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Spectral density component function. Calculate the components of the spectral density value for the original model-free formula with the parameters {S2, te}. The model-free formula is:
_n_
2 \ / S2 (1 - S2)(te + ti)te \
J(w) = - > ci . ti | ------------ + ------------------------- |.
5 /__ \ 1 + (w.ti)^2 (te + ti)^2 + (w.te.ti)^2 /
i=m
Replicated calculations are: w_ti_sqrd = (w.ti)^2 (pre-calculated during initialisation), te_ti = te + ti, te_ti_te = (te + ti).te. Calculations which are replicated in the gradient equations are:
fact_ti = 1 / (1 + (w.ti)^2) (pre-calculated during initialisation),
one_s2 = 1 - S2,
te_ti_sqrd = (te + ti)^2,
w_te_ti_sqrd = (w.te.ti)^2,
(te + ti)te
fact_te = -------------------------.
(te + ti)^2 + (w.te.ti)^2
|
Spectral density component function. Calculate the components of the spectral density value for the extended model-free formula with the parameters {S2f, S2, ts}. The model-free formula is:
_n_
2 \ / S2 (S2f - S2)(ts + ti)ts \
J(w) = - > ci . ti | ------------ + ------------------------- |.
5 /__ \ 1 + (w.ti)^2 (ts + ti)^2 + (w.ts.ti)^2 /
i=m
Replicated calculations are: w_ti_sqrd = (w.ti)^2 (pre-calculated during initialisation), ts_ti = ts + ti, ts_ti_ts = (ts + ti).ts. Calculations which are replicated in the gradient equations are:
fact_ti = 1 / (1 + (w.ti)^2) (pre-calculated during initialisation),
s2f_s2 = S2f - S2,
ts_ti_sqrd = (ts + ti)^2,
w_ts_ti_sqrd = (w.ts.ti)^2,
inv_ts_denom = 1 / ((ts + ti)^2 + (w.ts.ti)^2),
(ts + ti)ts
fact_ts = -------------------------.
(ts + ti)^2 + (w.ts.ti)^2
|
Spectral density component function. Calculate the components of the spectral density value for the extended model-free formula with the parameters {S2f, S2s, ts}. The model-free formula is:
_n_
2 \ / S2s (1 - S2s)(ts + ti)ts \
J(w) = - S2f > ci . ti | ------------ + ------------------------- |.
5 /__ \ 1 + (w.ti)^2 (ts + ti)^2 + (w.ts.ti)^2 /
i=m
Replicated calculations are: w_ti_sqrd = (w.ti)^2 (pre-calculated during initialisation), ts_ti = ts + ti, ts_ti_ts = (ts + ti).ts. Calculations which are replicated in the gradient equations are:
fact_ti = 1 / (1 + (w.ti)^2) (pre-calculated during initialisation),
one_s2s = 1 - S2s,
ts_ti_sqrd = (ts + ti)^2,
w_ts_ti_sqrd = (w.ts.ti)^2,
inv_ts_denom = 1 / ((ts + ti)^2 + (w.ts.ti)^2),
(ts + ti)ts
fact_ts = -------------------------.
(ts + ti)^2 + (w.ts.ti)^2
|
Spectral density component function. Calculate the components of the spectral density value for the extended model-free formula with the parameters {S2f, tf, S2, ts}. The model-free formula is:
_n_
2 \ / S2 (1 - S2f)(tf + ti)tf
J(w) = - > ci . ti | ------------ + -------------------------
5 /__ \ 1 + (w.ti)^2 (tf + ti)^2 + (w.tf.ti)^2
i=m
(S2f - S2)(ts + ti)ts \
+ ------------------------- |.
(ts + ti)^2 + (w.ts.ti)^2 /
Replicated calculations are: w_ti_sqrd = (w.ti)^2 (pre-calculated during initialisation), tf_ti = tf + ti, ts_ti = ts + ti, tf_ti_tf = (tf + ti).tf, ts_ti_ts = (ts + ti).ts. Calculations which are replicated in the gradient equations are:
fact_ti = 1 / (1 + (w.ti)^2) (pre-calculated during initialisation),
one_s2f = 1 - S2f,
s2f_s2 = S2f - S2,
tf_ti_sqrd = (tf + ti)^2,
ts_ti_sqrd = (ts + ti)^2,
w_tf_ti_sqrd = (w.tf.ti)^2,
w_ts_ti_sqrd = (w.ts.ti)^2,
inv_tf_denom = 1 / ((tf + ti)^2 + (w.tf.ti)^2),
inv_ts_denom = 1 / ((ts + ti)^2 + (w.ts.ti)^2),
(tf + ti)tf
fact_tf = -------------------------,
(tf + ti)^2 + (w.tf.ti)^2
(ts + ti)ts
fact_ts = -------------------------.
(ts + ti)^2 + (w.ts.ti)^2
|
Spectral density component function. Calculate the components of the spectral density value for the extended model-free formula with the parameters {S2f, tf, S2s, ts}. The model-free formula is:
_n_
2 \ / S2f . S2s (1 - S2f)(tf + ti)tf
J(w) = - > ci . ti | ------------ + -------------------------
5 /__ \ 1 + (w.ti)^2 (tf + ti)^2 + (w.tf.ti)^2
i=m
S2f(1 - S2s)(ts + ti)ts \
+ ------------------------- |.
(ts + ti)^2 + (w.ts.ti)^2 /
Replicated calculations are: w_ti_sqrd = (w.ti)^2 (pre-calculated during initialisation), tf_ti = tf + ti, ts_ti = ts + ti, tf_ti_tf = (tf + ti).tf, ts_ti_ts = (ts + ti).ts. Calculations which are replicated in the gradient equations are:
fact_ti = 1 / (1 + (w.ti)^2) (pre-calculated during initialisation),
one_s2s = 1 - S2s,
one_s2f = 1 - S2f,
s2f_s2 = S2f(1 - S2s) = S2f - S2,
tf_ti_sqrd = (tf + ti)^2,
ts_ti_sqrd = (ts + ti)^2,
w_tf_ti_sqrd = (w.tf.ti)^2,
w_ts_ti_sqrd = (w.ts.ti)^2,
inv_tf_denom = 1 / ((tf + ti)^2 + (w.tf.ti)^2),
inv_ts_denom = 1 / ((ts + ti)^2 + (w.ts.ti)^2),
(tf + ti)tf
fact_tf = -------------------------,
(tf + ti)^2 + (w.tf.ti)^2
(ts + ti)ts
fact_ts = -------------------------.
(ts + ti)^2 + (w.ts.ti)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the original model-free formula with no parameters {} or the parameter {S2} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------.
(1 + (w.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the original model-free formula with the parameters {S2, te}. Replicated calculations are:
(te + ti)^2 - (w.te.ti)^2
fact_djw_dte = ti^2 -----------------------------.
((te + ti)^2 + (w.te.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the original model-free formula with the parameters {S2, te} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------,
(1 + (w.ti)^2)^2
(te + ti)^2 - (w.te.ti)^2
fact_djw = -----------------------------,
((te + ti)^2 + (w.te.ti)^2)^2
(te + ti)^2 - (w.te.ti)^2
fact_te_djw_dti = te^2 -----------------------------,
((te + ti)^2 + (w.te.ti)^2)^2
(te + ti)^2 - (w.te.ti)^2
fact_djw_dte = ti^2 -----------------------------.
((te + ti)^2 + (w.te.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, S2, ts}. Replicated calculations are:
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, S2, ts} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------,
(1 + (w.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw = -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw_dti = ts^2 -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, tf, S2, ts}. Replicated calculations are:
(tf + ti)^2 - (w.tf.ti)^2
fact_djw_dtf = ti^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, tf, S2, ts} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------,
(1 + (w.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_tf_djw = -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw = -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_tf_djw_dti = tf^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw_dti = ts^2 -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_djw_dtf = ti^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, S2s, ts}. Replicated calculations are:
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, S2s, ts} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------,
(1 + (w.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw = -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw_dti = ts^2 -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, tf, S2s, ts}. Replicated calculations are:
(tf + ti)^2 - (w.tf.ti)^2
fact_djw_dtf = ti^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
|
Spectral density gradient component function. Calculate the components of the spectral density gradient for the extended model-free formula with the parameters {S2f, tf, S2, ts} together with diffusion tensor parameters. Replicated calculations are:
1 - (w.ti)^2
fact_ti_djw_dti = ----------------,
(1 + (w.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_tf_djw = -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw = -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_tf_djw_dti = tf^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_ts_djw_dti = ts^2 -----------------------------,
((ts + ti)^2 + (w.ts.ti)^2)^2
(tf + ti)^2 - (w.tf.ti)^2
fact_djw_dtf = ti^2 -----------------------------,
((tf + ti)^2 + (w.tf.ti)^2)^2
(ts + ti)^2 - (w.ts.ti)^2
fact_djw_dts = ti^2 -----------------------------.
((ts + ti)^2 + (w.ts.ti)^2)^2
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| Generated by Epydoc 3.0.1 on Fri Oct 28 15:37:26 2016 | http://epydoc.sourceforge.net |