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Richard Torenvliet
eos
Commits
4ec5e910
Commit
4ec5e910
authored
Jan 07, 2017
by
Patrik Huber
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Initial version of keyframe selection and weighted mean fusion
parent
3aa61677
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CMakeLists.txt
CMakeLists.txt
+1
-0
doc/namespaces.doxygen
doc/namespaces.doxygen
+5
-0
include/eos/video/Keyframe.hpp
include/eos/video/Keyframe.hpp
+254
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CMakeLists.txt
View file @
4ec5e910
...
@@ -98,6 +98,7 @@ set(HEADERS
...
@@ -98,6 +98,7 @@ set(HEADERS
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/Rasterizer.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/Rasterizer.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/FragmentShader.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/FragmentShader.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/detail/Vertex.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/render/detail/Vertex.hpp
${
CMAKE_CURRENT_SOURCE_DIR
}
/include/eos/video/Keyframe.hpp
)
)
add_library
(
eos INTERFACE
)
add_library
(
eos INTERFACE
)
...
...
doc/namespaces.doxygen
View file @
4ec5e910
...
@@ -22,3 +22,8 @@
...
@@ -22,3 +22,8 @@
* @namespace eos::render
* @namespace eos::render
* @brief Software rendering and texture extraction functionality.
* @brief Software rendering and texture extraction functionality.
*/
*/
/**
* @namespace eos::video
* @brief Video keyframe extraction and fusion.
*/
include/eos/video/Keyframe.hpp
0 → 100644
View file @
4ec5e910
/*
* eos - A 3D Morphable Model fitting library written in modern C++11/14.
*
* File: include/eos/video/Keyframe.hpp
*
* Copyright 2016, 2017 Patrik Huber
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#ifndef KEYFRAME_HPP_
#define KEYFRAME_HPP_
#include "eos/fitting/FittingResult.hpp"
#include "eos/fitting/RenderingParameters.hpp"
#include "eos/morphablemodel/Blendshape.hpp"
#include "eos/morphablemodel/MorphableModel.hpp"
#include "opencv2/core/core.hpp"
namespace
eos
{
namespace
video
{
/**
* @brief A keyframe selected by the fitting algorithm.
*
* Contains the original frame, all necessary fitting parameters, and a score.
*/
struct
Keyframe
{
float
score
;
// = 0.0f?
cv
::
Mat
frame
;
fitting
::
FittingResult
fitting_result
;
};
/**
* @brief A keyframe selection that selects keyframes according to yaw pose and score.
*
* Separates the +-90 yaw pose range into 20 intervals (i.e. 90 to 70, ..., -10 to 10, ...), and puts frames
* into each bin, until full. Replaces keyframes with better frames if the score is higher than that of
* current keyframes.
*
* The yaw pose bins are currently hard-coded (9 bins, 20 intervals).
*/
struct
PoseBinningKeyframeSelector
{
public:
PoseBinningKeyframeSelector
(
int
frames_per_bin
=
2
)
:
frames_per_bin
(
frames_per_bin
)
{
bins
.
resize
(
num_yaw_bins
);
};
bool
try_add
(
float
frame_score
,
cv
::
Mat
image
,
const
fitting
::
FittingResult
&
fitting_result
)
{
// Determine whether to add or not:
auto
yaw_angle
=
glm
::
degrees
(
glm
::
yaw
(
fitting_result
.
rendering_parameters
.
get_rotation
()));
auto
idx
=
angle_to_index
(
yaw_angle
);
bool
add_frame
=
false
;
if
(
bins
[
idx
].
size
()
<
frames_per_bin
)
// always add when we don't have enough frames
add_frame
=
true
;
// definitely adding - we wouldn't have to go through the for-loop on the next line.
for
(
auto
&&
f
:
bins
[
idx
])
{
if
(
frame_score
>
f
.
score
)
add_frame
=
true
;
}
if
(
!
add_frame
)
{
return
false
;
}
// Add the keyframe:
bins
[
idx
].
push_back
(
video
::
Keyframe
{
frame_score
,
image
,
fitting_result
});
if
(
bins
[
idx
].
size
()
>
frames_per_bin
)
{
// need to remove the lowest one:
std
::
sort
(
std
::
begin
(
bins
[
idx
]),
std
::
end
(
bins
[
idx
]),
[](
const
auto
&
lhs
,
const
auto
&
rhs
)
{
return
lhs
.
score
>
rhs
.
score
;
});
bins
[
idx
].
resize
(
frames_per_bin
);
}
return
true
;
};
// Returns the keyframes as a vector.
std
::
vector
<
Keyframe
>
get_keyframes
()
const
{
std
::
vector
<
Keyframe
>
keyframes
;
for
(
auto
&&
b
:
bins
)
{
for
(
auto
&&
f
:
b
)
{
keyframes
.
push_back
(
f
);
}
}
return
keyframes
;
};
private:
using
BinContent
=
std
::
vector
<
Keyframe
>
;
std
::
vector
<
BinContent
>
bins
;
const
int
num_yaw_bins
=
9
;
int
frames_per_bin
;
// Converts a given yaw angle to an index in the internal bins vector.
// Assumes 9 bins and 20 intervals.
static
std
::
size_t
angle_to_index
(
float
yaw_angle
)
{
if
(
yaw_angle
<=
-
70.
f
)
return
0
;
if
(
yaw_angle
<=
-
50.
f
)
return
1
;
if
(
yaw_angle
<=
-
30.
f
)
return
2
;
if
(
yaw_angle
<=
-
10.
f
)
return
3
;
if
(
yaw_angle
<=
10.
f
)
return
4
;
if
(
yaw_angle
<=
30.
f
)
return
5
;
if
(
yaw_angle
<=
50.
f
)
return
6
;
if
(
yaw_angle
<=
70.
f
)
return
7
;
return
8
;
};
};
/**
* @brief Extracts texture from each keyframe and merges them using a weighted mean.
*
* Uses the view angle as weighting.
*
* Note 1: Would be nice to eventually return a 4-channel texture map, with a sensible weight in the 4th
* channel (i.e. the max of all weights for a given pixel).
*
* Note 2: On each call to this, it generates all isomaps. This is quite time-consuming (and we could compute
* the weighted mean incrementally). But caching them is not trivial (maybe with a hashing or comparing the
* cv::Mat frame data* member?).
* On the other hand, for the more complex merging techniques (super-res, involving ceres, or a median
* cost-func?), there might be no caching possible anyway and we will recompute the merged isomap from scratch
* each time anyway, but not by first extracting all isomaps - instead we would just do a lookup of the
* required pixel value(s) in the original image.
*
* // struct KeyframeMerger {};
*
* @param[in] keyframes The keyframes that will be merged.
* @param[in] morphable_model The Morphable Model with which the keyframes have been fitted.
* @param[in] blendshapes The blendshapes with which the keyframes have been fitted.
* @return Merged texture map (isomap), 3-channel uchar.
*/
cv
::
Mat
merge_weighted_mean
(
const
std
::
vector
<
Keyframe
>&
keyframes
,
const
morphablemodel
::
MorphableModel
&
morphable_model
,
const
std
::
vector
<
morphablemodel
::
Blendshape
>&
blendshapes
)
{
assert
(
keyframes
.
size
()
>=
1
);
using
cv
::
Mat
;
using
std
::
vector
;
vector
<
Mat
>
isomaps
;
for
(
const
auto
&
frame_data
:
keyframes
)
{
const
Mat
shape
=
morphable_model
.
get_shape_model
().
draw_sample
(
frame_data
.
fitting_result
.
pca_shape_coefficients
)
+
morphablemodel
::
to_matrix
(
blendshapes
)
*
Mat
(
frame_data
.
fitting_result
.
blendshape_coefficients
);
const
auto
mesh
=
morphablemodel
::
sample_to_mesh
(
shape
,
{},
morphable_model
.
get_shape_model
().
get_triangle_list
(),
{},
morphable_model
.
get_texture_coordinates
());
const
Mat
affine_camera_matrix
=
fitting
::
get_3x4_affine_camera_matrix
(
frame_data
.
fitting_result
.
rendering_parameters
,
frame_data
.
frame
.
cols
,
frame_data
.
frame
.
rows
);
const
Mat
isomap
=
render
::
extract_texture
(
mesh
,
affine_camera_matrix
,
frame_data
.
frame
,
true
,
render
::
TextureInterpolation
::
NearestNeighbour
,
1024
);
isomaps
.
push_back
(
isomap
);
}
// Now do the actual merging:
Mat
r
=
Mat
::
zeros
(
isomaps
[
0
].
rows
,
isomaps
[
0
].
cols
,
CV_32FC1
);
Mat
g
=
Mat
::
zeros
(
isomaps
[
0
].
rows
,
isomaps
[
0
].
cols
,
CV_32FC1
);
Mat
b
=
Mat
::
zeros
(
isomaps
[
0
].
rows
,
isomaps
[
0
].
cols
,
CV_32FC1
);
Mat
accumulated_weight
=
Mat
::
zeros
(
isomaps
[
0
].
rows
,
isomaps
[
0
].
cols
,
CV_32FC1
);
// Currently, this just uses the weights in the alpha channel for weighting - they contain only the
// view-angle. We should use the keyframe's score as well. Plus the area of the source triangle.
for
(
auto
&&
isomap
:
isomaps
)
{
vector
<
Mat
>
channels
;
cv
::
split
(
isomap
,
channels
);
// channels[0].convertTo(channels[0], CV_32FC1);
// We could avoid this explicit temporary, but then we'd have to convert both matrices
// to CV_32FC1 first - and manually multiply with 1/255. Not sure which one is faster.
// If we do it like this, the add just becomes '+=' - so I think it's fine like this.
// The final formula is:
// b += chan_0 * alpha * 1/255; (and the same for g and r respectively)
Mat
weighted_b
,
weighted_g
,
weighted_r
;
// // we scale the weights from [0, 255] to [0, 1]:
cv
::
multiply
(
channels
[
0
],
channels
[
3
],
weighted_b
,
1
/
255.0
,
CV_32FC1
);
cv
::
multiply
(
channels
[
1
],
channels
[
3
],
weighted_g
,
1
/
255.0
,
CV_32FC1
);
cv
::
multiply
(
channels
[
2
],
channels
[
3
],
weighted_r
,
1
/
255.0
,
CV_32FC1
);
b
+=
weighted_b
;
g
+=
weighted_g
;
r
+=
weighted_r
;
channels
[
3
].
convertTo
(
channels
[
3
],
CV_32FC1
);
// needed for the '/ 255.0f' below to work
cv
::
add
(
accumulated_weight
,
channels
[
3
]
/
255.0
f
,
accumulated_weight
,
cv
::
noArray
(),
CV_32FC1
);
}
b
=
b
.
mul
(
1.0
/
(
accumulated_weight
));
// divide by number of frames used too?
g
=
g
.
mul
(
1.0
/
(
accumulated_weight
));
r
=
r
.
mul
(
1.0
/
(
accumulated_weight
));
// Let's return accumulated_weight too: Normalise by num_isomaps * 255 (=maximum weight)
// This sets the returned weight to the average from all the isomaps. Maybe the maximum would make more
// sense? => Not returning anything for now.
// accumulated_weight = (accumulated_weight / isomaps.size()) * 255;
Mat
merged_isomap
;
cv
::
merge
({
b
,
g
,
r
},
merged_isomap
);
merged_isomap
.
convertTo
(
merged_isomap
,
CV_8UC3
);
return
merged_isomap
;
};
/**
* @brief Computes the variance of laplacian of the given image or patch.
*
* This should compute the variance of the laplacian of a given image or patch, according to the 'LAPV'
* algorithm of Pech 2000.
* It is used as a focus or blurriness measure, i.e. to assess the quality of the given patch.
*
* @param[in] image Input image or patch.
* @return The computed variance of laplacian score.
*/
double
variance_of_laplacian
(
const
cv
::
Mat
&
image
)
{
cv
::
Mat
laplacian
;
cv
::
Laplacian
(
image
,
laplacian
,
CV_64F
);
cv
::
Scalar
mu
,
sigma
;
cv
::
meanStdDev
(
laplacian
,
mu
,
sigma
);
double
focus_measure
=
sigma
.
val
[
0
]
*
sigma
.
val
[
0
];
return
focus_measure
;
};
}
/* namespace video */
}
/* namespace eos */
#endif
/* KEYFRAME_HPP_ */
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