Metadata-Version: 1.2
Name: scikit-kinematics
Version: 0.8.2
Summary: Python utilites for movements in 3d space
Home-page: http://work.thaslwanter.at/skinematics/html
Author: Thomas Haslwanter
Author-email: thomas.haslwanter@fh-linz.at
License: http://opensource.org/licenses/BSD-2-Clause
Download-URL: https://github.com/thomas-haslwanter/scikit-kinematics
Description: ---
        title: 'scikit-kinematics'
        ---
        
        *scikit-kinematics* primarily contains functions for working with 3D
        kinematics, e.g quaternions and rotation matrices. This includes
        utilities to read in data from the following IMU-sensors: - polulu -
        XSens - xio - xio-NGIMU - YEI
        
        Compatible with Python &gt;= 3.5
        
        Dependencies
        ============
        
        numpy, scipy, matplotlib, pandas, sympy, easygui
        
        Homepage
        ========
        
        <http://work.thaslwanter.at/skinematics/html/>
        
        Author: Thomas Haslwanter Date: 05-08-2019 Ver: 0.8.2 Licence: BSD
        2-Clause License (<http://opensource.org/licenses/BSD-2-Clause>)
        Copyright (c) 2019, Thomas Haslwanter All rights reserved.
        
        Installation
        ============
        
        You can install scikit-kinematics with
        
        > pip install scikit-kinematics
        
        and upgrade to a new version with
        
        > pip install --upgrade --no-deps scikit-kinematics
        
        IMUs
        ----
        
        Analysis of signals from IMUs (intertial-measurement-units). Read in
        data, calculate orientation (with one of the algorithms below)
        
        -   get\_data ... This method must be taken from one of the existing
            sensors, or from your own sensor. Currenlty the following sensors
            types are available:
            -   XSens
            -   xio (original, and NGIMU)
            -   yei
        
            \* polulu
        -   calc\_position
        
        MARG Systems
        ============
        
        -   imus.analytical ... Calculate orientation and position, from angular
            velocity and linear acceleration
        -   imus.kalman ... Calculate orientation from IMU-data using an
            Extended Kalman Filter.
        -   
        
            imus.IMU ... Class for working with data from IMUs
        
            :   -   imus.IMU.calc\_position ... calculate position
                -   imus.IMU.setData ... set the properties of an IMU-object
                -   imus.IMU.set\_qtype ... sets q\_type, and automatically
                    performs the relevant calculations.
        
        -   imus.Madgwick ... Class for calculating the 3D orientation with the
            Madgwick-algorithm
        -   imus.Mahony ... Class for calculating the 3D orientation with the
            Mahony-algorithm
        
        Markers
        -------
        
        Analysis of signals from video-based marker-recordings of 3D movements
        
        -   markers.analyze\_3Dmarkers ... Kinematic analysis of
            video-basedrecordings of 3D markers
        -   markers.find\_trajectory ... Calculation of joint-movements from 3D
            marker positions
        
        Quaternions
        -----------
        
        Note that all these functions work with single quaternions and
        quaternion vectors, as well as with arrays containing these.
        
        Quaternion class
        ================
        
        -   
        
            quat.Quaternion ... class, including overloading for multiplication and
        
            :   division (e.g. "quatCombined = quat1 \* quat2"), import and
                export
        
        Functions for working with quaternions
        ======================================
        
        -   quat.q\_conj ... Conjugate quaternion
        -   quat.q\_inv ... Quaternion inversion
        -   quat.q\_mult ... Quaternion multiplication
        -   quat.q\_scalar ... Extract the scalar part from a quaternion
        -   quat.q\_vector ... Extract the vector part from a quaternion
        -   quat.unit\_q ... Extend a quaternion vector to a unit quaternion.
        
        Conversion routines - quaternions
        =================================
        
        -   quat.calc\_angvel ... Calculates the velocity in space from
            quaternions
        -   quat.calc\_quat ... Calculate orientation from a starting
            orientation and angular velocity.
        -   quat.convert ... Convert quaternion to corresponding rotation matrix
            or Gibbs vector
        -   quat.deg2quat ... Convert number or axis angles to quaternion
            vectors
        -   quat.quat2seq ... Convert quaternions to sequention rotations
            ("nautical" angles, etc)
        -   quat.scale2deg ... Convert quaternion to corresponding axis angle
        
        Rotation Matrices
        -----------------
        
        Definition of rotation matrices
        ===============================
        
        -   rotmat.R ... 3D rotation matrix for rotation about a coordinate axis
        
        Conversion Routines - rotation matrices
        =======================================
        
        -   rotmat.convert ... Convert a rotation matrix to the corresponding
            quaternion
        -   rotmat.seq2quat ... Convert nautical angles etc. to quaternions
        -   rotmat.sequence ... Calculation of Euler, Fick, Helmholtz, ...
            angles
        
        Symbolic matrices
        =================
        
        -   rotmat.R\_s() ... symbolix matrix for rotation about a coordinate
            axis
        
        For example, you can e.g. generate a Fick-matrix, with
        
        &gt;&gt;&gt; R\_Fick = R\_s(2, 'theta') \* R\_s(1, 'phi') \* R\_s(0,
        'psi')
        
        Spatial Transformation Matrices
        ===============================
        
        -   rotmat.stm ... spatial transformation matrix, for combined
            rotations/translations
        -   rotmat.stm\_s() ... symbolix spatial transformation matrix
        
        Denavit-Hartenberg Transformations
        ==================================
        
        -   rotmat.dh ... Denavit-Hartenberg transformation matrix
        -   rotmat.dh\_s ... symbolic Denavit-Hartenberg transformation matrix
        
        Vectors
        -------
        
        Routines for working with vectors These routines can be used with
        vectors, as well as with matrices containing a vector in each row.
        
        -   vector.normalize ... Vector normalization
        -   vector.project ... Projection of one vector onto another one
        -   vector.GramSchmidt ... Gram-Schmidt orthogonalization of three
            points
        -   vector.q\_shortest\_rotation ... Quaternion indicating the shortest
            rotation from one vector into another.
        -   vector.rotate\_vector ... Rotation of a vector
        -   vector.target2orient ... Convert target location into orientation
            angles
        
        Interactive Data Analysis
        -------------------------
        
        -   viewer.ts ... interactive viewer for time series data
        -   view.orientation ... visualize and animate orientations, expressed
            as quaternions.
        
Keywords: quaterions rotations
Platform: UNKNOWN
Classifier: Development Status :: 4 - Beta
Classifier: Programming Language :: Python :: 3
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: BSD License
Classifier: Topic :: Scientific/Engineering
Requires-Python: >=3.5
