wearable sensors final presentation 05-10-04. problem background inferred transmission (short range)...
TRANSCRIPT
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Wearable Sensors
Final Presentation
05-10-04
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Problem Background
Inferred Transmission (short range)
Bulky Design, hard to wear
20 Samples per second
MIT Research
Affective Wearable Computers
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Goals and Objectives
To create a wearable device that reads
temperature, skin conductance, and blood
volume pulse and transmits data
wirelessly to a computer, where it will be
displayed in real time.
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Expected Product Layout
Lapaic Wireless Transmitter
Blood Volume Pulse (BVP)
Galvanic Skin Conductor
Temperature
Sensors Team
Transmission Board Team
Software Team
Lapaic Wireless Receiver
Microcontroller
GUI
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Team Overview
Sensors Team– Phillip Hay– Rosy Logioia – Gouri Shintri
Transmission / Microcontroller Board Team– Christina Hernandez– Clayton Smith– Adam Stevenson
Software Team– Daniel Bishop– Josh Handley
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SensorsBVP Detection and Filtering
Temperature
BVP Subtraction and Offsetting
Galvanic Skin Conductance
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Sensors (Design Specs)
Strengths• Compact• Wearable• Low power
Weaknesses• Poor quality board and parts• Sensitive signals• Inconsistent signals (BVP)
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Transmission Board LayoutSchematic PCB Layout
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Transmission Board (Design Specs)
Strengths• Size (1.8” square)• Potential wireless transceiver and
microcontroller on same board
Weaknesses• Wasted space where Chipcon was originally
soldered onto board• Separate transceiver / microcontroller boards
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Software Overview
Divided into 2 programs that run concurrently:
Cygnal microcontroller
PC: The Wearable Sensor Display Utility (WeaSeL)
Connected through a USB Connection
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Microcontroller Software
Microcontroller Code:
Interrupt Driven
Polls data from A/D converter every X seconds.
Transmits it to PC via USB using a custom packet protocol.
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Used to connect the microcontroller to the computer
The device uses a simple FIFO interface
The high data speed rate coupled with a ~64k byte buffer on the computer, allows for our sensor technology to quickly send large amounts of data points to the computer for processing
The device is powered by the computer through the USB connection and therefore no additional power constraints are added to the project
MCU to Computer USB Connection
From:http://www.dlpdesign.com/usb/
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Microcontroller / USB Connection(Design Specs)
Strengths• C-based IDE• Interrupt Driven
No wasted clock cycles Easier to maintain code
• USB High Data Rate Built in Buffering System Easy to integrate w/ .NET C# 1.1 Compliant
Weaknesses• Microcontroller clock somewhat erratic• ADC has some spill over
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WeaSeL
Reads data from the USB port
“Real time” display of sensor readings, similar to oscilloscope
Can save readings to a file for future comparison
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WeaSeL(Design Specs)
StrengthsEasy to visualize changes in data
User-friendly
WeaknessesUSB buffering may cause WeaSeL to lag or stall
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Final Product LayoutBlood Volume Pulse (BVP)
Galvanic Skin Conductor
Temperature
Sensors Team
Software Team
Microcontroller
GUI
Lapaic Wireless Transmitter
Transmission / Microcontroller Board Team
Lapaic Wireless Receiver
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Project Status
Due to lack of time and equipment, our team was not able to complete wireless transmission of data.
The transmission code is currently being reviewed by Laipac Corporation.
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Project Integration
Sensor board hooked up to user and microcontroller
Microcontroller on evaluation board hooked up to USB
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Team Management
IssuesSchedule ConflictsAreas of ExpertiseTime Management (other classes, work, graduation, etc)
Resolving the IssuesCommunicationDivision of WorkWeekly Team Meetings
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Budget
USB Software $ 22.50
Lapaic Transmission $ 65.00
Transmission / Microcontroller Board Parts
$ 250.00
Board Fabrication Free
Sensor Board Parts $ 105.45
Fabrication of Sensor Boards $ 80.00
Total ~ $512.95
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Engineering Standards and Safety
Easy to produce because of availability of parts
Product is for medical purposes
Product is powered by batteries at low voltage
Batteries must be disposed of properly to prevent environmental harm
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Project Sponsors
This project was completed with the help of the Computer Science Department at Texas A&M University, especially Dr. Ricardo Gutierrez, Dr. Steve Liu, and Dr. Cote from the Biomedical Engineering Department. The project was financially sponsored by Applied Materials and the National Science Foundation.
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Demonstration – Double-click to Play