engineering design day 2012 - College of Engineering @ The ...
engineering design day 2012 - College of Engineering @ The ...
engineering design day 2012 - College of Engineering @ The ...
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66<br />
CompuTATIoNAL opTICS<br />
Interdisciplinary <strong>Engineering</strong> Design Program<br />
CLASS<br />
ENGR 498A/B<br />
SpoNSoR<br />
Raytheon Missile Systems<br />
SpoNSoR mENToR/ADVISoR<br />
Casey Streuber<br />
Michael Easton<br />
pRoJECT mENToR<br />
Ivar Sanders<br />
TEAm mEmBERS<br />
Kate Green (IE)<br />
Lena Wolfe (OSE)<br />
Nan Ding (OSE/EE)<br />
Josh Brent (OSE)<br />
Matthew Barnum (OSE)<br />
Saúl Corrales (SE)<br />
IE = Industrial <strong>Engineering</strong><br />
EE = Electrical <strong>Engineering</strong><br />
OSE = Optical Sciences & <strong>Engineering</strong><br />
SE = Systems <strong>Engineering</strong><br />
TEAm 4968: pRoJECT SummARY<br />
Experimental comparison <strong>of</strong> phase and<br />
amplitude modulation plates in computational<br />
optics are performed to extend depth <strong>of</strong><br />
focus, reduce lens system mechanical<br />
constraints, and minimize costs.<br />
Many aerospace sensor platforms have a<br />
fixed opto-mechanical layout due to harsh<br />
environmental conditions. This <strong>design</strong> decision<br />
results in tight opto-mechanical tolerances.<br />
An experimental test bed <strong>of</strong> computational<br />
approaches to alleviate this constraint is<br />
presented.<br />
System scope includes:<br />
• Requirements development<br />
• Prototype hardware demonstration system<br />
• Design <strong>of</strong> experiments<br />
• Phase optimization for depth <strong>of</strong> focus increase