10,379 research outputs found

    Robot-sensor synchronization for real-time seamtracking in robotic laser welding

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    The accuracy requirements of laser welding put high demands on the manipulator that is used. To use industrial six-axis robots for manipulating the laser welding optics, sensors measuring the seam trajectory close to the focal spot are required to meet the accuracy demands. When the measurements are taken while the robot is moving, it is essential that they are synchronized with the robot motion. This paper presents a synchronization mechanism between a seam-tracking sensor and an industrial 6-axis robot, which uses Ethernet-based UDP communication. Experimental validation is carried out to determine the accuracy of the proposed synchronization mechanism. Furthermore, a new control architecture, called trajectory-based control is presented, which embeds the synchronization method and allows various sensor-based applications like teaching of a seam trajectory with a moving robot and real-time seam-tracking during laser welding

    Mathematical addenda to Hopper's model of plane Stokes flow driven by capillarity on a free surface

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    A theory of generalized functions based on holomorphic semi-groups:part A : introduction and survey

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    Tensors and second quantization

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    Starting from a pair of vector spaces (formula) an inner product space and (formula), the space of linear mappings (formula), we construct a six-tuple (formula). Here (formula) is again an inner product space and (formula) the space of its linear mappings. It is required that (formula), as linear subspaces. (formula) Further, (formula) and (formula) denotes a lifting map (formula) such that, whenever (formula) solves an evolution equation (formula) then any product of operator valued functions (formula) solves the associated commutator equation in (formula), (formula) Furthermore, (formula). We also note that (formula) represents the state of k identical systems ’living apart together’. Cf. the free field ’formalism’ in physics. Such constructions can be realized in many different ways (section 2). However in Quantum Field Theory one requires additional relations between the creation operator C and its adjoint (formula), the annihilation operator. These are the so called Canonical (Anti-)Commutation Relations, (section 3). Here, unlike in books on theoretical physics, the combinatorial aspects of those 1This note is meant to be Appendix K in the lecture notes ’Tensorrekening en Differentiaalmeetkunde’. restrictions are dealt with in full detail. Annihilation/Creation operators don’t grow on trees! However, apart from the way of presentation, nothing new is claimed here. This note is completely algebraic. For topological extensions of the maps C; A to distribution spaces we refer to Part III in [EG], where a mathematical interpretation of Dirac’s formalism has been presented

    A complex-like calculus for spherical vectorfields

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    First, R^{1+d}, d in N, is turned into an algebra by mimicing the usual complex multiplication. Indeed the special case d = 1 reproduces C. For d > 1 the considered algebra is commutative, but non-associative and even non-alternative. Next, the Dijkhuis class of mappings (’vectorfields’) R^{1+d} ¿ R^{1+d}, suggested by C.G. Dijkhuis for d=3, d=7, is introduced. This special class is then fully characterized in terms of analytic functions of one complex variable. Finally, this characterization enables to show easily that the Dijkhuis-class is closed under pointwise R^{d+1}-multiplication: It is a commutative and associative algebra of vector fields. Previously it had not been observed that the Dijkhuis-class only contains vectorfields with a ’time-dependent’ spherical symmetry. Such disappointment was to be expected! The class of functions which are differentiable with respect to the algebraic structure, that we impose on R^{1+d}, contains only linear functions if d > 1. The Dijkhuis-class does not appear this way either! In our treatment neither quaternions nor octonions play a role

    Stokes-Dirichlet/Neuman problems and complex analysis

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    A complex-like calculus for spherical vectorfields

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    First, R^{1+d}, d in N, is turned into an algebra by mimicing the usual complex multiplication. Indeed the special case d = 1 reproduces C. For d > 1 the considered algebra is commutative, but non-associative and even non-alternative. Next, the Dijkhuis class of mappings (’vectorfields’) R^{1+d} ¿ R^{1+d}, suggested by C.G. Dijkhuis for d=3, d=7, is introduced. This special class is then fully characterized in terms of analytic functions of one complex variable. Finally, this characterization enables to show easily that the Dijkhuis-class is closed under pointwise R^{d+1}-multiplication: It is a commutative and associative algebra of vector fields. Previously it had not been observed that the Dijkhuis-class only contains vectorfields with a ’time-dependent’ spherical symmetry. Such disappointment was to be expected! The class of functions which are differentiable with respect to the algebraic structure, that we impose on R^{1+d}, contains only linear functions if d > 1. The Dijkhuis-class does not appear this way either! In our treatment neither quaternions nor octonions play a role

    Matrix gauge fields and Noether's theorem

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    Riesz bases of special polynomials in weighted Sobolev spaces of analytic functions

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    Evolution equations

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