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lizhongxiao
OpenXG-RAN
Commits
e956a3e9
Commit
e956a3e9
authored
Mar 13, 2017
by
Xiwen JIANG
Browse files
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Octave script for WSA demo
parent
2e5a7fb7
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15 changed files
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+958
-0
targets/PROJECTS/TDDREC/v1_WSA/f_ch_est.m
targets/PROJECTS/TDDREC/v1_WSA/f_ch_est.m
+46
-0
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_mod.m
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_mod.m
+18
-0
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_rx.m
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_rx.m
+46
-0
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_tx.m
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_tx.m
+64
-0
targets/PROJECTS/TDDREC/v1_WSA/f_tls_ap.m
targets/PROJECTS/TDDREC/v1_WSA/f_tls_ap.m
+53
-0
targets/PROJECTS/TDDREC/v1_WSA/f_tls_svd.m
targets/PROJECTS/TDDREC/v1_WSA/f_tls_svd.m
+47
-0
targets/PROJECTS/TDDREC/v1_WSA/result/calibF.mtx
targets/PROJECTS/TDDREC/v1_WSA/result/calibF.mtx
+3
-0
targets/PROJECTS/TDDREC/v1_WSA/result/calibF_iden.mtx
targets/PROJECTS/TDDREC/v1_WSA/result/calibF_iden.mtx
+3
-0
targets/PROJECTS/TDDREC/v1_WSA/result/m_F.mat
targets/PROJECTS/TDDREC/v1_WSA/result/m_F.mat
+0
-0
targets/PROJECTS/TDDREC/v1_WSA/s_F_ones.m
targets/PROJECTS/TDDREC/v1_WSA/s_F_ones.m
+9
-0
targets/PROJECTS/TDDREC/v1_WSA/s_beamforming.m
targets/PROJECTS/TDDREC/v1_WSA/s_beamforming.m
+200
-0
targets/PROJECTS/TDDREC/v1_WSA/s_calib.m
targets/PROJECTS/TDDREC/v1_WSA/s_calib.m
+135
-0
targets/PROJECTS/TDDREC/v1_WSA/s_draw_F.m
targets/PROJECTS/TDDREC/v1_WSA/s_draw_F.m
+96
-0
targets/PROJECTS/TDDREC/v1_WSA/s_init_params.m
targets/PROJECTS/TDDREC/v1_WSA/s_init_params.m
+50
-0
targets/PROJECTS/TDDREC/v1_WSA/s_run_meas.m
targets/PROJECTS/TDDREC/v1_WSA/s_run_meas.m
+188
-0
No files found.
targets/PROJECTS/TDDREC/v1_WSA/f_ch_est.m
0 → 100644
View file @
e956a3e9
%
% PURPOSE : channel estimation using least square method
%
% ARGUMENTS :
%
% m_sym_T : transmitted symbol, d_N_f x d_N_ofdm x d_N_ant_act x d_N_meas
% m_sym_R : received symbol, d_N_f x d_N_ofdm x d_N_ant_act x d_N_meas
% d_N_meas : number of measurements
%
% OUTPUTS :
%
% m_H_est : estimation of sub-channels, d_N_antR x d_N_antT x d_N_f x d_N_meas
%
%**********************************************************************************************
% EURECOM - All rights reserved
%
% AUTHOR : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-29-2014 X. JIANG 0.1 creation of code
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the function "runmeas_full_duplex" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
function
m_H_est
=
f_ch_est
(
m_sym_T
,
m_sym_R
)
%% ** initialisation **
[
d_N_f
,
d_N_OFDM
,
d_N_antT
,
d_N_meas
]
=
size
(
m_sym_T
);
d_N_antR
=
size
(
m_sym_R
,
3
);
m_H_est
=
zeros
(
d_N_antR
,
d_N_antT
,
d_N_f
,
d_N_meas
);
%% ** estimate the subband channel for each measurement and antenna **
for
d_n_meas
=
1
:
d_N_meas
for
d_n_f
=
1
:
d_N_f
m_y
=
reshape
(
m_sym_R
(
d_n_f
,:,:,
d_n_meas
),
d_N_OFDM
,
d_N_antR
)
.'
;
% squeeze: problem for antenna number = 1 case
m_s
=
reshape
(
m_sym_T
(
d_n_f
,:,:,
d_n_meas
),
d_N_OFDM
,
d_N_antT
)
.'
;
m_H_est
(:,:,
d_n_f
,
d_n_meas
)
=
m_y
*
m_s
'/(m_s*m_s'
);
% LS channel estimation
end
end
end
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_mod.m
0 → 100644
View file @
e956a3e9
function
m_sig_T
=
f_ofdm_mod
(
m_sym_T
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rf
,
d_amp
)
d_N_ant_act
=
sum
(
v_active_rf
);
%** mapping useful data to favorable carriers **
m_sym_T_ext
=
zeros
(
d_N_FFT
,
d_N_OFDM
,
d_N_ant_act
);
m_sym_T_ext
(
362
:
512
,:,:)
=
m_sym_T
(
1
:
151
,:,:);
m_sym_T_ext
(
2
:
151
,:,:)
=
m_sym_T
(
152
:
301
,:,:);
%** ifft **
m_sig_T_
=
sqrt
(
d_N_FFT
)
*
ifft
(
m_sym_T_ext
,
d_N_FFT
,
1
);
%** add cyclic prefix **
m_sig_T_
=
[
m_sig_T_
(
end
-
d_N_CP
+
1
:
end
,:,:);
m_sig_T_
];
d_L
=
(
d_N_FFT
+
d_N_CP
)
*
d_N_OFDM
;
m_sig_T
=
floor
(
reshape
(
m_sig_T_
,
d_L
,
d_N_ant_act
)
*
d_amp
);
end
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_rx.m
0 → 100644
View file @
e956a3e9
%
% PURPOSE : OFDM Receiver
%
% ARGUMENTS :
%
% m_sig_R : received signal with dimension ((d_N_FFT+d_N_CP)*d_N_ofdm) x d_N
% d_N_FFT : total carrier number
% d_N_CP : extented cyclic prefix
% d_N_OFDM : OFDM symbol number per frame
% v_active_rf : active RF antenna indicator
%
% OUTPUTS :
%
% m_sym_R : transmitted signal before IFFT with dimension d_N_f x d_N_ofdm x d_N_ant_act
%
%**********************************************************************************************
% EURECOM - All rights reserved
%
% AUTHOR : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-29-2014 X. JIANG 0.1 creation of code
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the function "genrandpskseq" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
function
m_sym_R
=
f_ofdm_rx
(
m_sig_R
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rf
)
d_N_ant_act
=
sum
(
v_active_rf
);
m_sig_R_eff
=
m_sig_R
(:,
find
(
v_active_rf
));
m_sig_R_f
=
reshape
(
m_sig_R_eff
,(
d_N_FFT
+
d_N_CP
),
d_N_OFDM
,
d_N_ant_act
);
%** delete the CP **
m_sig_R_noCP
=
m_sig_R_f
(
d_N_CP
+
1
:
end
,:,:);
%** fft **
%m_sym_R_fft = fft(m_sig_R_noCP,d_N_FFT,1);
m_sym_R_fft
=
1
/
sqrt
(
d_N_FFT
)
*
fft
(
m_sig_R_noCP
,
d_N_FFT
,
1
);
m_sym_R
=
m_sym_R_fft
([
362
:
512
2
:
151
],:,:);
end
targets/PROJECTS/TDDREC/v1_WSA/f_ofdm_tx.m
0 → 100644
View file @
e956a3e9
%
% PURPOSE : OFDM Transmitter
%
% ARGUMENTS :
%
% d_M : modulation order
% d_N_f : carrier number carrying data
% d_N_FFT : total carrier number
% d_N_CP : extented cyclic prefix
% d_N_OFDM : OFDM symbol number per frame
% d_N_ant : antenna number
% v_active_rf : active RF antenna indicator
% d_amp : amplitude
%
% OUTPUTS :
%
% m_sym_T : transmitted signal before IFFT with dimension d_N_f x d_N_OFDM x d_N_ant_act
% m_sig_T : OFDM signal with dimension ((d_N_FFT+d_N_CP)*d_N_OFDM) x d_N_ant
%
%**********************************************************************************************
% EURECOM - All rights reserved
%
% AUTHOR : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-29-2014 X. JIANG 0.1 creation of code
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the function "genrandpskseq" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
function
[
m_sym_T
,
m_sig_T
]
=
f_ofdm_tx
(
d_M
,
d_N_f
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
d_N_ant
,
v_active_rf
,
d_amp
)
d_N_ant_act
=
sum
(
v_active_rf
);
%** constellation table **
v_MPSK
=
exp
(
sqrt
(
-
1
)
*
([
1
:
d_M
]
*
2
*
pi
/
d_M
+
pi
/
d_M
));
%** transmitted symbol **
m_sym_T
=
v_MPSK
(
ceil
(
rand
(
d_N_f
,
d_N_OFDM
,
d_N_ant_act
)
*
d_M
));
%** mapping useful data to favorable carriers **
m_sym_T_ext
=
zeros
(
d_N_FFT
,
d_N_OFDM
,
d_N_ant_act
);
m_sym_T_ext
(
362
:
512
,:,:)
=
m_sym_T
(
1
:
151
,:,:);
m_sym_T_ext
(
2
:
151
,:,:)
=
m_sym_T
(
152
:
301
,:,:);
%** ifft **
m_sig_T_
=
sqrt
(
d_N_FFT
)
*
ifft
(
m_sym_T_ext
,
d_N_FFT
,
1
);
%m_sig_T_ = ifft(m_sym_T_ext,d_N_FFT,1);
%** add cyclic prefix **
m_sig_T_
=
[
m_sig_T_
(
end
-
d_N_CP
+
1
:
end
,:,:);
m_sig_T_
];
d_L
=
(
d_N_FFT
+
d_N_CP
)
*
d_N_OFDM
;
m_sig_T_temp
=
reshape
(
m_sig_T_
,
d_L
,
d_N_ant_act
);
%** mapping to active antennas **
m_sig_T
=
zeros
(
d_L
,
d_N_ant
);
m_sig_T
(:,
find
(
v_active_rf
))
=
floor
(
m_sig_T_temp
*
d_amp
);
end
targets/PROJECTS/TDDREC/v1_WSA/f_tls_ap.m
0 → 100644
View file @
e956a3e9
%
% PURPOSE : TLS solution for AX = B based on alternative projection
%
% ARGUMENTS :
%
% A : observation of A
% B : observation of B
%
% OUTPUTS :
%
% X : TLS solution for X
%
%**********************************************************************************************
% EURECOM - All rights reserved
%
% AUTHOR : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Mai-05-2014 X. JIANG 0.1 creation of code
%
% REFERENCES/NOTES/COMMENTS :
%
% - none.
%
%**********************************************************************************************
function
[
X_est
A_est
B_est
]
=
f_tls_ap
(
A
,
B
)
%** initlisation **
e_new
=
0
;
e_old
=
1e14
;
e_thr
=
1e-5
;
%error threshold: what if the error cannot fall down under the error threshold
X_est
=
eye
(
size
(
A
,
2
));
A_est
=
A
;
%** alternative projection **
while
(
abs
(
e_new
-
e_old
)
>
e_thr
)
e_old
=
e_new
;
% optimise X_est
X_est
=
(
A_est
'*A_est)\A_est'
*
B
;
%optimise A_est
A_est
=
B
*
X_est
'/(X_est*X_est'
);
e_new
=
norm
(
A_est
*
X_est
-
B
)
^
2
+
norm
(
A_est
-
A
)
^
2
;
end
B_est
=
A_est
*
X_est
;
end
\ No newline at end of file
targets/PROJECTS/TDDREC/v1_WSA/f_tls_svd.m
0 → 100644
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e956a3e9
%
% PURPOSE : TLS solution for AX = B based on SVD
%
% ARGUMENTS :
%
% A : observation of A
% B : observation of B
%
% OUTPUTS :
%
% X : TLS solution for X
%
%**********************************************************************************************
% EURECOM - All rights reserved
%
% AUTHOR : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-30-2014 X. JIANG 0.1 creation of code
%
% REFERENCES/NOTES/COMMENTS :
%
% - I. Markovsky and S. V. Huffel, Overview of total least-squares methods, Signal Processing, vol. 87, pp.
% 22832302, 2007
%
%**********************************************************************************************
function
[
X_est
A_est
B_est
]
=
f_tls_svd
(
A
,
B
)
C
=
[
A
B
];
n
=
size
(
A
,
2
);
d
=
size
(
B
,
2
);
[
U
S
V
]
=
svd
(
C
,
0
);
V12
=
V
(
1
:
n
,
n
+
1
:
end
);
V22
=
V
(
n
+
1
:
end
,
n
+
1
:
end
);
S1
=
S
(
1
:
n
,
1
:
n
);
Z12
=
zeros
(
n
,
d
);
Z22
=
zeros
(
d
);
Z21
=
zeros
(
d
,
n
);
X_est
=
-
V12
/
V22
;
C_est
=
U
*
[
S1
Z12
;
Z21
Z22
]
*
V
'
;
A_est
=
C_est
(:,
n
);
B_est
=
C_est
(:,
n
+
1
:
end
);
% delta_C = -U*diag([0,0,S(3,3),S(4,4)])*V';
end
\ No newline at end of file
targets/PROJECTS/TDDREC/v1_WSA/result/calibF.mtx
0 → 100644
View file @
e956a3e9
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10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55 10 -55
32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0 32440 0
targets/PROJECTS/TDDREC/v1_WSA/result/calibF_iden.mtx
0 → 100644
View file @
e956a3e9
32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0
32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0 32767 0
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targets/PROJECTS/TDDREC/v1_WSA/result/m_F.mat
0 → 100644
View file @
e956a3e9
File added
targets/PROJECTS/TDDREC/v1_WSA/s_F_ones.m
0 → 100644
View file @
e956a3e9
d_N_antM
=
3
;
d_N_f
=
300
;
m_F_norm
=
ones
(
d_N_antM
,
d_N_f
)
*
(
1
+
0
*
1
i
);
m_F_Q15
=
zeros
(
d_N_antM
,
d_N_f
*
2
);
m_F_Q15
(:,
1
:
2
:
end
-
1
)
=
floor
(
real
(
m_F_norm
)
*
(
2
^
15
))
-
1
;
m_F_Q15
(:,
2
:
2
:
end
)
=
floor
(
imag
(
m_F_norm
)
*
(
2
^
15
));
%%save('-ascii','calibF.mtx','m_F2_diag_Q14');
dlmwrite
(
'result/calibF_iden.mtx'
,
m_F_Q15
,
' '
);
targets/PROJECTS/TDDREC/v1_WSA/s_beamforming.m
0 → 100644
View file @
e956a3e9
%
% SCRIPT ID : s_beamforming
%
% PROJECT NAME : TDD Recoprocity
%
% PURPOSE : perform beamforming based on TDD calibration
%
%**********************************************************************************************
% Eurecom - All rights reserved
%
% AUTHOR(s) : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-30-2014 X. JIANG 0.1 script creation v0.1
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the script "beamforming" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
clear
all
%% -------- initilisation --------
d_M
=
4
;
% modulation order, e.g. 4 means QPSK
%** frequency **
d_fc
=
2580000000
;
%1907600000;
d_delta_f
=
15000
;
d_N_f
=
301
;
% carrier number carrying data
d_N_FFT
=
512
;
% total carrier number
d_N_CP
=
128
;
% extented cyclic prefix
%%** time **
d_N_OFDM
=
120
;
% number of ofdm symbol per frame
d_N_meas
=
1
;
% measuement number
%%** space **
d_N_antA
=
4
;
% antenna number at site a
d_N_antB
=
4
;
% antenna number at site b
v_active_rfA
=
[
1
1
0
0
];
v_active_rfB
=
[
0
0
0
1
];
active_rf
=
v_active_rfA
|
v_active_rfB
;
v_indA
=
find
(
v_active_rfA
);
% active antenna index at site a
v_indB
=
find
(
v_active_rfB
);
% active antenna index at site b
d_N_antA_act
=
length
(
v_indA
);
d_N_antB_act
=
length
(
v_indB
);
%
%%** amplitude **
d_amp
=
pow2
(
13
);
d_n_bit
=
16
;
card
=
0
;
%% -------- load F --------
o_result
=
load
(
'result/m_F.mat'
);
m_F
=
o_result
.
m_F
;
%% -------- channel measurement --------
s_run_meas
;
%% -------- signal precoding --------
v_MPSK
=
exp
(
sqrt
(
-
1
)
*
([
1
:
d_M
]
*
2
*
pi
/
d_M
+
pi
/
d_M
));
m_sym_TA
=
v_MPSK
(
ceil
(
rand
(
d_N_f
,
d_N_OFDM
)
*
d_M
));
m_sym_TA_ideal
=
zeros
(
d_N_f
,
d_N_OFDM
,
d_N_antA_act
);
m_sym_TA_iden
=
zeros
(
d_N_f
,
d_N_OFDM
,
d_N_antA_act
);
m_sym_TA_diag
=
zeros
(
d_N_f
,
d_N_OFDM
,
d_N_antA_act
);
d_N_sig
=
(
d_N_FFT
+
d_N_CP
)
*
d_N_OFDM
;
m_sig_TA_ideal
=
ones
(
d_N_sig
,
4
)
*
(
1
+
1
i
);
m_sig_TA_iden
=
ones
(
d_N_sig
,
4
)
*
(
1
+
1
i
);
m_sig_TA_diag
=
ones
(
d_N_sig
,
4
)
*
(
1
+
1
i
);
m_sig_TB
=
ones
(
d_N_sig
,
4
)
*
(
1
+
1
i
);
m_H_calib_A2B
=
zeros
(
1
,
2
,
d_N_f
);
for
d_f
=
1
:
d_N_f
%** ideal case **
v_H_A2B_ideal
=
squeeze
(
m_H_est_A2B
(:,:,
d_f
));
v_P_ideal
=
v_H_A2B_ideal
'
/
norm
(
v_H_A2B_ideal
);
m_sym_TA_ideal
(
d_f
,:,:)
=
(
v_P_ideal
*
m_sym_TA
(
d_f
,:))
.'
;
%** identity matrix **
v_H_A2B_iden
=
squeeze
(
m_H_est_B2A
(:,:,
d_f
))
.'
;
v_P_iden
=
v_H_A2B_iden
'
/
norm
(
v_H_A2B_iden
);
m_sym_TA_iden
(
d_f
,:,:)
=
(
v_P_iden
*
m_sym_TA
(
d_f
,:))
.'
;
%** diagonal calibration **
v_H_A2B_diag
=
squeeze
(
m_H_est_B2A
(:,:,
d_f
)
.'
)
*
diag
(
m_F
(:,
d_f
));
v_P_diag
=
v_H_A2B_diag
'
/
norm
(
v_H_A2B_diag
);
m_sym_TA_diag
(
d_f
,:,:)
=
(
v_P_diag
*
m_sym_TA
(
d_f
,:))
.'
;
m_H_calib_A2B
(:,:,
d_f
)
=
v_H_A2B_diag
;
end
%% -------- signal transmission --------
m_sig_TA_ideal
(:,
v_indA
)
=
f_ofdm_mod
(
m_sym_TA_ideal
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfA
,
d_amp
)
*
2
;
m_sig_TA_iden
(:,
v_indA
)
=
f_ofdm_mod
(
m_sym_TA_iden
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfA
,
d_amp
)
*
2
;
m_sig_TA_diag
(:,
v_indA
)
=
f_ofdm_mod
(
m_sym_TA_diag
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfA
,
d_amp
)
*
2
;
d_N_sig_R
=
d_N_OFDM
*
(
d_N_FFT
+
d_N_CP
);
v_P
=
exp
(
1
i
*
2
*
pi
*
(
0
:(
d_N_sig_R
-
1
))/
4
)
.'
;
m_P
=
repmat
(
v_P
,
1
,
4
);
oarf_send_frame
(
card
,
m_sig_TB
,
d_n_bit
);
m_noise_RB_
=
oarf_get_frame
(
-
2
);
m_noise_RB
=
m_noise_RB_
(
1
:
d_N_sig
,:)
.*
m_P
;
m_n_sym_RB
=
f_ofdm_rx
(
m_noise_RB
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfB
);
oarf_send_frame
(
card
,
m_sig_TA_ideal
,
d_n_bit
);
m_sig_RB_ideal_
=
oarf_get_frame
(
-
2
);
m_sig_RB_ideal
=
m_sig_RB_ideal_
(
1
:
d_N_sig
,:)
.*
m_P
;
m_sym_RB_ideal
=
f_ofdm_rx
(
m_sig_RB_ideal
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfB
);
oarf_send_frame
(
card
,
m_sig_TA_iden
,
d_n_bit
);
m_sig_RB_iden_
=
oarf_get_frame
(
-
2
);
m_sig_RB_iden
=
m_sig_RB_iden_
(
1
:
d_N_sig
,:)
.*
m_P
;
m_sym_RB_iden
=
f_ofdm_rx
(
m_sig_RB_iden
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfB
);
oarf_send_frame
(
card
,
m_sig_TA_diag
,
d_n_bit
);
m_sig_RB_diag_
=
oarf_get_frame
(
-
2
);
m_sig_RB_diag
=
m_sig_RB_diag_
(
1
:
d_N_sig
,:)
.*
m_P
;
m_sym_RB_diag
=
f_ofdm_rx
(
m_sig_RB_diag
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
v_active_rfB
);
%% -------- SNR measurement --------
%** noise measurment **
v_P_n
=
mean
(
var
(
squeeze
(
m_n_sym_RB
),
0
,
2
));
%** SNR caculation
%v_P_s_ideal = zeros(301,1);
%for d_f=1:d_N_f
% v_H_A2B_ideal = squeeze(m_H_est_A2B(:,:,d_f));
% v_P_s_ideal(d_f) = norm(v_H_A2B_ideal)^2;
%end
%keyboard;
v_P_s_ideal
=
var
(
squeeze
(
m_sym_RB_ideal
),
0
,
2
);
v_P_s_iden
=
var
(
squeeze
(
m_sym_RB_iden
),
0
,
2
);
v_P_s_diag
=
var
(
squeeze
(
m_sym_RB_diag
),
0
,
2
);
v_SNR_ideal_
=
10
*
log10
((
v_P_s_ideal
-
v_P_n
)
.
/
v_P_n
);
v_SNR_iden_
=
10
*
log10
((
v_P_s_iden
-
v_P_n
)
.
/
v_P_n
);
v_SNR_diag_
=
10
*
log10
((
v_P_s_diag
-
v_P_n
)
.
/
v_P_n
);
v_SNR_ideal
=
nan
(
d_N_f
+
1
,
1
);
v_SNR_iden
=
nan
(
d_N_f
+
1
,
1
);
v_SNR_diag
=
nan
(
d_N_f
+
1
,
1
)
;
v_SNR_ideal
([
1
:
151
153
:
302
])
=
v_SNR_ideal_
([
1
:
151
152
:
301
]);
v_SNR_iden
([
1
:
151
153
:
302
])
=
v_SNR_iden_
([
1
:
151
152
:
301
])
;
v_SNR_diag
([
1
:
151
153
:
302
])
=
v_SNR_diag_
([
1
:
151
152
:
301
])
;
%save('-v7','result/bf_gain_4x1_t3.mat','v_SNR_ideal','v_SNR_iden','v_SNR_diag','v_SNR_full');
%% -------- plot --------
v_f
=
d_fc
-
floor
(
d_N_f
/
2
)
*
d_delta_f
:
d_delta_f
:
d_fc
+
ceil
(
d_N_f
/
2
)
*
d_delta_f
;
figure
(
6
)
hold
on
plot
(
v_f
,
v_SNR_ideal
,
'k-o'
)
plot
(
v_f
,
v_SNR_iden
,
'g-'
)
plot
(
v_f
,
v_SNR_diag
,
'r-*'
)
hold
off
%ylim([30 40])
%%------------- Calibration ---------------
m_F_test
=
zeros
(
2
,
d_N_f
);
for
d_f
=
1
:
d_N_f
m_F_test
(:,
d_f
)
=
(
squeeze
(
m_H_est_A2B
(:,:,
d_f
))
.'
)
.
/
squeeze
(
m_H_est_B2A
(:,:,
d_f
));
end
%figure(12)
%subplot(2,1,1)
%hold on;
%for d_f=1:d_N_f
% plot(m_F_test(1,d_f),'bo')
% plot(m_F_test(2,d_f),'ro')
%end
%hold off;
%title('Diagonal F');
%axis([-2 2 -2 2])
%grid on
%
%subplot(2,1,2)
%hold on;
%for d_f=1:d_N_f
% plot(m_F(1,d_f),'bo')
% plot(m_F(2,d_f),'ro')
%end
%hold off;
%title('Diagonal F');
%axis([-2 2 -2 2])
%grid on
figure
(
13
)
subplot
(
2
,
2
,
1
)
plot
(
20
*
log10
(
abs
(
squeeze
(
m_H_est_A2B
)
.
')),'
-'
);
ylim
([
0
100
])
subplot
(
2
,
2
,
2
)
plot
(
20
*
log10
(
abs
(
squeeze
(
m_H_calib_A2B
)
.
