BIRLA INSTITUTE OF TECHNOLOGY AND SCIENCE, PILANI-KK Birla GOA CAMPUS
Second semester (2011-12)
Subject: Circuits and Signals (EEE C 272/INSTR C 272)
Marks: 30
Component: MATLAB Assignment
MATLAB ASSIGNMENT
Name_
:_[1
]
ID:_ Serial Number
a=
Mathematical
BITS-Pilani, Goa-Campus: EEE C272/INSTR C272-Circuits and Signals
EEE C272/INSTR C272
Laboratory-Assignment 1:
Continuous-Time and Discrete-Time Signals
1. Introduction
Purpose of this lab is to illustrate the properties of discrete time and continuous ti
EEE C272/INSTR C272
CIRCUITS AND SIGNALS
Laboratory-Assignment 1:
Continuous-Time and Discrete-Time Signals
Name
:
Roll No. :
Due Date: 27/01/09
Venue: Analog Lab/A-202 in between 11.00
am-12.00 noon.
Produced using MATLAB software.
TR_1D_model1_SS\stack_state
Page 1 of 3
TR_1D_model1_SS\stack_state.m
% TR_1D_model1_SS\stack_state.m
%
% function [x_state,iflag] = stack_state(State, .
% num_species,num_pts);
%
% This procedure stacks the concentration a
Produced using MATLAB software.
TR_1D_model1_SS\read_solver_input
Page 1 of 3
TR_1D_model1_SS\read_solver_input.m
% TR_1D_model1_SS\read_solver_input.m
%
% function [Solver,iflag] = read_solver_input();
%
% This procedure reads in from the screen the simu
Produced using MATLAB software.
TR_1D_model1_SS\make_file.m
% TR_1D_model1_SS\make_file.m
%
% This MATLAB script file calls the
% compiler to make a stand-alone
% executable of the program
% in this directory.
%
% Kenneth Beers
% Massachusetts Institute o
Produced using MATLAB software.
TR_1D_model1_SS\set_grid_1D
Page 1 of 1
TR_1D_model1_SS\set_grid_1D.m
% TR_1D_model1_SS\set_grid_1D.m
%
% function [grid_z,iflag] = set_grid_1D(num_pts,length);
%
% This procedure sets the grid point locations for a 1-D
%
Produced using MATLAB software.
TR_1D_model1_SS\plot_results
Page 1 of 2
TR_1D_model1_SS\plot_results.m
% TR_1D_model1_SS\plot_results
%
% function iflag = plot_results( .
% num_species,Grid,State);
%
% This m-file plots the results of the simulation.
% A
Produced using MATLAB software.
TR_1D_model1_SS\unstack_state
Page 1 of 3
TR_1D_model1_SS\unstack_state.m
% TR_1D_model1_SS\unstack_state.m
%
% function [State,iflag] = .
% unstack_state(x_state,num_species,num_pts);
%
% This procedure takes the stacked v
Produced using MATLAB software.
TR_1D_model1_SS\calc_epsilon
Page 1 of 3
TR_1D_model1_SS\calc_epsilon.m
% TR_1D_model1_SS\calc_epsilon.m
%
% function [epsilon,iflag] = calc_epsilon( .
% num_pts,imask_int,num_fields);
%
% This procedure takes as input the
Produced using MATLAB software.
TR_1D_model1_SS\TR_1D_modlel1_SS_solver
Page 1 of 5
TR_1D_model1_SS\TR_1D_modlel1_SS_solver.m
% TR_1D_model1_SS\TR_1D_model1_SS_solver.m
%
% function [State,iflag_converge,f,f_init] = .
% TR_1D_model1_SS_solver(State_init,S
EEE C272/INSTR C272
CIRCUITS AND SIGNALS
Laboratory-Assignment 2&3:
Convolution and Fast Fourier Transforms
Name
:
Roll No. :
Due Date: 24/03/09
Venue: Analog Lab/A-202 in between 11.00
am-12.00 noon.
Q.1)
For the series RLC circuit shown
1. Determine the transfer function H, with the
values of R, L and C given as R = 10 , L = 1mH and
C = 1F . Use the Matlabs routine function to plot
the Transfer function. Plot both the Magnitude
and Phase (with the fr
MATLAB Tutorial
You need a small number of basic commands to start using MATLAB. This short tutorial
describes those fundamental commands. You need to create vectors and matrices, to change
them, and to operate with them. Those are all short high-level co
6.034 Articial Intelligence (Spring 05)
Formulating Search Problems
Due: Wed. March 2 11am, *before* Lecture
1
Instructions
In this assignment we ask you to look at problems drawn (but simplied) from real research or
application problems. The assignment i
Required readings come directly from the course lecture notes. Additional reading can be found
in the following text:
Russell, Stuart J., and Peter Norvig. Artificial intelligence: a modern approach. 2nd edition.
Upper Saddle River, NJ: Prentice Hall, 200
Search Notes
Method
Guarantee
Heuristic?
optimization
Q
Worst Case Time
Worst Case Space
Depth-First Search
any-path
uninformed
visited list
stack
bd
Breadth-First Search
fewest links
uninformed
visited list
queue
bd+1
bd+1
Progressive Deepening
fewest li
6.034 Design Assignment 2
April 5, 2005
Weka Script Due: Friday April 8, in recitation
Paper Due: Wednesday April 13, in class
Oral reports: Friday April 15, by appointment
The goal of this assignment is for you to gain some practice in the application of
How to Use MATLAB
What is MATLAB
MATLAB is an interactive package for numerical analysis, matrix computation, control system design
and linear system analysis and design. On the server bass, MATLAB version 4.0 is available. In
addition to the standard fun
ME 360 Control Systems
Using MATLAB for Root Locus Analysis
As an example of how to use MATLAB to perform a root locus analysis, consider design
problem DP6.4. The block diagram of the closed-loop system is shown below. The goal is
to use MATLAB to draw a
Aditya is a Wireless Sensor Network enthusiast and is working on a system of sensor that is
made up of 3 nodes(which for our purposes can be assumed to be as 3 independent sensors). The
output of the sensor network to its dedicated microprocessor is a 2 b
CAS ASSIGNMENT 2
NAME- KESHAV RAGHU
ID NO 2008B5A3414G
Q1. Implement Overlap and Add method for the linear convolution of any given
sequences. To find the circular convolution in this method use DFT (with FFT
algorithm). Your code should accept the number
CAS ASSIGNMENT 2
ID:2008B5A3319G
NAME: VAKUL SAXENA
Q1. Implement Overlap and Add method for the linear convolution of any given
sequences. To find the circular convolution in this method use DFT (with FFT
algorithm). Your code should accept the number of
Q.1)
For the series RLC circuit shown
1. Determine the transfer function H, with the
values of R, L and C given as R 10 , L 1mH and
C 1F . Use the Matlabs routine function to plot
the Transfer function. Plot both the Magnitude
and Phase (with the frequenc