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Elphel
imagej-elphel
Commits
d693f718
Commit
d693f718
authored
Oct 09, 2023
by
Andrey Filippov
Browse files
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Plain Diff
added East-North-Up that better matches camera orientation. Tested
parent
4d5b60b2
Changes
6
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Showing
6 changed files
with
753 additions
and
342 deletions
+753
-342
Did_ins_1.java
src/main/java/com/elphel/imagej/ims/Did_ins_1.java
+10
-0
Did_ins_2.java
src/main/java/com/elphel/imagej/ims/Did_ins_2.java
+20
-0
Imx5.java
src/main/java/com/elphel/imagej/ims/Imx5.java
+38
-0
Interscene.java
...main/java/com/elphel/imagej/tileprocessor/Interscene.java
+640
-1
IntersceneMatchParameters.java
...lphel/imagej/tileprocessor/IntersceneMatchParameters.java
+43
-9
OpticalFlow.java
...ain/java/com/elphel/imagej/tileprocessor/OpticalFlow.java
+2
-332
No files found.
src/main/java/com/elphel/imagej/ims/Did_ins_1.java
View file @
d693f718
...
...
@@ -27,6 +27,16 @@ public class Did_ins_1 extends Did_ins <Did_ins_1>{
/** North, east and down (meters) offset from reference latitude, longitude, and altitude to current latitude, longitude, and altitude */
public
float
[]
ned
=
new
float
[
3
];
public
double
[]
getTheta
()
{
return
new
double
[]
{
theta
[
0
],
theta
[
1
],
theta
[
2
]};
}
public
double
[]
getUvw
()
{
return
new
double
[]
{
uvw
[
0
],
uvw
[
1
],
uvw
[
2
]};
}
public
double
[]
getNed
()
{
return
new
double
[]
{
ned
[
0
],
ned
[
1
],
ned
[
2
]};
}
public
Did_ins_1
(
ByteBuffer
bb
)
{
bb
.
order
(
ByteOrder
.
LITTLE_ENDIAN
);
week
=
bb
.
getInt
();
...
...
src/main/java/com/elphel/imagej/ims/Did_ins_2.java
View file @
d693f718
...
...
@@ -5,6 +5,8 @@ import java.nio.ByteBuffer;
import
java.nio.ByteOrder
;
import
java.util.Properties
;
import
org.apache.commons.math3.geometry.euclidean.threed.Rotation
;
import
com.elphel.imagej.tileprocessor.IntersceneMatchParameters
;
//public class Did_ins_1 implements Serializable {
...
...
@@ -39,7 +41,25 @@ public class Did_ins_2 extends Did_ins <Did_ins_2>{
public
Did_ins_2
(
String
prefix
,
Properties
properties
)
{
getProperties
(
prefix
,
properties
);
}
public
double
[]
getQn2b
()
{
return
new
double
[]
{
qn2b
[
0
],
qn2b
[
1
],
qn2b
[
2
],
qn2b
[
3
]};
}
public
double
[]
getQEnu
()
{
Rotation
rot_enu_ned
=
new
Rotation
(
0
,
Math
.
sqrt
(
0.5
),
Math
.
sqrt
(
0.5
),
0
,
true
);
Rotation
quat_rot
=
new
Rotation
(
qn2b
[
0
],
qn2b
[
1
],
qn2b
[
2
],
qn2b
[
3
],
true
);
Rotation
quat_enu_rot
=
quat_rot
.
applyTo
(
rot_enu_ned
);
return
new
double
[]
{
quat_enu_rot
.
getQ0
(),
quat_enu_rot
.
getQ1
(),
quat_enu_rot
.
getQ2
(),
quat_enu_rot
.
getQ3
()};
}
public
double
[]
getUvw
()
{
return
new
double
[]
{
uvw
[
0
],
uvw
[
1
],
uvw
[
2
]};
}
public
Did_ins_2
interpolate
(
double
frac
,
Did_ins_2
next_did
)
{
Did_ins_2
new_did
=
new
Did_ins_2
();
...
...
src/main/java/com/elphel/imagej/ims/Imx5.java
View file @
d693f718
...
...
@@ -163,6 +163,18 @@ public class Imx5 {
// static final RotationConvention ROT_CONV = RotationConvention.FRAME_TRANSFORM;
// RotationConvention.VECTOR_OPERATOR
//RotationOrder.YXZ, ROT_CONV
// move to did?
public
static
double
[]
quatEnu
(
double
[]
quat_ned
)
{
Rotation
rot_enu_ned
=
new
Rotation
(
0
,
Math
.
sqrt
(
0.5
),
Math
.
sqrt
(
0.5
),
0
,
true
);
Rotation
quat_rot
=
new
Rotation
(
quat_ned
[
0
],
quat_ned
[
1
],
quat_ned
[
2
],
quat_ned
[
3
],
true
);
Rotation
quat_enu_rot
=
quat_rot
.
applyTo
(
rot_enu_ned
);
return
new
double
[]
{
quat_enu_rot
.
getQ0
(),
quat_enu_rot
.
getQ1
(),
quat_enu_rot
.
getQ2
(),
quat_enu_rot
.
getQ3
()};
}
public
static
double
[]
applyQuternionTo
(
double
[]
quat
,
double
[]
vector
,
boolean
inverse
)
{
Rotation
ims_rot
=
new
Rotation
(
quat
[
0
],
quat
[
1
],
quat
[
2
],
quat
[
3
],
true
);
double
[]
rslt
=
new
double
[
3
];
...
...
@@ -202,7 +214,23 @@ public class Imx5 {
return
new
double
[]
{
cam_quat
.
getQ0
(),
cam_quat
.
getQ1
(),
cam_quat
.
getQ2
(),
cam_quat
.
getQ3
()};
}
public
static
double
[]
quaternionImsToCam
(
double
[]
quat
,
double
[]
ims_atr
,
double
[]
quat_ort
)
{
Rotation
ims_to_mount_ortho
=
new
Rotation
(
quat_ort
[
0
],
quat_ort
[
1
],
quat_ort
[
2
],
quat_ort
[
3
],
true
);
Rotation
ims_to_ned
=
new
Rotation
(
quat
[
0
],
quat
[
1
],
quat
[
2
],
quat
[
3
],
true
);
Rotation
mount_to_cam
=
new
Rotation
(
RotationOrder
.
YXZ
,
ErsCorrection
.
ROT_CONV
,
ims_atr
[
0
],
ims_atr
[
1
],
ims_atr
[
2
]);
Rotation
mount_to_ned
=
ims_to_mount_ortho
.
applyTo
(
ims_to_ned
);
Rotation
cam_quat
=
mount_to_cam
.
applyTo
(
mount_to_ned
);
return
new
double
[]
{
cam_quat
.
getQ0
(),
cam_quat
.
getQ1
(),
cam_quat
.
getQ2
(),
cam_quat
.
getQ3
()};
}
public
static
double
[]
quatToCamAtr
(
double
[]
quat
)
{
Rotation
rot
=
new
Rotation
(
quat
[
0
],
quat
[
1
],
quat
[
2
],
quat
[
3
],
true
);
return
rot
.
getAngles
(
RotationOrder
.
YXZ
,
ErsCorrection
.
ROT_CONV
);
}
public
static
double
[]
imsToCamRotations
(
double
[]
ims_theta
,
int
ord
,
boolean
rev_order
,
boolean
rev_matrix
)
{
RotationConvention
rc
=
RotationConvention
.
FRAME_TRANSFORM
;
...
...
@@ -264,4 +292,14 @@ public class Imx5 {
return
ned
;
}
public
static
double
[]
enuFromLla
(
double
[]
lla
,
double
[]
lla_ref
)
{
double
[]
ned
=
new
double
[]
{
EARTH_RADIUS
*
Math
.
cos
(
lla
[
0
]
*
Math
.
PI
/
180
)*(
lla
[
1
]
-
lla_ref
[
1
])
*
Math
.
PI
/
180.0
,
EARTH_RADIUS
*
(
lla
[
0
]-
lla_ref
[
0
])
*
Math
.
PI
/
180
,
(
lla
[
2
]
-
lla_ref
[
2
])
};
return
ned
;
}
}
src/main/java/com/elphel/imagej/tileprocessor/Interscene.java
View file @
d693f718
...
...
@@ -3,14 +3,22 @@ package com.elphel.imagej.tileprocessor;
import
java.util.Arrays
;
import
java.util.concurrent.atomic.AtomicInteger
;
import
org.apache.commons.math3.geometry.euclidean.threed.Rotation
;
import
com.elphel.imagej.calibration.CalibrationFileManagement
;
import
com.elphel.imagej.cameras.CLTParameters
;
import
com.elphel.imagej.cameras.ColorProcParameters
;
import
com.elphel.imagej.common.DoubleGaussianBlur
;
import
com.elphel.imagej.common.ShowDoubleFloatArrays
;
import
com.elphel.imagej.gpu.GpuQuad
;
import
com.elphel.imagej.gpu.TpTask
;
import
com.elphel.imagej.ims.Did_ins_1
;
import
com.elphel.imagej.ims.Did_ins_2
;
import
com.elphel.imagej.ims.Did_pimu
;
import
com.elphel.imagej.ims.Imx5
;
import
ij.ImagePlus
;
import
ij.text.TextWindow
;
public
class
Interscene
{
public
final
OpticalFlow
opticalFlow
;
...
...
@@ -3078,5 +3086,636 @@ public class Interscene {
return
tp_tasks_ref
;
}
public
static
void
generateEgomotionTable0
(
CLTParameters
clt_parameters
,
QuadCLT
[]
quadCLTs
,
int
ref_index
,
int
earliest_scene
,
String
path
,
String
comment
)
{
boolean
use_euler
=
true
;
boolean
use_qn2b
=
true
;
double
[]
ims_ortho
=
clt_parameters
.
imp
.
ims_ortho
;
double
[]
ims_mount_atr
=
clt_parameters
.
imp
.
