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authorNao Pross <np@0hm.ch>2021-12-03 13:01:42 +0100
committerNao Pross <np@0hm.ch>2021-12-03 13:01:42 +0100
commitb389c8d00064d224a534d3c4a37bd4ee700a5022 (patch)
treed5d1608a6388c99aad29e514c2fc1509ba7e522f
parentAdd a LPF on the frequency (diff)
downloadFading-b389c8d00064d224a534d3c4a37bd4ee700a5022.tar.gz
Fading-b389c8d00064d224a534d3c4a37bd4ee700a5022.zip
Improve frequency LPF
Diffstat (limited to '')
-rw-r--r--tests/correlator/correlator.grc100
-rwxr-xr-xtests/correlator/correlator.py13
-rw-r--r--tests/correlator/epy_block_0.py36
3 files changed, 93 insertions, 56 deletions
diff --git a/tests/correlator/correlator.grc b/tests/correlator/correlator.grc
index bf44544..220eaed 100644
--- a/tests/correlator/correlator.grc
+++ b/tests/correlator/correlator.grc
@@ -163,7 +163,7 @@ blocks:
id: variable
parameters:
comment: ''
- value: '[31, 53] + [0x12, 0xe3, 0x9b, 0xee, 0x84, 0x23, 0x41, 0xf3] * 2'
+ value: '[31, 53] + [0x12, 0xe3, 0x9b, 0xee, 0x84, 0x23, 0x41, 0xf3] '
states:
bus_sink: false
bus_source: false
@@ -212,7 +212,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1048, 1128.0]
+ coordinate: [1088, 1304.0]
rotation: 0
state: enabled
- name: blocks_multiply_const_vxx_0
@@ -248,7 +248,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1336, 1204.0]
+ coordinate: [1376, 1380.0]
rotation: 0
state: disabled
- name: blocks_null_sink_3
@@ -265,7 +265,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1336, 1256.0]
+ coordinate: [1376, 1432.0]
rotation: 0
state: true
- name: blocks_null_source_0
@@ -408,7 +408,7 @@ blocks:
block_tags: 'False'
comment: ''
epsilon: '1.0'
- freq_offset: '0.0002'
+ freq_offset: '0.0001'
maxoutbuf: '0'
minoutbuf: '0'
noise_voltage: '0.2'
@@ -497,6 +497,24 @@ blocks:
coordinate: [776, 1020.0]
rotation: 0
state: enabled
+- name: digital_costas_loop_cc_0
+ id: digital_costas_loop_cc
+ parameters:
+ affinity: ''
+ alias: ''
+ comment: ''
+ maxoutbuf: '0'
+ minoutbuf: '0'
+ order: '4'
+ use_snr: 'False'
+ w: 2 * 3.141592653589793 / 100
+ states:
+ bus_sink: false
+ bus_source: false
+ bus_structure: null
+ coordinate: [1088, 1128.0]
+ rotation: 0
+ state: true
- name: digital_pfb_clock_sync_xxx_0
id: digital_pfb_clock_sync_xxx
parameters:
@@ -531,18 +549,20 @@ blocks:
\ because tags have an absolute offset\n self.counter: np.uint64 = 0\n\
\n # because we do block processing, we need to keep track of the last\
\ tag\n # of the previous block to correct the first values of the next\
- \ block\n self.last = None\n\n # to compute the values that are\
- \ at the end we need to know the frequency\n # of the last block\n \
- \ self.freq = 1\n\n def block_phase(self, start, end):\n # compute\
- \ number of samples in block\n nsamples = end.offset - start.offset\n\
- \n # unpack pmt values into start and end phase\n sphase = pmt.to_python(start.value)\n\
- \ ephase = pmt.to_python(end.value)\n\n # compute frequency offset\
- \ between start and end\n freq = (sphase - ephase) / nsamples\n\n \
- \ # save this frequency values to compute the end block, unless frequency\n\
- \ # has changed too fast, in that case replace the current values with\n\
- \ # the previous one . This is effectively like a low pass filter.\n\
- \ if abs(freq / self.freq) > 4:\n freq = self.freq\n \
- \ else:\n self.freq = freq\n\n\n # debugging\n print(f\"\
+ \ block\n self.last = None\n\n # both the phase and frequency\
+ \ corrections should go through a low pass\n # filter to avoid werid\
+ \ jumps in the correction. to do that, there are\n # two buffers with\
+ \ an index\n self.index = 0\n self.length = 7\n self.freq\
+ \ = np.zeros(self.length)\n\n def lpf_freq(self, new_sample):\n #\
+ \ save new sample\n self.freq[self.index] = new_sample\n # increment\
