Armin Bruderlin scite author profile

Techniques from the image and signal processing domain can be successfully applied to designing, modifying, and adapting animated motion. For this purpose, we introduce multiresolution motion filtering, multitarget motion interpolation with dynamic timewarping, waveshaping and motion displacement mapping. The techniques are well-suited for reuse and adaptation of existing motion data such as joint angles, joint coordinates or higher level motion parameters of articulated figures with many degrees of freedom. Existing motions can be modified and combined interactively and at a higher level of abstraction than conventional systems support. This general approach is thus complementary to keyframing, motion capture, and procedural animation.

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Goal-directed, dynamic animation of human walking

Bruderlin

Calvert

1989

SIGGRAPH Comput. Graph.

162

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This paper presents a hybrid approach to the animation of human locomotion which combines goal-directed and dynamic motion control. Knowledge about a locomotion cycle is incorporated into a hierarchical control process. The desired locomotion is conveniently specified at the top level as a task (e.g. walk at speed v ), which is then decomposed by application of the concepts of step symmetry and state-phase-timings . As a result of this decomposition, the forces and torques that drive the dynamic model of the legs are determined by numerical approximation techniques. Rather than relying on a general dynamic model, the equations of motion of the legs are tailored to locomotion and analytically constrained to allow for only a specific range of movements. The dynamics of the legs produce a generic, natural locomotion pattern which is visually upgraded by some kinematic "cosmetics" derived from such principles as virtual leg and determinants of gait . A system has been implemented based on these principles and has shown that when a few parameters, such as velocity, step length and step frequency are specified, a wide variety of human walks can be generated in almost real-time.

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Goal-directed, dynamic animation of human walking

Bruderlin

Calvert

1989

142

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The evolution of an interface for choreographers

Calvert¹,

Bruderlin²,

Mah³

et al. 1993

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Armin Bruderlin

Perceiving affect from arm movement

Motion signal processing

Goal-directed, dynamic animation of human walking

Goal-directed, dynamic animation of human walking

The evolution of an interface for choreographers

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