')),'
-'
);
ylim
([
0
100
])
subplot
(
2
,
2
,
3
)
plot
(
angle
(
squeeze
(
m_H_est_A2B
)
.
'),'
-'
);
subplot
(
2
,
2
,
4
)
plot
(
angle
(
squeeze
(
m_H_calib_A2B
)
.
'),'
-'
);
targets/PROJECTS/TDDREC/v1_WSA/s_calib.m
0 → 100644
View file @
e956a3e9
%
% SCRIPT ID : s_run_calib
%
% PROJECT NAME : TDD Recoprocity
%
% PURPOSE : channel calibration for MISO case
%
%**********************************************************************************************
% Eurecom - All rights reserved
%
% AUTHOR(s) : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-30-2014 X. JIANG 0.1 script creation v0.1
% Feb-21-2017 X. JIANG 0.2 script adaption for WSA demo at Berlin
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the script "calibration" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
%% ** initilisation **
%---------- to change in experiement ---------
%clc
%clear all
%close all
%d_N_f = 301; % carrier number carrying data
%d_N_meas = 10; % measuement number
%d_N_loc = 5; % Rx locations
%d_N_antM = 2; % max active antenna number for site a and site b
%----------------------------------------------
%% -------- System parameters --------
d_M
=
4
;
% modulation order, e.g. 4 means QPSK
%** frequency **
d_N_f
=
301
;
% carrier number carrying data
d_N_FFT
=
512
;
% total carrier number
d_N_CP
=
128
;
% extented cyclic prefix
%** time **
d_N_OFDM
=
120
;
% number of ofdm symbol per frame
d_N_meas
=
1
;
% measuement number
%** space **
d_N_antA
=
4
;
% antenna number at site a
d_N_antB
=
4
;
% antenna number at site b
v_indA
=
find
(
v_active_rfA
);
% active antenna index at site a
v_indB
=
find
(
v_active_rfB
);
% active antenna index at site b
%** amplitude **
d_amp
=
pow2
(
13
)
-
1
;
% to see how to be used??
%% -------- calibration parameters -------
d_N_loc
=
1
;
% Rx locations
d_N_antM
=
max
(
sum
(
v_active_rfA
),
sum
(
v_active_rfB
));
% max active antenna number for site a and site b
m_H_A2B
=
zeros
(
d_N_antM
,
d_N_meas
*
d_N_loc
,
d_N_f
);
% d_N_antA x (d_N_meas*d_N_loc) x d_N_f
m_H_B2A
=
zeros
(
d_N_antM
,
d_N_meas
*
d_N_loc
,
d_N_f
);
% d_N_antA x (d_N_meas*d_N_loc) x d_N_f
m_F
=
zeros
(
d_N_antM
,
d_N_f
);
m_F_
=
zeros
(
d_N_antM
,
d_N_meas
,
d_N_f
);
%% ** collect the measurement data from different locations **
d_loc
=
1
;
while
(
d_loc
<=
d_N_loc
)
% run measurement, note: uncomment "clear all"
s_run_meas
;
% -----------------------------------------------------
d_yes
=
yes_or_no
(
'valid measurement?'
);
if
d_yes
==
1
m_H_A2Bi
=
permute
(
squeeze
(
m_H_est_A2B
),[
1
3
2
]);
m_H_B2Ai
=
permute
(
squeeze
(
m_H_est_B2A
),[
1
3
2
]);
m_H_A2B
(:,(
d_loc
-
1
)
*
d_N_meas
+
1
:
d_loc
*
d_N_meas
,:)
=
m_H_A2Bi
;
m_H_B2A
(:,(
d_loc
-
1
)
*
d_N_meas
+
1
:
d_loc
*
d_N_meas
,:)
=
m_H_B2Ai
;
d_loc
=
d_loc
+
1
end
%keyboard;
pause
end
%s_run_meas;
%% --- the following part is dedicated to B2A MISO -----
%m_H_A2B = squeeze(m_H_est_A2B);
%m_H_B2A = squeeze(m_H_est_B2A);
%% -----------------------------------------------------
%% ** calibration **
for
d_f
=
1
:
d_N_f
m_F
(:,
d_f
)
=
mean
(
m_H_A2B
(:,:,
d_f
)
.
/
m_H_B2A
(:,:,
d_f
),
2
);
end
m_F_norm
=
zeros
(
d_N_antM
+
1
,
d_N_f
);
m_F_norm
(
1
,
:)
=
mean
(
m_F
(
1
,
:),
2
);
m_F_norm
(
2
,
:)
=
mean
(
m_F
(
2
,
:),
2
);
m_F_norm
(
3
,
:)
=
1
;
m_F_norm
=
m_F_norm
.
/
max
(
max
(
abs
(
m_F_norm
)))
*
0.99
;
%keyboard
save
(
'-v7'
,
'result/m_F.mat'
,
'm_F'
);
%% ** transform the data to Q2.14 format and store it in a .mtx file
m_F_Q15
=
zeros
(
d_N_antM
+
1
,
d_N_f
*
2
);
m_F_Q15
(:,
1
:
2
:
end
-
1
)
=
floor
(
real
(
m_F_norm
)
*
(
2
^
15
));
m_F_Q15
(:,
2
:
2
:
end
)
=
floor
(
imag
(
m_F_norm
)
*
(
2
^
15
));
%%save('-ascii','calibF.mtx','m_F2_diag_Q14');
dlmwrite
(
'result/calibF.mtx'
,
m_F_Q15
,
' '
);
%% ** plot **
figure
(
11
)
hold
on
;
for
d_f
=
1
:
d_N_f
plot
(
m_F_norm
(
1
,
d_f
),
'bo'
)
plot
(
m_F_norm
(
2
,
d_f
),
'ro'
)
plot
(
m_F_norm
(
3
,
d_f
)
+
0.000001
*
1
i
,
'ko'
)
end
hold
off
;
title
(
'Diagonal F'
);
axis
([
-
2
2
-
2
2
])
grid
on
%figure(12)
%hold on;
%for d_f=1:d_N_f
% plot(m_F_(1,1,d_f),'bo')
% plot(m_F_(2,1,d_f),'ro')
%% plot(m_F_(1,3,d_f),'gx')
%% plot(m_F_(2,3,d_f),'yx')
%% plot(m_F_(1,5,d_f),'c+')
%% plot(m_F_(2,5,d_f),'m+')
%end
%hold off;
%title('Diagonal F');
%axis([-2 2 -2 2])
%grid on
targets/PROJECTS/TDDREC/v1_WSA/s_draw_F.m
0 → 100644
View file @
e956a3e9
close
all
m_H_B2A
=
load
(
'm_H_B2A_1card_test1.mat'
);
m_H_B2A
=
m_H_B2A
.
m_H_B2A
;
m_H_A2B
=
load
(
'm_H_A2B_1card_test1.mat'
);
m_H_A2B
=
m_H_A2B
.
m_H_A2B
;
%% ** normalisation **
%for d_f = 1:d_N_f
% for d_n_meas = 1:d_N_meas
% m_H_B2A(:,d_n_meas,d_f) = m_H_B2A(:,d_n_meas,d_f)/max(abs(m_H_B2A(:,d_n_meas,d_f)));
% m_H_A2B(:,d_n_meas,d_f) = m_H_A2B(:,d_n_meas,d_f)/max(abs(m_H_A2B(:,d_n_meas,d_f)));
% end
%end
%keyboard;
%% ** average **
%m_H_B2A_ = zeros(size(m_H_B2A,1),15,size(m_H_B2A,3));
%m_H_A2B_ = zeros(size(m_H_A2B,1),15,size(m_H_A2B,3));
%for d_f = 1:d_N_f
% for d_l = 1:d_N_loc
% m_H_B2A_(:,d_l,d_f) = mean(m_H_B2A(:,(d_l-1)*10+1:d_l*10,d_f),2);
% m_H_A2B_(:,d_l,d_f) = mean(m_H_A2B(:,(d_l-1)*10+1:d_l*10,d_f),2);
% end
%end
%keyboard;
%% ** calibration **
for
d_f
=
1
:
d_N_f
[
m_F0
(:,:,
d_f
),
m_A0_est
,
m_B0_est
]
=
f_tls_svd
(
m_H_B2A
(:,:,
d_f
)
.
',m_H_A2B(:,:,d_f).'
);
% [m_F1(:,:,d_f),m_A0_est,m_B0_est] = f_tls_svd(m_H_B2A(:,:,d_f).',m_H_A2B(:,51:100,d_f).');
% [m_F2(:,:,d_f),m_A0_est,m_B0_est] = f_tls_svd(m_H_B2A(:,:,d_f).',m_H_A2B(:,101:150,d_f).');
[
m_F3
(:,:,
d_f
),
m_A1_est
,
m_B1_est
]
=
f_tls_ap
(
m_H_B2A
(:,:,
d_f
)
.
',m_H_A2B(:,:,d_f).'
);
%[m_F0(:,:,d_f),m_A0_est,m_B0_est] = f_tls_svd(m_H_B2A_(:,1:50,d_f).',m_H_A2B_(:,1:50,d_f).');
%[m_F1(:,:,d_f),m_A0_est,m_B0_est] = f_tls_svd(m_H_B2A_(:,51:100,d_f).',m_H_A2B_(:,51:100,d_f).');
%[m_F2(:,:,d_f),m_A0_est,m_B0_est] = f_tls_svd(m_H_B2A_(:,101:150,d_f).',m_H_A2B_(:,101:150,d_f).');
%[m_F3(:,:,d_f),m_A1_est,m_B1_est] = f_tls_ap(m_H_B2A_(:,:,d_f).',m_H_A2B_(:,:,d_f).');
end
%oarf_stop(cardA);
%oarf_stop(cardB);
%% ** plot **
figure
(
10
)
hold
on
;
for
d_f
=
1
:
size
(
m_F0
,
3
);
m_F
=
m_F0
(:,:,
d_f
);
plot
(
m_F
(
1
,
1
),
'bo'
)
plot
(
m_F
(
2
,
2
),
'ko'
)
plot
(
diag
(
m_F
,
1
),
'r+'
)
plot
(
diag
(
m_F
,
-
1
),
'gx'
)
end
hold
off
;
title
(
'F0'
);
axis
([
-
10
10
-
10
10
])
grid
on
figure
(
11
)
hold
on
;
for
d_f
=
1
:
size
(
m_F1
,
3
);
m_F
=
m_F1
(:,:,
d_f
);
plot
(
m_F
(
1
,
1
),
'bo'
)
plot
(
m_F
(
2
,
2
),
'ko'
)
plot
(
diag
(
m_F
,
1
),
'r+'
)
plot
(
diag
(
m_F
,
-
1
),
'gx'
)
end
hold
off
;
title
(
'F1'
);
axis
([
-
10
10
-
10
10
])
grid
on
figure
(
12
)
hold
on
;
for
d_f
=
1
:
size
(
m_F2
,
3
);
m_F
=
m_F2
(:,:,
d_f
);
plot
(
m_F
(
1
,
1
),
'bo'
)
plot
(
m_F
(
2
,
2
),
'ko'
)
plot
(
diag
(
m_F
,
1
),
'r+'
)
plot
(
diag
(
m_F
,
-
1
),
'gx'
)
end
hold
off
;
title
(
'F2'
);
axis
([
-
10
10
-
10
10
])
grid
on
;
figure
(
13
)
hold
on
;
for
d_f
=
1
:
size
(
m_F3
,
3
);
m_F
=
m_F3
(:,:,
d_f
);
plot
(
m_F
(
1
,
1
),
'bo'
)
plot
(
m_F
(
2
,
2
),
'ko'
)
plot
(
diag
(
m_F
,
1
),
'r+'
)
plot
(
diag
(
m_F
,
-
1
),
'gx'
)
end
hold
off
;
title
(
'F3'
);
axis
([
-
10
10
-
10
10
])
grid
on
targets/PROJECTS/TDDREC/v1_WSA/s_init_params.m
0 → 100644
View file @
e956a3e9
clear
all
close
all
addpath
([
getenv
(
'OPENAIR_TARGETS'
)
'/ARCH/EXMIMO/USERSPACE/OCTAVE'
]);
addpath
([
getenv
(
'OPENAIR_DIR'
)
'/cmake_targets/lte_build_oai/build'
]);
%% -------- ExpressMIMO2 configuration --------
limeparms
;
card
=
0
;
v_active_rfA
=
[
1
1
0
0
];
v_active_rfB
=
[
0
0
1
0
];
active_rf
=
v_active_rfA
|
v_active_rfB
;
if
(
v_active_rfA
*
v_active_rfB
'~=
0
)
error
(
'The A and B transceive chains must be orthogonal./n'
)
end
fc
=
2580000000
;
%1907600000; %1912600000; %fc = 859.5e6;
fs
=
7.68e6
;
freq_tx
=
fc
*
active_rf
;
freq_rx
=
(
fc
+
fs
/
4
)
*
active_rf
;
tdd_config
=
DUPLEXMODE_FDD
+
TXRXSWITCH_LSB
;
%we need the LSB switching for the woduplex script, otherwise we don't receive anything
rx_gain
=
[
10
10
10
0
];
%10*active_rf;
tx_gain
=
[
10
10
10
0
];
%10*active_rf;
%rx_gain = 20*active_rf;
%tx_gain = 20*active_rf;
syncmode
=
SYNCMODE_FREE
;
eNB_flag
=
0
;
%rf_mode=(RXEN+TXEN+TXLPFNORM+TXLPFEN+TXLPF25+RXLPFNORM+RXLPFEN+RXLPF25+LNA1ON+LNAByp+RFBBLNA1) * active_rf;
%rf_mode=(TXLPFNORM+TXLPFEN+TXLPF25+RXLPFNORM+RXLPFEN+RXLPF25+LNA1ON+LNAMax+RFBBNORM) * active_rf;
% we have to enable both DMA transfers so that the switching signal in the LSB of the TX buffer gets set
rf_mode
=
(
TXLPFNORM
+
TXLPFEN
+
TXLPF25
+
RXLPFNORM
+
RXLPFEN
+
RXLPF5
+
LNA1ON
+
LNAMax
+
RFBBNORM
+
DMAMODE_TX
+
TXEN
+
DMAMODE_RX
+
RXEN
)
*
active_rf
;
rf_rxdc
=
rf_rxdc
*
active_rf
;
%???
