コード例 #1
0
    ssnrs = []
    hsnrs = []
    thsemissnrs = []
    thf1snrs = []
    thf2snrs = []
    thf3snrs = []

    smses = []
    hmses = []
    thsemismses = []
    thf1mses = []
    thf2mses = []
    thf3mses = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(ods)):
        sdr = DenoiseRsult(tds[i], spds[i])
        hdr = DenoiseRsult(tds[i], hpds[i])
        thsemisdr = DenoiseRsult(tds[i], thsemispds[i])
        thf1dr = DenoiseRsult(tds[i], thf1pds[i])
        thf2dr = DenoiseRsult(tds[i], thf2pds[i])
        thf3dr = DenoiseRsult(tds[i], thf3pds[i])
        ssnrs.append(sdr.snr())
        hsnrs.append(hdr.snr())
        thsemissnrs.append(thsemisdr.snr())
        thf1snrs.append(thf1dr.snr())
        thf2snrs.append(thf2dr.snr())
        thf3snrs.append(thf3dr.snr())

        smses.append(sdr.mse())
        hmses.append(hdr.mse())
        thsemismses.append(thsemisdr.mse())
コード例 #2
0
        sfp2pd = swt.swtrec(npce2s, wtname='sym6')
        sfp1pds.append(sfp1pd)
        sfp2pds.append(sfp2pd)

    sf1snrs = []
    sf2snrs = []
    sfwp1snrs = []
    sfwp2snrs = []

    sf1mses = []
    sf2mses = []
    sfwp1mses = []
    sfwp2mses = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(tds)):
        sf1dr = DenoiseRsult(tds[i], sf1pds[i])
        sf2dr = DenoiseRsult(tds[i], sf2pds[i])
        sfwp1dr = DenoiseRsult(tds[i], sfp1pds[i])
        sfwp2dr = DenoiseRsult(tds[i], sfp2pds[i])
        sf1snrs.append(sf1dr.snr())
        sf2snrs.append(sf2dr.snr())
        sfwp1snrs.append(sfwp1dr.snr())
        sfwp2snrs.append(sfwp2dr.snr())

        sf1mses.append(sf1dr.mse())
        sf2mses.append(sf2dr.mse())
        sfwp1mses.append(sfwp1dr.mse())
        sfwp2mses.append(sfwp2dr.mse())
        
    snrss = [sf1snrs, sf2snrs, sfwp1snrs, sfwp2snrs]
    snrsn = ['sf1snrs', 'sf2snrs', 'sfwp1snrs', 'sfwp2snrs']
        ncoeffs2 = dwd.thprocess2(coeffs,
                                  ths=bsths,
                                  thf='thf3',
                                  thps=[2 + 2 * k for k in range(dl)])
        gthpd = dwd.dwtrec(ncoeffs1, wtname='db4')
        bsthpd = dwd.dwtrec(ncoeffs2, wtname='db4')
        gthpds.append(gthpd)
        bsthpds.append(bsthpd)

    gthsnrs = []
    bsthsnrs = []
    gthmses = []
    bsthmses = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(tds)):
        gthdr = DenoiseRsult(tds[i], gthpds[i])
        bsthdr = DenoiseRsult(tds[i], bsthpds[i])
        gthsnrs.append(gthdr.snr())
        bsthsnrs.append(bsthdr.snr())
        gthmses.append(gthdr.mse())
        bsthmses.append(bsthdr.mse())
    print('gthsnrs = {0}'.format(gthsnrs))
    print('bsthsnrs = {0}'.format(bsthsnrs))
    print('gthmses = {0}'.format(gthmses))
    print('bsthmses = {0}'.format(bsthmses))

    x = [x for x in range(1000)]
    plt.figure()
    for i in range(len(ods)):
        plt.subplot(3, 2, 2 * i + 1)
        plt.title('{0} signal processed by gth'.format(dnames[i]))
    ssms = []
    hsms = []
    thsemissms = []
    thf1sms = []
    thf2sms = []
    thf3sms = []

