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solinit = bvpinit(x,yinit)
solinit = bvpinit(x,yinit,parameters)
solinit = bvpinit(sol,[anew bnew])
solinit = bvpinit(sol,[anew bnew],parameters)
solinit = bvpinit(x,yinit) forms the initial guess for the boundary value problem solver bvp4c.
x is a vector that specifies an initial mesh. If you want to solve the boundary value problem (BVP) on [a,b], then specify x(1) as a and x(end) as b. The function bvp4c adapts this mesh to the solution, so a guess like xb=nlinspace(a,b,10) often suffices. However, in difficult cases, you should place mesh points where the solution changes rapidly. The entries of x must be in
Increasing order if a<b
Decreasing order if a>b
For two-point boundary value problems, the entries of x must be distinct. That is, if a<b, the entries must satisfy x(1) < x(2) < ... < x(end). If a>b, the entries must satisfy x(1) > x(2) > ... > x(end)
For multipoint boundary value problem, you can specify the points in [a,b] at which the boundary conditions apply, other than the endpoints a and b, by repeating their entries in x. For example, if you set
x = [0, 0.5, 1, 1, 1.5, 2];
the boundary conditions apply at three points: the endpoints 0 and 2, and the repeated entry 1. In general, repeated entries represent boundary points between regions in [a,b]. In the preceding example, the repeated entry 1 divides the interval [0,2] into two regions: [0,1] and [1,2].
yinit is a guess for the solution. It can be either a vector, or a function:
Vector – For each component of the solution, bvpinit replicates the corresponding element of the vector as a constant guess across all mesh points. That is, yinit(i) is a constant guess for the ith component yinit(i,:) of the solution at all the mesh points in x.
Function – For a given mesh point, the guess function must return a vector whose elements are guesses for the corresponding components of the solution. The function must be of the form
y = guess(x)
where x is a mesh point and y is a vector whose length is the same as the number of components in the solution. For example, if the guess function is a function, bvpinit calls
y(:,j) = guess(x(j))
at each mesh point.
For multipoint boundary value problems, the guess function must be of the form
y = guess(x, k)
where y an initial guess for the solution at x in region k. The function must accept the input argument k, which is provided for flexibility in writing the guess function. However, the function is not required to use k.
solinit = bvpinit(x,yinit,parameters) indicates that the boundary value problem involves unknown parameters. Use the vector parameters to provide a guess for all unknown parameters.
solinit is a structure with the following fields. The structure can have any name, but the fields must be named x, y, and parameters.
Ordered nodes of the initial mesh. | |
Initial guess for the solution with solinit.y(:,i) a guess for the solution at the node solinit.x(i). | |
Optional. A vector that provides an initial guess for unknown parameters. |
solinit = bvpinit(sol,[anew bnew]) forms an initial guess on the interval [anew bnew] from a solution sol on an interval [a,b]. The new interval must be larger than the previous one, so either anew <= a < b <= bnew or anew >= a > b >= bnew. The solution sol is extrapolated to the new interval. If sol contains parameters, they are copied to solinit.
solinit = bvpinit(sol,[anew bnew],parameters) forms solinit as described above, but uses parameters as a guess for unknown parameters in solinit.
@ | bvp4c | bvp5c | bvpget | bvpset | bvpxtend | deval
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