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authorsara <sara.halter@gmx.ch>2021-11-27 21:51:50 +0100
committersara <sara.halter@gmx.ch>2021-11-27 21:51:50 +0100
commit90a89f6f5ba15a983e1ea50e87d019bcd567ba2f (patch)
treef6954b6e28b3f613df934891a216dc8e45f8fd2d /src/gr-fadingui/python
parentNotebook aufgereumt (diff)
downloadFading-90a89f6f5ba15a983e1ea50e87d019bcd567ba2f.tar.gz
Fading-90a89f6f5ba15a983e1ea50e87d019bcd567ba2f.zip
FIR Filter Block in GNU Radio ink. fload variabeln möglichkeit erstellt
Diffstat (limited to '')
-rw-r--r--src/gr-fadingui/python/multipath_fading.py67
1 files changed, 48 insertions, 19 deletions
diff --git a/src/gr-fadingui/python/multipath_fading.py b/src/gr-fadingui/python/multipath_fading.py
index 01f2dbe..02b3bb4 100644
--- a/src/gr-fadingui/python/multipath_fading.py
+++ b/src/gr-fadingui/python/multipath_fading.py
@@ -44,45 +44,74 @@ class multipath_fading(gr.sync_block):
self.amplitudes = amplitudes
self.delays = delays
self.temp = [0]
- # if los:
- # self.amplitudes.append(1)
- # self.delays.append(0)
- self.los= 1
- #self.fir =
+ log.debug(los) #TO DO: True False unterscheidung
+ if los == True:
+ self.los = 1
+ log.debug("Los True")
+ else:
+ self.los = 0
+ log.debug("Los False")
+
+
+
+
def work(self, input_items, output_items):
"""example: multiply with constant"""
inp = input_items[0]
oup = output_items[0]
- if len(self.amplitudes) != len(self.delays):
+ if len(self.amplitudes) != len(self.delays): # Test: Es muss gleich viele Werte für Delays und Amplituden haben.
raise Exception("Amplitudes and Delay length dont match")
+
+ #TO DO negativ check
+
+
+
# raise Exception("Delay length can't be one")
#if np.min(self.delays)<=1:
# raise Exception("Delay length can't be one")
- max_len = np.max(self.delays)
- sum_x = np.zeros(max_len)
- for(a,d) in zip(self.amplitudes,self.delays):
+
+ #max_len = np.max(self.delays) #Max Werte herausfinden für länge
+ #sum_x = np.zeros(max_len)
+
+ max_order = 2 * np.floor(np.max(self.delays)) + 1
+ max_samples = np.arange(0, max_order +1)
+ max_len = len(max_samples) #Für Filter
+
+ sum_x = np.zeros(int(max_len))
+
+ for (a,d) in zip(self.amplitudes,self.delays):
# if d-1 <= 0:
# x = np.concatenate([[a], np.zeros(max_len-1)])
- # else:
- x = np.concatenate([np.zeros(d-1), [a], np.zeros(max_len-d)])
- sum_x += x
+ # else:
+ order = 2 * np.floor(d) + 1
+
+ skip = np.floor(d) - (order - 1) / 2 #M sollte immer 0 sein
+ assert skip >= 0
+
+ samples = np.arange(0, order +1)
+
+ h = a*(np.sinc(samples-d)) #sinc
+ h_len = np.concatenate([h, np.zeros(max_len-len(h))])
+
+ sum_x += h_len
+
+ #x = np.concatenate([np.zeros(d-1), [a], np.zeros(max_len-d)])
+ #sum_x += x
sum_x[0] = self.los
- log.debug(sum_x)
-
- #H_int = fft(sum_x)
-
- #h = ifft(H_int)
+ #log.debug(sum_x)
- #h[0]=1
y = np.convolve(inp, sum_x)
+ # signal_shifted = np.convolve(h, inp, mode='full')
+ # y = signal_shifted
+
+ #y+=np.concatenate([self.temp,np.zeros(len(y)-len(self.temp))])
y+=np.concatenate([self.temp,np.zeros(len(y)-len(self.temp))])
-
oup[:] = y[:len(inp)]
self.temp = y[len(inp):]