getImsMountATR
();
// converts to radians
// double [] quat_ortho = {0.5, 0.5, -0.5, 0.5}; // approximate IMU orientation
String
header_img
=
"#\ttimestamp\tx(m)\ty(m)\tz(m)\ta(rad)\ttilt(rad)\troll(rad)"
+
"\tVx(m/s)\tVy(m/s)\tVz(m/s)\tVa(rad/s)\tVt(rad/s)\tVr(rad/s)"
;
String
header_ins1
=
"\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"
+
"\tlat\tlong\talt\tned0\tned1\tned2"
;
String
header_ins2
=
"\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt"
;
String
header_ins2_extra
=
"\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"
+
"\tcam_X1\tcam_Y1\tcam_Z1\tcam_X2\tcam_Y2\tcam_Z2"
+
"\tabs_A\tabs_T\tabs_R\trel_A\trel_T\trel_R"
+
"\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv"
;
String
header_pimu
=
"\to0\to1\to2\ta0\ta1\ta2"
;
String
header_cam000
=
"\ttheta0-000\ttheta1-000\ttheta2-000"
;
String
header_cam001
=
"\ttheta0-001\ttheta1-001\ttheta2-001"
;
String
header_cam010
=
"\ttheta0-010\ttheta1-010\ttheta2-010"
;
String
header_cam011
=
"\ttheta0-011\ttheta1-011\ttheta2-011"
;
String
header_cam100
=
"\ttheta0-100\ttheta1-100\ttheta2-100"
;
String
header_cam101
=
"\ttheta0-101\ttheta1-101\ttheta2-101"
;
String
header_cam110
=
"\ttheta0-110\ttheta1-110\ttheta2-110"
;
String
header_cam111
=
"\ttheta0-111\ttheta1-111\ttheta2-111"
;
String
header_cam200
=
"\ttheta0-200\ttheta1-200\ttheta2-200"
;
String
header_cam201
=
"\ttheta0-201\ttheta1-201\ttheta2-201"
;
String
header_cam210
=
"\ttheta0-210\ttheta1-210\ttheta2-210"
;
String
header_cam211
=
"\ttheta0-211\ttheta1-211\ttheta2-211"
;
String
header_cam300
=
"\ttheta0-300\ttheta1-300\ttheta2-300"
;
String
header_cam301
=
"\ttheta0-301\ttheta1-301\ttheta2-301"
;
String
header_cam310
=
"\ttheta0-310\ttheta1-310\ttheta2-310"
;
String
header_cam311
=
"\ttheta0-311\ttheta1-311\ttheta2-311"
;
String
header_cam400
=
"\ttheta0-400\ttheta1-400\ttheta2-400"
;
String
header_cam401
=
"\ttheta0-401\ttheta1-401\ttheta2-401"
;
String
header_cam410
=
"\ttheta0-410\ttheta1-410\ttheta2-410"
;
String
header_cam411
=
"\ttheta0-411\ttheta1-411\ttheta2-411"
;
String
header_cam500
=
"\ttheta0-500\ttheta1-500\ttheta2-500"
;
String
header_cam501
=
"\ttheta0-501\ttheta1-501\ttheta2-501"
;
String
header_cam510
=
"\ttheta0-510\ttheta1-510\ttheta2-510"
;
String
header_cam511
=
"\ttheta0-511\ttheta1-511\ttheta2-511"
;
String
header_qn2b000
=
"\tqn2b0-000\tqn2b1-000\tqn2b2-000"
;
String
header_qn2b001
=
"\tqn2b0-001\tqn2b1-001\tqn2b2-001"
;
String
header_qn2b010
=
"\tqn2b0-010\tqn2b1-010\tqn2b2-010"
;
String
header_qn2b011
=
"\tqn2b0-011\tqn2b1-011\tqn2b2-011"
;
String
header_qn2b100
=
"\tqn2b0-100\tqn2b1-100\tqn2b2-100"
;
String
header_qn2b101
=
"\tqn2b0-101\tqn2b1-101\tqn2b2-101"
;
String
header_qn2b110
=
"\tqn2b0-110\tqn2b1-110\tqn2b2-110"
;
String
header_qn2b111
=
"\tqn2b0-111\tqn2b1-111\tqn2b2-111"
;
String
header_qn2b200
=
"\tqn2b0-200\tqn2b1-200\tqn2b2-200"
;
String
header_qn2b201
=
"\tqn2b0-201\tqn2b1-201\tqn2b2-201"
;
String
header_qn2b210
=
"\tqn2b0-210\tqn2b1-210\tqn2b2-210"
;
String
header_qn2b211
=
"\tqn2b0-211\tqn2b1-211\tqn2b2-211"
;
String
header_qn2b300
=
"\tqn2b0-300\tqn2b1-300\tqn2b2-300"
;
String
header_qn2b301
=
"\tqn2b0-301\tqn2b1-301\tqn2b2-301"
;
String
header_qn2b310
=
"\tqn2b0-310\tqn2b1-310\tqn2b2-310"
;
String
header_qn2b311
=
"\tqn2b0-311\tqn2b1-311\tqn2b2-311"
;
String
header_qn2b400
=
"\tqn2b0-400\tqn2b1-400\tqn2b2-400"
;
String
header_qn2b401
=
"\tqn2b0-401\tqn2b1-401\tqn2b2-401"
;
String
header_qn2b410
=
"\tqn2b0-410\tqn2b1-410\tqn2b2-410"
;
String
header_qn2b411
=
"\tqn2b0-411\tqn2b1-411\tqn2b2-411"
;
String
header_qn2b500
=
"\tqn2b0-500\tqn2b1-500\tqn2b2-500"
;
String
header_qn2b501
=
"\tqn2b0-501\tqn2b1-501\tqn2b2-501"
;
String
header_qn2b510
=
"\tqn2b0-510\tqn2b1-510\tqn2b2-510"
;
String
header_qn2b511
=
"\tqn2b0-511\tqn2b1-511\tqn2b2-511"
;
String
header
=
header_img
+
header_ins1
+
header_ins2
+
header_ins2_extra
+
header_pimu
;
if
(
use_qn2b
)
{
header
+=
header_qn2b000
+
header_qn2b001
+
header_qn2b010
+
header_qn2b011
+
header_qn2b100
+
header_qn2b101
+
header_qn2b110
+
header_qn2b111
+
header_qn2b200
+
header_qn2b201
+
header_qn2b210
+
header_qn2b211
+
header_qn2b300
+
header_qn2b301
+
header_qn2b310
+
header_qn2b311
+
header_qn2b400
+
header_qn2b401
+
header_qn2b410
+
header_qn2b411
+
header_qn2b500
+
header_qn2b501
+
header_qn2b510
+
header_qn2b511
;
}
if
(
use_euler
)
{
header
+=
header_cam000
+
header_cam001
+
header_cam010
+
header_cam011
+
header_cam100
+
header_cam101
+
header_cam110
+
header_cam111
+
header_cam200
+
header_cam201
+
header_cam210
+
header_cam211
+
header_cam300
+
header_cam301
+
header_cam310
+
header_cam311
+
header_cam400
+
header_cam401
+
header_cam410
+
header_cam411
+
header_cam500
+
header_cam501
+
header_cam510
+
header_cam511
;
}
StringBuffer
sb
=
new
StringBuffer
();
QuadCLT
ref_scene
=
quadCLTs
[
ref_index
];
ErsCorrection
ers_reference
=
ref_scene
.
getErsCorrection
();
double
[][][]
scenes_xyzatr
=
new
double
[
quadCLTs
.
length
][][];
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
nscene
==
ref_index
)
{
scenes_xyzatr
[
nscene
]
=
new
double
[
2
][
3
];
}
else
{
String
ts
=
scene
.
getImageName
();
scenes_xyzatr
[
nscene
]
=
new
double
[][]
{
ers_reference
.
getSceneXYZ
(
ts
),
ers_reference
.
getSceneATR
(
ts
)};
}
}
double
[][][]
dxyzatr_dt
=
OpticalFlow
.
getVelocitiesFromScenes
(
quadCLTs
,
// QuadCLT [] scenes, // ordered by increasing timestamps
ref_index
,
earliest_scene
,
// int start_scene,
quadCLTs
.
length
-
1
,
// int end1_scene,
scenes_xyzatr
,
// double [][][] scenes_xyzatr,
clt_parameters
.
ofp
.
lpf_series
);
// half_run_range); // double half_run_range
Did_ins_2
d2_ref
=
quadCLTs
[
ref_index
].
did_ins_2
;
double
[]
cam_quat_ref
=
Imx5
.
quaternionImsToCam
(
d2_ref
.
getQn2b
()
,
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
ref_abs_atr
=
Imx5
.
quatToCamAtr
(
cam_quat_ref
);
double
[][]
ims_ref_xyzatr
=
{
ZERO3
,
ref_abs_atr
};
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
scene
==
null
)
{
for
(
int
i
=
0
;
i
<
26
;
i
++)
{
sb
.
append
(
"\t---"
);
}
sb
.
append
(
"\n"
);
continue
;
}
double
timestamp
=
scene
.
getTimeStamp
();
Did_ins_1
d1
=
scene
.
did_ins_1
;
Did_ins_2
d2
=
scene
.
did_ins_2
;
Did_pimu
d3
=
scene
.
did_pimu
;
sb
.
append
(
nscene
+
"\t"
+
timestamp
);
// TODO: try saved, not calculated velocities!
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
2
]);
// String header_ins1="\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"+
// "\tlong\tlat\talt\tned0\tned1\tned2";
sb
.
append
(
"\t"
+
d1
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d1
.
theta
[
0
]+
"\t"
+
d1
.
theta
[
1
]+
"\t"
+
d1
.
theta
[
2
]);
sb
.
append
(
"\t"
+
d1
.
uvw
[
0
]+
"\t"
+
d1
.
uvw
[
1
]+
"\t"
+
d1
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d1
.
lla
[
0
]+
"\t"
+
d1
.
lla
[
1
]+
"\t"
+
d1
.
lla
[
2
]);
sb
.
append
(
"\t"
+
d1
.
ned
[
0
]+
"\t"
+
d1
.
ned
[
1
]+
"\t"
+
d1
.
ned
[
2
]);
//String header_ins2="\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt";
sb
.
append
(
"\t"
+
d2
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d2
.
qn2b
[
0
]+
"\t"
+
d2
.
qn2b
[
1
]+
"\t"
+
d2
.
qn2b
[
2
]+
"\t"
+
d2
.
qn2b
[
3
]);
sb
.
append
(
"\t"
+
d2
.
uvw
[
0
]+
"\t"
+
d2
.
uvw
[
1
]+
"\t"
+
d2
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d2
.
lla
[
0
]+
"\t"
+
d2
.
lla
[
1
]+
"\t"
+
d2
.
lla
[
2
]);
double
[]
double_theta
=
d1
.
getTheta
();
//imsToCamRotations(double [] ims_theta, boolean rev_order, boolean rev_matrix )
double
[]
double_qn2b
=
d2
.
getQn2b
();
double
[]
double_uvw
=
d2
.
getUvw
();
double
[]
uvw_dir
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
false
);
// bad
double
[]
uvw_inv
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
true
);
// good
//Converting from local uvw to NED: (qn2b).applyInverseTo(uvw,ned) results in [vNorth, vEast, vUp]
double
[]
ned
=
Imx5
.
nedFromLla
(
d2
.
lla
,
d2_ref
.
lla
);
double
[]
ims_xyz
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
ned
,
false
);
// String header_ins2_extra="\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"+
// "\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv";
sb
.
append
(
"\t"
+
ned
[
0
]+
"\t"
+
ned
[
1
]+
"\t"
+
ned
[
2
]);
// global axes
sb
.
append
(
"\t"
+
ims_xyz
[
0
]+
"\t"
+
ims_xyz
[
1
]+
"\t"
+
ims_xyz
[
2
]);
// imu axes
double
[]
cam_quat1
=
Imx5
.
quaternionImsToCam
(
double_qn2b
,
new
double
[
3
],
ims_ortho
);
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
double_qn2b
,
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
cam_xyz1
=
Imx5
.
applyQuternionTo
(
cam_quat1
,
ned
,
false
);
double
[]
cam_xyz2
=
Imx5
.
applyQuternionTo
(
cam_quat2
,
ned
,
false
);
sb
.
append
(
"\t"
+
cam_xyz1
[
0
]+
"\t"
+
cam_xyz1
[
1
]+
"\t"
+
cam_xyz1
[
2
]);
//
sb
.
append
(
"\t"
+
cam_xyz2
[
0
]+
"\t"
+
cam_xyz2
[
1
]+
"\t"
+
cam_xyz2
[
2
]);
//
double
[]
scene_abs_atr
=
Imx5
.
quatToCamAtr
(
cam_quat2
);
double
[][]
ims_scene_xyzatr
=
{
ZERO3
,
scene_abs_atr
};
double
[]
scene_rel_atr
=
ErsCorrection
.
combineXYZATR
(
ims_scene_xyzatr
,
ErsCorrection
.
invertXYZATR
(
ims_ref_xyzatr
))[
1
];
sb
.
append
(
"\t"
+
scene_abs_atr
[
0
]+
"\t"
+
scene_abs_atr
[
1
]+
"\t"
+
scene_abs_atr
[
2
]);
//
sb
.
append
(
"\t"
+
scene_rel_atr
[
0
]+
"\t"
+
scene_rel_atr
[
1
]+
"\t"
+
scene_rel_atr
[
2
]);
//
sb
.
append
(
"\t"
+
uvw_dir
[
0
]+
"\t"
+
uvw_dir
[
1
]+
"\t"
+
uvw_dir
[
2
]);
// wrong
sb
.
append
(
"\t"
+
uvw_inv
[
0
]+
"\t"
+
uvw_inv
[
1
]+
"\t"
+
uvw_inv
[
2
]);
// correct
// String header_pimu="\to0\to1\to2\ta0\ta1\ta2";
sb
.
append
(
"\t"
+(
d3
.
theta
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
2
]/
d3
.
dt
));
sb
.
append
(
"\t"
+(
d3
.
vel
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
2
]/
d3
.
dt
));
// String header_cam= "\ttheta0\ttheta1\ttheta2\troll\tpitch\tyaw";
if
(
use_qn2b
)
{
double
[]
cam_qn2b_000
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
false
,
false
);
double
[]
cam_qn2b_001
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
false
,
true
);
double
[]
cam_qn2b_010
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
true
,
false
);
double
[]
cam_qn2b_011
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
true
,
true
);
double
[]
cam_qn2b_100
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
false
,
false
);
double
[]
cam_qn2b_101
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
false
,
true
);
double
[]
cam_qn2b_110
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
true
,
false
);
double
[]
cam_qn2b_111
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
true
,
true
);
double
[]
cam_qn2b_200
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
false
,
false
);
double
[]
cam_qn2b_201
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
false
,
true
);
double
[]
cam_qn2b_210
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
true
,
false
);
double
[]
cam_qn2b_211
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
true
,
true
);
double
[]
cam_qn2b_300
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
false
,
false
);
double
[]
cam_qn2b_301
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
false
,
true
);
double
[]
cam_qn2b_310
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
true
,
false
);
double
[]
cam_qn2b_311
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
true
,
true
);
double
[]
cam_qn2b_400
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
false
,
false
);
double
[]
cam_qn2b_401
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
false
,
true
);
double
[]
cam_qn2b_410
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
true
,
false
);
double
[]
cam_qn2b_411
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
true
,
true
);
double
[]
cam_qn2b_500
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
false
,
false
);
double
[]
cam_qn2b_501
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
false
,
true
);
double
[]
cam_qn2b_510
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
true
,
false
);
double
[]
cam_qn2b_511
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
true
,
true
);
sb
.
append
(
"\t"
+
cam_qn2b_000
[
0
]+
"\t"
+
cam_qn2b_000
[
1
]+
"\t"
+
cam_qn2b_000
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_001
[
0
]+
"\t"
+
cam_qn2b_001
[
1
]+
"\t"
+
cam_qn2b_001
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_010
[
0
]+
"\t"
+
cam_qn2b_010
[
1
]+
"\t"
+
cam_qn2b_010
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_011
[
0
]+
"\t"
+
cam_qn2b_011
[
1
]+
"\t"
+
cam_qn2b_011
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_100
[
0
]+
"\t"
+
cam_qn2b_100
[
1
]+
"\t"
+
cam_qn2b_100
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_101
[
0
]+
"\t"
+
cam_qn2b_101
[
1
]+
"\t"
+
cam_qn2b_101
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_110
[
0
]+
"\t"
+
cam_qn2b_110
[
1
]+
"\t"
+
cam_qn2b_110
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_111
[
0
]+
"\t"
+
cam_qn2b_111
[
1
]+
"\t"
+
cam_qn2b_111
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_200
[
0
]+
"\t"
+
cam_qn2b_200
[
1
]+
"\t"
+
cam_qn2b_200
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_201
[
0
]+
"\t"
+
cam_qn2b_201
[
1
]+
"\t"
+
cam_qn2b_201
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_210
[
0
]+
"\t"
+
cam_qn2b_210
[
1
]+
"\t"
+
cam_qn2b_210
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_211
[
0
]+
"\t"
+
cam_qn2b_211
[
1
]+
"\t"
+
cam_qn2b_211
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_300
[
0
]+
"\t"
+
cam_qn2b_300
[
1
]+
"\t"
+
cam_qn2b_300
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_301
[
0
]+
"\t"
+
cam_qn2b_301
[
1
]+
"\t"
+
cam_qn2b_301
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_310
[
0
]+
"\t"
+
cam_qn2b_310
[
1
]+
"\t"
+
cam_qn2b_310
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_311
[
0
]+
"\t"
+
cam_qn2b_311
[
1
]+
"\t"
+
cam_qn2b_311
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_400
[
0
]+
"\t"
+
cam_qn2b_400
[
1
]+
"\t"
+
cam_qn2b_400
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_401
[
0
]+
"\t"
+
cam_qn2b_401
[
1
]+
"\t"
+
cam_qn2b_401
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_410
[
0
]+
"\t"
+
cam_qn2b_410
[
1
]+
"\t"
+
cam_qn2b_410
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_411
[
0
]+
"\t"
+
cam_qn2b_411
[
1
]+
"\t"
+
cam_qn2b_411
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_500
[
0
]+
"\t"
+
cam_qn2b_500
[
1
]+
"\t"
+
cam_qn2b_500
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_501
[
0
]+
"\t"
+
cam_qn2b_501
[
1
]+
"\t"
+
cam_qn2b_501
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_510
[
0
]+
"\t"
+
cam_qn2b_510
[
1
]+
"\t"
+
cam_qn2b_510
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_511
[
0
]+
"\t"
+
cam_qn2b_511
[
1
]+
"\t"
+
cam_qn2b_511
[
2
]);
}
if
(
use_euler
)
{
double
[]
cam_theta_000
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
false
,
false
);
double
[]
cam_theta_001
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
false
,
true
);
double
[]
cam_theta_010
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
true
,
false
);
double
[]
cam_theta_011
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
true
,
true
);
double
[]
cam_theta_100
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
false
,
false
);
double
[]
cam_theta_101
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
false
,
true
);
double
[]
cam_theta_110
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
true
,
false
);
double
[]
cam_theta_111
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
true
,
true
);
double
[]
cam_theta_200
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
false
,
false
);
double
[]
cam_theta_201
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
false
,
true
);
double
[]
cam_theta_210
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
true
,
false
);
double
[]
cam_theta_211
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
true
,
true
);
double
[]
cam_theta_300
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
false
,
false
);
double
[]
cam_theta_301
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
false
,
true
);
double
[]
cam_theta_310
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
true
,
false
);
double
[]
cam_theta_311
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
true
,
true
);
double
[]
cam_theta_400
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
false
,
false
);
double
[]
cam_theta_401
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
false
,
true
);
double
[]
cam_theta_410
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
true
,
false
);
double
[]
cam_theta_411
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
true
,
true
);
double
[]
cam_theta_500
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
false
,
false
);
double
[]
cam_theta_501
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
false
,
true
);
double
[]
cam_theta_510
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
true
,
false
);
double
[]
cam_theta_511
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
true
,
true
);
sb
.
append
(
"\t"
+
cam_theta_000
[
0
]+
"\t"
+
cam_theta_000
[
1
]+
"\t"
+
cam_theta_000
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_001
[
0
]+
"\t"
+
cam_theta_001
[
1
]+
"\t"
+
cam_theta_001
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_010
[
0
]+
"\t"
+
cam_theta_010
[
1
]+
"\t"
+
cam_theta_010
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_011
[
0
]+
"\t"
+
cam_theta_011
[
1
]+
"\t"
+
cam_theta_011
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_100
[
0
]+
"\t"
+
cam_theta_100
[
1
]+
"\t"
+
cam_theta_100
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_101
[
0
]+
"\t"
+
cam_theta_101
[
1
]+
"\t"
+
cam_theta_101
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_110
[
0
]+
"\t"
+
cam_theta_110
[
1
]+
"\t"
+
cam_theta_110
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_111
[
0
]+
"\t"
+
cam_theta_111
[
1
]+
"\t"
+
cam_theta_111
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_200
[
0
]+
"\t"
+
cam_theta_200
[
1
]+
"\t"
+
cam_theta_200
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_201
[
0
]+
"\t"
+
cam_theta_201
[
1
]+
"\t"
+
cam_theta_201
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_210
[
0
]+
"\t"
+
cam_theta_210
[
1
]+
"\t"
+
cam_theta_210
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_211
[
0
]+
"\t"
+
cam_theta_211
[
1
]+
"\t"
+
cam_theta_211
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_300
[
0
]+
"\t"
+
cam_theta_300
[
1
]+
"\t"
+
cam_theta_300
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_301
[
0
]+
"\t"
+
cam_theta_301
[
1
]+
"\t"
+
cam_theta_301
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_310
[
0
]+
"\t"
+
cam_theta_310
[
1
]+
"\t"
+
cam_theta_310
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_311
[
0
]+
"\t"
+
cam_theta_311
[
1
]+
"\t"
+
cam_theta_311
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_400
[
0
]+
"\t"
+
cam_theta_400
[
1
]+
"\t"
+
cam_theta_400
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_401
[
0
]+
"\t"
+
cam_theta_401
[
1
]+
"\t"
+
cam_theta_401
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_410
[
0
]+
"\t"
+
cam_theta_410
[
1
]+
"\t"
+
cam_theta_410
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_411
[
0
]+
"\t"
+
cam_theta_411
[
1
]+
"\t"
+
cam_theta_411
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_500
[
0
]+
"\t"
+
cam_theta_500
[
1
]+
"\t"
+
cam_theta_500
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_501
[
0
]+
"\t"
+
cam_theta_501
[
1
]+
"\t"
+
cam_theta_501
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_510
[
0
]+
"\t"
+
cam_theta_510
[
1
]+
"\t"
+
cam_theta_510
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_511
[
0
]+
"\t"
+
cam_theta_511
[
1
]+
"\t"
+
cam_theta_511
[
2
]);
}
/*
sb.append("\t"+
cam_theta[0]*180/Math.PI+"\t"+
cam_theta[1]*180/Math.PI+"\t"+
cam_theta[2]*180/Math.PI);
*/
sb
.
append
(
"\n"
);
}
if
(
path
!=
null
)
{
String
footer
=(
comment
!=
null
)
?
