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implemented rotating-only cameras calibration

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pull/13383/head
Alexey Spizhevoy 14 years ago
parent 4c289dc166
commit aba2008711
6 changed files with 231 additions and 127 deletions
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  1. 67
      modules/stitching/autocalib.cpp
  2. 32
      modules/stitching/autocalib.hpp
  3. 4
      modules/stitching/main.cpp
  4. 21
      modules/stitching/motion_estimators.cpp
  5. 233
      modules/stitching/util.cpp
  6. 1
      modules/stitching/util.hpp

67
modules/stitching/autocalib.cpp
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@ -115,3 +115,70 @@ void estimateFocal(const vector<ImageFeatures> &features, const vector<MatchesIn
focals[i] = focals_sum / num_images;
}
}
namespace
{
template<typename _Tp> static inline bool
decomposeCholesky(_Tp* A, size_t astep, int m)
{
if (!Cholesky(A, astep, m, 0, 0, 0))
return false;
astep /= sizeof(A[0]);
for (int i = 0; i < m; ++i)
A[i*astep + i] = (_Tp)(1./A[i*astep + i]);
return true;
}
} // namespace
bool calibrateRotatingCamera(const vector<Mat> &Hs, Mat &K)
{
int m = static_cast<int>(Hs.size());
CV_Assert(m >= 1);
vector<Mat> Hs_(m);
for (int i = 0; i < m; ++i)
{
CV_Assert(Hs[i].size() == Size(3, 3) && Hs[i].type() == CV_64F);
Hs_[i] = Hs[i] / pow(determinant(Hs[i]), 1./3.);
}
const int idx_map[3][3] = {{0, 1, 2}, {1, 3, 4}, {2, 4, 5}};
Mat_<double> A(6*m, 6);
A.setTo(0);
int eq_idx = 0;
for (int k = 0; k < m; ++k)
{
Mat_<double> H(Hs_[k]);
for (int i = 0; i < 3; ++i)
{
for (int j = i; j < 3; ++j, ++eq_idx)
{
for (int l = 0; l < 3; ++l)
{
for (int s = 0; s < 3; ++s)
{
int idx = idx_map[l][s];
A(eq_idx, idx) += H(i,l) * H(j,s);
}
}
A(eq_idx, idx_map[i][j]) -= 1;
}
}
}
Mat_<double> wcoef;
SVD::solveZ(A, wcoef);
Mat_<double> W(3,3);
for (int i = 0; i < 3; ++i)
for (int j = i; j < 3; ++j)
W(i,j) = W(j,i) = wcoef(idx_map[i][j], 0) / wcoef(5,0);
if (!decomposeCholesky(W.ptr<double>(), W.step, 3))
return false;
W(0,1) = W(0,2) = W(1,2) = 0;
K = W.t();
return true;
}

32
modules/stitching/autocalib.hpp
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@ -38,18 +38,20 @@
// or tort (including negligence or otherwise) arising in any way out of
// the use of this software, even if advised of the possibility of such damage.
//
//M*/
#ifndef __OPENCV_AUTOCALIB_HPP__
#define __OPENCV_AUTOCALIB_HPP__
#include "precomp.hpp"
#include "matchers.hpp"
// See "Construction of Panoramic Image Mosaics with Global and Local Alignment"
// by Heung-Yeung Shum and Richard Szeliski.
void focalsFromHomography(const cv::Mat &H, double &f0, double &f1, bool &f0_ok, bool &f1_ok);
void estimateFocal(const std::vector<ImageFeatures> &features, const std::vector<MatchesInfo> &pairwise_matches,
std::vector<double> &focals);
#endif // __OPENCV_AUTOCALIB_HPP__
//M*/
#ifndef __OPENCV_AUTOCALIB_HPP__
#define __OPENCV_AUTOCALIB_HPP__
#include "precomp.hpp"
#include "matchers.hpp"
// See "Construction of Panoramic Image Mosaics with Global and Local Alignment"
// by Heung-Yeung Shum and Richard Szeliski.
void focalsFromHomography(const cv::Mat &H, double &f0, double &f1, bool &f0_ok, bool &f1_ok);
void estimateFocal(const std::vector<ImageFeatures> &features, const std::vector<MatchesInfo> &pairwise_matches,
std::vector<double> &focals);
bool calibrateRotatingCamera(const std::vector<cv::Mat> &Hs, cv::Mat &K);
#endif // __OPENCV_AUTOCALIB_HPP__

