Error Estimation and Grid Adaptation for Functional Outputs using Discrete-Adjoint Sensitivity Analysis

Balasubramanian, Ravishankar

13 December 2002

Within the design process, computational fluid dynamics is typically used to compute specific quantities that assess the performance of the apparatus under investigation. These quantities are usually integral output functions such as force and moment coefficients. However, to accurately model the configuration, the geometric features and the resulting physical phenomena must be adequately resolved. Due to limited computational resources a compromise must be made between the fidelity of the solution obtained and the available resources. This creates a degree of uncertainty about the error in the computed output functions. To this end, the current study attempts to address this problem for two-dimensional inviscid, incompressible flows on unstructured grids. The objective is to develop an error estimation and grid adaptive strategy for improving the accuracy of output functions from computational fluid dynamic codes. The present study employs a discrete adjoint formulation to arrive at the error estimates in which the global error in the output function is related to the local residual errors in the flow solution via adjoint variables as weighting functions. This procedure requires prolongation of the flow solution and adjoint solution from coarse to finer grids and, thus, different prolongation operators are studied to evaluate their influence on the accuracy of the error correction terms. Using this error correction procedure, two different adaptive strategies may be employed to enhance the accuracy of the chosen output to a prescribed tolerance. While both strategies strive to improve the accuracy of the computed output, the means by which the adaptation parameters are formed differ. The first strategy improves the computable error estimates by forming adaptation parameters based on the level of error in the computable error estimates. A grid adaptive scheme is then implemented that takes into account the error in both the primal and dual solutions. The second strategy uses the computable error estimates as indicators in an iterative grid adaptive scheme to generate grids that produce accurate estimates of the chosen output. Several test cases are provided to demonstrate the effectiveness and robustness of the error correction procedure and the grid adaptive methods.

unstructured grids

output-based adaptation

sensitivity analysis

computational fluid dynamics

Adjoint-Based Error Estimation and Grid Adaptation for Functional Outputs from CFD Simulations

Balasubramanian, Ravishankar

10 December 2005

This study seeks to reduce the degree of uncertainty that often arises in computational fluid dynamics simulations about the computed accuracy of functional outputs. An error estimation methodology based on discrete adjoint sensitivity analysis is developed to provide a quantitative measure of the error in computed outputs. The developed procedure relates the local residual errors to the global error in output function via adjoint variables as weight functions. The three major steps in the error estimation methodology are: (1) development of adjoint sensitivity analysis capabilities; (2) development of an efficient error estimation procedure; (3) implementation of an output-based grid adaptive scheme. Each of these steps are investigated. For the first step, parallel discrete adjoint capabilities are developed for the variable Mach version of the U2NCLE flow solver. To compare and validate the implementation of adjoint solver, this study also develops direct sensitivity capabilities. A modification is proposed to the commonly used unstructured flux-limiters, specifically, those of Barth-Jespersen and Venkatakrishnan, to make them piecewise continuous and suitable for sensitivity analysis. A distributed-memory message-passing model is employed for the parallelization of sensitivity analysis solver and the consistency of linearization is demonstrated in sequential and parallel environments. In the second step, to compute the error estimates, the flow and adjoint solutions are prolongated from a coarse-mesh to a fine-mesh using the meshless Moving Least Squares (MLS) approximation. These error estimates are used as a correction to obtain highlyurate functional outputs and as adaptive indicators in an iterative grid adaptive scheme to enhance the accuracy of the chosen output to a prescribed tolerance. For the third step, an output-based adaptive strategy that takes into account the error in both the primal (flow) and dual (adjoint) solutions is implemented. A second adaptive strategy based on physics-based feature detection is implemented to compare and demonstrate the robustness and effectiveness of the output-based adaptive approach. As part of the study, a general-element unstructured mesh adaptor employing h-refinement is developed using Python and C++. Error estimation and grid adaptation results are presented for inviscid, laminar and turbulent flows.

grid adaptation

adjoint error estimation

Discrete Sensitivity analysis

Categorization of soil suitability to crop switchgrass at Mississippi, US using geographic information system, multicriteria analysis and sensitivity analysis

Arias, Eduardo Fernando

03 May 2008

Switchgrass (Panicum virgatum) has been widely investigated because of its notable properties as an alternative pasture grass and as an important biofuel source. The goal of this study was to determine soil suitability for Switchgrass in Mississippi. A linear weighted additive model was developed to predict site suitability. Multicriteria analysis and Sensitivity analysis were utilized to optimize the model. The model was fit using seven years of field data associated with soils characteristics collected from NRCS-USDA. The best model was selected by correlating estimated biomass yield with each model’s soils-based output for Switchgrass suitability. Pearson’s r (correlation coefficient) was the criteria used to establish the ‘best’ soil suitability model. Coefficients associated with the ‘best’ model were implemented within a Geographic Information System (GIS) to create a map of relative soil suitability for Switchgrass in Mississippi. A Geodatabase associated with soil parameters was constructed and is available for future GIS use.

Multicriteria analysis

Soil

Switchgrass

GIS

Suitability

Sensitivity analysis

The Relationship between workplace incivility and strain: Equity sensitivity as a moderator

Kain, Jason Matthew

14 July 2008

No description available.

Psychology

incivility

equity sensitivity

affective well-being

depression

The Genetics and Definition of Salt-Sensitivity in Blacks

Onwuzulike, Kaine C.

19 June 2008

No description available.

African Americans

Genetics

Salt Sensitivity

Hypertension

Blacks

Genetics

Intercultural Sensitivity Development Among Taiwan Business College Students

Chen, Hsiao-Yin

10 April 2008

No description available.

INTERCULTURAL SENSITIVITY

TAIWAN

IDI

DD/R

international business

low-middle

Rejection and Pain Sensitivity: Why Rejection Sometimes Hurts and Sometimes Numbs

Bernstein, Michael J.

31 March 2010

No description available.

Psychology

ostracism

social rejection

pain sensitivity

group affiliation

social exclusion

Anxiety Sensitivity as a Mediator of the Association between Asthma and Smoking

Avallone, Kimberly M.

08 September 2014

No description available.

Psychology

anxiety sensitivity

asthma

cigarette smoking

statistical mediation

The Impact of Expressive Flexibility and Context Sensitivity on Distress

Southward, Matthew Wayne

January 2014

No description available.

Psychology

Mediating and Moderating Factors in the Pathway from Child Maltreatment to Interpersonal Conflict Management in Young Adulthood

Ray, Andra Raisa

01 October 2018

No description available.

Psychology

child maltreatment

rejection sensitivity

emotion dysregulation

conflict management