(
"Comment: "
+
comment
):
""
;
CalibrationFileManagement
.
saveStringToFile
(
path
,
header
+
"\n"
+
sb
.
toString
()+
"\n"
+
footer
);
}
else
{
new
TextWindow
(
"Sharpness History"
,
header
,
sb
.
toString
(),
1000
,
900
);
}
}
public
static
void
generateEgomotionTable
(
CLTParameters
clt_parameters
,
QuadCLT
[]
quadCLTs
,
int
ref_index
,
int
earliest_scene
,
String
path
,
String
comment
)
{
double
[]
ims_ortho
=
clt_parameters
.
imp
.
ims_ortho
;
double
[]
ims_mount_atr
=
clt_parameters
.
imp
.
getImsMountATR
();
// converts to radians
// double [] quat_ortho = {0.5, 0.5, -0.5, 0.5}; // approximate IMU orientation
String
header_img
=
"#\ttimestamp\tx(m)\ty(m)\tz(m)\ta(rad)\ttilt(rad)\troll(rad)"
+
"\tVx(m/s)\tVy(m/s)\tVz(m/s)\tVa(rad/s)\tVt(rad/s)\tVr(rad/s)"
;
String
header_ins1
=
"\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"
+
"\tlat\tlong\talt\tned0\tned1\tned2"
;
String
header_ins2
=
"\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt"
;
String
header_ins2_extra
=
"\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"
+
"\tcam_X1\tcam_Y1\tcam_Z1\tcam_X2\tcam_Y2\tcam_Z2"
+
"\tned->X\tned->Y\tned->Z\tenu->X2\tenu->Y\tenu->Z"
+
"\tabs_A_ned\tabs_T_ned\tabs_R_ned\trel_A_ned\trel_T_ned\trel_R_ned"
+
"\tabs_A_enu\tabs_T_enu\tabs_R_enu\trel_A_enu\trel_T_enu\trel_R_enu"
+
"\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv"
;
String
header_pimu
=
"\to0\to1\to2\ta0\ta1\ta2"
;
String
header
=
header_img
+
header_ins1
+
header_ins2
+
header_ins2_extra
+
header_pimu
;
StringBuffer
sb
=
new
StringBuffer
();
QuadCLT
ref_scene
=
quadCLTs
[
ref_index
];
ErsCorrection
ers_reference
=
ref_scene
.
getErsCorrection
();
double
[][][]
scenes_xyzatr
=
new
double
[
quadCLTs
.
length
][][];
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
nscene
==
ref_index
)
{
scenes_xyzatr
[
nscene
]
=
new
double
[
2
][
3
];
}
else
{
String
ts
=
scene
.
getImageName
();
scenes_xyzatr
[
nscene
]
=
new
double
[][]
{
ers_reference
.
getSceneXYZ
(
ts
),
ers_reference
.
getSceneATR
(
ts
)};
}
}
double
[][][]
dxyzatr_dt
=
OpticalFlow
.
getVelocitiesFromScenes
(
quadCLTs
,
// QuadCLT [] scenes, // ordered by increasing timestamps
ref_index
,
earliest_scene
,
// int start_scene,
quadCLTs
.
length
-
1
,
// int end1_scene,
scenes_xyzatr
,
// double [][][] scenes_xyzatr,
clt_parameters
.
ofp
.
lpf_series
);
// half_run_range); // double half_run_range
Did_ins_2
d2_ref
=
quadCLTs
[
ref_index
].
did_ins_2
;
double
[]
cam_quat_ref
=
Imx5
.
quaternionImsToCam
(
d2_ref
.
getQn2b
()
,
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
ref_abs_atr
=
Imx5
.
quatToCamAtr
(
cam_quat_ref
);
double
[][]
ims_ref_xyzatr
=
{
ZERO3
,
ref_abs_atr
};
double
[]
cam_quat_ref_enu
=
Imx5
.
quaternionImsToCam
(
d2_ref
.
getQEnu
()
,
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
ref_abs_atr_enu
=
Imx5
.
quatToCamAtr
(
cam_quat_ref_enu
);
double
[][]
ims_ref_xyzatr_enu
=
{
ZERO3
,
ref_abs_atr_enu
};
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
scene
==
null
)
{
for
(
int
i
=
0
;
i
<
26
;
i
++)
{
sb
.
append
(
"\t---"
);
}
sb
.
append
(
"\n"
);
continue
;
}
double
timestamp
=
scene
.
getTimeStamp
();
Did_ins_1
d1
=
scene
.
did_ins_1
;
Did_ins_2
d2
=
scene
.
did_ins_2
;
Did_pimu
d3
=
scene
.
did_pimu
;
sb
.
append
(
nscene
+
"\t"
+
timestamp
);
// TODO: try saved, not calculated velocities!
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
2
]);
// String header_ins1="\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"+
// "\tlong\tlat\talt\tned0\tned1\tned2";
sb
.
append
(
"\t"
+
d1
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d1
.
theta
[
0
]+
"\t"
+
d1
.
theta
[
1
]+
"\t"
+
d1
.
theta
[
2
]);
sb
.
append
(
"\t"
+
d1
.
uvw
[
0
]+
"\t"
+
d1
.
uvw
[
1
]+
"\t"
+
d1
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d1
.
lla
[
0
]+
"\t"
+
d1
.
lla
[
1
]+
"\t"
+
d1
.
lla
[
2
]);
sb
.
append
(
"\t"
+
d1
.
ned
[
0
]+
"\t"
+
d1
.
ned
[
1
]+
"\t"
+
d1
.
ned
[
2
]);
//String header_ins2="\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt";
sb
.
append
(
"\t"
+
d2
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d2
.
qn2b
[
0
]+
"\t"
+
d2
.
qn2b
[
1
]+
"\t"
+
d2
.
qn2b
[
2
]+
"\t"
+
d2
.
qn2b
[
3
]);
sb
.
append
(
"\t"
+
d2
.
uvw
[
0
]+
"\t"
+
d2
.
uvw
[
1
]+
"\t"
+
d2
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d2
.
lla
[
0
]+
"\t"
+
d2
.
lla
[
1
]+
"\t"
+
d2
.
lla
[
2
]);
double
[]
double_theta
=
d1
.
getTheta
();
//imsToCamRotations(double [] ims_theta, boolean rev_order, boolean rev_matrix )
double
[]
double_qn2b
=
d2
.
getQn2b
();
double
[]
double_uvw
=
d2
.
getUvw
();
double
[]
uvw_dir
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
false
);
// bad
double
[]
uvw_inv
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
true
);
// good
//Converting from local uvw to NED: (qn2b).applyInverseTo(uvw,ned) results in [vNorth, vEast, vUp]
double
[]
ned
=
Imx5
.
nedFromLla
(
d2
.
lla
,
d2_ref
.
lla
);
double
[]
enu
=
Imx5
.
enuFromLla
(
d2
.
lla
,
d2_ref
.
lla
);
double
[]
ims_xyz
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
ned
,
false
);
// String header_ins2_extra="\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"+
// "\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv";
sb
.
append
(
"\t"
+
ned
[
0
]+
"\t"
+
ned
[
1
]+
"\t"
+
ned
[
2
]);
// global axes
sb
.
append
(
"\t"
+
ims_xyz
[
0
]+
"\t"
+
ims_xyz
[
1
]+
"\t"
+
ims_xyz
[
2
]);
// imu axes
double
[]
cam_quat1
=
Imx5
.
quaternionImsToCam
(
double_qn2b
,
new
double
[
3
],
ims_ortho
);
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
double_qn2b
,
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
cam_quat_enu
=
Imx5
.
quaternionImsToCam
(
d2
.
getQEnu
(),
ims_mount_atr
,
// new double[] {0, 0.13, 0},
ims_ortho
);
double
[]
cam_xyz1
=
Imx5
.
applyQuternionTo
(
cam_quat1
,
ned
,
false
);
double
[]
cam_xyz2
=
Imx5
.
applyQuternionTo
(
cam_quat2
,
ned
,
false
);
double
[]
cam_xyz_ned
=
test_xyz_ned
(
Imx5
.
nedFromLla
(
d2
.
lla
,
d2_ref
.
lla
),
// double [] ned,double [] ned,
d2
.
getQn2b
(),
// double[] quat_ned,
ims_mount_atr
,
// double [] ims_mount_atr,
ims_ortho
);
//double [] ims_ortho)
double
[]
cam_xyz_enu
=
test_xyz_enu
(
Imx5
.
enuFromLla
(
d2
.
lla
,
d2_ref
.
lla
),
//double [] enu,
d2
.
getQEnu
(),
// double[] quat_enu,
ims_mount_atr
,
// double [] ims_mount_atr,
ims_ortho
);
//double [] ims_ortho)
sb
.
append
(
"\t"
+
cam_xyz1
[
0
]+
"\t"
+
cam_xyz1
[
1
]+
"\t"
+
cam_xyz1
[
2
]);
//
sb
.
append
(
"\t"
+
cam_xyz2
[
0
]+
"\t"
+
cam_xyz2
[
1
]+
"\t"
+
cam_xyz2
[
2
]);
//
sb
.
append
(
"\t"
+
cam_xyz_ned
[
0
]+
"\t"
+
cam_xyz_ned
[
1
]+
"\t"
+
cam_xyz_ned
[
2
]);
//
sb
.
append
(
"\t"
+
cam_xyz_enu
[
0
]+
"\t"
+
cam_xyz_enu
[
1
]+
"\t"
+
cam_xyz_enu
[
2
]);
//
double
[]
scene_abs_atr
=
Imx5
.
quatToCamAtr
(
cam_quat2
);
double
[][]
ims_scene_xyzatr
=
{
ZERO3
,
scene_abs_atr
};
double
[]
scene_rel_atr
=
ErsCorrection
.
combineXYZATR
(
ims_scene_xyzatr
,
ErsCorrection
.
invertXYZATR
(
ims_ref_xyzatr
))[
1
];
double
[]
scene_abs_atr_enu
=
Imx5
.
quatToCamAtr
(
cam_quat_enu
);
double
[][]
ims_scene_xyzatr_enu
=
{
ZERO3
,
scene_abs_atr_enu
};
double
[]
scene_rel_atr_enu
=
ErsCorrection
.
combineXYZATR
(
ims_scene_xyzatr_enu
,
ErsCorrection
.
invertXYZATR
(
ims_ref_xyzatr_enu
))[
1
];
sb
.
append
(
"\t"
+
scene_abs_atr
[
0
]+
"\t"
+
scene_abs_atr
[
1
]+
"\t"
+
scene_abs_atr
[
2
]);
//
sb
.
