html5写的一个简单的3D圣诞树

通过ADS软件进行微带滤波器的设计，同时采用ADS软件的优化方法，对微带滤波器进行优化。最后采用后仿真验证结果是否正确。山国武技文在线微带滤波器设计集中参数向微带分布参数的转变在微波电路中,微带传输线其实就是个分布参教电路,常用微带结构来模拟集总元件咆感和电容,以实现所需的微波电路。我们利用平行耦合线构成的倒置转换器电路来实现电路中谐振电路的并联耦合,图经变换后的电路如图为只含并联电感的低通原型,反之对图可变换成只有串联电感的低迸原型c,Pant"21+11图只含一种元件的低通原型根据分段待输入阻抗导纳等效法得出由低通原型滤波器得到变形低通原型滤波器后,再利用带通滤波器与低通原型的频率变換关系,将变形低通电路中的并联电容或串联电感变换成带通滤波器的并联谐振电路或串联谐振电路如图所示,便构成了微波带通滤波器的等效电路。5图含倒置转换器电路的等效低通原型滤波器显然,用半波长来代替谐振电路,再通过微带间的耦合,即转换器,来实现微带带通滤波器微带滤波器实例微带滤波器的指标为:通带频率通带内波纹指数为,阻带边频±外衰减大于。则为我们根据式得具有波纹的阶切比雪夫滤波器的元件参数为再利用公式计算出奇偶模特性阻抗得计算结果如表。山国武技文在线表奇偶模特性阻抗值0213604]6062950.(417548000031824846516400318200417548.00521802136041.606295这样,可以利用软什如图来计算微带尺寸。a LineCalc/unt itedMSUB DEFAULIompohert arameters48460150247381900模块通过上面计算,即可设计出微带结构带电路,结构如图中结构所示。仿真优化上面计算出米的微带尺寸是非常不精确的,图是对其尺寸的仿真,对可以看出仿真出来的通带中心频率与设计频率有很大差别,中心频率偏移到这是由上面一系列的计算而导致的误差所造成的。为此,我们要借助软什对其优化。山国利技记文在线eq图传输、反射系数曲线中优化电路如图,因为单位耦合微带线主要有三个因素即长度,宽度,和距离。要想调整其中心频率,我们可以改变参数来进行优化,对于和,相对来说影响不大网【"[中口T468490p4t0LdIL-1. 0[HeH I mmd luI0自M|zHHE 0:H03; Thi759rm0887253mrl=mn3650mmPTIMH=[.984422 mHms-0681963 n L=xI mmm式arae="$式a="世m的时aan会"P东mh式 ancekartes"sP1seeC〓Pn才r=y图优化电烙结构进行多次优化后达到了我们所需要的效果,相关传输系数和反射系数,以及群延时分别如图所示山国武技文在线增四(a feq, GHz(b) req, GHz图参数及群延时由优化后的原理图生成的版图如图所示。接下来我们还可以对电跻版图进行矩量法仿真图微带版图这种版图的仿真是采用矩量法直接对电磁场进行计算得出的可将其仿真作为对原理图设计的验证。但有时版图仿真结果与原理图仿真结果还是存在差异那就得回到上一步对结构参数再次进行优化直到版图仿真结果满意如图所示。201c0图微带版图仿真曲线()山国武技文在线结语利用软件来设计微带带通滤波器使设计的工作量大大减少,并且能够提高精度和效率降低成本。但要设计出高性能的微带带通滤波器还需考虑更多的因素。总之,利用软件来设计给设计者带来了方便。参考文献杨爱琴,李小平滤波器的发展与展望电子科技,清华人学《徽带电路》编写组微带电路。北京:人民邽电出版社,。

代码包含三个聚类分析常用的外部评价指标：调整兰德指数（ARI），标准化互信息（NMI），准确度（AC）。

RX560 三星颗粒BIOS.rom

GNSS-SDR is an open-source GNSS software receiver freely available to the research community. This project provides a common framework for GNSS signal processing which can operate in a variety of computer platforms. This tool is intended to foster collaboration, increase awareness, and reduce develoContentsMain Page1.1 Contents1.2 Overview1.3 Building GNSS- SDR2351.3.1 Debug and release builds1.3.2 Updating GNSS-SDR1.4 Using GNSS-SDR51.5 Control plane1.5.1 Configuration61.5.2 GNSS block factory1.6 Signal Processing plane1.6.1 Signal Source1.6.2 Signal Conditioner1.6.3 Channel1.6.3.1 Acquisition1.6.3.2 Tracking101.6.3.3 Decoding of the navigation message11.6.4 Observables121.6.5 Computation of Position, velocity and Time121.7 About the software license1.8 Publications and Credits131.9 Ok. now what?14CONTENTS2 Reference Documents152.1 Interface Control Documents152.1.1GPs2.1.2 GLONASS152.1.3Gai152.1.4 beiD2.1.5 Satellite Based Augmentation Systems(SBAS)2.2 Other Standards2.2.1R|NEX172.2.2 NMEA22.3KML.2.2.4 C++ Standards182.2.5 Positioning protocols in wireless communication networks183 Signal model193. 1 GNSS signal model1.1 Global Positioning System(GPS)signal in space3.1.2 GLONASS signal in space3.1.3 Galileo signal in space223.1.4 Reference254 Todo list5 Hierarchical Index5.1 Class Hierarchy6 Class Index336.1 Class list7 File Index7.1 File list43CONTENTS8 Class docu8. 1 AcquisitionInterface Class Reference538.1.1 Detailed Description8.2 ArraySignal Conditioner Class Reference8.2.1 Detailed Dtio558.2.2 Constructor& Destructor Documentation8.2.2. 1 Array SignalConditioner(Configurrface configuration, std: shared_ptr data type_adapt, std: shared_ptr< GNSSBlockInterfaceil, std: shared ptr< GNSSBlockInterface > res, std: string role, std: stringimplementation)558. 2.2.2 Array SignalConditioner(558.2.3 Member Function Documentation8.2.3. 1 implementation(558.3 beamformer Class Reference568.3. 1 Detailed Description8. 4 Beamformer Filter Class Reference568.4.1 Detailed description578.4.2 Member Function Documentation8. 4.2.1 implementation()8.5 byte x2 to complex byte Class Reference8.5.1 Detailed Description588.6 Byte ToShort Class Reference588.6. 1 Detailed description8.6.2 Member Function Documentation8.6.2. 1 implementation(598.7 Channel Class Reference598.7.1 Detailed description608.7.2 Constructor Destructor Documentation8.7. 2.1 Channel(ConfigurationInterface *configuration, unsigned int channel, std+shared_ptr< GNSSBlockInterface> pass through, std: shared_ptr acq, std: shared_ptr nav, std string role, std stringimplementation, boost: shared ptr< gr: msg_queue queuegenerated by DoxygenCONTENTS8.7.2.2 Channelo8.7.3 Member Function Documentation8.7.3. 1 implementation(618.7.3.2 set signal(const Gnss Signal &gnss signal8.7.3. 3 start_ acquisition(68.8 channel msg receiver cc Class Reference8.8.1 Detailed Description628.8.2 Constructor Destructor Documentation628.8.2. 1 channel_msg_ receiver_ cco8.9 ChannelFsm class Reference8.9.1 Detailed Description638.10 ChannelInterface Class Reference638.10.1 Detailed Description8.11 cl_ fft_ plan Struct Reference648.11.1 Detailed Description648.12 clFFT Complex Struct Reference648. 12. 1 Detailed Description8. 13 ClFFT Dim 3 Struct Reference8. 13.1 Detailed description658.14 ClFFT_ SplitComplex Struct Reference658. 14.1 Detailed Description658. 15 complex byte to float x2 Class Reference8. 15.1 Detailed description8. 16 complex_ float_to _ complex_ byte Class Reference668.16.1 Detailed Description668. 17 concurrent map< Data> Class Template Reference8.17.1 Detailed description8.18 concurrent_ queue< Data > Class Template Reference8.18.1 Detailed description688.19 ConfigurationInterface Class ReferenceCONTENTS8.19. 1 Detailed Description8.20 ControlMessage Class Reterence698. 20. 1 Detailed Description8.21 ControlMessage Struct Reference698.21. 1 Detailed Description8.22 ControlMessageFactory Class Reference708.22. 1 Detailed Description8. 22.2 Constructor Destructor Documentation8. 22.2. 1 ControlMessage Factory8. 22.2.2 ControlMessage(8.23 Control Thread class Reference8. 23. 1 Detailed Description718.23.2 Constructor Destructor Documentation8.23. 2.1 ControlThreado8. 23.2.2 Control Thread(std: shared_ptr< ContigurationIntertace> configuration)8.23. 2.3 Control Thread(728.23. 3 Member Function Documentation8.23.3. 1 flowgraph7282332run()728.23.3.3 set_control_ queue(boost: shared _ptr< gr: msg_queue control queue)8. 24 cpu multicorrelator Class Reference8.24. 1 Detailed Description8.25 cpu multicorrelator 1 6sc Class Reference8.25. 1 Detailed Description748.26 cshort to float x2 Class Reference748. 26. 1 Detailed Description8.27 cuda multicorrelator Class Reference8.27.1 Detailed Description758.28 direct resampler conditioner cb class Reference758.28. 1 Detailed Descriptiongenerated by DoxygenCONTENTS8.29 direct resampler conditioner cc Class Reference8.29. 1 Detailed description768.30 direct resampler conditioner cs Class Reference8.30. 1 Detailed description8.31 DirectResampler Conditioner Class Reference8.31. 1 Detailed Description788.31.2 Member Function Documentation788.31.2.1 implementation788.32 Fast Correction Struct Reference8. 32 1 Detailed Description8.33 File Configuration Class Reference8.33. 1 Detailed Description798.33.2 Constructor destructor documentation8.33.2. 1 File Configuration(8. 34 File SignalSource Class Reference808.34.1 Detailed Description808.34.2 Member Function Documentation8.34.2.1 implementation(8.35 Fir Filter Class Reference8.35. 1 Detailed Description818.35.2 Constructor Destructor Documentation8.35.2. 1 Fir Filter( ConfigurationInterface *configuration, std: string role, unsigned intreams, unsigned int out_streams)8.35. 2.2 FirFiltero8.35. 3 Member Function Documentation8.35.3. 1 implementation(828.36 FlexibandsignalSource Class Reference828.36. 1 Detailed descripti838.36.2 Member Function Documentatio8.36.2.1 implementation(8. 37 FreqXlating FirFilter Class ReferenceCONTENTSX8.37.1 Detailed Description8.37.2 Member Function Documentation848.37. 2.1 implementation(848.38 FrontEndCal Class Reference848. 38. 1 Detailed description8.38.2 Member function documentation8.38. 2.1 estimate_doppler_ from_ _eph(unsigned int PRN, double toW, double lat, doublelon, double height)8.3822 get ephemeris(),.,.,,.,,,,,,,858.38.2.3 GPS L1 front end model E4000(double f bb true Hz, double f bb_measHz, double fs nominal_ hz, double *estimated_fs_ hz, double *estimated_f if Hz, 85double *tosc_err_ppm)8.38.2.4 set_configuration(std shared_ptr< ConfigurationInterface configuration)858. 39 Galileo Almanac class Reference858.39. 1 Detailed description8. 39.2 Constructor destructor documentation8.39.2.1 Galileo_ Almanac8.40 galileo e1 dl pll veml tracking cc Class Reference8.40. 1 Detailed Descriptio88ember Function Documentation8.40.2.1 general work(int output_ items, gr_ vector_int &ninput_ items. gr vector_constvoid_star &input_items, gr_ vector_ void_ star &output_ _items)8. 41 galileo_e1_ Is_pvt Class Referenc8.41. 1 Detailed Descriptio8. 41.2 Member data documentation8. 41.2.1 d channels898.41. 2.2 galileo_ ephemeris_ map898.42 galileo e1 observables cc Class Reference8.42. 1 Detailed Description8. 43 galileo_e1_pvt_cc Class Reference8.43. 1 Detailed description8. 43.2 Constructor Destructor documentatiCONTENTS8. 43.2.1 galileo_e1_pvt_cc918. 43.3 Member Function documentation8. 3.1 general_work(int output_items, gr vector_int &ninput_items. gr_ vector_constevoid star &input items, gr vector void star &output items)918. 44 Galileo_E1_ Tcp Connector_ Tracking_cc Class Reference8.44.1 Detailed Description8. 45 galileo e1b telemetry decoder cc Class Reference928.45. 1 Detailed description938. 45.2 Member Function Documentation8.45.2. 1 forecast(int noutput_items, gr_ vector_ int &input_items_required8.45. 2.2 general_ work(int output_items, gr- vector_ int &ninput_items. gr_ vector_const+void star &input_items, gr_ vector_ void_ star &output_ items938. 45.2.3 set_channel(int channel8.45.2. 4 set_ decimation(int decimation)8. 45. 2.5 set_ satellite(Gnss_ Satellite satellite)8.46 Galileo E5a Dl Pll Tracking cc Class Reterence8.46. 1 Detailed description48. 47 galileo e5a noncoherentlQ acquisition caf cc class Reference8.47.1 Detailed Description958. 47.2 Constructor Destructor Documentation8.47. 2.1 galileo e5a noncoherentlQ acquisition caf cco8. 47.3 Member Function Documentation968.47. 3.1 general_ work(int output_items, gr_ vector_int &ninput_ items. gr vector_const+void_star &input_items, gr_vector_ void_star &output_items)8.47.32init()968.47.3.3mag(0..968.47.3.4 set active(bool active968.47.3.5 set channel(unsigned int channel)968.47.3.6 set_ doppler_ max(unsigned int doppler_ max)8.47.3.7 set_ doppler_ step(unsigned int doppler step8.47.3.8 set_gnss synchro(Gnss Synchro *p_gnss_ synchro8.47.3.9 set_local_code(std: complex< float >*code, std: complex< float > *code Q)97

标准粒子群算法程序，和含变异算子的改进PSO编程方法，有程序说明和测试函数，使用是只要把测试函数换下就好了！

LabVIEW编写的超级玛丽游戏，很不错，喜欢就下载吧。

图像分割是目标识别的首要和关键步骤。目前的图像分割方法有多种, 其中阈值方法优点比较突出, 但是采用阈值方法分割的关键是要能高效率地找到被分图像的最佳熵阈值。针对这一问题, 将Geese- LDW- PSO 算法的位置更新公式作了改进, 即用当前种群的全局极值取代所有粒子的当前位置, 并将之用于熵阈值图像分割中。仿真实验表明, 该算法可以快速稳定地获得一幅图像的最佳分割阈值。仿真结果显示, 该方法对车牌分割具有较好的性能。专业论文，为广大做毕设同学提供资源

模仿美国探地雷达数据处理软件GSSI做的程序，如果有需要源代码的，可以协商

matlab读取comtrade文件支持文本与二进制

机器学习决策树的MATLAB实现，帮助深刻理解决策树