Figure out the waveguide width at cutoff (d) for each of TE0,TE1,TE2 and TE3 modes. Assume n1=1.48, n2=1.46 and wavelength is .82um. Sketch the transverse mode patterns (Ey(x)) at cutoff for TE0 and TE1.

d2 = 5E-6;
fv = @(x) [(22.2E+3)*sin((161E+4).*x).*(x<d2) + (42.32E+9)*exp(-2.896E+6.*x).*(x>=d2)];
x = linspace(0,2*d2);
figure(2)
plot(x, fv(x))
grid

producing:

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garry el 10 de Nov. de 2014

Hiee Star Strider..I have tried a lott on this question.

If you could help me..it would be of greatt help.

----> Implement an error detection mechanism using the standard FCS algorithm Write two programs, call them "Generator" and "Verifier".

---> The Generator program reads from a standard input a "k-bit" message as a string of "0s and 1's" as a line of ASCII text. The generator program also reads from a second line a "(n+1)-bit" generator pattern also in ASCII. The Generator program outputs to a standard output a line of ASCII text with "k+n" 0's and 1's representing the message to be transmitted (including the original k-bit message + the n-bit FCS bits). It also outputs the polynomial (just as it reads it in).

---> The Verifier program reads in the output of the Generator program and outputs a message indicating whether it is correct or not.

---> Finally, write a program "Alter" that inverts one bit on the first line (assume that that the leftmost bit position is #1) but copies the rest of the two lines correctly. The output of this program should indicate whether the error is detected or not.

Star Strider el 10 de Nov. de 2014

Communications engineering is far from my areas of expertise. I’m not at all familiar with the ‘FCS algorithm’. It might be best if you posted this as a new Question for others to see.

garry el 11 de Nov. de 2014

This is the link where i have posted the exact question along with the flyer explaining the exact procedure..

http://www.mathworks.com/matlabcentral/answers/162038-error-detection-using-standard-fcs-algorithm

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