4
modules/stitching/main.cpp
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@ -100,7 +100,7 @@ void printUsage()
" --blend_strength <float>\n"
" Blending strength from [0,100] range. The default is 5.\n"
" --output <result_img>\n"
" The default is 'result.png'.\n";
" The default is 'result.jpg'.\n";
}
@ -120,7 +120,7 @@ float match_conf = 0.65f;
int seam_find_type = SeamFinder::GC_COLOR;
int blend_type = Blender::MULTI_BAND;
float blend_strength = 5;
string result_name = "result.png";
string result_name = "result.jpg";
int parseCmdArgs(int argc, char** argv)
{

21
modules/stitching/motion_estimators.cpp
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@ -108,6 +108,27 @@ void HomographyBasedEstimator::estimate(const vector<ImageFeatures> &features, c
{
const int num_images = static_cast<int>(features.size());
#if 0
// Robustly estimate focal length from rotating cameras
vector<Mat> Hs;
for (int iter = 0; iter < 100; ++iter)
{
int len = 2 + rand()%(pairwise_matches.size() - 1);
vector<int> subset;
selectRandomSubset(len, pairwise_matches.size(), subset);
Hs.clear();
for (size_t i = 0; i < subset.size(); ++i)
if (!pairwise_matches[subset[i]].H.empty())
Hs.push_back(pairwise_matches[subset[i]].H);
Mat_<double> K;
if (Hs.size() >= 2)
{
if (calibrateRotatingCamera(Hs, K))
cin.get();
}
}
#endif
// Estimate focal length and set it for all cameras
vector<double> focals;
estimateFocal(features, pairwise_matches, focals);

