Revision as of 07:48, 19 January 2011 by Seabraha (Talk | contribs)

%ECE 301 HW 1

%Sarah Abraham

%Professor Boutin

%Part 1

%play melody of Smoke On the Water at original tempo

%G Bf C G Bf Df C G Bf C Bf G

%H = 1/2 note

%Q = 1/4 note

%E = 1/8 note

%DQ = dotted quarter

clc

clear

delta = 5e-5; %sampling rate

bpm = 112; %beats per minute

bps = 60/bpm; %seconds per beat

H = 2*bps; % seconds required for half note

Q = 1*bps; % seconds required for quarter note

E = .5*bps; % seconds required for eighth note

DQ = 1.5*bps; % seconds required for dotted quarter note

%time

H_t = 0:delta:H;

Q_t = 0:delta:Q;

E_t = 0:delta:E;

DQ_t = 0:delta:DQ;

%frequencies for notes

fa = 440; %Hz

fg = 2^(-2/12)*fa;

fbf = 2^(1/12)*fa;

fc =2^(3/12)*fa;

fdf = 2^(4/12)*fa;

%notes with appropriate times

g = sin(2*pi*fg*Q_t);

bf = sin(2*pi*fbf*Q_t);

c_dq = sin(2*pi*fc*DQ_t);

c_h = sin(2*pi*fc*H_t);

df = sin(2*pi*fdf*E_t);

%song at regular tempo

song = [g, bf, c_dq, g, bf, df, c_h, g, bf, c_dq, bf, g]; 

%plays

song sound(song, 1/delta); 

%write song to wavfile

wavwrite(song, 1/delta, 'Regular_Tempo.wav')

%PART 1B

bpm = 224; %beats per minute

bps = 60/bpm; %seconds per beat

H = 2*bps; % seconds required for half note

Q = 1*bps; % seconds required for quarter note

E = .5*bps; % seconds required for eighth note

DQ = 1.5*bps; % seconds required for dotted quarter note

%time

H_t = 0:delta:H;

Q_t = 0:delta:Q;

E_t = 0:delta:E;

DQ_t = 0:delta:DQ;

%notes with appropriate times

g = sin(4*pi*fg*Q_t);

bf = sin(4*pi*fbf*Q_t);

c_dq = sin(4*pi*fc*DQ_t);

c_h = sin(4*pi*fc*H_t);

df = sin(4*pi*fdf*E_t);

%song at faster tempo

song = [g, bf, c_dq, g, bf, df, c_h, g, bf, c_dq, bf, g]; 

%plays song sound(song, 1/delta); 

%write song to wavfile

wavwrite(song, 1/delta, 'Faster_Tempo.wav')

%PART 1C

bpm = 112; %beats per minute

bps = 60/bpm; %seconds per beat

H = 2*bps; % seconds required for half note

Q = 1*bps; % seconds required for quarter note

E = .5*bps; % seconds required for eighth note

DQ = 1.5*bps; % seconds required for dotted quarter note

%time

H_t = 0:delta:H;

Q_t = 0:delta:Q;

E_t = 0:delta:E;

DQ_t = 0:delta:DQ;

%frequencies for notes

fa = 880; %Hz

fg = 2^(-2/12)*fa;

fbf = 2^(1/12)*fa;

fc =2^(3/12)*fa;

fdf = 2^(4/12)*fa;

%notes with appropriate times

g = sin(2*pi*fg*Q_t);

bf = sin(2*pi*fbf*Q_t);

c_dq = sin(2*pi*fc*DQ_t);

c_h = sin(2*pi*fc*H_t);

df = sin(2*pi*fdf*E_t);

%song at regular tempo

song = [g, bf, c_dq, g, bf, df, c_h, g, bf, c_dq, bf, g]; 

%plays

song sound(song, 1/delta); 

%write song to wavfile

wavwrite(song, 1/delta, 'Higher_Octave.wav')


 %Part 2

%load Beatles clip and frequency

[beatles,fs] = wavread('Beatles.wav'); %plays clip sound(beatles, fs);

%The repeated message seems to be 'Number Nine' repeated over and over %again.

%reverses the sound matrix

reverse = flipud(beatles); 

%plays reversed clip

sound(reverse, fs) 

%The repeated message seems like it says 'Turn me on dead man'

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett