def identify_nlss(data, linmodel, nlx, nly, nmax=25, info=2): Rest = data.yest.shape[2] T1 = np.r_[data.npp*data.Ntr, np.r_[0:(Rest-1)*data.npp+1:data.npp]] model = NLSS(linmodel) # model._cost_normalize = 1 model.add_nl(nlx=nlx, nly=nly) model.set_signal(data.sig) model.transient(T1) model.optimize(lamb=100, weight=weight, nmax=nmax, info=info) # get best model on validation data. Change Transient settings, as there is # only one realization nl_errvec = model.extract_model(data.yval, data.uval, T1=data.npp*data.Ntr, info=info) return model, nl_errvec
# select nonlinear functions nly = None pnlss1 = Pnlss(degree=[2, 3], structure='full') w = [0, 1] tahn1 = Tanhdryfriction(eps=0.01, w=w) if nlfunc.casefold() == 'pnlss': nlx = NLS([pnlss1]) nly = NLS([pnlss1]) elif nlfunc.casefold() == 'tahn': nlx = NLS([pnlss1, tahn1]) nlx = NLS([tahn1]) model = NLSS(linmodel) model.add_nl(nlx=nlx, nly=nly) model.set_signal(sig) model.transient(T1) model.optimize(lamb=100, weight=weight, nmax=25) #raise SystemExit(0) # get best model on validation data. Change Transient settings, as there is # only one realization nl_errvec = model.extract_model(yval, uval, T1=npp) models = [linmodel, model] descrip = [type(mod).__name__ for mod in models] descrip = tuple(descrip) # convert to tuple for legend concatenation in figs # simulation error val = np.empty((*yval.shape, len(models))) est = np.empty((*ym.shape, len(models))) test = np.empty((*ytest.shape, len(models)))
def identify(data, nlx, nly, nmax=25, info=2, fnsi=False): # transient: Add one period before the start of each realization. Note that # this is for the signal averaged over periods Rest = data.yest.shape[2] T1 = np.r_[data.npp * data.Ntr, np.r_[0:(Rest - 1) * data.npp + 1:data.npp]] linmodel = Subspace(data.sig) linmodel._cost_normalize = 1 linmodel.estimate(2, 5, weight=weight) linmodel.optimize(weight=weight, info=info) # estimate NLSS model = NLSS(linmodel) # model._cost_normalize = 1 model.add_nl(nlx=nlx, nly=nly) model.set_signal(data.sig) model.transient(T1) model.optimize(lamb=100, weight=weight, nmax=nmax, info=info) # get best model on validation data. Change Transient settings, as there is # only one realization nl_errvec = model.extract_model(data.yval, data.uval, T1=data.npp * data.Ntr, info=info) models = [linmodel, model] descrip = [type(mod).__name__ for mod in models] if fnsi: # FNSI can only use 1 realization sig = deepcopy(data.sig) # This is stupid, but unfortunately nessecary sig.y = sig.y[:, :, 0][:, :, None] sig.u = sig.u[:, :, 0][:, :, None] sig.R = 1 sig.average() fnsi1 = FNSI() fnsi1.set_signal(sig) fnsi1.add_nl(nlx=nlx) fnsi1.estimate(n=2, r=5, weight=weight) fnsi1.transient(T1) fnsi2 = deepcopy(fnsi1) fnsi2.optimize(lamb=100, weight=weight, nmax=nmax, info=info) models = models + [fnsi1, fnsi2] descrip = descrip + ['FNSI', 'FNSI optimized'] descrip = tuple(descrip) # convert to tuple for legend concatenation # simulation error val = np.empty((*data.yval.shape, len(models))) est = np.empty((*data.ym.shape, len(models))) test = np.empty((*data.ytest.shape, len(models))) for i, model in enumerate(models): test[..., i] = model.simulate(data.utest, T1=data.npp * data.Ntr)[1] val[..., i] = model.simulate(data.uval, T1=data.npp * data.Ntr)[1] est[..., i] = model.simulate(data.um, T1=T1)[1] Pest = data.yest.shape[3] # convenience inline functions def stack(ydata, ymodel): return \ np.concatenate((ydata[..., None], (ydata[..., None] - ymodel)), axis=2) def rms(y): return np.sqrt(np.mean(y**2, axis=0)) est_err = stack(data.ym, est) # (npp*R,p,nmodels) val_err = stack(data.yval, val) test_err = stack(data.ytest, test) noise = np.abs(np.sqrt(Pest * data.covY.squeeze())) print() print(f"err for models: signal, {descrip}") # print(f'rms error noise:\n{rms(noise)} \ndb: \n{db(rms(noise))} ') # only print error for p = 0. Almost equal to p = 1 print(f'rms error est (db): \n{db(rms(est_err[:,0]))}') print(f'rms error val (db): \n{db(rms(val_err[:,0]))}') # print(f'rms error test: \n{rms(test_err)} \ndb: \n{db(rms(test_err))}') return Result(est_err, val_err, test_err, noise, nl_errvec, descrip)