+ \ index\n self.index = (self.index + 1) % self.length\n\n return\
+ \ np.sum(self.freq) / self.length\n\n def block_phase(self, start, end):\n\
+ \ # compute number of samples in block\n nsamples = end.offset\
+ \ - start.offset\n\n # unpack pmt values into start and end phase\n \
+ \ sphase = pmt.to_python(start.value)\n ephase = pmt.to_python(end.value)\n\
+ \n # compute frequency offset between start and end\n # and run\
+ \ it through a low pass filter (mean)\n freq = (sphase - ephase) / nsamples\n\
+ \ freq = self.lpf_freq(freq)\n\n # debugging\n print(f\"\
Correction for block of {nsamples:2d} samples is \" \\\n f\"phase={sphase:\
\ .4f} rad and freq={freq*1e3: .4f} milli rad / sample\")\n\n # compute\
\ block values\n return sphase * np.ones(nsamples) + freq * np.arange(0,\
@@ -551,20 +571,22 @@ blocks:
\n # nicer aliases\n inp = input_items[0]\n out = output_items[0]\n\
\n # read phase tags\n is_phase = lambda tag: pmt.to_python(tag.key)\
\ == \"phase_est\"\n tags = list(filter(is_phase, self.get_tags_in_window(0,\
- \ 0, len(inp))))\n\n # debugging\n print(f\"Processing {len(tags)}\
- \ tags = {tags[-1].offset - tags[0].offset} \" \\\n f\"samples\
- \ out of {len(inp)} input samples\")\n\n # compute \"the middle\"\n \
- \ enough_samples = lambda pair: ((pair[1].offset - pair[0].offset) > 0)\n\
- \ pairs = list(filter(enough_samples, zip(tags, tags[1:])))\n \
- \ blocks = [ self.block_phase(start, end) for (start, end) in pairs ]\n \
- \ middle = np.concatenate(blocks) if blocks else []\n\n # compute\
- \ values at the end, we do not have informations about the future\n #\
- \ but we can use the frequency of the last block to approximate\n nback\
- \ = len(inp) - (tags[-1].offset - self.counter)\n print(f\"Processing\
- \ {nback} samples at the back of the buffer\")\n end = np.ones(nback)\
- \ * pmt.to_python(tags[-1].value) + self.freq * np.arange(0, nback)\n\n \
- \ # compute the \"start\", using the last tag from the previous call\n \
- \ nfront = tags[0].offset - self.counter\n print(f\"Processing {nfront}\
+ \ 0, len(inp))))\n\n if not tags:\n print(f\"There were no\
+ \ tags in {len(inp)} samples!\")\n out[:] = inp\n return\
+ \ len(out)\n\n # debugging\n print(f\"Processing {len(tags)} tags\
+ \ = {tags[-1].offset - tags[0].offset} \" \\\n f\"samples out of\
+ \ {len(inp)} input samples\")\n\n # compute \"the middle\"\n enough_samples\
+ \ = lambda pair: ((pair[1].offset - pair[0].offset) > 0)\n pairs = list(filter(enough_samples,\
+ \ zip(tags, tags[1:])))\n blocks = [ self.block_phase(start, end) for\
+ \ (start, end) in pairs ]\n middle = np.concatenate(blocks) if blocks\
+ \ else []\n\n # compute values at the end, we do not have informations\
+ \ about the future\n # but we can use the frequency of the last block\
+ \ to approximate\n nback = len(inp) - (tags[-1].offset - self.counter)\n\
+ \ print(f\"Processing {nback} samples at the back of the buffer\")\n\
+ \ endfreq = self.lpf_freq(self.freq[-1])\n end = np.ones(nback)\
+ \ * pmt.to_python(tags[-1].value) + endfreq * np.arange(0, nback)\n\n \
+ \ # compute the \"start\", using the last tag from the previous call\n \
+ \ nfront = tags[0].offset - self.counter\n print(f\"Processing {nfront}\
\ samples at the front of the buffer\")\n start = self.block_phase(self.last,\
\ tags[0])[-nfront:] \\\n if self.last and nfront else np.zeros(nfront)\n\
\n # compute correction\n correction = np.exp(-1j * np.concatenate([start,\
@@ -728,9 +750,9 @@ blocks:
comment: ''
grid: 'False'
gui_hint: 2,1,2,1
- label1: ''
+ label1: Custom Block
label10: ''
- label2: ''
+ label2: Costas Loop
label3: ''
label4: ''
label5: ''
@@ -750,7 +772,7 @@ blocks:
marker8: '0'
marker9: '0'
name: '"Phase Locked Signal"'
- nconnections: '1'
+ nconnections: '2'
size: '1024'
style1: '0'
style10: '0'
@@ -787,7 +809,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1288, 940.0]
+ coordinate: [1368, 1092.0]
rotation: 0
state: enabled
- name: qtgui_const_sink_x_1
@@ -1073,7 +1095,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1336, 1108.0]
+ coordinate: [1376, 1284.0]
rotation: 0
state: enabled
- name: qtgui_time_sink_x_0_0_0
@@ -1558,7 +1580,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1512, 1188.0]
+ coordinate: [1552, 1364.0]
rotation: 0
state: disabled
- name: root_raised_cosine_filter_0
@@ -1607,7 +1629,7 @@ blocks:
bus_sink: false
bus_source: false
bus_structure: null
- coordinate: [1336, 1036.0]
+ coordinate: [1368, 1036.0]
rotation: 0
state: true
- name: virtual_source_0
@@ -1660,9 +1682,11 @@ connections:
- [digital_constellation_modulator_0, '0', blocks_stream_mux_1, '1']
- [digital_constellation_modulator_0, '0', channels_channel_model_0, '0']
- [digital_constellation_modulator_0, '0', qtgui_time_sink_x_1_0, '0']
+- [digital_corr_est_cc_0, '0', digital_costas_loop_cc_0, '0']
- [digital_corr_est_cc_0, '0', epy_block_0, '0']
- [digital_corr_est_cc_0, '0', qtgui_time_sink_x_0_0_0, '0']
- [digital_corr_est_cc_0, '1', blocks_complex_to_magphase_0_0, '0']
+- [digital_costas_loop_cc_0, '0', qtgui_const_sink_x_0_0, '1']
- [digital_pfb_clock_sync_xxx_0, '0', digital_cma_equalizer_cc_0, '0']
- [epy_block_0, '0', qtgui_const_sink_x_0_0, '0']
- [epy_block_0, '0', virtual_sink_3, '0']
diff --git a/tests/correlator/correlator.py b/tests/correlator/correlator.py
index 5edc8ee..50283c0 100755
--- a/tests/correlator/correlator.py
+++ b/tests/correlator/correlator.py
@@ -78,7 +78,7 @@ class correlator(gr.top_block, Qt.QWidget):
self.nfilts = nfilts = 32
self.excess_bw = excess_bw = .35
self.timing_loop_bw = timing_loop_bw = 2 * 3.141592653589793 / 100
- self.testvec = testvec = [31, 53] + [0x12, 0xe3, 0x9b, 0xee, 0x84, 0x23, 0x41, 0xf3] * 2
+ self.testvec = testvec = [31, 53] + [0x12, 0xe3, 0x9b, 0xee, 0x84, 0x23, 0x41, 0xf3]
self.samp_rate = samp_rate = 32000
self.rrc_taps = rrc_taps = firdes.root_raised_cosine(nfilts, nfilts, 1.0/float(sps), excess_bw, 45*nfilts)
self.revconj_access_code_symbols = revconj_access_code_symbols = [(1.4142135623730951+1.4142135623730951j), (1.4142135623730951+1.4142135623730951j), (1.4142135623730951-1.4142135623730951j), (-1.4142135623730951+1.4142135623730951j), (1.4142135623730951-1.4142135623730951j), (1.4142135623730951-1.4142135623730951j), (1.4142135623730951+1.4142135623730951j), (-1.4142135623730951+1.4142135623730951j)]
@@ -243,7 +243,7 @@ class correlator(gr.top_block, Qt.QWidget):
self.qtgui_const_sink_x_0_0 = qtgui.const_sink_c(
1024, #size
"Phase Locked Signal", #name
- 1 #number of inputs
+ 2 #number of inputs
)
self.qtgui_const_sink_x_0_0.set_update_time(0.10)
self.qtgui_const_sink_x_0_0.set_y_axis(-2, 2)
@@ -254,7 +254,7 @@ class correlator(gr.top_block, Qt.QWidget):
self.qtgui_const_sink_x_0_0.enable_axis_labels(True)
- labels = ['', '', '', '', '',
+ labels = ['Custom Block', 'Costas Loop', '', '', '',
'', '', '', '', '']
widths = [1, 1, 1, 1, 1,
1, 1, 1, 1, 1]
@@ -267,7 +267,7 @@ class correlator(gr.top_block, Qt.QWidget):
alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0]
- for i in range(1):
+ for i in range(2):
if len(labels[i]) == 0:
self.qtgui_const_sink_x_0_0.set_line_label(i, "Data {0}".format(i))
else:
@@ -330,6 +330,7 @@ class correlator(gr.top_block, Qt.QWidget):
self.top_grid_layout.setColumnStretch(c, 1)
self.epy_block_0 = epy_block_0.blk()
self.digital_pfb_clock_sync_xxx_0 = digital.pfb_clock_sync_ccf(sps, timing_loop_bw, rrc_taps, nfilts, 16, 1.5, 1)
+ self.digital_costas_loop_cc_0 = digital.costas_loop_cc(2 * 3.141592653589793 / 100, 4, False)
self.digital_corr_est_cc_0 = digital.corr_est_cc(access_code_symbols, 1, 0, .8, digital.THRESHOLD_DYNAMIC)
