Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of...
Transcript of Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of...
![Page 1: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/1.jpg)
Analytical and numerical aspects of a stable DGmethod for Helmholtz problems
Magdalena StrugaruBasque Center for Applied Mathematics, Spain
In collaboration with:
Mohamed AmaraUniversity of Pau and INRIA, France
Rabia DjellouliCalifornia State University Northridge, USA
p. 1 Magdalena Strugaru Bilbao, January 2015
![Page 2: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/2.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 3: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/3.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 4: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/4.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 5: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/5.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 6: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/6.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 7: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/7.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 8: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/8.jpg)
Outline
Motivation and context
A new DG solution methodology forHelmholtz problems
F Solution strategy
F Performance assessment
F Error estimates
Summary and perspectives
p. 2 Magdalena Strugaru Bilbao, January 2015
![Page 9: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/9.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 10: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/10.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 11: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/11.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 12: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/12.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 13: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/13.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 14: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/14.jpg)
Motivation and Context
Applications
Radar
Sonar
Medical imaging
Nondestructive testing
Geophysical exploration
p. 3 Magdalena Strugaru Bilbao, January 2015
![Page 15: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/15.jpg)
Motivation and ContextNumerical Difficulties
ka = 1, ha
= 110
p. 4 Magdalena Strugaru Bilbao, January 2015
![Page 16: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/16.jpg)
Motivation and ContextNumerical Difficulties
ka = 1, ha
= 110
p. 4 Magdalena Strugaru Bilbao, January 2015
![Page 17: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/17.jpg)
Motivation and ContextNumerical Difficulties
ka = 1, ha
= 110
p. 5 Magdalena Strugaru Bilbao, January 2015
![Page 18: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/18.jpg)
Motivation and ContextNumerical Difficulties
ka = 1, ha
= 110
p. 6 Magdalena Strugaru Bilbao, January 2015
![Page 19: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/19.jpg)
Motivation and ContextNumerical Difficulties
ka = 1, ha
= 110
p. 7 Magdalena Strugaru Bilbao, January 2015
![Page 20: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/20.jpg)
Motivation and ContextNumerical Difficulties
ka = 3, ha
= 110
p. 8 Magdalena Strugaru Bilbao, January 2015
![Page 21: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/21.jpg)
Motivation and ContextNumerical Difficulties
ka = 3, ha
= 110
p. 9 Magdalena Strugaru Bilbao, January 2015
![Page 22: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/22.jpg)
Motivation and ContextNumerical Difficulties
ka = 3, ha
= 120
p. 10 Magdalena Strugaru Bilbao, January 2015
![Page 23: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/23.jpg)
Motivation and ContextNumerical Difficulties
ka = 3, ha
= 130
p. 11 Magdalena Strugaru Bilbao, January 2015
![Page 24: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/24.jpg)
Motivation and ContextNumerical Difficulties
ka = 3, ha
= 130
=⇒ kh = 110
p. 12 Magdalena Strugaru Bilbao, January 2015
![Page 25: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/25.jpg)
Motivation and Context
Numerical Difficulties
Resolution necessary to achieve 10% on therelative error
kh 6= constant
p. 13 Magdalena Strugaru Bilbao, January 2015
![Page 26: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/26.jpg)
Motivation and Context
Numerical Difficulties
Resolution necessary to achieve 10% on therelative error
kh 6= constant
p. 13 Magdalena Strugaru Bilbao, January 2015
![Page 27: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/27.jpg)
Motivation and Context
Numerical Difficulties
|u−uh|1|u|1
≤ C1kh+ C2k3h2; kh < 1
(Babuska et al (95, 00))
p. 14 Magdalena Strugaru Bilbao, January 2015
![Page 28: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/28.jpg)
Motivation and ContextNumerical Difficulties
“Realistic” simulation (Tezaur et al (02))
ka = 10
System of about 9.6 million complexunknowns
p. 15 Magdalena Strugaru Bilbao, January 2015
![Page 29: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/29.jpg)
Motivation and Context
p. 16 Magdalena Strugaru Bilbao, January 2015
![Page 30: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/30.jpg)
Motivation and ContextProminent Plane Waves Based
ApproachesWeak Element MethodRose (75)Partition of Unity MethodBabuska-Melenk (97), Laghrouche-Bettes (00)Ultra-Weak Variational MethodCessenat-Desprès (98)Least-Squares Method (LSM)Monk-Wang (99)Trefftz-Type Wave-Based MethodDesmet et al (98, 02, 10), Stojek (98)Plane wave Discontinuous Galerkin MethodHiptmair et al (09)Discontinuous Galerkin Method (DGM)Farhat et al (01, 03, 04, 05). . .
p. 17 Magdalena Strugaru Bilbao, January 2015
![Page 31: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/31.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Main Features
Plane waves for local approximation ofthe fieldLagrange multipliers to enforcecontinuityAnalytical evaluation of the matricesGlobal system: symmetric and sparseSize of the global system ≡# dofs forthe Lagrange multiplier
p. 18 Magdalena Strugaru Bilbao, January 2015
![Page 32: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/32.jpg)
Motivation and Context
DGM Formulation (Farhat et al)2D Numerical Performance
DGM outperforms high-order FE methods:
R-4-1, R-8-2 require 5 to 7 times fewerdof than Q2Q-16-4 requires 6 times fewer dof thanQ4Q-32-8 requires 25 times fewer dof thanQ4
p. 19 Magdalena Strugaru Bilbao, January 2015
![Page 33: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/33.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Inf-Sup condition: Discrete spacescompatibility
# plane waves vs. # Lagrange multipliers
p. 20 Magdalena Strugaru Bilbao, January 2015
![Page 34: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/34.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Inf-Sup condition: Discrete spacescompatibility
# plane waves vs. # Lagrange multipliers
p. 20 Magdalena Strugaru Bilbao, January 2015
![Page 35: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/35.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Inf-Sup condition: Discrete spacescompatibility
# plane waves vs. # Lagrange multipliers
p. 20 Magdalena Strugaru Bilbao, January 2015
![Page 36: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/36.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Inf-Sup condition: Discrete spacescompatibility
Relative error, kh=1/2
R-8-2 element
p. 21 Magdalena Strugaru Bilbao, January 2015
![Page 37: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/37.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Inf-Sup condition: Discrete spacescompatibility
Relative error, kh=1/2
R-8-2 element
R-8-3 element
p. 22 Magdalena Strugaru Bilbao, January 2015
![Page 38: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/38.jpg)
Motivation and ContextDGM Formulation (Farhat et al)
Issues
Numerical instabilities
Total relative error, ka=1
R-8-2 element
p. 23 Magdalena Strugaru Bilbao, January 2015
![Page 39: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/39.jpg)
Motivation and ContextUltimate objective
Design a stable DG-like method
⇓Build on top of DGM
Preserve the good features of DGMOvercome the numerical instabilities
Preserve the good features of DGM
From where to start and how to proceed?
p. 24 Magdalena Strugaru Bilbao, January 2015
![Page 40: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/40.jpg)
Motivation and ContextUltimate objective
Design a stable DG-like method
⇓Build on top of DGM
Preserve the good features of DGMOvercome the numerical instabilities
Preserve the good features of DGM
From where to start and how to proceed?
p. 24 Magdalena Strugaru Bilbao, January 2015
![Page 41: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/41.jpg)
A new DG solution methodology
Mathematical model
p. 25 Magdalena Strugaru Bilbao, January 2015
![Page 42: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/42.jpg)
A new DG solution methodologyMathematical model
p. 25 Magdalena Strugaru Bilbao, January 2015
![Page 43: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/43.jpg)
A new DG solution methodologyMathematical model
p. 25 Magdalena Strugaru Bilbao, January 2015
![Page 44: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/44.jpg)
A new DG solution methodologyMathematical model
p. 26 Magdalena Strugaru Bilbao, January 2015
![Page 45: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/45.jpg)
A new DG solution methodologyMathematical model
p. 27 Magdalena Strugaru Bilbao, January 2015
![Page 46: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/46.jpg)
A new DG solution methodologyMathematical model
p. 28 Magdalena Strugaru Bilbao, January 2015
![Page 47: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/47.jpg)
A new DG solution methodologyMathematical model
p. 29 Magdalena Strugaru Bilbao, January 2015
![Page 48: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/48.jpg)
A new DG solution methodologyStep 1. Domain partition
p. 30 Magdalena Strugaru Bilbao, January 2015
![Page 49: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/49.jpg)