append
(
"\t"
+
scene_rel_atr
[
0
]+
"\t"
+
scene_rel_atr
[
1
]+
"\t"
+
scene_rel_atr
[
2
]);
//
sb
.
append
(
"\t"
+
scene_abs_atr_enu
[
0
]+
"\t"
+
scene_abs_atr_enu
[
1
]+
"\t"
+
scene_abs_atr_enu
[
2
]);
//
sb
.
append
(
"\t"
+
scene_rel_atr_enu
[
0
]+
"\t"
+
scene_rel_atr_enu
[
1
]+
"\t"
+
scene_rel_atr_enu
[
2
]);
//
sb
.
append
(
"\t"
+
uvw_dir
[
0
]+
"\t"
+
uvw_dir
[
1
]+
"\t"
+
uvw_dir
[
2
]);
// wrong
sb
.
append
(
"\t"
+
uvw_inv
[
0
]+
"\t"
+
uvw_inv
[
1
]+
"\t"
+
uvw_inv
[
2
]);
// correct
// String header_pimu="\to0\to1\to2\ta0\ta1\ta2";
sb
.
append
(
"\t"
+(
d3
.
theta
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
2
]/
d3
.
dt
));
sb
.
append
(
"\t"
+(
d3
.
vel
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
2
]/
d3
.
dt
));
// String header_cam= "\ttheta0\ttheta1\ttheta2\troll\tpitch\tyaw";
/*
sb.append("\t"+
cam_theta[0]*180/Math.PI+"\t"+
cam_theta[1]*180/Math.PI+"\t"+
cam_theta[2]*180/Math.PI);
*/
sb
.
append
(
"\n"
);
}
if
(
path
!=
null
)
{
String
footer
=(
comment
!=
null
)
?
(
"Comment: "
+
comment
):
""
;
CalibrationFileManagement
.
saveStringToFile
(
path
,
header
+
"\n"
+
sb
.
toString
()+
"\n"
+
footer
);
}
else
{
new
TextWindow
(
"Sharpness History"
,
header
,
sb
.
toString
(),
1000
,
900
);
}
}
/*
static double [] test_ned(
double [] ned,
double [] enu,
double[] quat_ned,
double[] quat_enu,
double [] ims_mount_atr,
double [] ims_ortho) {
// double [] cam_xyzs = Imx5.applyQuternionTo(cam_quats, enu, false);
// double [] enu = new double [] {ned[1], ned[0], -ned[2]};
double [] cam_quat2 =Imx5.quaternionImsToCam(quat,
ims_mount_atr,
ims_ortho);
double [] cam_xyz2 = Imx5.applyQuternionTo(cam_quat2, ned, false);
double [] cam_quat3 =Imx5.quaternionImsToCam(Imx5.quatEnu(quat_ned),
ims_mount_atr,
ims_ortho);
double [] cam_xyz3 = Imx5.applyQuternionTo(cam_quat3, enu, false);
return cam_xyz2;
}
*/
static
double
[]
test_xyz_ned
(
double
[]
ned
,
double
[]
quat_ned
,
double
[]
ims_mount_atr
,
double
[]
ims_ortho
)
{
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
quat_ned
,
ims_mount_atr
,
ims_ortho
);
return
Imx5
.
applyQuternionTo
(
cam_quat2
,
ned
,
false
);
}
static
double
[]
test_xyz_enu
(
double
[]
enu
,
double
[]
quat_enu
,
double
[]
ims_mount_atr
,
double
[]
ims_ortho
)
{
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
quat_enu
,
ims_mount_atr
,
ims_ortho
);
return
Imx5
.
applyQuternionTo
(
cam_quat2
,
enu
,
false
);
}
static
double
[]
test_ned0
(
double
[]
ned
,
double
[]
quat
,
double
[]
ims_mount_atr
,
double
[]
ims_ortho
)
{
double
[][]
enu_ned
=
{{
0
,
1
,
0
},{
1
,
0
,
0
},{
0
,
0
,
-
1
}};
Rotation
rot_enu_ned
=
new
Rotation
(
enu_ned
,
1
E
-
8
);
// double [] cam_xyzs = Imx5.applyQuternionTo(cam_quats, enu, false);
Rotation
quat_rot
=
new
Rotation
(
quat
[
0
],
quat
[
1
],
quat
[
2
],
quat
[
3
],
true
);
double
[]
enu
=
new
double
[]
{
ned
[
1
],
ned
[
0
],
-
ned
[
2
]};
double
[]
rslt
=
new
double
[
3
];
// same as ned
rot_enu_ned
.
applyTo
(
enu
,
rslt
);
double
[]
rslt1
=
new
double
[
3
];
double
[]
rslt2
=
new
double
[
3
];
quat_rot
.
applyTo
(
ned
,
rslt1
);
// Rotation qr = rot_enu_ned.applyTo(quat_rot);
Rotation
qr
=
quat_rot
.
applyTo
(
rot_enu_ned
);
qr
.
applyTo
(
enu
,
rslt2
);
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
quat
,
ims_mount_atr
,
ims_ortho
);
double
[]
cam_xyz2
=
Imx5
.
applyQuternionTo
(
cam_quat2
,
ned
,
false
);
double
[][]
reord
=
new
double
[
16
][
4
];
for
(
int
i
=
0
;
i
<
reord
.
length
;
i
++)
{
for
(
int
j
=
0
;
j
<
4
;
j
++)
{
boolean
neg
=
((
i
>>
j
)
&
1
)
>
0
;
reord
[
i
][
j
]
=
0.5
*
(
neg
?
-
1
:
1
);
}
}
System
.
out
.
println
(
"cam_xyz2: "
+
cam_xyz2
[
0
]+
", "
+
cam_xyz2
[
1
]+
", "
+
cam_xyz2
[
2
]);
Rotation
rot_reord
;
Rotation
quat_enu_rot
;
double
[]
quat_enu
;
double
[]
cam_quats
;
for
(
int
i
=
0
;
i
<
reord
.
length
;
i
++)
{
rot_reord
=
new
Rotation
(
reord
[
i
][
0
],
reord
[
i
][
1
],
reord
[
i
][
2
],
reord
[
i
][
3
],
true
);
// quat_enu_rot = rot_reord.applyTo(quat_rot);
quat_enu_rot
=
quat_rot
.
applyTo
(
rot_reord
);
quat_enu
=
new
double
[]
{
quat_enu_rot
.
getQ0
(),
quat_enu_rot
.
getQ1
(),
quat_enu_rot
.
getQ2
(),
quat_enu_rot
.
getQ3
()};
cam_quats
=
Imx5
.
quaternionImsToCam
(
quat_enu
,
ims_mount_atr
,
ims_ortho
);
double
[]
cam_xyzs
=
Imx5
.
applyQuternionTo
(
cam_quats
,
enu
,
false
);
System
.
out
.
println
(
i
+
": "
+
cam_xyzs
[
0
]+
", "
+
cam_xyzs
[
1
]+
", "
+
cam_xyzs
[
2
]);
}
return
cam_xyz2
;
}
}
src/main/java/com/elphel/imagej/tileprocessor/IntersceneMatchParameters.java
View file @
d693f718
...
...
@@ -38,7 +38,16 @@ public class IntersceneMatchParameters {
public
boolean
ims_rebuild
=
false
;
// recalculate INS data (after lag change)
public
double
ims_offset
=
0.0
;
// IMS data lead relative to images (seconds)
public
double
gmt_plus
=
3.0
;
// (hrs) filename timestamp is this lower than in IMU log
public
double
[]
ims_ortho
=
{
0.5
,
-
0.5
,
0.5
,
-
0.5
};
// approximate (90-deg) IMS to camera
public
double
[]
ims_mount_atr
=
{
0
,
0
,
0
};
// IMS mount fine correction (A,T,R around camera axes)
public
double
[]
ims_mount_xyz
=
{
0
,
0
,
0
};
// IMS center in camera coordinates
public
double
[]
getImsMountATR
()
{
return
new
double
[]
{
ims_mount_atr
[
0
]
*
Math
.
PI
/
180
,
ims_mount_atr
[
1
]
*
Math
.
PI
/
180
,
ims_mount_atr
[
2
]
*
Math
.
PI
/
180
};
}
public
boolean
force_ref_dsi
=
false
;
// true;
public
boolean
force_orientations
=
false
;
public
boolean
run_ly
=
false
;
// will return just after LY adjustments, skipping all output generation
...
...
@@ -217,6 +226,9 @@ public class IntersceneMatchParameters {
public
double
disp_boost_amount
=
2.0
;
public
double
scale_combo_strength
=
0.4
;
// reduce strength when it comes from combo, not DSI-MAIN
public
boolean
save_debug_images
=
true
;
// Save blue sky debug images in model directory
/// IMS intergration
// Some "AGC" to adjust how much to discard
public
int
margin
=
1
;
// do not use tiles if their centers are closer to the image edge
...
...
@@ -402,17 +414,26 @@ public class IntersceneMatchParameters {
public
void
dialogQuestions
(
GenericJTabbedDialog
gd
)
{
// gd.addMessage ("Scene parameters selection");
// gd.addTab ("Inter-Match", "Parameters for full-resolution (no decimation/macrotiles) scene matching");
gd
.
addTab
(
"Scene Series"
,
"Processing series of scenes and multi-series sets"
);
gd
.
addMessage
(
"Build series options"
);
gd
.
addTab
(
"IMS"
,
"IMS Integration for interscene matching"
);
gd
.
addCheckbox
(
"Use IMS data"
,
this
.
ims_use
,
"Use I
N
S data for egomotion."
);
"Use I
M
S data for egomotion."
);
gd
.
addCheckbox
(
"Recalculate IMS"
,
this
.
ims_rebuild
,
"Recalculate scene INS data."
);
gd
.
addNumericField
(
"IMS offset"
,
this
.
ims_offset
,
5
,
8
,
"s"
,
"Positive if the IMS data has lower lag than images."
);
gd
.
addNumericField
(
"GMT plus"
,
this
.
gmt_plus
,
5
,
8
,
"hrs"
,
"Timestamp filename is lower by this hours than in the IMU log."
);
gd
.
addStringField
(
"IMS ortho mount quaterion"
,
IntersceneMatchParameters
.
doublesToString
(
ims_ortho
),
80
,
"Approximate (90-deg) IMS to camera {0.5, -0.5, 0.5, -0.5}."
);
gd
.
addStringField
(
"IMS mount ATR correction (deg)"
,
IntersceneMatchParameters
.
doublesToString
(
ims_mount_atr
),
80
,
"IMS mount fine correction (A,T,R around camera axes)."
);
gd
.
addStringField
(
"IMS mount XYZ correction (m)"
,
IntersceneMatchParameters
.
doublesToString
(
ims_mount_xyz
),
80
,
"MS center (X,Y,Z m) in camera coordinates."
