Error imposing space-derivative-dependent boundary condition with solvepde using variable state.uy - Error: Unrecognized field name "uy".

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Duncan Carlsmith on 4 Aug 2024

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Commented: Duncan Carlsmith on 4 Aug 2024

I would appreciate any advice of the following. I am working with PDE Tool box solvepde and a 2d membrane simulation and struggling to impose a spatial-derivative-dependent absorbing a boundary condition on an edge. I am following PDE Toolbox documentation trying two different methods, one (commented out) below using a simple anonymous function and another using a matlab function. These methods work with variables like location.x, location.y, and state.time but seem to fail me with the spatial derivatives. Here is the code snippet in the setup preamble to calling solvepde:

case 3

alpha_absorb=1;beta_absorb=0.0;

m3=m_func(0,ribbonlength/2);

c3=c_func(0,ribbonlength/2);

v3=sqrt(c3(3)/m3);

% my_g= @(location, state,alpha,beta) (-alpha_y *v3.* state.uy +beta_y*state.uyy);

%

% g=@(location,state)(-alpha_y *v3.* state.uy +beta_y*state.uyy)

g=@(location,state) my_g(location, state,alpha_absorb,beta_absorb,v3);

applyBoundaryCondition(model, 'neumann', 'Edge', topEdgeID, "q",0,...

'g', g);

end

function absorb=my_g(location, state,alpha_absorb,beta_absorb,v3)

n1=1;

nr=numel(location.x);

absorb=zeros(n1,nr);

absorb(1,:)=(-alpha_absorb *v3.* state.uy +beta_absorb*state.uyy);

end

For the method shown, solvepde throws the following error ( and the commented out anonymous functio method throws a similar error)

Unrecognized field name "uy".

Error in MembraneWaveExplorer>my_g (line 303)

absorb(1,:)=(-alpha_absorb *v3.* state.uy +beta_absorb*state.uyy);

Error in MembraneWaveExplorer>@(location,state)my_g(location,state,alpha_absorb,beta_absorb,v3) (line 295)

g=@(location,state) my_g(location, state,alpha_absorb,beta_absorb,v3)

Error in pde.internal.pde3DBCImpl/callNeumannFuncOnFace (line 58)

bci = func(appRegion, state);

Error in pde.internal.pde3DBCImpl/setNeumannBCOnFace (line 133)

faceG = self.callNeumannFuncOnFace(bci,xyzAllFaceNodes, sPts, bci.g, ...

Error in pde.internal.pde3DBCImpl/getBCMatrices (line 66)

[Qi, Gi] = setNeumannBCOnFace(self, bcsi);

Error in pde.internal.FESolverUtilities/assembleBoundary (line 74)

bcmat = bcImpl.getBCMatrices(u,time,gmat);

Error in pde.internal.FESolverUtilities/assembleSelectedFEMatrices (line 30)

bmat = self.assembleBoundary(u,time,gmatrix);

Error in pde.DiscretizedPDEModel/initialDiscretization (line 50)

femat0 = self.thePde.assembleSelectedFEMatrices(self.p, self.t, self.coefstruct, u0, tdummy, requiredMats, false);

Error in pde.DiscretizedPDEModel (line 33)

obj = obj.initialDiscretization(u0,tdummy);

Error in pde.DynamicDiscretizedPDEModel (line 32)

obj=obj@pde.DiscretizedPDEModel(thePde,p,e,t,coefstruct,u0,false);

Error in pde.internal.FESolverUtilities/solveTimeDependent (line 27)

femodel=pde.DynamicDiscretizedPDEModel(self,p,e,t,coefstruct,u0,tlist,tsecondOrder);

Error in pde.PDEModel/solvepde (line 57)

[u,dudt] = self.solveTimeDependent(coefstruct, u0, ut0, tlist, ...

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Answer 1

Torsten on 4 Aug 2024

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Moved: Torsten on 4 Aug 2024

According to the documentation (User's guide, page 2-128), g can be a function of x,y,t and u.

The boundary condition of a second-order PDE can never have u_yy in it, and u_y is already contained in n*(c*grad u).

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Duncan Carlsmith on 4 Aug 2024

Torsten, thanks! Firstly, Can you point me to an up-to-date user's guide? I can find only a quite old (2010?) pdf no longer pulbished describing the pde toolbox details of implementation and no similar thing in the present online documentation, just fragments. Not sure the online documentation says g cannot access u_y or u_x which I do see used in some examples, and I don't see use of u_yy or u_xx or presumably a u_xy used anywhere.

2ndly, it seems I'm naively trying to implement an absorbing boundary condition I found in some paper to force an update of the spatial derivative at each time step as a radiation boundary condition as

follows (lacking access to the time derivative of u in the state structure):

${\bf n}\cdot (c\nabla u)+qu=g= -\alpha_y c v{\partial u\over \partial y}+\beta_y u {\partial^2 u\over\partial y^2}$and $q=0$.

where $\alpha_y$ and $\beta_y$ are parameters. For $\beta_y=0$, this give $\nabla u= -\alpha_yv{\partial u\over\partial y}$.

My membrane can have an anisotropic stress distribution but I'm approximating c on the edge with a constant value. I was hoping the implementation would use the BC to update the spatial derivative.

Can you suggest any other simple method of creating an approximately absorbing BC using the available Neumann and Dirchilet BC fuinctionality? Adding a damping region to a random/user-selectable edge for my user selectable membrane shapes is rather involved and something I'm trying to avoid.

Duncan Carlsmith on 4 Aug 2024

Thank you! I'm wondering how to implement a region with a damping spatial gradient to make a radiation absorber. Right now I have implemented damping following instructions as show below. I don't know how to determine the locations of the nodes associated with the elements of the mass and stiffnes matrices. Is there a way to do that? ANd if so could I then vary the damping node by node and damp those in a region of on an edge or say make a dampin matrix that behaved like a stairstep in damping in some direction of a region?

Add coefficient functions to the model.

Note: We do not specify a face - assume we have one face.

CA=specifyCoefficients(model,"m",m,"d",d,"c",c,"a",a,"f",f);

Update the model after initial creation to include damping

If damping in turned on, update the coefficients with the damping term. The Rayleigh damping model often used in structural mechanics is used to define the 'd' parameter.

if damping==1

fem = assembleFEMatrices(model);

alpha_damp = 1/tau;

beta_damp = 0.01;

dampmat = alpha_damp*fem.M + beta_damp*fem.K;

CA=specifyCoefficients(model,"m",m,"d",dampmat,"c",c,"a",a,"f",f);

end

Torsten on 4 Aug 2024

I don't have the necessary experience with the PDE Toolbox to answer your questions. I think it would be best if you contact the official MATLAB support for this:

https://uk.mathworks.com/support/contact_us.html

Duncan Carlsmith on 4 Aug 2024

Thanks bunches!

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Error imposing space-derivative-dependent boundary condition with solvepde using variable state.uy - Error: Unrecognized field name "uy".

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