rf_vcocal
=
rf_vcocal_19G
*
active_rf
;
rf_local
=
[
8254744
8255063
8257340
8257340
];
%eNB2tx 1.9GHz
rffe_rxg_low
=
31
*
active_rf
;
rffe_rxg_final
=
63
*
active_rf
;
rffe_band
=
B19G_TDD
*
active_rf
;
autocal_mode
=
active_rf
;
resampling_factor
=
[
2
2
2
2
];
oarf_stop
(
card
);
sleep
(
0.1
);
oarf_config_exmimo
(
0
,
freq_rx
,
freq_tx
,
tdd_config
,
syncmode
,
rx_gain
,
tx_gain
,
eNB_flag
,
rf_mode
,
rf_rxdc
,
rf_local
,
rf_vcocal
,
rffe_rxg_low
,
rffe_rxg_final
,
rffe_band
,
autocal_mode
,
resampling_factor
);
d_n_bit
=
16
;
targets/PROJECTS/TDDREC/v1_WSA/s_run_meas.m
0 → 100644
View file @
e956a3e9
%
% SCRIPT ID : s_run_meas
%
% PROJECT NAME : TDD Recoprocity
%
% PURPOSE : full transmission and receive train for TDD reciprocity calibration
%
%**********************************************************************************************
% Eurecom - All rights reserved
%
% AUTHOR(s) : Xiwen JIANG, Florian Kaltenberger
%
% DEVELOPMENT HISTORY :
%
% Date Name(s) Version Description
% ----------- ------------- ------- ------------------------------------------------------
% Apr-29-2014 X. JIANG 0.1 script creation v0.1
%
% REFERENCES/NOTES/COMMENTS :
%
% - Based on the script "run_full_duplex" created by Mirsad Cirkic, Florian Kaltenberger.
%
%**********************************************************************************************
%% ** initialisation **
%% ------------- to change in experiment ------------
%clc
close
all
%clear all
%
%d_M = 4; % modulation order, e.g. 4 means QPSK
%
%%%** frequency **
%d_N_f = 301; % carrier number carrying data
%d_N_FFT = 512; % total carrier number
%d_N_CP = 128; % extented cyclic prefix
%%** time **
%d_N_OFDM = 120; % number of ofdm symbol per frame
%d_N_meas = 10; % measuement number
%%** antenna **
%d_N_antA = 4; % antenna number at site a
%d_N_antB = 4; % antenna number at site b
%v_active_rfA=[0 0 1 0]; %temp
%v_active_rfB=[1 1 0 0];
%v_indA = find(v_active_rfA); % active antenna index at site a
%v_indB = find(v_active_rfB); % active antenna index at site b
%d_amp = 10;
%% ----------------------------------------------------
m_sym_T
=
zeros
(
d_N_f
,
d_N_OFDM
,
3
,
d_N_meas
);
m_sym_TA
=
zeros
(
d_N_f
,
d_N_OFDM
/
2
,
length
(
v_indA
),
d_N_meas
);
m_sym_TB
=
zeros
(
d_N_f
,
d_N_OFDM
/
2
,
length
(
v_indB
),
d_N_meas
);
m_sym_RA
=
zeros
(
d_N_f
,
d_N_OFDM
/
2
,
length
(
v_indA
),
d_N_meas
);
m_sym_RB
=
zeros
(
d_N_f
,
d_N_OFDM
/
2
,
length
(
v_indB
),
d_N_meas
);
%** simulation**
%m_sig_R = zeros((d_N_FFT+d_N_CP)*d_N_OFDM,4);
for
d_n_meas
=
1
:
d_N_meas
%% -------- tx --------
%** tx of site A **
[
m_sym_T
(:,:,:,
d_n_meas
),
m_sig_T
]
=
f_ofdm_tx
(
d_M
,
d_N_f
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
,
d_N_antA
,
active_rf
,
d_amp
);
m_sym_TA
(:,:,:,
d_n_meas
)
=
m_sym_T
(:,
1
:
end
/
2
,
1
:
end
-
1
,
d_n_meas
);
m_sym_TB
(:,:,:,
d_n_meas
)
=
m_sym_T
(:,
end
/
2
+
1
:
end
,
end
,
d_n_meas
);
%** simulation
%m_sym_TA(:,d_N_OFDM/4+1:d_N_OFDM/2,1,d_n_meas) = 0;
%m_sig_T(end/4+1:end/2,v_indA(1)) = 0;
%m_sym_TA(:,1:d_N_OFDM/4,2,d_n_meas) = 0;
%m_sig_T(1:end/4,v_indA(2)) = 0;
%m_sig_T(1:end/2, v_indA) = m_sig_T(1:end/2,v_indA);
%m_sig_T(end/2+1:end, v_indA) = 0;
%m_sig_T(end/2+1:end, v_indB) = m_sig_T(end/2+1:end,v_indB);
%m_sig_T(1:end/2, v_indB) = 0;
%m_sig_R(end/2+1:end,1) = m_sig_T(end/2+1:end,4);
