Design I team wikis
From Ece
This page lists Senior Design I teams. See also Design II team wikis.
For the moment, please compile all information into this single page. Teams can create their own individual wiki pages when information on this page becomes too dense.
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Spring 2007
The following teams are part of Senior Design I under Robert B. Reese and Wes Reeves.
CellVeillance
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The CellVeillance is a cellular-enabled remote camera system used to gather data in locations where pre-existing private wired, wireless networks or other support infrastructure is not available. The device consists of a high-resolution camera and a cellular network-enabled communication module. The camera will take photos on a preprogrammed schedule or upon motion detection and upload the photos to a server via the communication module. Via the web, the user will be able to access the photos and configure the camera and the device.
Team members
- Tyler Poschel (leader)
- Damion Cuevas
- Justin Harmond
- Josh Lunn
ScheduleMed
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The ScheduleMed delivers the correct dosage of multiple medications at scheduled intervals throughout the day. The scheduling and medication instructions will be controlled by the caregiver through a remote interface. The elderly user will be alerted by an alarm when the pills are to be taken, and if the alarm is ignored, it will alert the caregiver. Also, the caregiver will be able to monitor the pill dispenser to confirm that the medication has been dispensed. Therefore, the ScheduleMed will ensure that the users medications are taken properly.
Team members
- Jimmy Rapier (leader)
- Andrew Bracey
- Ridzky Riyadi
- Harpreet Singh
Electromagnetic Flowsensor
The electromagnetic flow meter developed in this project provides a replacement for the flow meters once used by the University of Mississippi Medical Center (UMC). The new flow meter is constructed using UMC's original flow meter, which is no longer available, as a reference. Therefore, the new device provides the same results, if not better. The flow meter is first calibrated to measure the volumetric flow rate of water through a pipe. The device is later calibrated using a saline solution to simulate the electrical conductivity of blood. The completed electromagnetic flow meter allows UMC to continue their research applications of measuring blood flow through a cow's aorta.
Team members
- Brian McCalebb (leader)
- Kyle Eubanks
- Taffa Porter
- Nashlie Sephus
