Efficient adaptive sampling methods based on deviation analysis for on-machine inspection

Abstract The on-machine inspection technique requires a certain manufacturing time, so it is important for a sampling approach to achieve high precision for a fixed number of inspection points. This study designs an efficient adaptive sampling method for the non-uniform rational basis spline (NURBS) curves and surfaces based on deviation analysis. For the free-form curves, it is an iterative method that is used to remove points that are less significant to the reconstruction error from the dense points on the curve. That is, the points are ranked by their maximum deviation from the theoretical curves. Different from the existing methods, a closed-form is derived to approximate the maximum deviation by analyzing the curve reconstruction method, i.e., piecewise cubic spline interpolation. The proposed method is compared with recent curve sampling methods, and the comparison results have shown that, under the same number of inspection points, the reconstruction error of the proposed method is reduced by 82%. The proposed curve sampling algorithm is then further extended to surface sampling, where the global characteristics of a surface are extracted as a series of curves on the surface. Thus, surface sampling is simplified to curve sampling in two directions. The proposed surface sampling strategy is compared with classic surface sampling methods using three representative surfaces. The results show that by using the proposed surface sampling strategy, the reconstruction error is reduced significantly. By applying our sampling method to the on-machine inspection system, the inspection accuracy can be greatly improved.

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Adaptive sampling methods for millimeter-wave radiometric imaging based on visual saliency and block information weight

10.1117/12.2601811 ◽

2021 ◽

Author(s):

Taiyang Hu ◽

Jinyu Zhang ◽

Xiaolang Shao ◽

Lei He ◽

Mengxuan Xiao ◽

...

Keyword(s):

Millimeter Wave ◽

Adaptive Sampling ◽

Sampling Methods ◽

Visual Saliency

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Expected-Improvement-Based Methods for Adaptive Sampling in Multi-Objective Optimization Problems

Volume 2B: 42nd Design Automation Conference ◽

10.1115/detc2016-59266 ◽

2016 ◽

Cited By ~ 8

Author(s):

Jesper Kristensen ◽

You Ling ◽

Isaac Asher ◽

Liping Wang

Keyword(s):

Convex Hull ◽

Design Optimization ◽

Adaptive Sampling ◽

Pareto Front ◽

Performance Metrics ◽

Sampling Methods ◽

Optimization Problems ◽

Expected Improvement ◽

Multi Objective Optimization ◽

Multi Objective

Adaptive sampling methods have been used to build accurate meta-models across large design spaces from which engineers can explore data trends, investigate optimal designs, study the sensitivity of objectives on the modeling design features, etc. For global design optimization applications, adaptive sampling methods need to be extended to sample more efficiently near the optimal domains of the design space (i.e., the Pareto front/frontier in multi-objective optimization). Expected Improvement (EI) methods have been shown to be efficient to solve design optimization problems using meta-models by incorporating prediction uncertainty. In this paper, a set of state-of-the-art methods (hypervolume EI method and centroid EI method) are presented and implemented for selecting sampling points for multi-objective optimizations. The classical hypervolume EI method uses hyperrectangles to represent the Pareto front, which shows undesirable behavior at the tails of the Pareto front. This issue is addressed utilizing the concepts from physical programming to shape the Pareto front. The modified hypervolume EI method can be extended to increase local Pareto front accuracy in any area identified by an engineer, and this method can be applied to Pareto frontiers of any shape. A novel hypervolume EI method is also developed that does not rely on the assumption of hyperrectangles, but instead assumes the Pareto frontier can be represented by a convex hull. The method exploits fast methods for convex hull construction and numerical integration, and results in a Pareto front shape that is desired in many practical applications. Various performance metrics are defined in order to quantitatively compare and discuss all methods applied to a particular 2D optimization problem from the literature. The modified hypervolume EI methods lead to dramatic resource savings while improving the predictive capabilities near the optimal objective values.