A new DG solution methodologyStep 1. Domain partition
p. 30 Magdalena Strugaru Bilbao, January 2015
![Page 50: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/50.jpg)
A new DG solution methodologyStep 1. Domain partition
p. 31 Magdalena Strugaru Bilbao, January 2015
![Page 51: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/51.jpg)
A new DG solution methodologyStep 1. Domain partition
p. 32 Magdalena Strugaru Bilbao, January 2015
![Page 52: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/52.jpg)
A new DG solution methodologyStep 2. Splitting process: u(µ)=ϕ+Ψ(µ)
In each element K solve two sets of Helmholzproblems:∆ϕK + k2ϕK = 0 in K∂nϕ
K − ikϕK = 0 on ∂K ∩ Σ∂nϕ
K = −∂nuinc on ∂K ∩ Γ∂nϕ
K − i kϕK = 0 on ∂K ∩ Ωc∆ΨK(µ) + k2ΨK(µ) = 0 in K∂nΨK(µ)− ikΨK(µ) = 0 on ∂K ∩ Σ
∂nΨK(µ) = 0 on ∂K ∩ Γ∂nΨK(µ)− i kΨK(µ) = µ on ∂K ∩ Ωc
Gain: well posed local problems for α ∈ R∗+
p. 33 Magdalena Strugaru Bilbao, January 2015
![Page 53: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/53.jpg)
A new DG solution methodologyStep 2. Splitting process: u(µ)=ϕ+Ψ(µ)
In each element K solve two sets of Helmholzproblems:∆ϕK + k2ϕK = 0 in K∂nϕ
K − ikϕK = 0 on ∂K ∩ Σ∂nϕ
K = −∂nuinc on ∂K ∩ Γ∂nϕ
K − i kϕK = 0 on ∂K ∩ Ωc∆ΨK(µ) + k2ΨK(µ) = 0 in K∂nΨK(µ)− ikΨK(µ) = 0 on ∂K ∩ Σ
∂nΨK(µ) = 0 on ∂K ∩ Γ∂nΨK(µ)− i kΨK(µ) = µ on ∂K ∩ Ωc
Gain: well posed local problems for α ∈ R∗+p. 33 Magdalena Strugaru Bilbao, January 2015
![Page 54: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/54.jpg)
A new DG solution methodologyStep 2. Splitting process: u(µ)=ϕ+Ψ(µ)
In each element K solve two sets of Helmholzproblems:∆ϕK + k2ϕK = 0 in K∂nϕ
K − ikϕK = 0 on ∂K ∩ Σ∂nϕ
K = −∂nuinc on ∂K ∩ Γ∂nϕ
K − i kϕK = 0 on ∂K ∩ Ωc∆ΨK(µ) + k2ΨK(µ) = 0 in K∂nΨK(µ)− ikΨK(µ) = 0 on ∂K ∩ Σ
∂nΨK(µ) = 0 on ∂K ∩ Γ∂nΨK(µ)− i kΨK(µ) = µ on ∂K ∩ Ωc
Well-posed local problemsp. 34 Magdalena Strugaru Bilbao, January 2015
![Page 55: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/55.jpg)
A new DG solution methodology
Step 3. Optimization process:Gain: Hermitian and positive semi-definite globalmatrix
Restore the continuity of the field and itsnormal derivative in the least-squares sense:
λ = arg minµ
∑e−interior
(‖[u(µ)]‖2
0,e + ‖[[∂nu(µ)]]‖20,e
Gain: Hermitian and positive semi-definite globalmatrixStep 4. Build the solution: u=ϕ+Ψ(λ)Gain: Hermitian and positive semi-definite globalmatrix
p. 35 Magdalena Strugaru Bilbao, January 2015
![Page 56: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/56.jpg)
A new DG solution methodology
Step 3. Optimization process:Gain: Hermitian and positive semi-definite globalmatrix
Restore the continuity of the field and itsnormal derivative in the least-squares sense:
λ = arg minµ
∑e−interior
(‖[u(µ)]‖2
0,e + ‖[[∂nu(µ)]]‖20,e
Gain: Hermitian and positive semi-definite globalmatrixStep 4. Build the solution: u=ϕ+Ψ(λ)Gain: Hermitian and positive semi-definite globalmatrix
p. 35 Magdalena Strugaru Bilbao, January 2015
![Page 57: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/57.jpg)
A new DG solution methodology
Step 3. Optimization process:Gain: Hermitian and positive semi-definite globalmatrix
Restore the continuity of the field and itsnormal derivative in the least-squares sense:
λ = arg minµ
∑e−interior
(‖[u(µ)]‖2
0,e + ‖[[∂nu(µ)]]‖20,e
Gain: Hermitian and positive semi-definite globalmatrixStep 4. Build the solution: u=ϕ+Ψ(λ)Gain: Hermitian and positive semi-definite globalmatrix
p. 35 Magdalena Strugaru Bilbao, January 2015
![Page 58: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/58.jpg)
A new DG solution methodologyVariational formulation
Step 2. Compute ϕK and ΨK(µ) for each µ bysolving local variational problems in each K:
aK(v, w) = lK(w)with
aK(v, w) =
ˆ∂K
(∂nv − i kv)(∂nw + i kw)
Algebraic level: solve one linear system
F nK × nK Hermitian positive definite matrixF nK = # plane wavesF multiple right-hand sideF analytical evaluation of the entries
p. 36 Magdalena Strugaru Bilbao, January 2015
![Page 59: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/59.jpg)
A new DG solution methodologyVariational formulation
Step 2. Compute ϕK and ΨK(µ) for each µ bysolving local variational problems in each K:
aK(v, w) = lK(w)with
aK(v, w) =
ˆ∂K
(∂nv − i kv)(∂nw + i kw)
Algebraic level: solve one linear system
F nK × nK Hermitian positive definite matrixF nK = # plane wavesF multiple right-hand sideF analytical evaluation of the entries
p. 36 Magdalena Strugaru Bilbao, January 2015
![Page 60: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/60.jpg)
A new DG solution methodologyVariational formulation
Step 3. Compute the Lagrange multiplier λ bysolving one global variational problem:
A(λ, µ) = L(µ)with
A(λ, µ) =∑
e−interior
(ˆe
[Ψ(λ)][Ψ(µ)]
+
ˆe
[[∂nΨ(λ)]][[∂nΨ(µ)]]
)
Algebraic level: solve a sparse linear systemF nλ × nλ Hermitian positive semi-definitematrixF nλ = # Lagrange multipliersF analytical evaluation of the entries
p. 37 Magdalena Strugaru Bilbao, January 2015
![Page 61: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/61.jpg)
A new DG solution methodologyVariational formulation
Step 3. Compute the Lagrange multiplier λ bysolving one global variational problem:
A(λ, µ) = L(µ)with
A(λ, µ) =∑
e−interior
(ˆe
[Ψ(λ)][Ψ(µ)]
+
ˆe
[[∂nΨ(λ)]][[∂nΨ(µ)]]
)Algebraic level: solve a sparse linear systemF nλ × nλ Hermitian positive semi-definitematrixF nλ = # Lagrange multipliersF analytical evaluation of the entries
p. 37 Magdalena Strugaru Bilbao, January 2015
![Page 62: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/62.jpg)
A new DG solution methodologyPerformance assessment
Waveguide problem
Plane wave solution: u = eikx.d∗, d∗ = (cos θ∗, sin θ∗)
Modified H1 norm:
‖·‖H1 =
√∑K∈τh
‖·‖2H1(K) +
∑e−interior
‖[·]‖2L2(e)
p. 38 Magdalena Strugaru Bilbao, January 2015
![Page 63: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/63.jpg)
A new DG solution methodologyPerformance assessmentWaveguide problem
Plane wave solution: u = eikx.d∗, d∗ = (cos θ∗, sin θ∗)
Modified H1 norm:
‖·‖H1 =
√∑K∈τh
‖·‖2H1(K) +
∑e−interior
‖[·]‖2L2(e)
p. 38 Magdalena Strugaru Bilbao, January 2015
![Page 64: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/64.jpg)
A new DG solution methodologyPerformance assessmentWaveguide problem
Plane wave solution: u = eikx.d∗, d∗ = (cos θ∗, sin θ∗)
Modified H1 norm:
‖·‖H1 =
√∑K∈τh
‖·‖2H1(K) +
∑e−interior
‖[·]‖2L2(e)
p. 38 Magdalena Strugaru Bilbao, January 2015
![Page 65: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/65.jpg)
A new DG solution methodology
Compatibility condition
DGM
Relative error, kh=1/2
R-8-2 element
R-8-3 element
p. 39 Magdalena Strugaru Bilbao, January 2015
![Page 66: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/66.jpg)
A new DG solution methodology
Compatibility conditionDGM
Relative error, kh=1/2
R-8-2 element
R-8-3 element
p. 39 Magdalena Strugaru Bilbao, January 2015
![Page 67: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/67.jpg)
A new DG solution methodology
Compatibility conditionThe proposed method
Relative error, kh=1/2
R-8-2 element
R-8-3 element
p. 40 Magdalena Strugaru Bilbao, January 2015
![Page 68: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/68.jpg)
A new DG solution methodology
Compatibility conditionThe proposed method
Relative error, kh=1/2
R-8-2 element
R-8-3 element
p. 41 Magdalena Strugaru Bilbao, January 2015
![Page 69: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/69.jpg)
A new DG solution methodology
Sensitivity to the mesh refinement
Total relative error, ka=20
R-7-2 element
p. 42 Magdalena Strugaru Bilbao, January 2015
![Page 70: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/70.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 43 Magdalena Strugaru Bilbao, January 2015
![Page 71: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/71.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 43 Magdalena Strugaru Bilbao, January 2015
![Page 72: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/72.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 44 Magdalena Strugaru Bilbao, January 2015
![Page 73: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/73.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 45 Magdalena Strugaru Bilbao, January 2015
![Page 74: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/74.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 46 Magdalena Strugaru Bilbao, January 2015
![Page 75: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/75.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 47 Magdalena Strugaru Bilbao, January 2015
![Page 76: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/76.jpg)
A new DG solution methodology
Sensitivity to the frequency
ka R-7-2 R-11-350 28% 0.05%100 51% 0.07%200 69% 0.20%errorerrorerror, kh=2
Total relative error, kh=2
R-7-2 element
R-11-3 element
Computational cost increased by 50%Gain of more than two orders of magnitude
p. 48 Magdalena Strugaru Bilbao, January 2015
![Page 77: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/77.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
Level # elements/wavelengthof
accuracy R-11-3 R-13-410% 1.88 1.495% 2.43 1.601% 2.82 1.99
errorerrorerror, kh=2ka=400
R-11-3 element
R-13-4 element
Computational cost reduced by about40%rather than refinement
p. 49 Magdalena Strugaru Bilbao, January 2015
![Page 78: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/78.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
Level # degrees of freedomof # elements/wavelength
accuracy R-11-3 R-13-410% 171,360 142,8805% 286,440 164,8321% 386,640 256,032
errorerrorerror, kh=2ka=400
R-11-3 element
R-13-4 element
Computational cost reduced by about40%rather than refinement
p. 50 Magdalena Strugaru Bilbao, January 2015
![Page 79: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/79.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
Level # degrees of freedomof # elements/wavelength
accuracy R-11-3 R-13-410% 171,360 142,8805% 286,440 164,8321% 386,640 256,032
errorerrorerror, kh=2ka=400
R-11-3 element
R-13-4 element
=⇒Higher-order elements rather meshrefinement
p. 51 Magdalena Strugaru Bilbao, January 2015
![Page 80: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/80.jpg)
A new DG solution methodologySensitivity to the mesh distortion
DGM, Q-8-2 The proposed method, Q-7-2
Relative error, ka=30, θ∗ = 67.5
p. 52 Magdalena Strugaru Bilbao, January 2015
![Page 81: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/81.jpg)
A new DG solution methodologySensitivity to the mesh distortion
DGM, Q-8-2 The proposed method, Q-7-2
Relative error, ka=30, θ∗ = 67.5
p. 53 Magdalena Strugaru Bilbao, January 2015
![Page 82: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/82.jpg)
A new DG solution methodologySensitivity to the mesh distortion
DGM, Q-8-2 The proposed method, Q-7-2
Relative error, ka=30, θ∗ = 67.5
p. 54 Magdalena Strugaru Bilbao, January 2015
![Page 83: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/83.jpg)
A new DG solution methodologySensitivity to the mesh distortion
DGM, Q-8-2 The proposed method, Q-7-2
Relative error, ka=30, θ∗ = 67.5
p. 55 Magdalena Strugaru Bilbao, January 2015
![Page 84: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/84.jpg)
A new DG solution methodologySensitivity to the mesh distortion
DGM, Q-8-2 The proposed method, Q-7-2
Relative error, ka=30, θ∗ = 67.5
p. 56 Magdalena Strugaru Bilbao, January 2015
![Page 85: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/85.jpg)
A new DG solution methodologyPerformance assessmentScattering problem
p. 57 Magdalena Strugaru Bilbao, January 2015
![Page 86: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/86.jpg)
A new DG solution methodologySensitivity to the mesh refinementComparison with LSM
Relative error, ka=10Sensitivity to the mesh refinement
Q-7-2 element
p. 58 Magdalena Strugaru Bilbao, January 2015
![Page 87: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/87.jpg)
A new DG solution methodologySensitivity to the mesh refinementComparison with LSM
Relative error, ka=20Sensitivity to the mesh refinement
Q-7-2 element
p. 59 Magdalena Strugaru Bilbao, January 2015
![Page 88: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/88.jpg)
A new DG solution methodologySensitivity to the mesh refinementComparison with DGM
Relative error, ka=10Sensitivity to the mesh refinement
Q-7-2 element
p. 60 Magdalena Strugaru Bilbao, January 2015
![Page 89: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/89.jpg)
A new DG solution methodologySensitivity to the mesh refinementComparison with LSM
Relative error, ka=10Sensitivity to the mesh refinement
Q-7-2 element
p. 61 Magdalena Strugaru Bilbao, January 2015
![Page 90: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/90.jpg)
A new DG solution methodologySensitivity to the mesh refinementComparison with LSM
Relative error, ka=10Sensitivity to the mesh refinement
Q-7-2 element
p. 62 Magdalena Strugaru Bilbao, January 2015
![Page 91: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/91.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
# elements/wavelengthLevelof New method LSM LSM
accuracy (Q-7-2) (7pw) (8pw)10% 18.84 18.84 18.845% 25.12 31.40 31.401% 50.24 75.36 75.36
errorerrorerror, kh=2ka=1
Computational cost reduced by more than50%!
