More commenting work on FexTracker.

Originally committed to SVN as r587.
This commit is contained in:
Niels Martin Hansen 2006-12-21 23:20:04 +00:00
parent d972e6e69c
commit 4573ec72fa
1 changed files with 47 additions and 14 deletions

View File

@ -313,53 +313,73 @@ void FexTracker::TrackFeatures()
{ {
for( int i=0;i<nFeatures;i++ ) for( int i=0;i<nFeatures;i++ )
{ {
if( lFeatures[i].StartTime + lFeatures[i].Pos.size() < CurFrame ) continue; //feature was lost // Check if this feature was already lost in an earlier frame
if( lFeatures[i].StartTime + lFeatures[i].Pos.size() < CurFrame ) continue;
int FeatureFrame = CurFrame - lFeatures[i].StartTime; int FeatureFrame = CurFrame - lFeatures[i].StartTime;
float orig_px = lFeatures[i].Pos[FeatureFrame-1].x; float orig_px = lFeatures[i].Pos[FeatureFrame-1].x;
float orig_py = lFeatures[i].Pos[FeatureFrame-1].y; float orig_py = lFeatures[i].Pos[FeatureFrame-1].y;
vec2 op; vec2 op; // Original point
// Calculate position of original point on top level of the pyramid
op.x = orig_px * CurImg->lLevels[ CurImg->nLevels-1 ]->CoordMul / CurImg->Subsampling; op.x = orig_px * CurImg->lLevels[ CurImg->nLevels-1 ]->CoordMul / CurImg->Subsampling;
op.y = orig_py * CurImg->lLevels[ CurImg->nLevels-1 ]->CoordMul / CurImg->Subsampling; op.y = orig_py * CurImg->lLevels[ CurImg->nLevels-1 ]->CoordMul / CurImg->Subsampling;
vec2 np; vec2 np; // New point
np = op; np = op; // Assume no motion initially
int l; int l;
for( l=CurImg->nLevels-1;l>=0;l-- ) for( l=CurImg->nLevels-1;l>=0;l-- )
{ {
// Move coordinates one level down in the pyramid
op.x *= CurImg->Subsampling; op.x *= CurImg->Subsampling;
op.y *= CurImg->Subsampling; op.y *= CurImg->Subsampling;
np.x *= CurImg->Subsampling; np.x *= CurImg->Subsampling;
np.y *= CurImg->Subsampling; np.y *= CurImg->Subsampling;
// And try to track the feature
if( !TrackOneFeature( l, op, np ) ) break; if( !TrackOneFeature( l, op, np ) ) break;
} }
if( l!=-1 ) continue; //we aborted // Did the loop finish? If not, tracking failed and the feature was lost
if( l!=-1 ) continue;
// Tracked outside the frame? Feature lost.
if( np.x<0 || np.y<0 || np.x>SizX || np.y>SizY ) continue; if( np.x<0 || np.y<0 || np.x>SizX || np.y>SizY ) continue;
// Otherwise add the new position to the feature's point list
lFeatures[i].Pos.Add( np ); lFeatures[i].Pos.Add( np );
} }
} }
bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np ) bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
{ {
// Motion estimate one feature on one level in the image pyramid
// @op (in) is the coordinate for the point on the previous frame
// @np (out) is the coordinate for the new location of the point, based on the information in this level of the pyramid
// Border epsilon, defines what is "too close" to the edge of the image
static float bordereps = 1.1f; static float bordereps = 1.1f;
// Check that the point isn't already "almost outside" the image, and let tracking fail if it is
if( op.x - Cfg.WindowX < bordereps || op.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps ) return 0; if( op.x - Cfg.WindowX < bordereps || op.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps ) return 0;
if( op.y - Cfg.WindowY < bordereps || op.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) return 0; if( op.y - Cfg.WindowY < bordereps || op.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) return 0;
if( np.x - Cfg.WindowX < bordereps || np.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps ) return 0; if( np.x - Cfg.WindowX < bordereps || np.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps ) return 0;
if( np.y - Cfg.WindowY < bordereps || np.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) return 0; if( np.y - Cfg.WindowY < bordereps || np.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) return 0;
// Temporary images for holding data in the window around the feature
// Desired width of the window
int isx = (Cfg.WindowX*2+1); int isx = (Cfg.WindowX*2+1);
// Desired number of pixels in the window
int imsiz = isx*(Cfg.WindowY*2+1); int imsiz = isx*(Cfg.WindowY*2+1);
// Simple difference between image data in window around current frame/position and next frame/position
float *diff = new float[imsiz]; float *diff = new float[imsiz];
// Something with gradients around old/new position
float *gradx = new float[imsiz]; float *gradx = new float[imsiz];
float *grady = new float[imsiz]; float *grady = new float[imsiz];