self.digital_constellation_modulator_0 = digital.generic_mod(
constellation=const,
@@ -343,7 +344,7 @@ class correlator(gr.top_block, Qt.QWidget):
self.digital_cma_equalizer_cc_0 = digital.cma_equalizer_cc(15, 1, .002, 1)
self.channels_channel_model_0 = channels.channel_model(
noise_voltage=0.2,
- frequency_offset=0.0002,
+ frequency_offset=0.0001,
epsilon=1.0,
taps=[-1.4 + .4j],
noise_seed=243,
@@ -374,8 +375,10 @@ class correlator(gr.top_block, Qt.QWidget):
self.connect((self.digital_constellation_modulator_0, 0), (self.channels_channel_model_0, 0))
self.connect((self.digital_constellation_modulator_0, 0), (self.qtgui_time_sink_x_1_0, 0))
self.connect((self.digital_corr_est_cc_0, 1), (self.blocks_complex_to_magphase_0_0, 0))
+ self.connect((self.digital_corr_est_cc_0, 0), (self.digital_costas_loop_cc_0, 0))
self.connect((self.digital_corr_est_cc_0, 0), (self.epy_block_0, 0))
self.connect((self.digital_corr_est_cc_0, 0), (self.qtgui_time_sink_x_0_0_0, 0))
+ self.connect((self.digital_costas_loop_cc_0, 0), (self.qtgui_const_sink_x_0_0, 1))
self.connect((self.digital_pfb_clock_sync_xxx_0, 0), (self.digital_cma_equalizer_cc_0, 0))
self.connect((self.epy_block_0, 0), (self.digital_constellation_decoder_cb_0, 0))
self.connect((self.epy_block_0, 0), (self.qtgui_const_sink_x_0_0, 0))
diff --git a/tests/correlator/epy_block_0.py b/tests/correlator/epy_block_0.py
index 6b47e80..e7599c9 100644
--- a/tests/correlator/epy_block_0.py
+++ b/tests/correlator/epy_block_0.py
@@ -21,9 +21,20 @@ class blk(gr.sync_block):
# of the previous block to correct the first values of the next block
self.last = None
- # to compute the values that are at the end we need to know the frequency
- # of the last block
- self.freq = 1
+ # both the phase and frequency corrections should go through a low pass
+ # filter to avoid werid jumps in the correction. to do that, there are
+ # two buffers with an index
+ self.index = 0
+ self.length = 7
+ self.freq = np.zeros(self.length)
+
+ def lpf_freq(self, new_sample):
+ # save new sample
+ self.freq[self.index] = new_sample
+ # increment index
+ self.index = (self.index + 1) % self.length
+
+ return np.sum(self.freq) / self.length
def block_phase(self, start, end):
# compute number of samples in block
@@ -34,16 +45,9 @@ class blk(gr.sync_block):
ephase = pmt.to_python(end.value)
# compute frequency offset between start and end
+ # and run it through a low pass filter (mean)
freq = (sphase - ephase) / nsamples
-
- # save this frequency values to compute the end block, unless frequency
- # has changed too fast, in that case replace the current values with
- # the previous one . This is effectively like a low pass filter.
- if abs(freq / self.freq) > 4:
- freq = self.freq
- else:
- self.freq = freq
-
+ freq = self.lpf_freq(freq)
# debugging
print(f"Correction for block of {nsamples:2d} samples is " \
@@ -64,6 +68,11 @@ class blk(gr.sync_block):
is_phase = lambda tag: pmt.to_python(tag.key) == "phase_est"
tags = list(filter(is_phase, self.get_tags_in_window(0, 0, len(inp))))
+ if not tags:
+ print(f"There were no tags in {len(inp)} samples!")
+ out[:] = inp
+ return len(out)
+
# debugging
print(f"Processing {len(tags)} tags = {tags[-1].offset - tags[0].offset} " \
f"samples out of {len(inp)} input samples")
@@ -78,7 +87,8 @@ class blk(gr.sync_block):
# but we can use the frequency of the last block to approximate
nback = len(inp) - (tags[-1].offset - self.counter)
print(f"Processing {nback} samples at the back of the buffer")
- end = np.ones(nback) * pmt.to_python(tags[-1].value) + self.freq * np.arange(0, nback)
+ endfreq = self.lpf_freq(self.freq[-1])
+ end = np.ones(nback) * pmt.to_python(tags[-1].value) + endfreq * np.arange(0, nback)
# compute the "start", using the last tag from the previous call
nfront = tags[0].offset - self.counter