Revision as of 11:53, 14 January 2011 by Dsabo (Talk | contribs)

%Daniel Sabo %ECE 301 %HW 1

%Part 1

delta = .00005;

bps = 112/60;

whole = 0:delta:bps; half = 0:delta:bps/2; quarter = 0:delta:bps/4; eighth = 0:delta:bps/8; dotted_q = 0:delta:bps*.375;

G = 391.995; Bf = 466.164; C = 523.251; Df = 554.365;

note_G = sin(2*pi*G*quarter); note_Bf = sin(2*pi*Bf*quarter); note_C_dotted = sin(2*pi*C*dotted_q); note_C_half = sin(2*pi*C*half); note_Df = sin(2*pi*Df*eigth);

normal = [note_G,note_Bf,note_C_dotted,note_G,note_Bf,note_Df,note_C_half,note_G,note_Bf,note_C_dotted,note_Bf,note_G];

bps = bps/2;

whole = 0:delta:bps; half = 0:delta:bps/2; quarter = 0:delta:bps/4; eigth = 0:delta:bps/8; dotted_q = 0:delta:bps*.375;

note_G = sin(2*pi*G*quarter); note_Bf = sin(2*pi*Bf*quarter); note_C_dotted = sin(2*pi*C*dotted_q); note_C_half = sin(2*pi*C*half); note_Df = sin(2*pi*Df*eigth);

faster = [note_G,note_Bf,note_C_dotted,note_G, note_Bf,note_Df,note_C_half,note_G,note_Bf,note_C_dotted,note_Bf,note_G];

whole = 0:delta:bps; half = 0:delta:bps/2; quarter = 0:delta:bps/4; eigth = 0:delta:bps/8; dotted_q = 0:delta:bps*.375;

G = 2*G; Bf = 2*Bf; C = 2*C; Df = 2*Df;

note_G = sin(2*pi*G*quarter); note_Bf = sin(2*pi*Bf*quarter); note_C_dotted = sin(2*pi*C*dotted_q); note_C_half = sin(2*pi*C*half); note_Df = sin(2*pi*Df*eigth);

higher = [note_G,note_Bf,note_C_dotted,note_G,note_Bf,note_Df,note_C_half,note_G,note_Bf,note_C_dotted,note_Bf,note_G];

wavwrite(normal, 1/delta,'Normal'); wavwrite(faster, 1/delta,'Twice_Speed');

wavwrite(higher, 1/delta,'Higher_Pitch'); 

%Part 2 [beatles, fs, bits] = wavread('Beatles.wav'); sound(beatles, fs, bits); reverse = flipud(beatles); sound(reverse,fs); wavwrite(reverse,fs,'Beatles_Reverse');

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang