示例#1
0
import matplotlib.pyplot as plt
from thinkdsp import decorate
from thinkdsp import TriangleSignal



def filter_spectrum(spectrum):
    """Divides the spectrum through by the fs.
    
    spectrum: Spectrum object
    """
    # avoid division by 0
    spectrum.hs[1:] /= spectrum.fs[1:]
    spectrum.hs[0] =0


wave = TriangleSignal(freq=440).make_wave(duration=0.5)
wave.make_audio()


spectrum = wave.make_spectrum()
spectrum.plot(high=10000, color='gray')
filter_spectrum(spectrum)
spectrum.scale(440)
spectrum.plot(high=10000)
decorate(xlabel='Frequency (Hz)')

filtered = spectrum.make_wave()
filtered.make_audio()
wave.write(filename='6.9.3.wav')
plt.show()
示例#2
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文件: 2-2.py 项目: Nike172839/111
        cycles = self.freq * ts + self.offset / np.pi / 2
        frac, _ = np.modf(cycles)
        ys = normalize(unbias(frac), self.amp)
        return ys

plt.rcParams['font.sans-serif']=['SimHei'] #加上这一句就能在图表中显示中文
plt.rcParams['axes.unicode_minus']=False #用来正常显示负号

plt.subplot(311)#显示
plt.title("锯齿波")
sawtooth = SawtoothSignal().make_wave(duration=0.5, framerate=40000)
sawtooth.make_spectrum().plot()
decorate(xlabel='Frequency (Hz)')

from thinkdsp import SquareSignal
plt.subplot(312)
plt.title("方波")
sawtooth.make_spectrum().plot(color='gray')
square = SquareSignal(amp=0.5).make_wave(duration=0.5, framerate=40000)
square.make_spectrum().plot()
decorate(xlabel='Frequency (Hz)')

from thinkdsp import TriangleSignal
plt.subplot(313)#显示
plt.title("三角波")
sawtooth.make_spectrum().plot(color='gray')
triangle = TriangleSignal(amp=0.79).make_wave(duration=0.5, framerate=40000)
triangle.make_spectrum().plot()
decorate(xlabel='Frequency (Hz)')
plt.show()
示例#3
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import thinkdsp
import matplotlib.pyplot as plt
import numpy as np 
from scipy import signal
from thinkdsp import SawtoothSignal, SquareSignal, TriangleSignal
from thinkdsp import decorate


plt.rcParams['font.sans-serif']=['SimHei']#图表上可以显示中文
plt.rcParams['axes.unicode_minus']=False#图表上可以显示负号

def filter_spectrum(spectrum):
    spectrum.hs[1:] /= spectrum.fs[1:]
    spectrum.hs[0] = 0
wave1= TriangleSignal(freq=440).make_wave(duration=0.5)
spectrum1 = wave1.make_spectrum()
filter_spectrum(spectrum1)

spectrum1.scale(440)
plt.subplot(3,3,1)
spectrum1.plot(high=10000, color='blue')
plt.title("三角波频谱")
plt.subplot(3,3,2)
wave1.plot(color='blue')
plt.title('三角波变换前')
plt.subplot(3,3,3)
spectrum1.make_wave().plot(color='blue')
plt.title("三角波变换后")

wave2=SquareSignal(freq=440).make_wave(duration=0.5)
spectrum2 = wave2.make_spectrum()
示例#4
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from thinkdsp import Sinusoid
from thinkdsp import normalize, unbias
from thinkdsp import TriangleSignal
from thinkdsp import decorate
from thinkdsp import SquareSignal
import os
import numpy as np
import matplotlib.pyplot as plt

#三角波  频率440HZ  波长0.01秒
triangle = TriangleSignal(440).make_wave(duration=0.01)
triangle.plot()

#  振幅为2v  相位为0
spectrum = triangle.make_spectrum()
print(spectrum.hs[0])  #频率分量0

#  振幅为2v  垂直偏移1v
spectrum.hs[0] = 100  #在频率为0处加上100分量  等于叠加一个100*(duration=0.01)==1v的直流信号
triangle.plot(color='gray')
spectrum.make_wave().plot()

plt.show()
示例#5
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trangle.write("三角波声音.wav")
play("三角波声音.wav", flags=1)
square = SquareSignal(freq=440).make_wave(duration=0.01, framerate=10000)
plt.subplot(232)
plt.title("square")
square.plot()
square.write("方波声音.wav")
play("方波声音.wav", flags=1)
sawtooth = SawtoothSignal(freq=440).make_wave(duration=0.01, framerate=10000)
plt.subplot(233)
plt.title("sawtooth")
sawtooth.plot()
sawtooth.write("斜波声音.wav")
play("斜波声音.wav", flags=1)

spectrum_tra = trangle.make_spectrum()
filter_spectrum(spectrum_tra)
plt.subplot(234)
spectrum_tra.plot()

spectrum_squ = square.make_spectrum()
filter_spectrum(spectrum_squ)
plt.subplot(235)
spectrum_squ.plot()

spectrum_saw = sawtooth.make_spectrum()
filter_spectrum(spectrum_saw)
plt.subplot(236)
spectrum_saw.plot()

plt.show()