    slrepvs = []
    hlrepvs = []
    thsemislrepvs = []
    thf1lrepvs = []
    thf2lrepvs = []
    thf3lrepvs = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(ods)):
        sdr = DenoiseRsult(tds[i], spds[i])
        hdr = DenoiseRsult(tds[i], hpds[i])
        thsemisdr = DenoiseRsult(tds[i], thsemispds[i])
        thf1dr = DenoiseRsult(tds[i], thf1pds[i])
        thf2dr = DenoiseRsult(tds[i], thf2pds[i])
        thf3dr = DenoiseRsult(tds[i], thf3pds[i])
        ssnrs.append(sdr.snr())
        hsnrs.append(hdr.snr())
        thsemissnrs.append(thsemisdr.snr())
        thf1snrs.append(thf1dr.snr())
        thf2snrs.append(thf2dr.snr())
        thf3snrs.append(thf3dr.snr())

        smses.append(sdr.mse())
        hmses.append(hdr.mse())
        thsemismses.append(thsemisdr.mse())
コード例 #5
0
            pd = dwd.dwtrec(ncoeffs, wtname='db4')
            pdsmatrix[i].append(pd)

    ssnrs = []
    cvsnrs = []
    gcvsnrs = []
    srmsnrs = []

    smses = []
    cvmses = []
    gcvmses = []
    srmmses = []

    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(tds)):
        sdr = DenoiseRsult(tds[i], gpds[i])
        cvdr = DenoiseRsult(tds[i], cvpds[i])
        gcvdr = DenoiseRsult(tds[i], gcvpds[i])
        srmdr = DenoiseRsult(tds[i], srmpds[i])

        ssnrs.append(sdr.snr())
        cvsnrs.append(cvdr.snr())
        gcvsnrs.append(gcvdr.snr())
        srmsnrs.append(srmdr.snr())

        smses.append(sdr.mse())
        cvmses.append(cvdr.mse())
        gcvmses.append(gcvdr.mse())
        srmmses.append(srmdr.mse())

    snrss = [ssnrs, cvsnrs, gcvsnrs, srmsnrs]
コード例 #6
0
if __name__ == '__main__':
    ad = GetActualSignal()
    ad.getwhvalue()
    od1 = ad.selectvalue(start=11000, end=12024)
    dl = 4
    swt = SWTP(od1)
    coeffs = swt.swtdec(wtname='db2', delevel=dl)
    n1coeffs = swt.thprocess(coeffs, thf='soft')
    n2coeffs = swt.thprocess(coeffs, thf='hard')
    n3coeffs = swt.thprocess(coeffs, thf='thsemisf')
    spd = swt.swtrec(n1coeffs, wtname='db2')
    hpd = swt.swtrec(n2coeffs, wtname='db2')
    thf1pd = swt.swtrec(n3coeffs, wtname='db2')

    ad.outputdata(startidex=0, ogdata=od1, pddata=hpd)

    ssm = DenoiseRsult([], spd).smooth(od1)
    hsm = DenoiseRsult([], hpd).smooth(od1)
    thf1sm = DenoiseRsult([], thf1pd).smooth(od1)

    slrepv = DenoiseRsult([], spd).lrepv(od1, 128)
    hlrepv = DenoiseRsult([], hpd).lrepv(od1, 128)
    thf1lrepv = DenoiseRsult([], thf1pd).lrepv(od1, 128)

    print('sf1sm = {0}'.format(ssm))
    print('sfp1sm = {0}'.format(hsm))
    print('sfp2sm = {0}'.format(thf1sm))
    print('slrepv = {0}'.format(slrepv))
    print('hlrepv = {0}'.format(hlrepv))
    print('sfp2lrepv = {0}'.format(thf1lrepv))
コード例 #7
0
    hsnrs = []
    thf3snrs = []
    thf3wpsnrs = []

    smses = []
    hmses = []
    thf3mses = []
    thf3wpmses = []

    tds = [
        s.createSin(200, 60, 0),
        s.createPulse(200, 60, 0),
        s.createSpikes(0)
    ]
    for i in range(len(tds)):
        sdr = DenoiseRsult(tds[i], spds[i])
        hdr = DenoiseRsult(tds[i], hpds[i])
        thf3dr = DenoiseRsult(tds[i], thf3pds[i])
        thf3wpdr = DenoiseRsult(tds[i], thf3wppds[i])

        ssnrs.append(sdr.snr())
        hsnrs.append(hdr.snr())
        thf3snrs.append(thf3dr.snr())
        thf3wpsnrs.append(thf3wpdr.snr())

        smses.append(sdr.mse())
        hmses.append(hdr.mse())
        thf3mses.append(thf3dr.mse())
        thf3wpmses.append(thf3wpdr.mse())

    snrss = [ssnrs, hsnrs, thf3snrs, thf3wpsnrs]
コード例 #8
0
    ad = GetActualSignal()
    ad.getwhvalue()
    od1 = ad.selectvalue(start=6000, end=7024)
    dl = 4
    dwd = DWTP(od1)
    coeffs = dwd.dwtdec(wtname='db2', delevel=dl)
    gths = []
    bsths = []
    for i in range(1, len(coeffs)):
        bthe = BestThEstimate(coeffs[i], thfunction='thf3', thp=2 + 2 * i)
        thsa = ThSearchAlgorithm()
        gth = ThSelect(coeffs[i]).DonohoThEx()
        bsth = thsa.FibonacciSearch(bthe.msesurefuction, [0, 1.5 * gth], 0.01)
        gths.append(gth)
        bsths.append(bsth)

    ncoeffs1 = dwd.thprocess2(coeffs,
                              ths=gths,
                              thf='thf3',
                              thps=[2 + 2 * k for k in range(dl)])
    ncoeffs2 = dwd.thprocess2(coeffs,
                              ths=bsths,
                              thf='thf3',
                              thps=[2 + 2 * k for k in range(dl)])
    gthpd = dwd.dwtrec(ncoeffs1, wtname='db2')
    bsthpd = dwd.dwtrec(ncoeffs2, wtname='db2')
    ad.outputdata(startidex=5000, ogdata=od1, pddata=bsthpd)
    bsm = DenoiseRsult([], bsthpd).smooth(od1)
    blrepv = DenoiseRsult([], bsthpd).lrepv(od1, 128)
    print('bsm = {0}'.format(bsm))
    print('blrepv = {0}'.format(blrepv))
コード例 #9
0
    P = spta2.spcoCors()
    for i in range(1, len(coeffs) - 1):
        spta2.BTHassitIndex(i, pk=0.1, pa=4, mode='srmse')
        gpth = ThSelect(P[i - 1]).DonohoThEx()
        sfp1th = ThSearchAlgorithm().FibonacciSearch(spta2.BTHspcothfwp1,
                                                     [0, 1.5 * gpth], 0.01)
        sfp2th = ThSearchAlgorithm().FibonacciSearch(spta2.BTHspcothfwp2,
                                                     [0, 1.5 * gpth], 0.01)
        gpths.append(gpth)
        sfp1ths.append(sfp1th)
        sfp2ths.append(sfp2th)
    npce1s = spta2.spcoThfwp1(sfp1ths, 0.05)
    npce2s = spta2.spcoThfwp2(sfp2ths, 4)
    sfp1pd = swt.swtrec(npce1s, wtname='sym6')
    sfp2pd = swt.swtrec(npce2s, wtname='sym6')
    ad.outputdata(startidex=10000, ogdata=od1, pddata=sfp2pd)

    sf1sm = DenoiseRsult([], sf1pd).smooth(od1)
    sfp1sm = DenoiseRsult([], sfp1pd).smooth(od1)
    sfp2sm = DenoiseRsult([], sfp2pd).smooth(od1)

    sf1lrepv = DenoiseRsult([], sf1pd).lrepv(od1, 128)
    sfp1lrepv = DenoiseRsult([], sfp1pd).lrepv(od1, 128)
    sfp2lrepv = DenoiseRsult([], sfp2pd).lrepv(od1, 128)

    print('sf1sm = {0}'.format(sf1sm))
    print('sfp1sm = {0}'.format(sfp1sm))
    print('sfp2sm = {0}'.format(sfp2sm))
    print('sf1lrepv = {0}'.format(sf1lrepv))
    print('sfp1lrepv = {0}'.format(sfp1lrepv))
    print('sfp2lrepv = {0}'.format(sfp2lrepv))
コード例 #10
0
        hpd = pywt.waverec(nhcoeffs, 'db4')
        spds.append(spd)
        hpds.append(hpd)

    ssnrs = []
    hsnrs = []
    smses = []
    hmses = []

    ssms = []
    hsms = []
    slrepvs = []
    hlrepvs = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(tds)):
        sdr = DenoiseRsult(tds[i], spds[i])
        hdr = DenoiseRsult(tds[i], hpds[i])
        ssnrs.append(sdr.snr())
        hsnrs.append(hdr.snr())
        smses.append(sdr.mse())
        hmses.append(hdr.mse())

