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I have two non-linear equations with two unknowns, i.e., τ and p. Both equations are:
p=1-(1-τ).^(n-1) and
τ= 2*(1-2*p) / ( (1-2*p)*(W+1)+(p*W)*(1-(2*p)^m))

I am interested to find the value of τ. After doing some research on internet I came to know that these equations can be solved by finding roots and finding fixed points. However, the problem is not that straight as it involves two non-linear equations, as opposed to various examples I found on internet which involves only one non-linear equation. Additionally, I have matlab code for solving this problem, but still spending few days to understand and searching internet relentlessly, I couldn't understand how this solution actually works. Below I am giving that matlab code and need your helping hand to explain it to me the actual logic behind solving 'set of non-linear equations.

Matlab M-file is:

function result=tau_eq(τ)


result=τ - 2*(1-2*p) / ( (1-2*p)*(W+1)+(p*W)*(1-(2*p)^m));

Command at the command window:
output is:
result = 0.0448

The given result is correct, however I do not understand the logic behind it. Particularly, the last equation in M-file confuses me, e.g., result=τ- 2*(1-2*p) / ( (1-2*p)*(W+1)+(p*W)*(1-(2*p)^m));. Any explanation or referring to useful resources will be highly appreciated.


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You wish to solve the two equations given:

p=1-(1-τ).^(n-1) and
τ= 2*(1-2*p) / ( (1-2*p)*(W+1)+(p*W)*(1-(2*p)^m))

There is only one unknown in this equation, not two. The difficulty is actually that τ lies on both sides. This can be shown by combining the equaions into one by expanding p in the second equation (which is just a function of τ and some constants:

τ= 2*(1-2*[1-(1-τ).^(n-1)]) / ( (1-2*[1-(1-τ).^(n-1)])*(W+1)+([1-(1-τ).^(n-1)]*W)*(1-(2*[1-(1-τ).^(n-1)])^m))

Thus you must find the root of a single nonlinear equation.

The matlab command:


Solves the nonlinear equation in one unknown, but also gives the solver some extra information. From the matlab help for fzero:

X = fzero(FUN,X0), where X0 is a vector of length 2, assumes X0 is a finite interval where the sign of FUN(X0(1)) differs from the sign of FUN(X0(2)). An error occurs if this is not true. Calling fzero with a finite interval guarantees fzero will return a value near a point where FUN changes sign.

So whoever wrote the code has told the solver that the sign of the function at τ=0 differs from the sign of the function at τ=1. This helps fzero locate the point where it changes sign (i.e. crosses 0). fzero can only solve equations with one unknown.

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