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An E-Textile System for Motion Analysis

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An E-Textile System for Motion Analysis Mark Jones, Thurmon Lockhart, and Thomas Martin Virginia Tech – PowerPoint PPT presentation

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Title: An E-Textile System for Motion Analysis


1
An E-Textile System for Motion Analysis
  • Mark Jones, Thurmon Lockhart, and Thomas Martin
  • Virginia Tech

2
Virginia Tech e-Textiles Group
  • Design of an e-textile computer architecture
  • Networking
  • Fault tolerance
  • Power aware
  • Programming model
  • Design through simulation
  • Emulation/Simulation environment
  • Across population
  • Development of application prototypes

3
Application Motivation
  • Falls are one of the leading causes of death
    among the elderly in the U.S.
  • Only 50 of those hospitalized with fall-related
    injuries survive their next year
  • Hip pads for at-risk patients are bulky and
    inconvenient, leading to low compliance rates
  • E-textiles have been shown to have significant
    potential in the health care field
  • Our goal is to develop an e-textile solution that
    will achieve high compliance rates

4
Gait Analysis
  • Gait analysis can identify patients at risk for
    falling as well as several pathological
    conditions
  • Currently performed in dedicated laboratories at
    high expense
  • Somewhat artificial
  • Time consuming

Virginia Tech Locomotion Laboratory
5
Measures in Gait Analysis
  • Raw Data
  • Position (x,y,z) of the body
  • Force of foot-to-ground
  • Gait measures
  • Stride length
  • Required coefficient of friction
  • Transition of center of mass
  • Width of gait

6
E-Textile for Gait Analysis
  • We are building an e-textile system with the
    following features
  • Pants augmented with sensors
  • Footwear with two force sensors
  • Hip airbag for the pants
  • Remote communication device
  • Advantages no time for setup, can be used in
    home environment, mitigates fall impact, users
    more likely to be compliant, more natural
    measurements
  • The design issues identified are discussed in the
    following slides

7
How to Obtain Gait Measures
  • The sensors under consideration (accelerometers,
    force sensors, angular velocity sensors,
    gyroscopes) do not directly sense any of the gait
    measures
  • We propose that a combination of sensors,
    combined with computation, can determine these
    gait measures
  • Design Issue What is the set of sensors that
    will provide these measures at an acceptable
    accuracy level?

8
Designing for the Masses
  • The proposed system must work across a range of
    sizes and gait types
  • A single weave design for the bolts of cloth
  • Standard garment sizes constructed from that bolt
    of cloth
  • Sensors will be in slightly different positions
    on each user due to motion and size differences
  • Range of sensor readings will vary across users
  • Design Issue It is not practical to assume that
    we can construct and test prototypes for a range
    of users repeatedly while exploring the design
    space

9
Application Functionality
  • What is required to provide informative data?
  • In the gait analysis laboratory, the system is
    only triggered for a brief period of time as the
    user is in the correct location and walking
  • In a doctors office, we need to record and
    analyze data only during a specified period
  • Avoid time-consuming data searching
  • In a home setting we need more automation
  • Must identify when a user is walking, then
    trigger recording
  • Must identify when a user is falling, then
    trigger air bag

10
Exploring the Design Space Through Simulation
11
Current Status of Garment
  • We have fabricated a pair of pants for motion
    classification
  • Designed through simulation
  • Trained neural network across a range of virtual
    users
  • Tested the pants successfully on the first real
    wearer
  • Worked with NN trained via virtual users
  • Features of our architecture
  • All digital communication
  • Fault tolerant
  • Power aware operation
  • On-garment computation and decision making

12
Computing Gait MeasuresStride Length Example
  • Accelerometer on each ankle
  • Identify begin/end of stride in the data (force
    sensors will be used for more accuracy later)
  • Integrate the acceleration value twice to find
    the distance traveled by the ankle
  • Gait analysis studies provide us with the data to
    determine what is significant error
  • For example, we can use the mean heel velocity in
    two subject groups as well as the standard
    deviation of heel velocity

13
Conclusions and Future Directions
  • E-textiles hold great promise in improving the
    usability and acceptance of home health care
    devices
  • Cross-disciplinary teams are essential
  • Design for cost-effective fabrication may allow
    for wider spread adoption
  • Simulation can be very effective in the design
    process
  • Common architecture can speed design and
    deployment
  • Gait analysis is an area where early impact of
    e-textiles is possible
  • Evaluation and deployment plan is essential
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