HuMAnS
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Defines | |
| #define | NCONT 12 |
| #define | NDOF 42 |
| #define | NLANAT 31 |
| #define | NLTAGS (3*NTAGS) |
| #define | NSOL 17 |
| #define | NTAGS 28 |
Functions | |
| void | Contact (double *CC, double *q, double *L, double *AddL) |
| Compute the matrix of contact for a given bipede state. | |
| void | ContactHessian (double *H, double *q, double *qdot, double *L, double *AddL) |
| Compute the vector of contact hessians for a given bipede state. | |
| void | ContactJacobian (double *CJ, double *q, double *L, double *AddL) |
| Compute the matrix of contact jacobian for a given bipede state. | |
| void | GetAnatomicalLengths (double *anatLengths) |
| Get the model anatomical lengths. | |
| void | GetModelMass (double *subjectMass) |
| Get the model mass. | |
| void | GetModelSize (double *subjectSize) |
| Get the model height. | |
| void | GetTag2JointLengths (double *tagLengths) |
| Get the model tags positions in their attached segment frames. | |
| void | Inertia (double *M, double *q, double *L, double *AddL, double Mass) |
| Compute the matrix of inertia for a given bipede state. | |
| void | NLEffects (double *N, double *q, double *qdot, double *L, double *AddL, double Mass) |
| Compute the matrix of Non Linear Effect (Coriolis + Gravity) for a given bipede state. | |
| void | SetAnatomicalLengths (double *anatLengths) |
| Set the model anatomical lengths. | |
| void | SetModelMass (double *subjectMass) |
| Set the model mass. | |
| void | SetModelSize (double *subjectSize) |
| Set the model height. | |
| void | SetTag2JointLengths (double *tagLengths) |
| Set the model tags positions in their attached segment frames. | |
| void | Tags (double *T, double *q, double *L, double *AddL, double Mass) |
| Compute the matrix of tags for a given bipede state This matrix is made up of caracteristic points of bipede in the absolute referential. | |
| #define NCONT 12 |
| #define NDOF 42 |
| #define NLANAT 31 |
| #define NLTAGS (3*NTAGS) |
| #define NSOL 17 |
| #define NTAGS 28 |
| void Contact | ( | double * | CC, | |
| double * | q, | |||
| double * | L, | |||
| double * | AddL | |||
| ) |
Compute the matrix of contact for a given bipede state.
| [out] | CC | Matrix of contact dim NCONTx3(xyz) |
| [in] | q | Joint State Vector dim NDOF |
| void ContactHessian | ( | double * | H, | |
| double * | q, | |||
| double * | qdot, | |||
| double * | L, | |||
| double * | AddL | |||
| ) |
Compute the vector of contact hessians for a given bipede state.
| [out] | H | Vector of Contact Hessians dim NCONT*3 |
| [in] | q | Joint State Vector dim NDOF |
| [in] | qdot | Articular Velocity State Vector dim NDOF |
| void ContactJacobian | ( | double * | CJ, | |
| double * | q, | |||
| double * | L, | |||
| double * | AddL | |||
| ) |
Compute the matrix of contact jacobian for a given bipede state.
| [out] | CJ | Matrix of Contact Jacobian dim (3xNCONT)*NDOF |
| [in] | q | Joint State Vector dim NDOF |
| void GetAnatomicalLengths | ( | double * | anatLengths | ) |
Get the model anatomical lengths.
| [out] | anatLengths | anatomical lengths (in meter) row vector dim NLANAT |
| void GetModelMass | ( | double * | subjectMass | ) |
Get the model mass.
| [out] | modelMass | Model Mass (in kg) dim 1 |
| void GetModelSize | ( | double * | subjectSize | ) |
Get the model height.
| [out] | modelSize | Model Height (in meter) dim 1 |
| void GetTag2JointLengths | ( | double * | tagLengths | ) |
Get the model tags positions in their attached segment frames.
| [out] | tag2JointLengths | Row vector of the tags positions in their attached segment frames. The positions are given in meter dim (NTAGS - 1)*3 |
| void Inertia | ( | double * | M, | |
| double * | q, | |||
| double * | L, | |||
| double * | AddL, | |||
| double | Mass | |||
| ) |
Compute the matrix of inertia for a given bipede state.
| [out] | M | Matrix of Inertia dim NDOFxNDOF |
| [in] | q | Joint State Vector dim NDOF |
| void NLEffects | ( | double * | N, | |
| double * | q, | |||
| double * | qdot, | |||
| double * | L, | |||
| double * | AddL, | |||
| double | Mass | |||
| ) |
Compute the matrix of Non Linear Effect (Coriolis + Gravity) for a given bipede state.
| [out] | N | Matrix of Coriolis dim NDOF |
| [in] | q | joint State Vector dim NDOF |
| [in] | qdot | Articular Velocity State Vector dim NDOF |
| void SetAnatomicalLengths | ( | double * | anatLengths | ) |
Set the model anatomical lengths.
| [in] | anatLengths | anatomical lengths (in meter) row vector dim NLANAT |
| void SetModelMass | ( | double * | subjectMass | ) |
Set the model mass.
| [in] | modelMass | Model Mass (in kg) dim 1 |
| void SetModelSize | ( | double * | subjectSize | ) |
Set the model height.
| [in] | modelSize | Model height (in meter) dim 1 |
| void SetTag2JointLengths | ( | double * | tagLengths | ) |
Set the model tags positions in their attached segment frames.
| [in] | tag2JointLengths | Row vector of the tags positions in their attached segment frames. The positions are given in meter dim (NTAGS - 1)*3 |
| void Tags | ( | double * | T, | |
| double * | q, | |||
| double * | L, | |||
| double * | AddL, | |||
| double | Mass | |||
| ) |
Compute the matrix of tags for a given bipede state This matrix is made up of caracteristic points of bipede in the absolute referential.
The end of matrix T contains the coordinate of the biped mass center
| [out] | T | Matrix of contact dim 60 = (NTAGS+1)x3(xyz) |
| [in] | q | Joint State Vector dim NDOF |
HuMAnS |
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1.4.7