CS-EE 481 1 Self-Ordering Bocce Ball System Authors Michael Chhor Brent Groulik Sean Pfister Allan...
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CS-EE 481 1 Self-Ordering Bocce Ball System Authors Michael Chhor Brent Groulik Sean Pfister Allan Young University of Portland School of Engineering Advisor Dr. Joseph Hoffbeck
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Transcript of CS-EE 481 1 Self-Ordering Bocce Ball System Authors Michael Chhor Brent Groulik Sean Pfister Allan...
CS-EE 481
1
Self-Ordering Bocce Ball System
AuthorsMichael ChhorBrent GroulikSean PfisterAllan Young
University of Portland School of Engineering
AdvisorDr. Joseph Hoffbeck
CS-EE 481
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Agenda
o Introduction Allano Background Brento Methods Seano Results Michaelo Conclusions Allano Demonstration All
University of Portland School of Engineering
CS-EE 481
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Introductiono Our project - Automatic Orderingo Would reduce downtime during game play
University of Portland School of Engineering
Pallino Bocce Ball Handheld Device
Sense SenseProcess Process Actuate
CS-EE 481
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Backgroundo Why does order matter in Bocce?o What is a Pallino?
o Displaying and updating the order, how?
University of Portland School of Engineering
CS-EE 481
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System Breakdown
University of Portland School of Engineering
Oscillator Ckt Speaker Amp
Pallino
Microphone BPF Amp Comparator PIC RF Module Amp
Bocce Ball Representation
RF Module LCDPICHandheld
CS-EE 481
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Methods
University of Portland School of Engineering
Acoustic system oPallino generates and sends 14kHz signaloBBR receives and processes signaloProblems we encountered
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Methods (Cont.)
University of Portland School of Engineering
RF systemoBBR sends an RF signal using a PIC and the Xbee RF modulesoHandheld receives, processes, and displays the signals.
Ball1 Ball2 Ball3
Ball2 Ball3 Ball1
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Methods (Cont.)
University of Portland School of Engineering
Worked backwardsoHandheld – used knowledge from past classesoBBR – research and past group materialoPallino – research
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Results: Our System
University of Portland School of Engineering
Ball2 Ball3 Ball1
Field of Play Players
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Results: Building the System
Founder’s Day University of Portland School of Engineering
Oscillator Ckt Speaker Amp
Pallino
Microphone BPF Amp Comparator PIC RF Module Amp
Bocce Ball Representation
RF Module LCDPICHandheld
CS-EE 481
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Conclusions
University of Portland School of Engineering
o Achievementso Our system workso Players cannot hear the tone emitted from the
Pallinoo This project will help reduce down time in the gameo Our project helps players determine which ball is
closest to the Pallinoo Improvements
o Make the system smallero Use low power electronics
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Demonstration
University of Portland School of Engineering
We will be showing a full demonstration of our project in a video.
http://teaching.up.edu/srdesign/AY12/WithoutLimits/photos.htm
http://youtu.be/fpyI8smWDyI
CS-EE 481
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Thank You.
Are there any questions?
University of Portland School of Engineering
