Optimization of Corner Blending Curves

Autor: Maria Lucia Sampoli, Francesca Pelosi, Rida T. Farouki
Rok vydání: 2019
Předmět:
0209 industrial biotechnology
Polynomial
02 engineering and technology
Kinematics
Curvature
Design Practice and Management
Industrial and Manufacturing Engineering
Settore MAT/08 - Analisi Numerica
020901 industrial engineering & automation
Shape optimization
corner blending curves
geometric continuity
shape optimization
curvature distribution
parametric speed
Pythagorean--hodograph curves
0202 electrical engineering
electronic engineering
information engineering
Corner blending curves
Pythagorean-hodograph curves
Mathematics
Parametric statistics
Mechanical Engineering
Mathematical analysis
020207 software engineering
Computer Graphics and Computer-Aided Design
Design Practice & Management
Computer Science Applications
Curvature distribution
Geometric design
Geometric continuity
Parametric speed
Convex optimization
Free parameter
Popis: The blending or filleting of sharp corners is a common requirement in geometric design applications — motivated by aesthetic, ergonomic, kinematic, or mechanical stress considerations. Corner blending curves are usually required to exhibit a specified order of geometric continuity with the segments they connect, and to satisfy specific constraints on their curvature profiles and the extremum deviation from the original corner. The free parameters of polynomial corner curves of degree ≤ 6 and continuity up to G 3 are exploited to solve a convex optimization problem, that minimizes a weighted sum of dimensionless measures of the mid-point curvature, maximum deviation, and the uniformity of parametric speed. It is found that large mid-point curvature weights result in undesirable bimodal curvature profiles, but emphasizing the parametric speed uniformity typically yields good corner shapes (since the curvature is strongly dependent upon parametric speed variation). A constrained optimization problem, wherein a particular value of the corner curve deviation is specified, is also addressed. Finally, the shape of Pythagorean-hodograph corner curves is compared with that of the optimized “ordinary” polynomial corner curves.
Databáze: OpenAIRE
Externí odkaz: