Difference between revisions of "Gait events"

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== Gait Event Detection in Real-World Environments for Long-Term Applications ==
 
== Gait Event Detection in Real-World Environments for Long-Term Applications ==
  
This is a placeholder for an automated service that will provide temporal estimation of gait events from accelerometer signals. The service would take accelerometer data (in the specified format) as input and provide the estimated events as output. 
 
  
Until this service is implemented, please send your data in the specified format to siddhartha.khandelwal@hh.se and nicholas.wickstrom@hh.se.  
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This page provides the library that can be used to detect gait events from 3-axis accelerometer signals collected during walking or running. The implemented algorithm is described in ''Siddhartha Khandelwal; Nicholas Wickström, "Gait Event Detection in Real-World Environment for Long-Term Applications: Incorporating Domain Knowledge into Time-Frequency Analysis," in IEEE Transactions on Neural Systems and Rehabilitation Engineering , vol.PP, no.99, pp.1-1 ''.
  
Specifications
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The library can be found here: [https://github.com/sidkha99/GaitEventDetection.git Link to Github repository]
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=='''List of Specifications'''==
  
 
'''Activities''': Walking and running
 
'''Activities''': Walking and running

Revision as of 15:03, 20 October 2016

Gait Event Detection in Real-World Environments for Long-Term Applications

This page provides the library that can be used to detect gait events from 3-axis accelerometer signals collected during walking or running. The implemented algorithm is described in Siddhartha Khandelwal; Nicholas Wickström, "Gait Event Detection in Real-World Environment for Long-Term Applications: Incorporating Domain Knowledge into Time-Frequency Analysis," in IEEE Transactions on Neural Systems and Rehabilitation Engineering , vol.PP, no.99, pp.1-1 .

The library can be found here: Link to Github repository


List of Specifications

Activities: Walking and running

Placement of 3-axis Accelerometer: Anywhere around the ankle in any orientation.

Sensitivity of the Accelerometer: (+-) 4g or more. Please specify. Please also check if the accelerometer signal has saturated during intense activity such as running.

Sampling Frequency: Preferred - 128 Hz [A Sampling frequency of 50Hz and above is acceptable. Please specify.]

Input data: AccX, AccY, AccZ [Accelerometer signals from the X, Y and Z axes, respectively.]

Input data format: abc.mat or abc.csv [Data in Matlab format or comma separated text file.]

NOTE: The data should consist of ONLY walking and running segments of the signal. Segments corresponding to inactivity or any other activity should be removed from the signals prior to data submission.


Citations

[1] Siddhartha Khandelwal; Nicholas Wickström, "Gait Event Detection in Real-World Environment for Long-Term Applications: Incorporating Domain Knowledge into Time-Frequency Analysis," in IEEE Transactions on Neural Systems and Rehabilitation Engineering , vol.PP, no.99, pp.1-1

IEEE url: [1] DiVA url: [2]


[2] Siddhartha Khandelwal; Nicholas Wickström, "Identification of Gait Events using Expert Knowledge and Continuous Wavelet Transform Analysis", in BIOSIGNALS 2014, 7th International Conference on Bio-inspired Systems and Signal Processing, Angers, France, March 3-6, 2014

DiVA url: [3]