| Key | Value |
|---|---|
| FileName | ./usr/share/dart/cmake/dart_external-odelcpsolverTargets-none.cmake |
| FileSize | 996 |
| MD5 | 205572F68078731EA11E6B2FC9599266 |
| SHA-1 | EFE54FB9BF6EB46431CF2BB25A746B534138DCA6 |
| SHA-256 | F44D5F2B7D89E08BD8BB2363B913D01AAAB42EBF38C7A3414A34C55EEE7AD1A7 |
| SSDEEP | 24:x3m7hK0qUMYA/QU9iIl7y6jSlr/YMN58/NjSXjUu:F4gUMly6uQdKUu |
| TLSH | T185118C334E851ABF0783FE6294A09114C33087F3AB5FAD25C7895F16A5B3AD8050F88D |
| hashlookup:parent-total | 5 |
| hashlookup:trust | 75 |
The searched file hash is included in 5 parent files which include package known and seen by metalookup. A sample is included below:
| Key | Value |
|---|---|
| FileSize | 34388 |
| MD5 | D4FEC719518FB0AFCE93522375A73E98 |
| PackageDescription | Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. This package contains odelcpsolver headers and other useful tools for development. |
| PackageMaintainer | Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org> |
| PackageName | libdart-external-odelcpsolver-dev |
| PackageSection | libdevel |
| PackageVersion | 6.12.1+dfsg4-11+b1 |
| SHA-1 | A0AE71C49ED770BF7576FC8F29295E1633DD7BB7 |
| SHA-256 | 8E22C3EBFD346EF99DAE4DD0ED991BC8D6776E4489F2299A3E63F7FFE01ABB78 |
| Key | Value |
|---|---|
| FileSize | 34476 |
| MD5 | 64E7AD67384C4B940AE4F573A863EE7C |
| PackageDescription | Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains odelcpsolver headers and other useful tools for development. |
| PackageMaintainer | Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org> |
| PackageName | libdart-external-odelcpsolver-dev |
| PackageSection | libdevel |
| PackageVersion | 6.12.1+dfsg4-12+b1 |
| SHA-1 | 15F41BC40A1D50E0E06AD8425102F7B4631192E3 |
| SHA-256 | EB94CBFB9482E208C4F24A557D71E4DDF7E5A51F36A62EF28554863BA2A04689 |
| Key | Value |
|---|---|
| FileSize | 34468 |
| MD5 | E19183FD5332918892672B0594B7EA36 |
| PackageDescription | Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains odelcpsolver headers and other useful tools for development. |
| PackageMaintainer | Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org> |
| PackageName | libdart-external-odelcpsolver-dev |
| PackageSection | libdevel |
| PackageVersion | 6.12.1+dfsg4-12+b2 |
| SHA-1 | 40941518ABFADAFB38CFAA245FD90C06858EB904 |
| SHA-256 | D5AF484A297D19F33D4A2DE49AA957425E4168C893C07629BCD61FE7C2CCF445 |
| Key | Value |
|---|---|
| FileSize | 34384 |
| MD5 | 8972A777CDB6BD28E217F0C56FBF3F52 |
| PackageDescription | Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. This package contains odelcpsolver headers and other useful tools for development. |
| PackageMaintainer | Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org> |
| PackageName | libdart-external-odelcpsolver-dev |
| PackageSection | libdevel |
| PackageVersion | 6.12.1+dfsg4-11+b3 |
| SHA-1 | C76672947B361A4344ABA9D735B9BED9B4FD72A2 |
| SHA-256 | F77C7E62AD4B2A8340D9AC81EFCB303B8049BCE0F0A68BCABDEF282982986EF7 |
| Key | Value |
|---|---|
| FileSize | 34384 |
| MD5 | 8D01985C7C00CC3E266508C815875D4A |
| PackageDescription | Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. This package contains odelcpsolver headers and other useful tools for development. |
| PackageMaintainer | Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org> |
| PackageName | libdart-external-odelcpsolver-dev |
| PackageSection | libdevel |
| PackageVersion | 6.12.1+dfsg4-11+b2 |
| SHA-1 | D7363805AE85F58A3232FA0715DF8AD26D12DAC8 |
| SHA-256 | 3B26DC8C0DA1B335EC40590C0D04AFCD03165EE09F6141FD2774BE2C039FDA6D |