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Fast Convergence to Wardrop Equilibria by Adaptive Sampling Methods

SIAM Journal on Computing ◽

10.1137/090746720 ◽

2010 ◽

Vol 39 (8) ◽

pp. 3700-3735 ◽

Cited By ~ 21

Author(s):

Simon Fischer ◽

Harald Räcke ◽

Berthold Vöcking

Keyword(s):

Adaptive Sampling ◽

Sampling Methods ◽

Fast Convergence

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Adaptive sampling methods for network performance metrics measurement and evaluation in MPLS-based IP networks

CCECE 2003 - Canadian Conference on Electrical and Computer Engineering. Toward a Caring and Humane Technology (Cat. No.03CH37436) ◽

10.1109/ccece.2003.1226065 ◽

2004 ◽

Author(s):

Wenhong Ma ◽

J. Yan ◽

Changcheng Huang

Keyword(s):

Adaptive Sampling ◽

Network Performance ◽

Performance Metrics ◽

Sampling Methods ◽

Ip Networks ◽

Measurement And Evaluation ◽

Network Performance Metrics

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Adaptive sampling methods to determine network traffic statistics including the Hurst parameter

Proceedings 23rd Annual Conference on Local Computer Networks. LCN'98 (Cat. No.98TB100260) ◽

10.1109/lcn.1998.727664 ◽

2002 ◽

Cited By ~ 11

Author(s):

J. Drobisz ◽

K.J. Christensen

Keyword(s):

Network Traffic ◽

Adaptive Sampling ◽

Sampling Methods ◽

Hurst Parameter

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Efficiency and robustness in Monte Carlo sampling of 3-D geophysical inversions with Obsidian v0.1.2: Setting up for success

10.5194/gmd-2018-306 ◽

2019 ◽

Author(s):

Richard Scalzo ◽

David Kohn ◽

Hugo Olierook ◽

Gregory Houseman ◽

Rohitash Chandra ◽

...

Keyword(s):

Monte Carlo ◽

Markov Chain ◽

Markov Chain Monte Carlo ◽

Adaptive Sampling ◽

Sampling Methods ◽

South Australia ◽

Monte Carlo Sampling ◽

Dimensional Structure ◽

High Dimensional ◽

Dimensional Parameter

Abstract. The rigorous quantification of uncertainty in geophysical inversions is a challenging problem. Inversions are often ill-posed and the likelihood surface may be multimodal; properties of any single mode become inadequate uncertainty measures, and sampling methods become inefficient for irregular posteriors or high-dimensional parameter spaces. We explore the influences of different choices made by the practitioner on the efficiency and accuracy of Bayesian geophysical inversion methods that rely on Markov chain Monte Carlo sampling to assess uncertainty, using a multi-sensor inversion of the three-dimensional structure and composition of a region in the Cooper Basin of South Australia as a case study. The inversion is performed using an updated version of the Obsidian distributed inversion software. We find that the posterior for this inversion has complex local covariance structure, hindering the efficiency of adaptive sampling methods that adjust the proposal based on the chain history. Within the context of a parallel-tempered Markov chain Monte Carlo scheme for exploring high-dimensional multi-modal posteriors, a preconditioned Crank-Nicholson proposal outperforms more conventional forms of random walk. Aspects of the problem setup, such as priors on petrophysics or on 3-D geological structure, affect the shape and separation of posterior modes, influencing sampling performance as well as the inversion results. Use of uninformative priors on sensor noise can improve inversion results by enabling optimal weighting among multiple sensors even if noise levels are uncertain. Efficiency could be further increased by using posterior gradient information within proposals, which Obsidian does not currently support, but which could be emulated using posterior surrogates.

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An Ensemble of Adaptive Surrogate Models Based on Local Error Expectations

Mathematical Problems in Engineering ◽

10.1155/2021/8857417 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Huanwei Xu ◽

Xin Zhang ◽

Hao Li ◽

Ge Xiang

Keyword(s):

Surrogate Model ◽

Adaptive Sampling ◽

Sampling Methods ◽

Sampling Strategy ◽

Surrogate Models ◽

Local Error ◽

Test Functions ◽

Application Problem ◽

Benchmark Test Functions ◽

Global And Local

An ensemble of surrogate models with high robustness and accuracy can effectively avoid the difficult choice of surrogate model. However, most of the existing ensembles of surrogate models are constructed with static sampling methods. In this paper, we propose an ensemble of adaptive surrogate models by applying adaptive sampling strategy based on expected local errors. In the proposed method, local error expectations of the surrogate models are calculated. Then according to local error expectations, the new sample points are added within the dominating radius of the samples. Constructed by the RBF and Kriging models, the ensemble of adaptive surrogate models is proposed by combining the adaptive sampling strategy. The benchmark test functions and an application problem that deals with driving arm base of palletizing robot show that the proposed method can effectively improve the global and local prediction accuracy of the surrogate model.

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