p. 63 Magdalena Strugaru Bilbao, January 2015
![Page 92: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/92.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
# degrees of freedomLevelof New method LSM LSM
accuracy (Q-7-2) (7pw) (8pw)10% 240 252 2885% 448 700 8001% 1,920 4,032 4,608
errorerrorerror, kh=2ka=1
Computational cost reduced by more than50%!
p. 64 Magdalena Strugaru Bilbao, January 2015
![Page 93: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/93.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
# degrees of freedomLevelof New method LSM LSM
accuracy (Q-7-2) (7pw) (8pw)10% 240 252 2885% 448 700 8001% 1,920 4,032 4,608
errorerrorerror, kh=2ka=1
Computational cost reduced by more than50%!
p. 65 Magdalena Strugaru Bilbao, January 2015
![Page 94: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/94.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
# degrees of freedomLevelof New method LSM LSM
accuracy (Q-7-2) (7pw) (8pw)10% 240 252 2885% 448 700 8001% 1,920 4,032 4,608
errorerrorerror, kh=2ka=1
Computational cost reduced by more than50%!
p. 65 Magdalena Strugaru Bilbao, January 2015
![Page 95: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/95.jpg)
A new DG solution methodologyMathematical results: error estimates
Truncated Taylor operator LN :
|v − LNv|p,K ≤ ChN+1−pK
(|v|N+1,K + hK |v|N+2,K
),
∀v ∈ HN+2, 0 ≤ p ≤ N
Interpolation operators πN :
|v −ΠNv|p,K ≤ ChN+1−pK
(N∑l=0
kN+1−l |v|l,K +
|v|N+1,K + hK |v|N+2,K
),
∀v ∈ HN+2, ∆v + k2v = 0, 0 ≤ p ≤ N
p. 66 Magdalena Strugaru Bilbao, January 2015
![Page 96: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/96.jpg)
A new DG solution methodologyMathematical results: error estimates
Truncated Taylor operator LN :
|v − LNv|p,K ≤ ChN+1−pK
(|v|N+1,K + hK |v|N+2,K
),
∀v ∈ HN+2, 0 ≤ p ≤ N
Interpolation operators πN :
|v −ΠNv|p,K ≤ ChN+1−pK
(N∑l=0
kN+1−l |v|l,K +
|v|N+1,K + hK |v|N+2,K
),
∀v ∈ HN+2, ∆v + k2v = 0, 0 ≤ p ≤ N
p. 66 Magdalena Strugaru Bilbao, January 2015
![Page 97: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/97.jpg)
A new DG solution methodologyMathematical results: error estimatesComputational cost reduced by more than50%!
R-7-2 element:
infvh
‖u− vh‖0,Ω ≤ C(k2h ‖Ψ(λ)‖0,Ω + kh |Ψ(λ)|1,Ω + h |Ψ(λ)|2,Ω
h
k|Ψ(λ)|3,Ω +
h
k2|Ψ(λ)|4,Ω +
h2
k2|Ψ(λ)|5,Ω
)Computational cost reduced by more than50%!Computational cost reduced by more than50%!
p. 67 Magdalena Strugaru Bilbao, January 2015
![Page 98: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/98.jpg)
Summary and Perspectives
Simplicity
Local systems: small, Hermitian andpositive definite
Global system: sparse, Hermitian andpositive semi-definite
Performance: Promising numericalresults (accuracy and stability)
Unstructured and adaptive mesh
p. 68 Magdalena Strugaru Bilbao, January 2015
![Page 99: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/99.jpg)
Summary and Perspectives
Simplicity
Local systems: small, Hermitian andpositive definite
Global system: sparse, Hermitian andpositive semi-definite
Performance: Promising numericalresults (accuracy and stability)
Unstructured and adaptive mesh
p. 68 Magdalena Strugaru Bilbao, January 2015
![Page 100: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/100.jpg)
Summary and Perspectives
Simplicity
Local systems: small, Hermitian andpositive definite
Global system: sparse, Hermitian andpositive semi-definite
Performance: Promising numericalresults (accuracy and stability)
Unstructured and adaptive mesh
p. 68 Magdalena Strugaru Bilbao, January 2015
![Page 101: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/101.jpg)
Summary and Perspectives
Simplicity
Local systems: small, Hermitian andpositive definite
Global system: sparse, Hermitian andpositive semi-definite
Performance: Promising numericalresults (accuracy and stability)
Unstructured and adaptive mesh
p. 68 Magdalena Strugaru Bilbao, January 2015
![Page 102: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/102.jpg)
Summary and Perspectives
Simplicity
Local systems: small, Hermitian andpositive definite
Global system: sparse, Hermitian andpositive semi-definite
Performance: Promising numericalresults (accuracy and stability)
Unstructured and adaptive mesh
p. 68 Magdalena Strugaru Bilbao, January 2015
![Page 103: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/103.jpg)
Summary and PerspectivesCurrent and future work
Pursue the numerical investigation
FHigh frequency regime andhigh-order elements
FAdaptive strategy
Extension to 3D scattering problemsExtension to 3D elasto-acousticscattering problems
p. 69 Magdalena Strugaru Bilbao, January 2015
![Page 104: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/104.jpg)
Summary and PerspectivesCurrent and future work
Pursue the numerical investigation
FHigh frequency regime andhigh-order elements
FAdaptive strategy
Extension to 3D scattering problemsExtension to 3D elasto-acousticscattering problems
p. 69 Magdalena Strugaru Bilbao, January 2015
![Page 105: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/105.jpg)
Summary and PerspectivesCurrent and future work
Pursue the numerical investigation
FHigh frequency regime andhigh-order elements
FAdaptive strategy
Extension to 3D scattering problemsExtension to 3D elasto-acousticscattering problems
p. 69 Magdalena Strugaru Bilbao, January 2015
![Page 106: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/106.jpg)
Summary and PerspectivesCurrent and future work
Pursue the numerical investigation
FHigh frequency regime andhigh-order elements
FAdaptive strategy
Extension to 3D scattering problemsExtension to 3D elasto-acousticscattering problems
p. 69 Magdalena Strugaru Bilbao, January 2015
![Page 107: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/107.jpg)
Summary and PerspectivesCurrent and future work
Pursue the numerical investigation
FHigh frequency regime andhigh-order elements
FAdaptive strategy
Extension to 3D scattering problemsExtension to 3D elasto-acousticscattering problemsp. 69 Magdalena Strugaru Bilbao, January 2015
![Page 108: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/108.jpg)
The End...
Thank you for your attention!
p. 70 Magdalena Strugaru Bilbao, January 2015
![Page 109: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/109.jpg)
A new DG solution methodologyConnection with DGM (Farhat et al)Gain: Hermitian and positive semi-definite globalmatrix
Local formulationGain: Hermitian and positive semi-definite globalmatrix
The proposed method:ˆ∂K
(∂nv − i kv)(∂nw + i kw) ds = l(w)
DGM: ˆ∂K
(∂nv − i kvχΣ)w ds = l(w)
Gain: Hermitian and positive semi-definite globalmatrixGain: Hermitian and positive semi-definite globalmatrix
p. 71 Magdalena Strugaru Bilbao, January 2015
![Page 110: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/110.jpg)
A new DG solution methodologyConnection with DGM (Farhat et al)Gain: Hermitian and positive semi-definite globalmatrixLocal formulationGain: Hermitian and positive semi-definite globalmatrix
The proposed method:ˆ∂K
(∂nv − i kv)(∂nw + i kw) ds = l(w)
DGM: ˆ∂K
(∂nv − i kvχΣ)w ds = l(w)
Gain: Hermitian and positive semi-definite globalmatrixGain: Hermitian and positive semi-definite globalmatrix
p. 71 Magdalena Strugaru Bilbao, January 2015
![Page 111: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/111.jpg)
A new DG solution methodologyConnection with DGM (Farhat et al)Gain: Hermitian and positive semi-definite globalmatrixGlobal formulationGain: Hermitian and positive semi-definite globalmatrix
The proposed method:∑e⊂Ω
(βe
ˆe[Φ(λ)][Φ(µ)] + γe
ˆe[[∂nΦ(λ)]][[∂nΦ(µ)]]
)= L(µ)
DGM:∑e⊂Ω
1
|e|
ˆe[Φ(λ)]µ = L(µ)
Gain: Hermitian and positive semi-definite globalmatrixGain: Hermitian and positive semi-definite globalmatrixp. 72 Magdalena Strugaru Bilbao, January 2015
![Page 112: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/112.jpg)
A new DG solution methodologyConnection with LSM (Monk et al)Gain: Hermitian and positive semi-definite globalmatrixGlobal formulationGain: Hermitian and positive semi-definite globalmatrix
The proposed method:∑e⊂Ω
(βe
ˆe[Φ(λ)][Φ(µ)] + γe
ˆe[[∂nΦ(λ)]][[∂nΦ(µ)]]
)= L(µ)
LSM:∑e⊂Ω
(k2
ˆe[u][v] +
ˆe[[∂nu]][[∂nv]]
)= L(v)
Gain: Hermitian and positive semi-definite globalmatrixGain: Hermitian and positive semi-definite globalmatrixp. 73 Magdalena Strugaru Bilbao, January 2015
![Page 113: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/113.jpg)
A new DG solution methodology
Computation complexity
Uniform n× n mesh
nK shape functions at the element level
nλK dofs for the Lagrange multiplier on each
interior edge of the element K
Method Asymptotic size Stencil widthof the solution vector
New method 4nλKn2 20nλ
K
DGM 2nλKn2 7nλ
K
LSM nKn2 5nK
p. 74 Magdalena Strugaru Bilbao, January 2015
![Page 114: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/114.jpg)
A new DG solution methodology
Computation complexity
Uniform n× n mesh
nK shape functions at the element level
nλK dofs for the Lagrange multiplier on each
interior edge of the element K
Method Asymptotic size Stencil widthof the solution vector
New method 4nλKn2 20nλ
K
DGM 2nλKn2 7nλ
K
LSM nKn2 5nK
p. 74 Magdalena Strugaru Bilbao, January 2015
![Page 115: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/115.jpg)
A new DG solution methodology
Computation complexity
Uniform n× n mesh
nK shape functions at the element level
nλK dofs for the Lagrange multiplier on each
interior edge of the element K
Method Asymptotic size Stencil widthof the solution vector
New method 4nλKn2 20nλ
K
DGM 2nλKn2 7nλ
K
LSM nKn2 5nK
p. 74 Magdalena Strugaru Bilbao, January 2015
![Page 116: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/116.jpg)
A new DG solution methodology
Computation complexity
Uniform n× n mesh
nK shape functions at the element level
nλK dofs for the Lagrange multiplier on each
interior edge of the element K
Method Asymptotic size Stencil widthof the solution vector
New method 4nλKn2 20nλ
K
DGM 2nλKn2 7nλ
K
LSM nKn2 5nK
p. 74 Magdalena Strugaru Bilbao, January 2015
![Page 117: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/117.jpg)
A new DG solution methodology
Computation complexity
Uniform n× n mesh
nK shape functions at the element level
nλK dofs for the Lagrange multiplier on each
interior edge of the element K
Method Asymptotic size Stencil widthof the solution vector
New method 4nλKn2 20nλ
K
DGM 2nλKn2 7nλ
K
LSM nKn2 5nK
p. 74 Magdalena Strugaru Bilbao, January 2015
![Page 118: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/118.jpg)
A new DG solution methodology
Resolution vs. fixed accuracy
Reduction of the computational cost ofLevel the proposed method with respect to:of
accuracy LSM (7 pw) LSM (8 pw)10% 4.76% 16.66%5% 36.00% 44.00%1% 52.38% 58.33%
errorerrorerror, kh=2ka=1
p. 75 Magdalena Strugaru Bilbao, January 2015
![Page 119: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/119.jpg)
A new DG solution methodologyError estimates in L2−norm and Hp−semi-norms
R-7-2 element:
|u− πNu|p,K ≤ Ch4−pK
(k4 ‖u‖0,K + k3 |u|1,K + k2 |u|2,K
k |u|3,K + |u|4,K + hK |u|5,K)∀0 ≤ p ≤ 2
infvh
‖u− vh‖0,Ω ≤ C(k2h ‖Ψ(λ)‖0,Ω + kh |Ψ(λ)|1,Ω + h |Ψ(λ)|2,Ω
h
k|Ψ(λ)|3,Ω +
h
k2|Ψ(λ)|4,Ω +
h2
k2|Ψ(λ)|5,Ω
)Computational cost reduced by more than50%!
p. 76 Magdalena Strugaru Bilbao, January 2015
![Page 120: Analytical and numerical aspects of a stable DG method for ......Analytical and numerical aspects of a stable DG method for Helmholtz problems MagdalenaStrugaru Basque Center for Applied](https://reader035.fdocuments.in/reader035/viewer/2022071503/61235d5c5972bd5c2877693b/html5/thumbnails/120.jpg)
A new DG solution methodologyError estimates in L2−norm and Hp−semi-norms
R-7-2 element:
|u− πNu|p,K ≤ Ch4−pK
(k4 ‖u‖0,K + k3 |u|1,K + k2 |u|2,K
k |u|3,K + |u|4,K + hK |u|5,K)∀0 ≤ p ≤ 2
infvh
‖u− vh‖0,Ω ≤ C(k2h ‖Ψ(λ)‖0,Ω + kh |Ψ(λ)|1,Ω + h |Ψ(λ)|2,Ω
h
k|Ψ(λ)|3,Ω +
h
k2|Ψ(λ)|4,Ω +
h2
k2|Ψ(λ)|5,Ω
)Computational cost reduced by more than50%!
p. 76 Magdalena Strugaru Bilbao, January 2015