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# Physical Exercise Evaluation Documentation #
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The component has been developed as .NET 3.5 C# Dynamic Link Libraries (Unity 5 – x64 compatible) and their interfaces provide programmatic access to:
•	Select and configure the motion capturing method (method configurations, sensor parameters, etc.)
•	Initialize the motion capturing system
•	Event-driven architecture for body frame acquisition (plus the Kinect RGB-D frames)
•	Provide the instantaneous feedback per repetition by feeding the exercise ID (in order to initially load the exercise reference motion data), the user’s body frame (from motion capturing) and the reference motion frame index. 
•	Provide the cumulative accuracy per ExerClass exercise (after finishing a set of repetitions)



LICENCE

EULA LICENCE (https://en.wikipedia.org/wiki/End-user_license_agreement)

The component internal methods have been pusblished and are described in the publications below:

@inproceedings{chatzitofis2017technological,
  title={Technological module for unsupervised, personalized cardiac rehabilitation exercising},
  author={Chatzitofis, Anargyros and Zarpalas, Dimitrios and Filos, Dimitrios and Triantafyllidis, Andreas and Chouvarda, Ioanna and Maglaveras, Nicos and Daras, Petros},
  booktitle={Computer Software and Applications Conference (COMPSAC), 2017 IEEE 41st Annual},
  volume={2},
  pages={125--130},
  year={2017},
  organization={IEEE}
}

@inproceedings{moran2016technology,
  title={A Technology Platform for Enabling Behavioural Change as a PATHway Towards Better Self-management of CVD},
  author={Moran, Kieran and Wei, Haolin and Monaghan, David S and Woods, Catherine and O'Connor, Noel E and Zarpalas, Dimitrios and Chatzitofis, Anargyros and Daras, Petros and Piesk, Jens and Pomazanskyi, Andrew},
  booktitle={Proceedings of the 2016 ACM Workshop on Multimedia for Personal Health and Health Care},
  pages={15--18},
  year={2016},
  organization={ACM}
}