Result for 0001E7CE6B6BFE8CA2D09562C516A263E7D4C618

Query result

Key Value
FileNamesnap-hashlookup-import/usr/include/dart/constraint/ServoMotorConstraint.hpp
FileSize4508
MD57A34658D368E34DCED58978D34F641AF
SHA-10001E7CE6B6BFE8CA2D09562C516A263E7D4C618
SHA-256F397EEC4E8361ADB4F9C89BCE6740DFBFE8580E146F72F2C81C171560A30CD93
SHA-51246396CCF1E7F3804BFA8CEC2074136E0FEFD9F36A534CE676B45A18FD66311654602FA01A44E1D905E13CE2C4E6FBF8A3054DDA72F6FD2274B3B0AC097714613
SSDEEP96:C6rYJd0rYJTLx13A53PN6BKVBTVMJiUqmYDyd:C6rsqrs373G31IKrTVLbDO
TLSHT13291A6471F486B62D893E4E86BD37081C654907AFB67E6493AEFD2040E5243E433E8F2
insert-timestamp1728229306.1992455
mimetypetext/x-c++
sourcesnap:v6uYHwANKFR0x49yy8sk473QCiV4fkpV_2
hashlookup:parent-total32
hashlookup:trust100

Network graph view

Parents (Total: 32)

The searched file hash is included in 32 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize219220
MD59FA06A1DD4E1F5BC87034FBDC3C92185
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-12+b2
SHA-1000BD079A3859E4FBB42100273A450E6F6FFC88A
SHA-2562DE6FF10FC3291ACD6165686AB358F57C0C5E71E2769DE73109CECA2444A5847
Key Value
FileSize219224
MD5AD656E900364640AE52B290700B09880
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-11
SHA-10974E6AF605C65B98287B45598624975CB22416D
SHA-25690EEDBD089618481BCC9249C1B9CA3620B847D958A609D74C4825A6A543B648C
Key Value
FileSize219220
MD5C953DAC5B70834B574B32992557ADEE9
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-12+b1
SHA-10987ADE856AC782BCE367B441A04226B065DF2DC
SHA-2565230E0786D827F16DAB1B9C0BC9AFC9FE056A9EEEAFF9080702F1F5ACA677A4D
Key Value
FileSize219204
MD5A27661E577E6CFE5BF720DDB7F0630A4
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-12+b2
SHA-10F4204E80025F300B54B5CBD832458565DF5E0BB
SHA-256FB84D50A39FAF336E7E3DE3FDB382F4A6BD13167B6B04A2B663CF579C569A089
Key Value
FileSize219132
MD5F9115FCA72DDF5E71CA43D58B6F8153F
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-11+b3
SHA-11DECD320DFA7D318E52A069FB30C8A45259BAE4A
SHA-256F4E08205D5B7BAB3CF8624F03B9FCAE09983BA518DAE5E8BACFAE38EBFAD2BF9
Key Value
FileSize219144
MD52C827CB46D5FBD8C99D3BC2842CF4882
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-10
SHA-120479B184DB3B2CA2D709C64134E48FB2EBED05D
SHA-256FBC4C55261AD08A00572C1CF7D794A1B7851DF0FA73656ED16EB26DF4AF56E5D
Key Value
FileSize219204
MD56121F045FFF74A78F56B51FC16B2B236
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-11
SHA-1294A6F8B6D75B624F2C0D86DF8BDBC77E4865434
SHA-2563FD2B600FE14A73A975CBC494E9AEDBA7C5397E0BA7B38E6EE31355944840653
Key Value
FileSize219172
MD5D824E85C23A6ABF857B3FF0D626CB839
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-11+b3
SHA-132DA97C869066207BBB045A87FAF275CA5ADF0FD
SHA-256939C351DFC78EE9C6366A6ABCD5A71DCDC2A7AA11E8A3276097B38AEF99F18BA
Key Value
FileSize219224
MD51D82E5E814B90E208013C791D195C60F
PackageDescriptionKinematics Dynamics and Optimization Library - development files 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 main headers and other tools for development.
PackageMaintainerDebian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>
PackageNamelibdart-dev
PackageSectionlibdevel
PackageVersion6.12.1+dfsg4-11
SHA-1339D93563E0FD69C54B65D9A73260CA3EAEC125D
SHA-2566C16BA832E70F923603F968DA6D902B0298EB2405DB0FC7E7BC097708FABD0AD
Key Value
SHA-13995CCE49C521806FBD91E19F5A32AD62D28F247
snap-authoritycanonical
snap-filenamev6uYHwANKFR0x49yy8sk473QCiV4fkpV_2.snap
snap-idv6uYHwANKFR0x49yy8sk473QCiV4fkpV_2
snap-namerosbot-xl-nav
snap-publisher-idUfs04IfQtdm5ifrjDyBl0eaQevZLHaEX
snap-signkeyBWDEoaqyr25nF5SNCvEv2v7QnM9QsfCc0PBMYD_i2NGSQ32EF2d4D0hqUel3m8ul
snap-timestamp2023-09-01T11:33:49.414406Z
source-urlhttps://api.snapcraft.io/api/v1/snaps/download/v6uYHwANKFR0x49yy8sk473QCiV4fkpV_2.snap