series_1 = Tseries(0) # NORMAL - normalEt(self, size, base=0, noise, noise_type = 'gauss') series_1.normalEt(50, 0, 1, 'gauss') series_1.normalEt(50, 3, 1, 'gauss') # CYCLIC - cyclicEt(self, size, base=0, noise=2, amp=10, period=25, \ # phase = 0, noise_type = 'gauss'): series_1.cyclicEt(100, 3, 1, 5, 50) # NORMAL - series_1.normalEt(50, 3, 1, 'gauss') series_1.normalEt(50, -3, 1, 'gauss') # UP - upEt(self,size,base=0,noise=1,gradient=0.2, noise_type = 'gauss') series_1.upEt(100, -3, 1, 0.2, 'gauss') # Normal series_1.normalEt(50, 17, 1, 'gauss') # Dowm - downEt(self,size,base=0,noise=1,gradient=0.2, noise_type = 'gauss') series_1.downEt(50, 17, 1, 0.4, 'gauss') # Normal series_1.normalEt(50, 0, 1, 'gauss') stream = series_1 # Window sizes to try out win_size = [10, 20, 40, 60]
series_1 = Tseries(0) # NORMAL - normalEt(self, size, base=0, noise, noise_type = 'gauss') series_1.normalEt(50, 0, 1,'gauss') series_1.normalEt(50, 3, 1,'gauss') # CYCLIC - cyclicEt(self, size, base=0, noise=2, amp=10, period=25, \ # noise_type = 'gauss'): series_1.cyclicEt(100, 3, 1, 5, 50, 'gauss') # NORMAL - series_1.normalEt(50, 3, 1,'gauss') series_1.normalEt(50, -3, 1,'gauss') # UP - upEt(self,size,base=0,noise=1,gradient=0.2, noise_type = 'gauss') series_1.upEt(100, -3, 1, 0.2, 'gauss') # Normal series_1.normalEt(50, 17, 1,'gauss') # Dowm - downEt(self,size,base=0,noise=1,gradient=0.2, noise_type = 'gauss') series_1.downEt(50, 17, 1, 0.4, 'gauss') # Normal series_1.normalEt(50, 0, 1, 'gauss' ) stream = series_1 # Window sizes to try out win_size = [10, 20, 40, 60]