NeuraConnect Lab

Understanding the networked brain through its injury

Application of trilateration and Kalman filtering algorithms to track dynamic brain deformation using sonomicrometry


Journal article


A. Alshareef, J. S. Giudice, J. Forman, D. Shedd, Taotao Wu, K. Reynier, M. Panzer
Biomed. Signal Process. Control., 2020

Semantic Scholar DBLP DOI
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APA   Click to copy
Alshareef, A., Giudice, J. S., Forman, J., Shedd, D., Wu, T., Reynier, K., & Panzer, M. (2020). Application of trilateration and Kalman filtering algorithms to track dynamic brain deformation using sonomicrometry. Biomed. Signal Process. Control.


Chicago/Turabian   Click to copy
Alshareef, A., J. S. Giudice, J. Forman, D. Shedd, Taotao Wu, K. Reynier, and M. Panzer. “Application of Trilateration and Kalman Filtering Algorithms to Track Dynamic Brain Deformation Using Sonomicrometry.” Biomed. Signal Process. Control. (2020).


MLA   Click to copy
Alshareef, A., et al. “Application of Trilateration and Kalman Filtering Algorithms to Track Dynamic Brain Deformation Using Sonomicrometry.” Biomed. Signal Process. Control., 2020.


BibTeX   Click to copy

@article{a2020a,
  title = {Application of trilateration and Kalman filtering algorithms to track dynamic brain deformation using sonomicrometry},
  year = {2020},
  journal = {Biomed. Signal Process. Control.},
  author = {Alshareef, A. and Giudice, J. S. and Forman, J. and Shedd, D. and Wu, Taotao and Reynier, K. and Panzer, M.}
}