);
gd
.
addTab
(
"Scene Series"
,
"Processing series of scenes and multi-series sets"
);
gd
.
addMessage
(
"Build series options"
);
gd
.
addCheckbox
(
"Force reference scene DSI calculation"
,
this
.
force_ref_dsi
,
"Calculate reference scene DSI even if the file exists."
);
gd
.
addCheckbox
(
"Force egomotion calculation"
,
this
.
force_orientations
,
...
...
@@ -1072,6 +1093,9 @@ public class IntersceneMatchParameters {
this
.
ims_rebuild
=
gd
.
getNextBoolean
();
this
.
ims_offset
=
gd
.
getNextNumber
();
this
.
gmt_plus
=
gd
.
getNextNumber
();
this
.
ims_ortho
=
IntersceneMatchParameters
.
StringToDoubles
(
gd
.
getNextString
(),
4
);
this
.
ims_mount_atr
=
IntersceneMatchParameters
.
StringToDoubles
(
gd
.
getNextString
(),
3
);
this
.
ims_mount_xyz
=
IntersceneMatchParameters
.
StringToDoubles
(
gd
.
getNextString
(),
3
);
this
.
force_ref_dsi
=
gd
.
getNextBoolean
();
this
.
force_orientations
=
gd
.
getNextBoolean
();
this
.
run_ly
=
gd
.
getNextBoolean
();
...
...
@@ -1420,12 +1444,12 @@ public class IntersceneMatchParameters {
properties
.
setProperty
(
prefix
+
"ims_rebuild"
,
this
.
ims_rebuild
+
""
);
// boolean
properties
.
setProperty
(
prefix
+
"ims_offset"
,
this
.
ims_offset
+
""
);
// double
properties
.
setProperty
(
prefix
+
"gmt_plus"
,
this
.
gmt_plus
+
""
);
// double
properties
.
setProperty
(
prefix
+
"ims_ortho"
,
IntersceneMatchParameters
.
doublesToString
(
this
.
ims_ortho
));
properties
.
setProperty
(
prefix
+
"ims_mount_atr"
,
IntersceneMatchParameters
.
doublesToString
(
this
.
ims_mount_atr
));
properties
.
setProperty
(
prefix
+
"ims_mount_xyz"
,
IntersceneMatchParameters
.
doublesToString
(
this
.
ims_mount_xyz
));
properties
.
setProperty
(
prefix
+
"force_ref_dsi"
,
this
.
force_ref_dsi
+
""
);
// boolean
properties
.
setProperty
(
prefix
+
"force_orientations"
,
this
.
force_orientations
+
""
);
// boolean
properties
.
setProperty
(
prefix
+
"run_ly"
,
this
.
run_ly
+
""
);
// boolean
// properties.setProperty(prefix+"readjust_orient", this.readjust_orient + ""); // boolean
// properties.setProperty(prefix+"force_interscene", this.force_interscene + ""); // boolean
properties
.
setProperty
(
prefix
+
"min_num_orient"
,
this
.
min_num_orient
+
""
);
// int
properties
.
setProperty
(
prefix
+
"min_num_interscene"
,
this
.
min_num_interscene
+
""
);
// int
properties
.
setProperty
(
prefix
+
"generate_egomotion"
,
this
.
generate_egomotion
+
""
);
// boolean
...
...
@@ -1732,6 +1756,12 @@ public class IntersceneMatchParameters {
if
(
properties
.
getProperty
(
prefix
+
"ims_offset"
)!=
null
)
this
.
ims_offset
=
Double
.
parseDouble
(
properties
.
getProperty
(
prefix
+
"ims_offset"
));
if
(
properties
.
getProperty
(
prefix
+
"gmt_plus"
)!=
null
)
this
.
gmt_plus
=
Double
.
parseDouble
(
properties
.
getProperty
(
prefix
+
"gmt_plus"
));
if
(
properties
.
getProperty
(
prefix
+
"ims_ortho"
)!=
null
)
this
.
ims_ortho
=
IntersceneMatchParameters
.
StringToDoubles
(
properties
.
getProperty
(
prefix
+
"ims_ortho"
),
4
);
if
(
properties
.
getProperty
(
prefix
+
"ims_mount_atr"
)!=
null
)
this
.
ims_mount_atr
=
IntersceneMatchParameters
.
StringToDoubles
(
properties
.
getProperty
(
prefix
+
"ims_mount_atr"
),
3
);
if
(
properties
.
getProperty
(
prefix
+
"ims_mount_xyz"
)!=
null
)
this
.
ims_mount_xyz
=
IntersceneMatchParameters
.
StringToDoubles
(
properties
.
getProperty
(
prefix
+
"ims_mount_xyz"
),
3
);
if
(
properties
.
getProperty
(
prefix
+
"force_ref_dsi"
)!=
null
)
this
.
force_ref_dsi
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"force_ref_dsi"
));
if
(
properties
.
getProperty
(
prefix
+
"force_orientations"
)!=
null
)
this
.
force_orientations
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"force_orientations"
));
if
(
properties
.
getProperty
(
prefix
+
"run_ly"
)!=
null
)
this
.
run_ly
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"run_ly"
));
...
...
@@ -2068,6 +2098,10 @@ public class IntersceneMatchParameters {
imp
.
ims_offset
=
this
.
ims_offset
;
imp
.
gmt_plus
=
this
.
gmt_plus
;
imp
.
ims_ortho
=
this
.
ims_ortho
.
clone
();
imp
.
ims_mount_atr
=
this
.
ims_mount_atr
.
clone
();
imp
.
ims_mount_xyz
=
this
.
ims_mount_xyz
.
clone
();
imp
.
force_ref_dsi
=
this
.
force_ref_dsi
;
imp
.
force_orientations
=
this
.
force_orientations
;
imp
.
run_ly
=
this
.
run_ly
;
...
...
src/main/java/com/elphel/imagej/tileprocessor/OpticalFlow.java
View file @
d693f718
...
...
@@ -5034,7 +5034,7 @@ public class OpticalFlow {
quadCLTs
[
ref_index
].
getImageName
()+
quadCLTs
[
ref_index
].
correctionsParameters
.
egomotionSuffix
;
String
ego_comment
=
null
;
generateEgomotionTable
(
Interscene
.
generateEgomotionTable
(
clt_parameters
,
// CLTParameters clt_parameters,
quadCLTs
,
// QuadCLT [] quadCLTs,
ref_index
,
// ref_indx,
...
...
@@ -5046,7 +5046,7 @@ public class OpticalFlow {
}
if
(
ego_show
)
{
generateEgomotionTable
(
Interscene
.
generateEgomotionTable
(
clt_parameters
,
// CLTParameters clt_parameters,
quadCLTs
,
// QuadCLT [] quadCLTs,
ref_index
,
// ref_indx,
...
...
@@ -5875,336 +5875,6 @@ public class OpticalFlow {
return
quadCLTs
[
ref_index
].
getX3dTopDirectory
();
}
public
static
void
generateEgomotionTable
(
CLTParameters
clt_parameters
,
QuadCLT
[]
quadCLTs
,
int
ref_index
,
int
earliest_scene
,
String
path
,
String
comment
)
{
boolean
use_euler
=
true
;
boolean
use_qn2b
=
true
;
String
header_img
=
"#\ttimestamp\tx(m)\ty(m)\tz(m)\ta(rad)\ttilt(rad)\troll(rad)"
+
"\tVx(m/s)\tVy(m/s)\tVz(m/s)\tVa(rad/s)\tVt(rad/s)\tVr(rad/s)"
;
String
header_ins1
=
"\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"
+
"\tlat\tlong\talt\tned0\tned1\tned2"
;
String
header_ins2
=
"\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt"
;
String
header_ins2_extra
=
"\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"
+
"\tcam_X1\tcam_Y1\tcam_Z1\tcam_X2\tcam_Y2\tcam_Z2"
+
"\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv"
;
String
header_pimu
=
"\to0\to1\to2\ta0\ta1\ta2"
;
String
header_cam000
=
"\ttheta0-000\ttheta1-000\ttheta2-000"
;
String
header_cam001
=
"\ttheta0-001\ttheta1-001\ttheta2-001"
;
String
header_cam010
=
"\ttheta0-010\ttheta1-010\ttheta2-010"
;
String
header_cam011
=
"\ttheta0-011\ttheta1-011\ttheta2-011"
;
String
header_cam100
=
"\ttheta0-100\ttheta1-100\ttheta2-100"
;
String
header_cam101
=
"\ttheta0-101\ttheta1-101\ttheta2-101"
;
String
header_cam110
=
"\ttheta0-110\ttheta1-110\ttheta2-110"
;
String
header_cam111
=
"\ttheta0-111\ttheta1-111\ttheta2-111"
;
String
header_cam200
=
"\ttheta0-200\ttheta1-200\ttheta2-200"
;
String
header_cam201
=
"\ttheta0-201\ttheta1-201\ttheta2-201"
;
String
header_cam210
=
"\ttheta0-210\ttheta1-210\ttheta2-210"
;
String
header_cam211
=
"\ttheta0-211\ttheta1-211\ttheta2-211"
;
String
header_cam300
=
"\ttheta0-300\ttheta1-300\ttheta2-300"
;
String
header_cam301
=
"\ttheta0-301\ttheta1-301\ttheta2-301"
;
String
header_cam310
=
"\ttheta0-310\ttheta1-310\ttheta2-310"
;
String
header_cam311
=
"\ttheta0-311\ttheta1-311\ttheta2-311"
;
String
header_cam400
=
"\ttheta0-400\ttheta1-400\ttheta2-400"
;
String
header_cam401
=
"\ttheta0-401\ttheta1-401\ttheta2-401"
;
String
header_cam410
=
"\ttheta0-410\ttheta1-410\ttheta2-410"
;
String
header_cam411
=
"\ttheta0-411\ttheta1-411\ttheta2-411"
;
String
header_cam500
=
"\ttheta0-500\ttheta1-500\ttheta2-500"
;
String
header_cam501
=
"\ttheta0-501\ttheta1-501\ttheta2-501"
;
String
header_cam510
=
"\ttheta0-510\ttheta1-510\ttheta2-510"
;
String
header_cam511
=
"\ttheta0-511\ttheta1-511\ttheta2-511"
;
String
header_qn2b000
=
"\tqn2b0-000\tqn2b1-000\tqn2b2-000"
;
String
header_qn2b001
=
"\tqn2b0-001\tqn2b1-001\tqn2b2-001"
;
String
header_qn2b010
=
"\tqn2b0-010\tqn2b1-010\tqn2b2-010"
;
String
header_qn2b011
=
"\tqn2b0-011\tqn2b1-011\tqn2b2-011"
;
String
header_qn2b100
=
"\tqn2b0-100\tqn2b1-100\tqn2b2-100"
;
String
header_qn2b101
=
"\tqn2b0-101\tqn2b1-101\tqn2b2-101"
;
String
header_qn2b110
=
"\tqn2b0-110\tqn2b1-110\tqn2b2-110"
;
String
header_qn2b111
=
"\tqn2b0-111\tqn2b1-111\tqn2b2-111"
;
String
header_qn2b200
=
"\tqn2b0-200\tqn2b1-200\tqn2b2-200"
;
String
header_qn2b201
=
"\tqn2b0-201\tqn2b1-201\tqn2b2-201"
;
String
header_qn2b210
=
"\tqn2b0-210\tqn2b1-210\tqn2b2-210"
;
String
header_qn2b211
=
"\tqn2b0-211\tqn2b1-211\tqn2b2-211"
;
String
header_qn2b300
=
"\tqn2b0-300\tqn2b1-300\tqn2b2-300"
;
String
header_qn2b301
=
"\tqn2b0-301\tqn2b1-301\tqn2b2-301"
;
String
header_qn2b310
=
"\tqn2b0-310\tqn2b1-310\tqn2b2-310"
;
String
header_qn2b311
=
"\tqn2b0-311\tqn2b1-311\tqn2b2-311"
;
String
header_qn2b400
=
"\tqn2b0-400\tqn2b1-400\tqn2b2-400"
;
String
header_qn2b401
=
"\tqn2b0-401\tqn2b1-401\tqn2b2-401"
;
String
header_qn2b410
=
"\tqn2b0-410\tqn2b1-410\tqn2b2-410"
;
String
header_qn2b411
=
"\tqn2b0-411\tqn2b1-411\tqn2b2-411"
;
String
header_qn2b500
=
"\tqn2b0-500\tqn2b1-500\tqn2b2-500"
;
String
header_qn2b501
=
"\tqn2b0-501\tqn2b1-501\tqn2b2-501"
;
String
header_qn2b510
=
"\tqn2b0-510\tqn2b1-510\tqn2b2-510"
;
String
header_qn2b511
=
"\tqn2b0-511\tqn2b1-511\tqn2b2-511"
;
String
header
=
header_img
+
header_ins1
+
header_ins2
+
header_ins2_extra
+
header_pimu
;
if
(
use_qn2b
)
{
header
+=
header_qn2b000
+
header_qn2b001
+
header_qn2b010
+
header_qn2b011
+
header_qn2b100
+
header_qn2b101
+
header_qn2b110
+
header_qn2b111
+
header_qn2b200
+
header_qn2b201
+
header_qn2b210
+
header_qn2b211
+
header_qn2b300
+
header_qn2b301
+
header_qn2b310
+
header_qn2b311
+
header_qn2b400
+
header_qn2b401
+
header_qn2b410
+
header_qn2b411
+
header_qn2b500
+
header_qn2b501
+
header_qn2b510
+
header_qn2b511
;
}
if
(
use_euler
)
{
header
+=
header_cam000
+
header_cam001
+
header_cam010
+
header_cam011
+
header_cam100
+
header_cam101
+
header_cam110
+
header_cam111
+
header_cam200
+
header_cam201
+
header_cam210
+
header_cam211
+
header_cam300
+
header_cam301
+
header_cam310
+
header_cam311
+
header_cam400
+
header_cam401
+
header_cam410
+
header_cam411
+
header_cam500
+
header_cam501
+
header_cam510
+
header_cam511
;
}
StringBuffer
sb
=
new
StringBuffer
();
QuadCLT
ref_scene
=
quadCLTs
[
ref_index
];
ErsCorrection
ers_reference
=
ref_scene
.