%m_sig_R(end/2+1:end,2) = m_sig_T(end/2+1:end,4);
%m_sig_R(1:end/2,4) = m_sig_T(1:end/2,1)+m_sig_T(1:end/2,2);
%** prepare the signal **
m_sym_TA
(:,
d_N_OFDM
/
4
+
1
:
d_N_OFDM
/
2
,
v_indA
(
1
),
d_n_meas
)
=
0
;
m_sym_TA
(:,
1
:
d_N_OFDM
/
4
,
v_indA
(
2
),
d_n_meas
)
=
0
;
m_sig_T
(
1
:
end
/
2
,
v_indA
)
=
m_sig_T
(
1
:
end
/
2
,
v_indA
)
*
2
;
m_sig_T
(
end
/
2
+
1
:
end
,
v_indB
)
=
m_sig_T
(
end
/
2
+
1
:
end
,
v_indB
)
*
2
;
m_sig_T
(
end
/
2
+
1
:
end
,
v_indA
)
=
1
+
1
i
;
m_sig_T
(
1
:
end
/
2
,
v_indB
)
=
1
+
1
i
;
m_sig_T
(
end
/
4
+
1
:
end
/
2
,
v_indA
(
1
))
=
1
+
1
i
;
m_sig_T
(
1
:
end
/
4
,
v_indA
(
2
))
=
1
+
1
i
;
%% -------- channel --------
%** Transmission from A to B **
oarf_send_frame
(
card
,
m_sig_T
,
d_n_bit
);
m_sig_R_
=
oarf_get_frame
(
-
2
);
d_N_sig_R
=
d_N_OFDM
*
(
d_N_FFT
+
d_N_CP
);
v_P
=
exp
(
1
i
*
2
*
pi
*
(
0
:(
d_N_sig_R
-
1
))/
4
)
.'
;
m_sig_R
=
m_sig_R_
(
1
:
d_N_sig_R
,:)
.*
repmat
(
v_P
,
1
,
size
(
m_sig_R_
,
2
));
m_sig_RA
=
m_sig_R
(
end
/
2
+
1
:
end
,:);
m_sig_RB
=
m_sig_R
(
1
:
end
/
2
,:);
%% -------- rx --------
m_sym_RB
(:,:,:,
d_n_meas
)
=
f_ofdm_rx
(
m_sig_RB
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
/
2
,
v_active_rfB
);
m_sym_RA
(:,:,:,
d_n_meas
)
=
f_ofdm_rx
(
m_sig_RA
,
d_N_FFT
,
d_N_CP
,
d_N_OFDM
/
2
,
v_active_rfA
);
end
% keyboard;
%** channel estimation **
m_H_est_A2B
=
f_ch_est
(
m_sym_TA
,
m_sym_RB
);
%dimension: d_N_antR x d_N_antT x d_N_f x d_N_meas
m_H_est_B2A
=
f_ch_est
(
m_sym_TB
,
m_sym_RA
);
%% -------- plot --------
%** channel estimation in frequency domain **
m_H_A2B_draw
=
squeeze
(
m_H_est_A2B
(
1
,:,:,
1
))
.'
;
m_H_B2A_draw
=
squeeze
(
m_H_est_B2A
(:,
1
,:,
1
))
.'
;
%keyboard
figure
(
1
)
subplot
(
2
,
1
,
1
)
plot
(
real
(
m_sig_RA
(:,
v_indA
)),
'-'
);
title
(
'm_sig_RA'
)
subplot
(
2
,
1
,
2
)
plot
(
real
(
m_sig_RB
(:,
v_indB
)),
'b-'
);
hold
on
plot
(
real
(
m_sig_RB
(
end
-
100
:
end
,
v_indB
)),
'r-'
)
title
(
'm_sig_RB'
)
figure
(
2
)
subplot
(
2
,
2
,
1
)
plot
(
20
*
log10
(
abs
(
m_H_A2B_draw
)),
'-'
);
title
(
'|h| vs. freq (A2B)'
)
xlabel
(
'freq'
)
ylabel
(
'|h|'
)
ylim
([
0
100
])
subplot
(
2
,
2
,
2
)
plot
(
20
*
log10
(
abs
(
m_H_B2A_draw
)),
'-'
);
title
(
'|h| vs. freq (B2A)'
)
xlabel
(
'freq'
)
ylabel
(
'|h|'
)
ylim
([
0
100
])
subplot
(
2
,
2
,
3
)
plot
(
angle
(
m_H_A2B_draw
),
'-'
);
title
(
'angle(h) vs. freq (A2B)'
)
xlabel
(
'freq'
)
ylabel
(
'angle(h)'
)
subplot
(
2
,
2
,
4
)
plot
(
angle
(
m_H_B2A_draw
),
'-'
);
title
(
'angle(h) vs. freq (B2A)'
)
xlabel
(
'freq'
)
ylabel
(
'angle(h)'
)
figure
(
3
)
plot
(
m_sym_RA
(
1
,:,
1
,
1
),
'b*'
)
% hold on
% plot(m_sym_RA(1,:,1,3),'r*')
% hold on
% plot(m_sym_RA(1,:,1,5),'g*')
title
(
'm sym RA 1'
)
figure
(
4
)
plot
(
m_sym_RA
(
1
,:,
2
,
1
),
'b*'
)
% hold on
% plot(m_sym_RA(1,:,2,3),'r*')
% hold on
% plot(m_sym_RA(1,:,2,5),'g*')
title
(
'm sym RA 2'
)
figure
(
5
)
subplot
(
2
,
1
,
1
)
plot
(
m_sym_RB
(
1
,
1
:
end
/
2
,
1
,
1
),
'b*'
)
% hold on
% plot(m_sym_RB(1,1:end/2,1,3),'r*')
% hold on
% plot(m_sym_RB(1,1:end/2,1,5),'g*')
title
(
'm sym RB ant 2'
)
subplot
(
2
,
1
,
2
)
plot
(
m_sym_RB
(
1
,
end
/
2
+
1
:
end
,
1
,
1
),
'b*'
)
% hold on
% plot(m_sym_RB(1,end/2+1:end,1,3),'r*')
% hold on
% plot(m_sym_RB(1,end/2+1:end,1,5),'g*')
title
(
'm sym RB ant 2'
)
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