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pink_noise
- 1/f噪声生成程序,由matlab语言实现,1/f噪声又成为pink噪声- This function creates noise with a 1/f spectrum. The noise is then phase modulated so that it can be mixed with a signal to simulate pink noise in the original signal. The noise is specified in power per
0_BPSK_QPSK_
- DIGITAL MODULATION TECHNIQUES the material describes digital modulation techniques such as BINARY PHASE SHIFT KEYING (BPSK), DIFFERENTIAL PSK (DPSK), DIFFERENTIALLY-ENCODED PSK (DEPSK), QUADRATURE PSK (QPSK), QUADRATURE AMPLITUDE SHIFT KEYING (Q-AS
gar2rnx_win_4_9_01
- After getting the raw data (mainly pseudoranges and carrier phase) from our unit we have to postprocess it to see if they really make sense. I have written a simple program GAR2RNX (a GARmin TO RiNeX translator) that generates RINEX2 compliant files
gar2rnxw
- After getting the raw data (mainly pseudoranges and carrier phase) from our unit we have to postprocess it to see if they really make sense. I have written a simple program GAR2RNX (a GARmin TO RiNeX translator) that generates RINEX2 compliant files
R1-091695
- Phase noise resulting in Common Phase Error (CPE) and Inter-Carrier Interference (ICI) is a critical challenge to the implementation of OFDM systems. Modeling phase noise as a stationary Gaussian random process with the specified power spectr
R1-091775
- Phase noise resulting in Common Phase Error (CPE) and Inter-Carrier Interference (ICI) is a critical challenge to the implementation of OFDM systems. Modeling phase noise as a stationary Gaussian random process with the specified power spectr
R1-092264
- Phase noise resulting in Common Phase Error (CPE) and Inter-Carrier Interference (ICI) is a critical challenge to the implementation of OFDM systems. Modeling phase noise as a stationary Gaussian random process with the specified power spectr
sync-4-ofdm
- Joint maximum likelihood (ML)symbol-time and carrier-frequency offset estimator in orthogonal frequency-division multiplexing(OFDM) systems.-Joint maximum likelihood (ML)symbol-time and carrier-frequency offset estimator in orthogonal frequency-divi
thelambdaimplementation
- 经典的全球定位系统载波相位整周模糊度固定算法详细描述-Classic Global Positioning System carrier phase ambiguity resolution algorithm for a detailed descr iption of the fixed
PLLpostprocesser
- this the phase locked loops post processer.PLLs are widely used in frequency synthesis, for frequency multipliers and dividers, for carrier and symbol synchronization, and in the implementation of coherent receivers-this is the phase locked loops pos
statcom
- 级联多电平静止同步补偿器,采用载波移相法产生触发脉冲,触发IGBT。-Cascaded multilevel calm ended synchronous compensator, the use of carrier phase shift method to generate a trigger pulse, the trigger IGBT.
Post_S_DSP_Phase_16QAM
- MQAM在DSP中进行信号处理需要的载波相位恢复程序,适用于16QAM信号的载波相位恢复,利用Python语言编写 -MQAM signal processing in the DSP requires the carrier phase recovery process, the 16QAM signal applied to the carrier phase recovery, using the Python language
STATCOM
- 采用载波移相技术和PR控制器的STATCOM仿真-Carrier phase shift technique H bridge cascade is simulated by STATCOM PR controller
STATCOM_PI
- 采用载波移相和PI控制器的(电流前馈解耦)STATCOM仿真,电路拓扑为H桥级联,实现了直流侧电压的平衡控制-Using STATCOM simulation of carrier phase shift and the PI controller, the circuit topology for the H bridge cascade, the realization of DC side voltage balance control
ClpuInverter
- 功率单元串联型高压变频器模型,8个单元10kv系统,载波移相实现方法-High-voltage inverter power unit in series model, eight units 10kv system, the carrier phase shift method to achieve
anheader
- 卫星定位与结算,包括伪距法定位、载波相位测量、差分定位法等。-Satellite positioning and settlement, including the pseudo range method, carrier phase measurement, differential positioning method, etc..
onephase
- 单相多电平变换器的simulink仿真,总共八个模块级联,采用载波相移调制策略。-Single-phase multi-level converter simulink simulation, a total of eight modules cascade,uses carrier phase shift modulation strategy.
RTKlib243test-9-9
- GPS动态载波相位差分技术,解算GPS整周模糊度-Dynamic Operator GPS carrier phase ambiguity decomposition
zaiboyixiang
- matlab下的载波相移仿真,11电平,电力电子的可以看看(Matlab carrier phase shift simulation, 11 level)
RTKlib关于高精度GPS动态定位函数与处理过程整理
- 精密GPS动态测量采用载波相位差分技术,其标准测量模式为,一台GPS接收机置于已知点,作为基准站来进行静态测量,另一台GPS接收机置于载体上,作为流动站来进行动态测量。两台接收机同步观测相同的卫星,然后将两台GPS接收机的观测值进行组合处理,就可以获得流动站相对于基准站的坐标和速度。本文主要介绍用RTKLIB 实现精密动态定位的过程,该过程包括观测文件和导航文件的读取、基准站位置的计算、流动站位置的求解、运行结果的输出,下面将分块讨论。(Precision GPS dynamic measure