getErsCorrection
();
double
[][][]
scenes_xyzatr
=
new
double
[
quadCLTs
.
length
][][];
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
nscene
==
ref_index
)
{
scenes_xyzatr
[
nscene
]
=
new
double
[
2
][
3
];
}
else
{
String
ts
=
scene
.
getImageName
();
scenes_xyzatr
[
nscene
]
=
new
double
[][]
{
ers_reference
.
getSceneXYZ
(
ts
),
ers_reference
.
getSceneATR
(
ts
)};
}
}
double
[][][]
dxyzatr_dt
=
getVelocitiesFromScenes
(
quadCLTs
,
// QuadCLT [] scenes, // ordered by increasing timestamps
ref_index
,
earliest_scene
,
// int start_scene,
quadCLTs
.
length
-
1
,
// int end1_scene,
scenes_xyzatr
,
// double [][][] scenes_xyzatr,
clt_parameters
.
ofp
.
lpf_series
);
// half_run_range); // double half_run_range
Did_ins_2
d2_ref
=
quadCLTs
[
ref_index
].
did_ins_2
;
for
(
int
nscene
=
earliest_scene
;
nscene
<
quadCLTs
.
length
;
nscene
++)
{
QuadCLT
scene
=
quadCLTs
[
nscene
];
if
(
scene
==
null
)
{
for
(
int
i
=
0
;
i
<
26
;
i
++)
{
sb
.
append
(
"\t---"
);
}
sb
.
append
(
"\n"
);
continue
;
}
double
timestamp
=
scene
.
getTimeStamp
();
Did_ins_1
d1
=
scene
.
did_ins_1
;
Did_ins_2
d2
=
scene
.
did_ins_2
;
Did_pimu
d3
=
scene
.
did_pimu
;
sb
.
append
(
nscene
+
"\t"
+
timestamp
);
// TODO: try saved, not calculated velocities!
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
0
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
1
]+
"\t"
+
scenes_xyzatr
[
nscene
][
1
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
0
][
2
]);
sb
.
append
(
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
0
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
1
]+
"\t"
+
dxyzatr_dt
[
nscene
][
1
][
2
]);
// String header_ins1="\ttow\ttheta0\ttheta1\ttheta2\tu(m/s)\tv(m/s)\tw(m/s)"+
// "\tlong\tlat\talt\tned0\tned1\tned2";
sb
.
append
(
"\t"
+
d1
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d1
.
theta
[
0
]+
"\t"
+
d1
.
theta
[
1
]+
"\t"
+
d1
.
theta
[
2
]);
sb
.
append
(
"\t"
+
d1
.
uvw
[
0
]+
"\t"
+
d1
.
uvw
[
1
]+
"\t"
+
d1
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d1
.
lla
[
0
]+
"\t"
+
d1
.
lla
[
1
]+
"\t"
+
d1
.
lla
[
2
]);
sb
.
append
(
"\t"
+
d1
.
ned
[
0
]+
"\t"
+
d1
.
ned
[
1
]+
"\t"
+
d1
.
ned
[
2
]);
//String header_ins2="\ttow\tqn2b0\tqn2b1\tqn2b2\tqn2b3\tu(m/s)\tv(m/s)\tw(m/s)\tlat\tlong\talt";
sb
.
append
(
"\t"
+
d2
.
timeOfWeek
);
sb
.
append
(
"\t"
+
d2
.
qn2b
[
0
]+
"\t"
+
d2
.
qn2b
[
1
]+
"\t"
+
d2
.
qn2b
[
2
]+
"\t"
+
d2
.
qn2b
[
3
]);
sb
.
append
(
"\t"
+
d2
.
uvw
[
0
]+
"\t"
+
d2
.
uvw
[
1
]+
"\t"
+
d2
.
uvw
[
2
]);
sb
.
append
(
"\t"
+
d2
.
lla
[
0
]+
"\t"
+
d2
.
lla
[
1
]+
"\t"
+
d2
.
lla
[
2
]);
double
[]
double_theta
=
new
double
[]
{
d1
.
theta
[
0
],
d1
.
theta
[
1
],
d1
.
theta
[
2
]};
//imsToCamRotations(double [] ims_theta, boolean rev_order, boolean rev_matrix )
double
[]
double_qn2b
=
new
double
[]
{
d2
.
qn2b
[
0
],
d2
.
qn2b
[
1
],
d2
.
qn2b
[
2
],
d2
.
qn2b
[
3
]};
double
[]
double_uvw
=
new
double
[]
{
d2
.
uvw
[
0
],
d2
.
uvw
[
1
],
d2
.
uvw
[
2
]};
double
[]
uvw_dir
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
false
);
double
[]
uvw_inv
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
double_uvw
,
true
);
//Converting from local uvw to NED: (qn2b).applyInverseTo(uvw,ned) results in [vNorth, vEast, vUp]
double
[]
ned
=
Imx5
.
nedFromLla
(
d2
.
lla
,
d2_ref
.
lla
);
double
[]
ims_xyz
=
Imx5
.
applyQuternionTo
(
double_qn2b
,
ned
,
false
);
// String header_ins2_extra="\tned_N\tned_E\tned_D\timu_X\timu_Y\timu_Z"+
// "\tu_dir\tv_dir\tw_dir\tu_inv\tv_inv\tw_inv";
sb
.
append
(
"\t"
+
ned
[
0
]+
"\t"
+
ned
[
1
]+
"\t"
+
ned
[
2
]);
// global axes
sb
.
append
(
"\t"
+
ims_xyz
[
0
]+
"\t"
+
ims_xyz
[
1
]+
"\t"
+
ims_xyz
[
2
]);
// imu axes
// double [] quaternionImsToCam(double[]quat, boolean rvrs)
double
[]
cam_quat1
=
Imx5
.
quaternionImsToCam
(
double_qn2b
);
double
[]
cam_quat2
=
Imx5
.
quaternionImsToCam
(
double_qn2b
,
// new double[] {Math.PI/4,0,0});
new
double
[]
{
0
,
0.13
,
0
});
double
[]
cam_xyz1
=
Imx5
.
applyQuternionTo
(
cam_quat1
,
ned
,
false
);
double
[]
cam_xyz2
=
Imx5
.
applyQuternionTo
(
cam_quat2
,
ned
,
false
);
/*
public static double [] quaternionImsToCam(double[]quat, double [] ims_atr) {
double [][] ort = {{0,-1,0},{0, 0,-1},{1, 0,0}}; // multiply by camera xyz, get imu xyz
Rotation ims_to_mount_ortho = new Rotation(ort, 1E-8);
Rotation ims_to_ned = new Rotation(quat[0],quat[1],quat[2],quat[3],true);
Rotation mount_to_cam = new Rotation(RotationOrder.YXZ, ErsCorrection.ROT_CONV,
ims_atr[0], ims_atr[1], ims_atr[2]);
Rotation mount_to_ned = ims_to_mount_ortho.applyTo(ims_to_ned);
Rotation cam_quat = mount_to_cam.applyTo(mount_to_ned);
return new double [] {cam_quat.getQ0(),cam_quat.getQ1(),cam_quat.getQ2(),cam_quat.getQ3()};
}
*/
sb
.
append
(
"\t"
+
cam_xyz1
[
0
]+
"\t"
+
cam_xyz1
[
1
]+
"\t"
+
cam_xyz1
[
2
]);
//
sb
.
append
(
"\t"
+
cam_xyz2
[
0
]+
"\t"
+
cam_xyz2
[
1
]+
"\t"
+
cam_xyz2
[
2
]);
//
sb
.
append
(
"\t"
+
uvw_dir
[
0
]+
"\t"
+
uvw_dir
[
1
]+
"\t"
+
uvw_dir
[
2
]);
// wrong
sb
.
append
(
"\t"
+
uvw_inv
[
0
]+
"\t"
+
uvw_inv
[
1
]+
"\t"
+
uvw_inv
[
2
]);
// correct
// String header_pimu="\to0\to1\to2\ta0\ta1\ta2";
sb
.
append
(
"\t"
+(
d3
.
theta
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
theta
[
2
]/
d3
.
dt
));
sb
.
append
(
"\t"
+(
d3
.
vel
[
0
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
1
]/
d3
.
dt
)+
"\t"
+(
d3
.
vel
[
2
]/
d3
.
dt
));
// String header_cam= "\ttheta0\ttheta1\ttheta2\troll\tpitch\tyaw";
if
(
use_qn2b
)
{
double
[]
cam_qn2b_000
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
false
,
false
);
double
[]
cam_qn2b_001
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
false
,
true
);
double
[]
cam_qn2b_010
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
true
,
false
);
double
[]
cam_qn2b_011
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
0
,
true
,
true
);
double
[]
cam_qn2b_100
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
false
,
false
);
double
[]
cam_qn2b_101
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
false
,
true
);
double
[]
cam_qn2b_110
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
true
,
false
);
double
[]
cam_qn2b_111
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
1
,
true
,
true
);
double
[]
cam_qn2b_200
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
false
,
false
);
double
[]
cam_qn2b_201
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
false
,
true
);
double
[]
cam_qn2b_210
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
true
,
false
);
double
[]
cam_qn2b_211
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
2
,
true
,
true
);
double
[]
cam_qn2b_300
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
false
,
false
);
double
[]
cam_qn2b_301
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
false
,
true
);
double
[]
cam_qn2b_310
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
true
,
false
);
double
[]
cam_qn2b_311
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
3
,
true
,
true
);
double
[]
cam_qn2b_400
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
false
,
false
);
double
[]
cam_qn2b_401
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
false
,
true
);
double
[]
cam_qn2b_410
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
true
,
false
);
double
[]
cam_qn2b_411
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
4
,
true
,
true
);
double
[]
cam_qn2b_500
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
false
,
false
);
double
[]
cam_qn2b_501
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
false
,
true
);
double
[]
cam_qn2b_510
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
true
,
false
);
double
[]
cam_qn2b_511
=
Imx5
.
imsQToCamRotations
(
double_qn2b
,
5
,
true
,
true
);
sb
.
append
(
"\t"
+
cam_qn2b_000
[
0
]+
"\t"
+
cam_qn2b_000
[
1
]+
"\t"
+
cam_qn2b_000
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_001
[
0
]+
"\t"
+
cam_qn2b_001
[
1
]+
"\t"
+
cam_qn2b_001
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_010
[
0
]+
"\t"
+
cam_qn2b_010
[
1
]+
"\t"
+
cam_qn2b_010
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_011
[
0
]+
"\t"
+
cam_qn2b_011
[
1
]+
"\t"
+
cam_qn2b_011
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_100
[
0
]+
"\t"
+
cam_qn2b_100
[
1
]+
"\t"
+
cam_qn2b_100
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_101
[
0
]+
"\t"
+
cam_qn2b_101
[
1
]+
"\t"
+
cam_qn2b_101
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_110
[
0
]+
"\t"
+
cam_qn2b_110
[
1
]+
"\t"
+
cam_qn2b_110
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_111
[
0
]+
"\t"
+
cam_qn2b_111
[
1
]+
"\t"
+
cam_qn2b_111
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_200
[
0
]+
"\t"
+
cam_qn2b_200
[
1
]+
"\t"
+
cam_qn2b_200
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_201
[
0
]+
"\t"
+
cam_qn2b_201
[
1
]+
"\t"
+
cam_qn2b_201
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_210
[
0
]+
"\t"
+
cam_qn2b_210
[
1
]+
"\t"
+
cam_qn2b_210
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_211
[
0
]+
"\t"
+
cam_qn2b_211
[
1
]+
"\t"
+
cam_qn2b_211
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_300
[
0
]+
"\t"
+
cam_qn2b_300
[
1
]+
"\t"
+
cam_qn2b_300
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_301
[
0
]+
"\t"
+
cam_qn2b_301
[
1
]+
"\t"
+
cam_qn2b_301
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_310
[
0
]+
"\t"
+
cam_qn2b_310
[
1
]+
"\t"
+
cam_qn2b_310
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_311
[
0
]+
"\t"
+
cam_qn2b_311
[
1
]+
"\t"
+
cam_qn2b_311
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_400
[
0
]+
"\t"
+
cam_qn2b_400
[
1
]+
"\t"
+
cam_qn2b_400
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_401
[
0
]+
"\t"
+
cam_qn2b_401
[
1
]+
"\t"
+
cam_qn2b_401
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_410
[
0
]+
"\t"
+
cam_qn2b_410
[
1
]+
"\t"
+
cam_qn2b_410
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_411
[
0
]+
"\t"
+
cam_qn2b_411
[
1
]+
"\t"
+
cam_qn2b_411
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_500
[
0
]+
"\t"
+
cam_qn2b_500
[
1
]+
"\t"
+
cam_qn2b_500
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_501
[
0
]+
"\t"
+
cam_qn2b_501
[
1
]+
"\t"
+
cam_qn2b_501
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_510
[
0
]+
"\t"
+
cam_qn2b_510
[
1
]+
"\t"
+
cam_qn2b_510
[
2
]);
sb
.
append
(
"\t"
+
cam_qn2b_511
[
0
]+
"\t"
+
cam_qn2b_511
[
1
]+
"\t"
+
cam_qn2b_511
[
2
]);
}
if
(
use_euler
)
{
double
[]
cam_theta_000
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
false
,
false
);
double
[]
cam_theta_001
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
false
,
true
);
double
[]
cam_theta_010
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
true
,
false
);
double
[]
cam_theta_011
=
Imx5
.
imsToCamRotations
(
double_theta
,
0
,
true
,
true
);
double
[]
cam_theta_100
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
false
,
false
);
double
[]
cam_theta_101
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
false
,
true
);
double
[]
cam_theta_110
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
true
,
false
);
double
[]
cam_theta_111
=
Imx5
.
imsToCamRotations
(
double_theta
,
1
,
true
,
true
);
double
[]
cam_theta_200
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
false
,
false
);
double
[]
cam_theta_201
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
false
,
true
);
double
[]
cam_theta_210
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
true
,
false
);
double
[]
cam_theta_211
=
Imx5
.
imsToCamRotations
(
double_theta
,
2
,
true
,
true
);
double
[]
cam_theta_300
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
false
,
false
);
double
[]
cam_theta_301
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
false
,
true
);
double
[]
cam_theta_310
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
true
,
false
);
double
[]
cam_theta_311
=
Imx5
.
imsToCamRotations
(
double_theta
,
3
,
true
,
true
);
double
[]
cam_theta_400
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
false
,
false
);
double
[]
cam_theta_401
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
false
,
true
);
double
[]
cam_theta_410
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
true
,
false
);
double
[]
cam_theta_411
=
Imx5
.
imsToCamRotations
(
double_theta
,
4
,
true
,
true
);
double
[]
cam_theta_500
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
false
,
false
);
double
[]
cam_theta_501
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
false
,
true
);
double
[]
cam_theta_510
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
true
,
false
);
double
[]
cam_theta_511
=
Imx5
.
imsToCamRotations
(
double_theta
,
5
,
true
,
true
);
sb
.
append
(
"\t"
+
cam_theta_000
[
0
]+
"\t"
+
cam_theta_000
[
1
]+
"\t"
+
cam_theta_000
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_001
[
0
]+
"\t"
+
cam_theta_001
[
1
]+
"\t"
+
cam_theta_001
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_010
[
0
]+
"\t"
+
cam_theta_010
[
1
]+
"\t"
+
cam_theta_010
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_011
[
0
]+
"\t"
+
cam_theta_011
[
1
]+
"\t"
+
cam_theta_011
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_100
[
0
]+
"\t"
+
cam_theta_100
[
1
]+
"\t"
+
cam_theta_100
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_101
[
0
]+
"\t"
+
cam_theta_101
[
1
]+
"\t"
+
cam_theta_101
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_110
[
0
]+
"\t"
+
cam_theta_110
[
1
]+
"\t"
+
cam_theta_110
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_111
[
0
]+
"\t"
+
cam_theta_111
[
1
]+
"\t"
+
cam_theta_111
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_200
[
0
]+
"\t"
+
cam_theta_200
[
1
]+
"\t"
+
cam_theta_200
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_201
[
0
]+
"\t"
+
cam_theta_201
[
1
]+
"\t"
+
cam_theta_201
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_210
[
0
]+
"\t"
+
cam_theta_210
[
1
]+
"\t"
+
cam_theta_210
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_211
[
0
]+
"\t"
+
cam_theta_211
[
1
]+
"\t"
+
cam_theta_211
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_300
[
0
]+
"\t"
+
cam_theta_300
[
1
]+
"\t"
+
cam_theta_300
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_301
[
0
]+
"\t"
+
cam_theta_301
[
1
]+
"\t"
+
cam_theta_301
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_310
[
0
]+
"\t"
+
cam_theta_310
[
1
]+
"\t"
+
cam_theta_310
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_311
[
0
]+
"\t"
+
cam_theta_311
[
1
]+
"\t"
+
cam_theta_311
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_400
[
0
]+
"\t"
+
cam_theta_400
[
1
]+
"\t"
+
cam_theta_400
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_401
[
0
]+
"\t"
+
cam_theta_401
[
1
]+
"\t"
+
cam_theta_401
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_410
[
0
]+
"\t"
+
cam_theta_410
[
1
]+
"\t"
+
cam_theta_410
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_411
[
0
]+
"\t"
+
cam_theta_411
[
1
]+
"\t"
+
cam_theta_411
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_500
[
0
]+
"\t"
+
cam_theta_500
[
1
]+
"\t"
+
cam_theta_500
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_501
[
0
]+
"\t"
+
cam_theta_501
[
1
]+
"\t"
+
cam_theta_501
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_510
[
0
]+
"\t"
+
cam_theta_510
[
1
]+
"\t"
+
cam_theta_510
[
2
]);
sb
.
append
(
"\t"
+
cam_theta_511
[
0
]+
"\t"
+
cam_theta_511
[
1
]+
"\t"
+
cam_theta_511
[
2
]);
}
/*
sb.append("\t"+
cam_theta[0]*180/Math.PI+"\t"+
cam_theta[1]*180/Math.PI+"\t"+
cam_theta[2]*180/Math.PI);
*/
sb
.
append
(
"\n"
);
}
if
(
path
!=
null
)
{
String
footer
=(
comment
!=
null
)
?
(
"Comment: "
+
comment
):
""
;
CalibrationFileManagement
.
saveStringToFile
(
path
,
header
+
"\n"
+
sb
.
toString
()+
"\n"
+
footer
);
}
else
{
new
TextWindow
(
"Sharpness History"
,
header
,
sb
.
toString
(),
1000
,
900
);
}
}
public
void
adjustLYSeries
(
QuadCLT
quadCLT_main
,
// update extrinsics here too
QuadCLT
[]
quadCLTs
,
...
...
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