        ssms.append(sdr.smooth(ods[i]))
        hsms.append(hdr.smooth(ods[i]))
        slrepvs.append(sdr.lrepv(ods[i], 32))
        hlrepvs.append(hdr.lrepv(ods[i], 32))
    print('ssnrs = {0}'.format(ssnrs))
    print('hsnrs = {0}'.format(hsnrs))
    print('smses = {0}'.format(smses))
    print('hmses = {0}'.format(hmses))
    print()
コード例 #11
0
ファイル: t1.py プロジェクト: dfl-1/python-project1
x = [x for x in range(1000)]
plt.figure()
plt.subplot(3, 2, 1)
plt.plot(x, td1)
plt.title("True sine signal")
plt.subplot(3, 2, 2)
plt.plot(x, od1)
plt.title("Noisy sine signal")
plt.subplot(3, 2, 3)
plt.plot(x, td2)
plt.title("True pulse signal")
plt.subplot(3, 2, 4)
plt.plot(x, od2)
plt.title("Noisy pulse signal")
plt.subplot(3, 2, 5)
plt.plot(x, td3)
plt.title("True spike signal")
plt.subplot(3, 2, 6)
plt.plot(x, od3)
plt.title("Noisy spike signal")

dn1 = DenoiseRsult(td1, od1)
dn2 = DenoiseRsult(td2, od2)
dn3 = DenoiseRsult(td3, od3)
print(dn1.snr(), dn2.snr(), dn3.snr())

plt.tight_layout()
plt.show()


コード例 #12
0
            b = len(bceths)
            nbces = DWTP(od).thprocess(bces, ths=bceths, thf='soft')
            nbcoeff = BlockThMethod(coeffs[j]).recoverdata(
                nbces[1:])  # 除去添加的[0]系数
            nbcoeffs.append(np.asarray(nbcoeff))

        blpd = DWTP(od).dwtrec(nbcoeffs, 'db4')
        blpds.append(blpd)

    ssnrs = []
    blsnrs = []
    smses = []
    blmses = []
    tds = [s.createSin(50, 60, 0), s.createPulse(50, 60, 0), s.createSpikes(0)]
    for i in range(len(tds)):
        sdr = DenoiseRsult(tds[i], spds[i])
        bldr = DenoiseRsult(tds[i], blpds[i])
        ssnrs.append(sdr.snr())
        blsnrs.append(bldr.snr())
        smses.append(sdr.mse())
        blmses.append(bldr.mse())
    print('ssnrs = {0}'.format(ssnrs))
    print('blsnrs = {0}'.format(blsnrs))
    print('smses = {0}'.format(smses))
    print('blmses = {0}'.format(blmses))

    x = [x for x in range(1000)]
    plt.figure()
    plt.subplot(3, 2, 1)
    plt.title('Sine signal processed by soft threshold')
    plt.plot(x, spds[0])
コード例 #13
0
 od3 = s.createSpikes(4)
 ods = [od1, od2, od3]
 td1 = s.createSin(50, 60, 0)
 td2 = s.createPulse(50, 60, 0)
 td3 = s.createSpikes(0)
 tds = [td1, td2, td3]
 for i in range(len(ods)):
     dwd = DWTP(ods[i])
     dwtd = DWTP(tds[i])
     coeffs = dwd.dwtdec(wtname='db4', delevel=4)
     tcoeffs = dwtd.dwtdec(wtname='db4', delevel=4)
     gcvths = []
     srmths = []
     mses = []
     bthe = BestThEstimate(coeffs[2], thfunction='thf3', thp=4)
     for k in range(1, 100):
         gcvth = bthe.gcvfunction(k / 10)
         srmth = bthe.msesurefuction(k / 10)
         thc = ThFuction(coeffs[2]).thf3(k / 10, 4)
         mse = DenoiseRsult(tcoeffs[2], thc).mse()
         gcvths.append(gcvth)
         srmths.append(srmth)
         mses.append(mse)
     x = [x / 10 for x in range(1, 100)]
     plt.figure()
     l1, = plt.plot(
         x, [y + 1 for y in srmths / np.max([abs(x) for x in srmths])],
         linestyle='-')
     l2, = plt.plot(x, mses / np.max(mses), linestyle='solid')
     plt.legend(handles=[l1, l2], labels=['Sure estimation', 'MSE'])
 plt.show()