233
modules/stitching/util.cpp
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@ -38,113 +38,126 @@
// or tort (including negligence or otherwise) arising in any way out of
// the use of this software, even if advised of the possibility of such damage.
//
//M*/
#include "util.hpp"
using namespace std;
using namespace cv;
void DjSets::create(int n)
{
rank_.assign(n, 0);
size.assign(n, 1);
parent.resize(n);
for (int i = 0; i < n; ++i)
parent[i] = i;
}
int DjSets::find(int elem)
{
int set = elem;
while (set != parent[set])
set = parent[set];
int next;
while (elem != parent[elem])
{
next = parent[elem];
parent[elem] = set;
elem = next;
}
return set;
}
int DjSets::merge(int set1, int set2)
{
if (rank_[set1] < rank_[set2])
{
parent[set1] = set2;
size[set2] += size[set1];
return set2;
}
if (rank_[set2] < rank_[set1])
{
parent[set2] = set1;
size[set1] += size[set2];
return set1;
}
parent[set1] = set2;
rank_[set2]++;
size[set2] += size[set1];
return set2;
}
void Graph::addEdge(int from, int to, float weight)
{
edges_[from].push_back(GraphEdge(from, to, weight));
}
bool overlapRoi(Point tl1, Point tl2, Size sz1, Size sz2, Rect &roi)
{
int x_tl = max(tl1.x, tl2.x);
int y_tl = max(tl1.y, tl2.y);
int x_br = min(tl1.x + sz1.width, tl2.x + sz2.width);
int y_br = min(tl1.y + sz1.height, tl2.y + sz2.height);
if (x_tl < x_br && y_tl < y_br)
{
roi = Rect(x_tl, y_tl, x_br - x_tl, y_br - y_tl);
return true;
}
return false;
}
Rect resultRoi(const vector<Point> &corners, const vector<Mat> &images)
{
vector<Size> sizes(images.size());
for (size_t i = 0; i < images.size(); ++i)
sizes[i] = images[i].size();
return resultRoi(corners, sizes);
}
Rect resultRoi(const vector<Point> &corners, const vector<Size> &sizes)
{
CV_Assert(sizes.size() == corners.size());
Point tl(numeric_limits<int>::max(), numeric_limits<int>::max());
Point br(numeric_limits<int>::min(), numeric_limits<int>::min());
for (size_t i = 0; i < corners.size(); ++i)
{
tl.x = min(tl.x, corners[i].x);
tl.y = min(tl.y, corners[i].y);
br.x = max(br.x, corners[i].x + sizes[i].width);
br.y = max(br.y, corners[i].y + sizes[i].height);
}
return Rect(tl, br);
}
Point resultTl(const vector<Point> &corners)
{
Point tl(numeric_limits<int>::max(), numeric_limits<int>::max());
for (size_t i = 0; i < corners.size(); ++i)
{
tl.x = min(tl.x, corners[i].x);
tl.y = min(tl.y, corners[i].y);
}
return tl;
}
//M*/
#include "util.hpp"
using namespace std;
using namespace cv;
void DjSets::create(int n)
{
rank_.assign(n, 0);
size.assign(n, 1);
parent.resize(n);
for (int i = 0; i < n; ++i)
parent[i] = i;
}
int DjSets::find(int elem)
{
int set = elem;
while (set != parent[set])
set = parent[set];
int next;
while (elem != parent[elem])
{
next = parent[elem];
parent[elem] = set;
elem = next;
}
return set;
}
int DjSets::merge(int set1, int set2)
{
if (rank_[set1] < rank_[set2])
{
parent[set1] = set2;
size[set2] += size[set1];
return set2;
}
if (rank_[set2] < rank_[set1])
{
parent[set2] = set1;
size[set1] += size[set2];
return set1;
}
parent[set1] = set2;
rank_[set2]++;
size[set2] += size[set1];
return set2;
}
void Graph::addEdge(int from, int to, float weight)
{
edges_[from].push_back(GraphEdge(from, to, weight));
}
bool overlapRoi(Point tl1, Point tl2, Size sz1, Size sz2, Rect &roi)
{
int x_tl = max(tl1.x, tl2.x);
int y_tl = max(tl1.y, tl2.y);
int x_br = min(tl1.x + sz1.width, tl2.x + sz2.width);
int y_br = min(tl1.y + sz1.height, tl2.y + sz2.height);
if (x_tl < x_br && y_tl < y_br)
{
roi = Rect(x_tl, y_tl, x_br - x_tl, y_br - y_tl);
return true;
}
return false;
}
Rect resultRoi(const vector<Point> &corners, const vector<Mat> &images)
{
vector<Size> sizes(images.size());
for (size_t i = 0; i < images.size(); ++i)
sizes[i] = images[i].size();
return resultRoi(corners, sizes);
}
Rect resultRoi(const vector<Point> &corners, const vector<Size> &sizes)
{
CV_Assert(sizes.size() == corners.size());
Point tl(numeric_limits<int>::max(), numeric_limits<int>::max());
Point br(numeric_limits<int>::min(), numeric_limits<int>::min());
for (size_t i = 0; i < corners.size(); ++i)
{
tl.x = min(tl.x, corners[i].x);
tl.y = min(tl.y, corners[i].y);
br.x = max(br.x, corners[i].x + sizes[i].width);
br.y = max(br.y, corners[i].y + sizes[i].height);
}
return Rect(tl, br);
}
Point resultTl(const vector<Point> &corners)
{
Point tl(numeric_limits<int>::max(), numeric_limits<int>::max());
for (size_t i = 0; i < corners.size(); ++i)
{
tl.x = min(tl.x, corners[i].x);
tl.y = min(tl.y, corners[i].y);
}
return tl;
}
void selectRandomSubset(int count, int size, vector<int> &subset)
{
subset.clear();
for (int i = 0; i < size; ++i)
{
if (randu<int>() % (size - i) < count)
{
subset.push_back(i);
count--;
}
}
}

1
modules/stitching/util.hpp
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@ -108,6 +108,7 @@ bool overlapRoi(cv::Point tl1, cv::Point tl2, cv::Size sz1, cv::Size sz2, cv::Re
cv::Rect resultRoi(const std::vector<cv::Point> &corners, const std::vector<cv::Mat> &images);
cv::Rect resultRoi(const std::vector<cv::Point> &corners, const std::vector<cv::Size> &sizes);
cv::Point resultTl(const std::vector<cv::Point> &corners);
void selectRandomSubset(int count, int size, std::vector<int> &subset);
#include "util_inl.hpp"

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