Current Search: Pipitone, Anthony (x)
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Title
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Limited Movement Assistant for Arthritic Hands (LMAAH).
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Creator
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Pipitone, Anthony, Foley, Michael, Ferouz, Amir, McAlistar, Jonathan, Engeberg, Erik, College of Engineering and Computer Science
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Abstract/Description
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The purpose of this project is to create a mobile remote controller that operates a mechanical device that plays the piano. We have in our means to design a finger and wrist system that can play every key on the piano. The group has created 4 fingers that play the piano by pulling tendons on a robotic hand. The remote input device is a gloved sensor fitted with flexing sensors that monitor an arthritic patient’s joint movement. The controller then sends the signal to be amplified to a normal...
Show moreThe purpose of this project is to create a mobile remote controller that operates a mechanical device that plays the piano. We have in our means to design a finger and wrist system that can play every key on the piano. The group has created 4 fingers that play the piano by pulling tendons on a robotic hand. The remote input device is a gloved sensor fitted with flexing sensors that monitor an arthritic patient’s joint movement. The controller then sends the signal to be amplified to a normal full range of motion. That signal is sent to the robotic hand which plays the piano. Linear movement of the wrist is transferred with a sliding device. This project was a success and actually was able to assist people in remotely playing a scale on the piano.
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Date Issued
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2015
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PURL
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http://purl.flvc.org/fau/fd/FA00005206
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Subject Headings
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College students --Research --United States.
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Format
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Document (PDF)
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Title
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Formation of Water Rings Around a Rotating Centroid in Oil.
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Creator
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Ferouz, Amir, Gill, Richard, Nasi, Norbert, Pipitone, Anthony, Su, Tsung-Chow, College of Engineering and Computer Science
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Abstract/Description
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In a tank filled with water at the bottom and oil floating on top, a straight rod reaching into the oil is set to rotate. The rotating rod is brought just above the oil/water boundary and is set to rotate at a speed greater than 200 revolutions per minute. It became evident that the rod’s rotation caused the oil/water interface to curve upward around the center of rotation, reaching up to the bottom of the rotating rod. Visible rings of water formed around the rod, starting at the bottom (at...
Show moreIn a tank filled with water at the bottom and oil floating on top, a straight rod reaching into the oil is set to rotate. The rotating rod is brought just above the oil/water boundary and is set to rotate at a speed greater than 200 revolutions per minute. It became evident that the rod’s rotation caused the oil/water interface to curve upward around the center of rotation, reaching up to the bottom of the rotating rod. Visible rings of water formed around the rod, starting at the bottom (at the oil/water interface) and ascending the rod, one by one. The water rings remained separate and ascended the rod until they eventually dispersed into the oil. Such quantization of water into rings has never been reported on before and represents a novel area of investigation in fluid dynamics. This study aims at obtaining quality photographic evidence to explain this phenomenon.
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Date Issued
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2015
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PURL
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http://purl.flvc.org/fau/fd/FA00005186
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Subject Headings
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College students --Research --United States.
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Format
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Document (PDF)