bool bOk = 1; bool bOk = 1;
// Iteratively obtain better precision motion estimation (FIXME)
for( int iteration=0;iteration<Cfg.MaxIterations;iteration++ ) for( int iteration=0;iteration<Cfg.MaxIterations;iteration++ )
{ {
// Calculate diffs and gradients ((FIXME)
GetDiffForPointset( lvl, op, np, diff ); GetDiffForPointset( lvl, op, np, diff );
GetGradForPointset( lvl, op, np, gradx, grady ); GetGradForPointset( lvl, op, np, gradx, grady );
/* /*
@ -367,6 +387,8 @@ bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
imdebug("lum b=32f w=%d h=%d %p /255", isx, imsiz/isx, gradx); imdebug("lum b=32f w=%d h=%d %p /255", isx, imsiz/isx, gradx);
imdebug("lum b=32f w=%d h=%d %p /255", isx, imsiz/isx, grady); imdebug("lum b=32f w=%d h=%d %p /255", isx, imsiz/isx, grady);
*/ */
// Calculate gradient correlation matrix and some other matrix related to gradients and differences
register float gx, gy, di; register float gx, gy, di;
float gxx = 0, gyy = 0, gxy = 0, ex = 0, ey = 0; float gxx = 0, gyy = 0, gxy = 0, ex = 0, ey = 0;
@ -383,6 +405,7 @@ bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
ey += di*gy; ey += di*gy;
} }
// Too small determinant in the gradient corr. matrix? (what does that mean?)
float det = gxx*gyy - gxy*gxy; float det = gxx*gyy - gxy*gxy;
if( det < Cfg.MinDeterminant ) if( det < Cfg.MinDeterminant )
{ {
@ -390,11 +413,13 @@ bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
break; break;
} }
// So apparently those two matrices together tell something about the movement
float dx = (gyy*ex - gxy*ey)/det; float dx = (gyy*ex - gxy*ey)/det;
float dy = (gxx*ey - gxy*ex)/det; float dy = (gxx*ey - gxy*ex)/det;
np.x += dx; np.x += dx;
np.y += dy; np.y += dy;
// Check if the feature moved too close to a border, in which case it's lost
if( ( np.x - Cfg.WindowX < bordereps || np.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps ) if( ( np.x - Cfg.WindowX < bordereps || np.x + Cfg.WindowX > CurImg->lLevels[lvl]->sx - bordereps )
|| ( np.y - Cfg.WindowY < bordereps || np.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) ) || ( np.y - Cfg.WindowY < bordereps || np.y + Cfg.WindowY > CurImg->lLevels[lvl]->sy - bordereps ) )
{ {
@ -402,11 +427,14 @@ bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
break; break;
} }
// If the feature didn't move enough in this iteration, assume its motion is properly estimated
if( fabs(dx) < Cfg.MinDisplacement && fabs(dy) < Cfg.MinDisplacement )break; if( fabs(dx) < Cfg.MinDisplacement && fabs(dy) < Cfg.MinDisplacement )break;
} }
delete [] gradx; delete [] gradx;
delete [] grady; delete [] grady;
// I think this checks if there's too large a difference between the image at the current and the next frame
// around the motion estimated feature
if( bOk ) if( bOk )
{ {
GetDiffForPointset( lvl, op, np, diff ); GetDiffForPointset( lvl, op, np, diff );
@ -424,6 +452,7 @@ bool FexTracker::TrackOneFeature( int lvl, vec2 op, vec2& np )
inline float Interpolate( float *img, int ImgSX, float x, float y ) inline float Interpolate( float *img, int ImgSX, float x, float y )
{ {
// Bilinear interpolation between (x,y) and ((int)x,(int)y)
int xt = (int) x; /* coordinates of top-left corner */ int xt = (int) x; /* coordinates of top-left corner */
int yt = (int) y; int yt = (int) y;
float ax = x - xt; float ax = x - xt;
@ -438,6 +467,9 @@ inline float Interpolate( float *img, int ImgSX, float x, float y )
void FexTracker::GetDiffForPointset( int lvl, vec2 op, vec2 np, float* diff ) void FexTracker::GetDiffForPointset( int lvl, vec2 op, vec2 np, float* diff )
{ {
// Calculate the difference between the current frame and the next frame
// locally around the feature point
// (using the currently motion estimated coordinates for the new position)
float* img1 = CurImg->lLevels[lvl]->Img; float* img1 = CurImg->lLevels[lvl]->Img;
int isx1 = CurImg->lLevels[lvl]->sx; int isx1 = CurImg->lLevels[lvl]->sx;
float* img2 = NextImg->lLevels[lvl]->Img; float* img2 = NextImg->lLevels[lvl]->Img;
@ -452,6 +484,7 @@ void FexTracker::GetDiffForPointset( int lvl, vec2 op, vec2 np, float* diff )
} }
void FexTracker::GetGradForPointset( int lvl, vec2 op, vec2 np, float* gradx, float* grady ) void FexTracker::GetGradForPointset( int lvl, vec2 op, vec2 np, float* gradx, float* grady )
{ {
// Dark magic
int isx = CurImg->lLevels[lvl]->sx; int isx = CurImg->lLevels[lvl]->sx;
float* gx1 = CurImg->lLevels[lvl]->GradX; float* gx1 = CurImg->lLevels[lvl]->GradX;