-13
anti_jamming-master\Higher-Order Spectral Analysis (HOSA) Toolbox\~$EULA.doc, 162 , 2019-01-13
anti_jamming-master\JSRС.jpg, 37966 , 2019-01-13
anti_jamming-master\LFM.m, 333 , 2019-01-13
anti_jamming-master\PDW, 0 , 2019-01-13
anti_jamming-master\PDW\ChirpRateEst.m, 978 , 2019-01-13
anti_jamming-master\PDW\CodeRateEst2.m, 1317 , 2019-01-13
anti_jamming-master\PDW\Detction_Parameter_Estimation_Main.m, 4132 , 2019-01-13
anti_jamming-master\PDW\Detection.m, 624 , 2019-01-13
anti_jamming-master\PDW\FreqEstFFT.m, 407 , 2019-01-13
anti_jamming-master\PDW\FreqEstFFTMore.m, 406 , 2019-01-13
anti_jamming-master\PDW\JamGen.m, 406 , 2019-01-13
anti_jamming-master\PDW\JamSupression.m, 2356 , 2019-01-13
anti_jamming-master\PDW\LFM.m, 333 , 2019-01-13
anti_jamming-master\PDW\ModulationIdentification.m, 4593 , 2019-01-13
anti_jamming-master\PDW\NLFMParaEst.m, 2006 , 2019-01-13
anti_jamming-master\PDW\TOA.m, 1698 , 2019-01-13
anti_jamming-master\README.md, 51 , 2019-01-13
anti_jamming-master\St.m, 1836 , 2019-01-13
anti_jamming-master\Test.m, 368 , 2019-01-13
anti_jamming-master\ZSTF.m, 1362 , 2019-01-13
anti_jamming-master\chuxiang.m, 1064 , 2019-01-13
anti_jamming-master\dataProcess.m, 2936 , 2019-01-13
anti_jamming-master\get_sum.m, 150 , 2019-01-13
anti_jamming-master\hhh.m, 3908 , 2019-01-13
anti_jamming-master\index.html, 2929 , 2019-01-13
anti_jamming-master\jamming.m, 482 , 2019-01-13
anti_jamming-master\jsr_bpsk.mat, 324 , 2019-01-13
anti_jamming-master\jsr_lfm.mat, 322 , 2019-01-13
anti_jamming-master\jsr_mp.mat, 322 , 2019-01-13
anti_jamming-master\jsr_nlfm.mat, 324 , 2019-01-13
anti_jamming-master\lowcase.bat, 325 , 2019-01-13
anti_jamming-master\matlab高阶累积量工具箱.rar, 104566 , 2019-01-13
anti_jamming-master\multi_main.m, 3881 , 2019-01-13
anti_jamming-master\plt.m, 442 , 2019-01-13
anti_jamming-master\ppt_信号.jpg, 37533 , 2019-01-13
anti_jamming-master\ppt_参数估计.PNG, 2919 , 2019-01-13
anti_jamming-master\ppt_复原时域.jpg, 31441 , 2019-01-13
anti_jamming-master\ppt_复原频域.jpg, 18261 , 2019-01-13
anti_jamming-master\ppt_干扰1.jpg, 45794 , 2019-01-13
anti_jamming-master\ppt_干扰2.jpg, 46140 , 2019-01-13
anti_jamming-master\ppt_接收信号.jpg, 41459 , 2019-01-13
anti_jamming-master\ppt_接收频谱.jpg, 37507 , 2019-01-13
anti_jamming-master\snr_bpsk.mat, 321 , 2019-01-13
anti_jamming-master\snr_lfm.mat, 321 , 2019-01-13
anti_jamming-master\snr_mp.mat, 319 , 2019-01-13
anti_jamming-master\snr_nlfm.mat, 317 , 2019-01-13
anti_jamming-master\solution.m, 194 , 2019-01-13
anti_jamming-master\start.py, 0 , 2019-01-13
anti_jamming-master\压制干扰抑制.docx, 628116 , 2019-01-13
anti_jamming-master\复原时域.jpg, 31347 , 2019-01-13
anti_jamming-master\复原频域.jpg, 28081 , 2019-01-13
anti_jamming-master\干扰时域.jpg, 45416 , 2019-01-13
anti_jamming-master\干扰环境下的雷达侦察仿真研究.docx, 2571325 , 2019-01-13
anti_jamming-master\干扰频谱.jpg, 41214 , 2019-01-13
anti_jamming-master\性能分析JSR.jpg, 14547 , 2019-01-13
anti_jamming-master\性能对比.jpg, 26200 , 2019-01-13
anti_jamming-master\总时域.jpg, 42388 , 2019-01-13
anti_jamming-master\总频域.jpg, 35529 , 2019-01-13
anti_jamming-master\目标回波时域.jpg, 38582 , 2019-01-13
anti_jamming-master\目标回波频域.jpg, 15903 , 2019-01-13
anti_jamming-master\研究报告.doc, 7946752 , 2019-01-13
anti_jamming-master\调频_complex_Nlfm.mat, 684717 , 2019-01-13
anti_jamming-master\调频_complex_bpsk.mat, 685312 , 2019-01-13
anti_jamming-master\调频_complex_lfm.mat, 685153 , 2019-01-13
anti_jamming-master\调频_complex_mp.mat, 685429 , 2019-01-13
anti_jamming-master\进度及问题.pptx, 310438 , 2019-01-13
anti_jamming-master\雷达有源复合干扰抑制算法研究与试验数据分析(1).pdf, 4821584 , 2019-01-13
anti_jamming-master\雷达有源干扰抑制算法研究_闵柏成.caj, 2818900 , 2019-01-13
anti_jamming-master\雷达辐射源信号无源侦收脉内调制方式识别技术研究_王曙光.caj, 2370357 , 2019-01-13

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • trns
    The model used for creating the reference voltage is shown in Fig. 4. First, photovoltaic output current (Ipv) and output voltage (Vpv) are passed through a first order low pass filter with a magnitude of G = 1 and a time constant of T = 0.01 seconds in order to filter out the high frequency components or harmonics from these signals as shown in Fig. 5 and Fig. 6. The filtered current and voltage signals (Ipv_F and Vpv_F) are then fed into the MPPT control block that uses the Incremental Conductance Tracking Algorithm. An algorithm that is based on the fact the slope of the PV array power curve shown in Fig. 7 is zero at the Maximum Power Point (MPP), positive on the left of the MPP, and negative on the right. The MPP can thus be tracked by comparing the instantaneous conductance (I/V) to the incremental conductance (∆ I/∆ V) [11] as in (1):
    2013-07-23 17:45:44下载
    积分:1
  • ILCSIMULINK
    实现迭代学习控制的simulink数学模型,设置PID参数,可以跟踪期望轨迹(Iterative learning control to achieve the simulink model, set the PID parameters, you can track the desired trajectory)
    2021-04-26 13:38:45下载
    积分:1
  • MISSION-PLANNING--SATELLIES
    近距离卫星的任务规划。论文中给出了详细的程序设计和Basic以及Matlab程序代码。(Given an initial orbit and a set of other orbits of interest, the path requiring the lowest change in velocity between them is of high value. Software was developed to visualize the change in velocity required from a user defined window of burn to a user defined window of intercept. The time between burn and intercept is unrestricted. Multiple intercepts require searching an n! solution space. Research then is focused on ways to pick optimal choices without fully calculating out the cost of doing all possible combinations. Some code was translated from BASIC and the rest was newly developed in MATLAB. The code was validated using orbits with known intercept solutions.)
    2014-09-22 20:37:05下载
    积分:1
  • modulation-classify
    在MATLAB中使用决策论的方法进行调制方式识别,可以识别AM,FM,USB,LSB,ASK,PSK,FSK等多种调制方式(In MATLAB using the decision theory approach to modulation recognition, you can identify the AM, FM, USB, LSB, ASK, PSK, FSK modulation and other)
    2011-11-11 13:22:19下载
    积分:1
  • Inverted_Pendulum
    振动倒立摆,对倒立摆的研究,对matlab动画例程都有帮助的(I have made simple Matlab Code below for this tutorial example and you can modify it for your need.)
    2014-12-21 11:31:56下载
    积分:1
  • fabryperot
    Matlab code for fabry perot
    2012-01-31 04:46:13下载
    积分:1
  • chap_11
    MATLAB入门到精通第十一章的实例全部代码,有好多个(MATLAB Introduction to the master all the code examples in Chapter XI, there are more than good)
    2010-08-20 16:18:44下载
    积分:1
  • pekeris
    根据皮克里斯波导模型计算不同模态声速,从而计算发射接收点间距离(Model calculation according to Pique Reese waveguide modal sound velocity, so as to calculate the distance between the transmitting and receiving points)
    2021-04-06 14:49:03下载
    积分:1
  • period
    近代信号处理中周期图法功率谱估计的MATLAB源码,简单但经典的算法。(Modern Signal Processing periodogram power spectral estimate of MATLAB source code, simple but classic algorithms.)
    2007-11-06 13:46:24下载
    积分:1
  • simulate
    循环冗余校验CRC (Cyclic Redundancy Check)码是由分组线性码的分支而来,其主要应用是二元码字。编码简单且误判概率很低,在通信系统中得到了广泛的应用。循环冗余校验码是属于分组码中的一类重要的线性码,它不仅在理论上具有很好的代数结构,而且其编码和译码可以通过线性移位寄存器很容易地实现。 通过对CRC的分析和基于MATLAB工具的仿真,充分证明了CRC的检错能力很强,编码简单。 (Cyclic Redundancy Check CRC (Cyclic Redundancy Check) code is a linear code from the sub-branch from the main application is the binary code word. Coding is simple and very low probability of miscarriage of justice, in the communication system has been widely used. Cyclic redundancy check code is a block code in one important class of linear code, which not only has good in theory, algebraic structure, and its encoding and decoding of linear shift register can easily realize . CRC through analysis and simulation tool based on MATLAB, and fully proves that the CRC error detection ability of a strong, simple coding.)
    2008-03-02 23:40:09下载
    积分:1
  • 696516资源总数
  • 106914会员总数
  • 0今日下载