Add to ORKGEuler's theorem states that any sequence of finite rotations of a rigid body can be described as a single rotation of the body about a fixed axis in three-dimensional Euclidean space. The usual statement of the theorem in the literature cannot be extended to Euclidean spaces of other dimensions. Equivalent formulations of the theorem are given in this paper and proven in a way which does not limit them to the three-dimensional Euclidean space. Thus, the equivalent theorems hold in other dimensions. The proof of one formulation presents an algorithm which shows how to compute an angular-difference matrix that represents a single rotation which is equivalent to the sequence of rotations that have generated the final n-D orientation. This algo...
In this paper, kinematics equations of attitude parameters are derived for cases where the Euler rot...
Euler proved that every rotation of a 3-dimensional body can be realized as a sequence of three rota...
The derivation of Euler\u27s equations of motion in using cylindrical vector components is beneficia...
Euler angles have been used to describe the orientation of objects in two-dimensional and three-dime...
Summary: It is well known that a rigid motion of the Euclidean plane can be written as the compositi...
Euler axis/angle is a useful representation in many attitude control problems, being related to the...
Abstract It is shown that the Euler angles can be generalized to axes other than members of an ortho...
Any rotation of a 3-dimensional object can be performed by three consecutive rotations over Euler an...
We have seen that a spherical displacement or a pure rotation is described by a 3×3 rotation matrix....
This dissertation addresses the generalization of rigid-body attitude kinematics, dynamics, and cont...
This paper introduces and defines two principal rotational methods;the Euler angles and the quaterni...
This paper is written to aid the readers to understand application of Euler angles and quaternion in...
The parameterization of rotations is a central topic in many theoretical and applied fields such as ...
We present a new method for describing the kinematics of the rotational motion of a rigid body. The ...
Drag the 3D graphic; then you can use the "drag... twist" control. No matter how an object changes p...
In this paper, kinematics equations of attitude parameters are derived for cases where the Euler rot...
Euler proved that every rotation of a 3-dimensional body can be realized as a sequence of three rota...
The derivation of Euler\u27s equations of motion in using cylindrical vector components is beneficia...
Euler angles have been used to describe the orientation of objects in two-dimensional and three-dime...
Summary: It is well known that a rigid motion of the Euclidean plane can be written as the compositi...
Euler axis/angle is a useful representation in many attitude control problems, being related to the...
Abstract It is shown that the Euler angles can be generalized to axes other than members of an ortho...
Any rotation of a 3-dimensional object can be performed by three consecutive rotations over Euler an...
We have seen that a spherical displacement or a pure rotation is described by a 3×3 rotation matrix....
This dissertation addresses the generalization of rigid-body attitude kinematics, dynamics, and cont...
This paper introduces and defines two principal rotational methods;the Euler angles and the quaterni...
This paper is written to aid the readers to understand application of Euler angles and quaternion in...
The parameterization of rotations is a central topic in many theoretical and applied fields such as ...
We present a new method for describing the kinematics of the rotational motion of a rigid body. The ...
Drag the 3D graphic; then you can use the "drag... twist" control. No matter how an object changes p...
In this paper, kinematics equations of attitude parameters are derived for cases where the Euler rot...
Euler proved that every rotation of a 3-dimensional body can be realized as a sequence of three rota...
The derivation of Euler\u27s equations of motion in using cylindrical vector components is beneficia...