Implement the physat algorithm in matlab, MATLAB Programming

Your task is to implement the PHYSAT algorithm in Matlab to classify the phytoplankton species in the data you have selected. An algorithm demonstrating one solution is provided below and you should use this algorithm as a guide to developing your own algorithm and/or Matlab code.  You will need to  save the classification data to file and  produce a figure containing images showing the classification of phytoplankton types for each day.

Posted Date: 3/29/2013 2:41:44 AM | Location : United States







Related Discussions:- Implement the physat algorithm in matlab, Assignment Help, Ask Question on Implement the physat algorithm in matlab, Get Answer, Expert's Help, Implement the physat algorithm in matlab Discussions

Write discussion on Implement the physat algorithm in matlab
Your posts are moderated
Related Questions
Write a MATLAB program that calculates the arithmetic mean, and the root-mean-square average for a given set of values. The output should be formatted as follows: Y

Problem of a projectile being launched at an angle of O at an initial velocity ofv. The equations for the height hand horizontallocation x as functions of time t are as follo

Write a MATLAB function called pgm which calculates the periodogram. The function inputs should be the length input vector x and its output should be the length N periodogram estim

Algorithms: Before writing any computer program, it is very useful to first outline the steps which will be essential. An algorithm is the series of steps required to solve a

I have a biological signal need to be shifted by 12.5 ms and then add all the shefted signals together

I have a file to be read in matlab which carries different columns in it. Each column has around 200000 readings in set of 2000. I want a code in a loop which gives stores each col

Matrices of random numbers: The Matrices of random numbers can be generated using the rand and randint functions. The first two arguments in the randint function identify the

Solve the optimality condition for each P equation against M according to the following relation: Condition for Optimality:         ∇ M = λ ∇ P      with respect to C and T.

clear tic L=1; T=0.2; nust=2000; dt=T/nust; n=40; dx=L/n;   r=1;  omega=10:10:5000;%Store Range of Frequencies for Simulation u=zeros(n+1,nust+1);%

A three degree of freedom system is shown in Figure.  The three masses are each 1 kg and are constrained to move in the directions shown.   The three stiffnesses are   5 kN/m, 50 k