39 #include <visp3/core/vpConfig.h> 44 #include <visp3/core/vpMomentCentered.h> 45 #include <visp3/core/vpMomentGravityCenter.h> 46 #include <visp3/core/vpMomentObject.h> 47 #include <visp3/visual_features/vpFeatureMomentBasic.h> 48 #include <visp3/visual_features/vpFeatureMomentCentered.h> 49 #include <visp3/visual_features/vpFeatureMomentDatabase.h> 50 #include <visp3/visual_features/vpFeatureMomentGravityCenter.h> 77 "been computed, you should " 78 "specify a higher order.");
99 double pcombkqcombl = 0.0;
105 double minus1pow = 0.;
108 for (
unsigned int k = 0; k <= p; ++k) {
109 int pmk = (int)p - (
int)k;
110 double pcombk =
static_cast<double>(
vpMath::comb(p, k));
111 for (
unsigned int l = 0; l <= q; ++l) {
112 qml = (int)q - (
int)l;
114 minus1pow = pow((
double)-1, (
double)(pmk + qml));
115 pcombkqcombl = pcombk * qcombl;
117 pintom = pcombkqcombl * mkl;
120 term1 += pintom * pmk * pow(xg, pmk - 1) * pow(yg, qml) * minus1pow;
122 term2 += pintom * qml * pow(xg, pmk) * pow(yg, qml - 1) * minus1pow;
123 Lterm3 += pcombkqcombl * pow(xg, pmk) * pow(yg, qml) * L_mkl * minus1pow;
129 vpMatrix L_mupq = L_xg * term1 + L_yg * term2 + Lterm3;
146 #ifdef VISP_MOMENTS_COMBINE_MATRICES 153 bool found_moment_gravity;
156 if (!found_moment_gravity)
158 double xg = momentGravity.
get()[0];
159 double yg = momentGravity.
get()[1];
161 bool found_feature_gravity_center;
164 if (!found_feature_gravity_center)
169 bool found_moment_basic;
172 if (!found_moment_basic)
175 bool found_featuremoment_basic;
178 if (!found_featuremoment_basic)
182 for (
int i = 0; i < (int)order - 1; i++) {
183 for (
int j = 0; j < (int)order - 1 - i; j++) {
185 compute_Lmu_pq(i, j, xg, yg, Lxg, Lyg, momentbasic, featureMomentBasic);
188 #else // #ifdef VISP_MOMENTS_COMBINE_MATRICES 189 bool found_moment_centered;
190 bool found_moment_gravity;
197 if (!found_moment_centered)
199 if (!found_moment_gravity)
205 order = momentObject.
getOrder() + 1;
216 double n11 = momentCentered.
get(1, 1) / momentObject.
get(0, 0);
217 double n20 = momentCentered.
get(2, 0) / momentObject.
get(0, 0);
218 double n02 = momentCentered.
get(0, 2) / momentObject.
get(0, 0);
219 double Xg = momentGravity.
getXg();
220 double Yg = momentGravity.
getYg();
221 double mu00 = momentCentered.
get(0, 0);
243 for (
int i = 1; i < (int)order - 1; i++) {
244 unsigned int i_ = (
unsigned int)i;
245 unsigned int im1_ = i_ - 1;
246 unsigned int ip1_ = i_ + 1;
248 double mu_im10 = momentCentered.
get(im1_, 0);
249 double mu_ip10 = momentCentered.
get(ip1_, 0);
250 double mu_im11 = momentCentered.
get(im1_, 1);
251 double mu_i0 = momentCentered.
get(i_, 0);
252 double mu_i1 = momentCentered.
get(i_, 1);
254 interaction_matrices[i_][0][VX] = -(i + delta) *
A * mu_i0 - (i *
B * mu_im11);
255 interaction_matrices[i_][0][VY] = -(delta)*
B * mu_i0;
257 interaction_matrices[i_][0][WX] =
258 (i + 3 * delta) * mu_i1 + (i + 3 * delta) * Yg * mu_i0 + i * Xg * mu_im11 - i * epsilon * n11 * mu_im10;
259 interaction_matrices[i_][0][WY] =
260 -(i + 3 * delta) * mu_ip10 - (2 * i + 3 * delta) * Xg * mu_i0 + i * epsilon * n20 * mu_im10;
261 interaction_matrices[i_][0][VZ] =
262 -
A * interaction_matrices[i_][0][WY] +
B * interaction_matrices[i_][0][WX] + (i + 2 * delta) *
C * mu_i0;
263 interaction_matrices[i_][0][WZ] = i * mu_im11;
266 for (
int j = 1; j < (int)order - 1; j++) {
267 unsigned int j_ = (
unsigned int)j;
268 unsigned int jm1_ = j_ - 1;
269 unsigned int jp1_ = j_ + 1;
271 double mu_0jm1 = momentCentered.
get(0, jm1_);
272 double mu_0jp1 = momentCentered.
get(0, jp1_);
273 double mu_1jm1 = momentCentered.
get(1, jm1_);
274 double mu_0j = momentCentered.
get(0, j_);
275 double mu_1j = momentCentered.
get(1, j_);
277 interaction_matrices[j_ *
order][0][VX] = -(delta)*
A * mu_0j;
278 interaction_matrices[j_ *
order][0][VY] = -j *
A * mu_1jm1 - (j + delta) *
B * mu_0j;
280 interaction_matrices[j_ *
order][0][WX] =
281 (j + 3 * delta) * mu_0jp1 + (2 * j + 3 * delta) * Yg * mu_0j - j * epsilon * n02 * mu_0jm1;
282 interaction_matrices[j_ *
order][0][WY] =
283 -(j + 3 * delta) * mu_1j - (j + 3 * delta) * Xg * mu_0j - j * Yg * mu_1jm1 + j * epsilon * n11 * mu_0jm1;
284 interaction_matrices[j_ *
order][0][VZ] = -
A * interaction_matrices[j_ *
order][0][WY] +
285 B * interaction_matrices[j_ *
order][0][WX] + (j + 2 * delta) *
C * mu_0j;
286 interaction_matrices[j_ *
order][0][WZ] = -j * mu_1jm1;
289 for (
int j = 1; j < (int)order - 1; j++) {
290 unsigned int j_ = (
unsigned int)j;
291 unsigned int jm1_ = j_ - 1;
292 unsigned int jp1_ = j_ + 1;
293 for (
int i = 1; i < (int)order - j - 1; i++) {
294 unsigned int i_ = (
unsigned int)i;
295 unsigned int im1_ = i_ - 1;
296 unsigned int ip1_ = i_ + 1;
298 double mu_ijm1 = momentCentered.
get(i_, jm1_);
299 double mu_ij = momentCentered.
get(i_, j_);
300 double mu_ijp1 = momentCentered.
get(i_, jp1_);
301 double mu_im1j = momentCentered.
get(im1_, j_);
302 double mu_im1jp1 = momentCentered.
get(im1_, jp1_);
303 double mu_ip1jm1 = momentCentered.
get(ip1_, jm1_);
304 double mu_ip1j = momentCentered.
get(ip1_, j_);
306 interaction_matrices[j_ * order + i_][0][VX] = -(i + delta) *
A * mu_ij - i *
B * mu_im1jp1;
307 interaction_matrices[j_ * order + i_][0][VY] = -j *
A * mu_ip1jm1 - (j + delta) *
B * mu_ij;
309 interaction_matrices[j_ * order + i_][0][WX] = (i + j + 3 * delta) * mu_ijp1 +
310 (i + 2 * j + 3 * delta) * Yg * mu_ij + i * Xg * mu_im1jp1 -
311 i * epsilon * n11 * mu_im1j - j * epsilon * n02 * mu_ijm1;
312 interaction_matrices[j_ * order + i_][0][WY] = -(i + j + 3 * delta) * mu_ip1j -
313 (2 * i + j + 3 * delta) * Xg * mu_ij - j * Yg * mu_ip1jm1 +
314 i * epsilon * n20 * mu_im1j + j * epsilon * n11 * mu_ijm1;
315 interaction_matrices[j_ * order + i_][0][VZ] = -
A * interaction_matrices[j_ * order + i_][0][WY] +
316 B * interaction_matrices[j_ * order + i_][0][WX] +
317 (i + j + 2 * delta) *
C * mu_ij;
318 interaction_matrices[j_ * order + i_][0][WZ] = i * mu_im1jp1 - j * mu_ip1jm1;
321 #endif // #ifdef VISP_MOMENTS_COMBINE_MATRICES 330 vpTRACE(
" << Ls - CENTRED MOMENTS >>");
331 unsigned int order_m_1 = (
unsigned int)(mu.
order - 1);
332 for (
unsigned int i = 0; i < order_m_1; i++) {
333 for (
unsigned int j = 0; j < order_m_1 - i; j++) {
334 os <<
"L_mu[" << i <<
"," << j <<
"] = ";
Functionality computation for basic moment feature. Computes the interaction matrix associated with v...
vpFeatureMomentCentered(vpMomentDatabase &moments, double A, double B, double C, vpFeatureMomentDatabase *featureMoments=NULL)
Used to indicate that a value is not in the allowed range.
Implementation of a matrix and operations on matrices.
double get(unsigned int i, unsigned int j) const
vpMatrix compute_Lmu_pq(const unsigned int &p, const unsigned int &q, const double &xg, const double &yg, const vpMatrix &L_xg, const vpMatrix &L_yg, const vpMomentBasic &m, const vpFeatureMomentBasic &feature_moment_m) const
This class defines the 2D basic moment . This class is a wrapper for vpMomentObject wich allows to us...
friend VISP_EXPORT std::ostream & operator<<(std::ostream &os, const vpFeatureMomentCentered &v)
Functionality computation for centered moment feature. Computes the interaction matrix associated wit...
const vpMoment & get(const char *type, bool &found) const
unsigned int getOrder() const
error that can be emited by ViSP classes.
Class for generic objects.
std::vector< vpMatrix > interaction_matrices
void compute_interaction()
const std::vector< double > & get() const
const vpMomentObject & getObject() const
std::ostream & matlabPrint(std::ostream &os) const
This class allows to register all vpMoments so they can access each other according to their dependen...
This class defines shared system methods/attributes for 2D moment features but no functional code...
const std::vector< double > & get() const
vpMomentDatabase & moments
const std::vector< double > & get() const
This class defines the double-indexed centered moment descriptor .
vpObjectType getType() const
Class describing 2D gravity center moment.
vpFeatureMomentDatabase * featureMomentsDataBase
static long double comb(unsigned int n, unsigned int p)
vpMatrix interaction(unsigned int select_one, unsigned int select_two) const
Used to indicate that a parameter is not initialized.
vpMatrix interaction(unsigned int select_one, unsigned int select_two) const
Functionality computation for gravity center moment feature. Computes the interaction matrix associat...
vpFeatureMoment & get(const char *type, bool &found)
vpMatrix interaction(unsigned int select=FEATURE_ALL)
This class allows to register all feature moments (implemented in vpFeatureMoment... classes) so they can access each other according to their dependencies.