Article thumbnail

The effect of accelerometer location on the classification of single-site forearm mechanomyograms

By Natasha Alves, Ervin Sejdić, Bhupinder Sahota and Tom Chau
Topics: Research
Publisher: BioMed Central
OAI identifier:
Provided by: PubMed Central

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.

Suggested articles


  1. (2008). A training strategy to reduce classification degradation due to electrode displacements in pattern recognition based myoelectric control. Biomedical signal processing and control
  2. (2009). A: A comparative study of synchrony measures for the early diagnosis of Alzheimer's disease based on EEG. NeuroImage
  3. (1999). A: Acoustic myography during voluntary isometric contraction reveals non-propagative lateral vibration.
  4. (1999). A: Force and surface mechanomyogram relationship in cat gastrocnemius. Journal of electromyography and kinesiology
  5. (2006). Agur AMR: Clinically oriented anatomy 6th edition. Lippincott Williams
  6. (1998). Akataki K: Technical aspects of mechanomyography recording with piezoelectric contact sensor. Medical and biological engineering and computing
  7. (2005). Arendt-Nielsen L: Experimental muscle pain increases mechanomyographic signal activity during sub-maximal isometric contractions. Journal of electromyography and kinesiology
  8. (2001). Arendt-Nielsen L: Mechanomyography and electromyography force relationships during concentric, isometric and eccentric contractions. Journal of electromyography and kinesiology
  9. (2007). B: A comparison of surface and intramuscular myoelectric signal classification. IEEE transactions on bio-medical engineering
  10. (2006). B: The effect of electrode displacements on pattern recognition based myoelectric control.
  11. (2009). Classification of the mechanomyogram signal using a wavelet packet transform and singular value decomposition for multifunction prosthesis control. Physiological measurement
  12. (1990). Cole NM: Muscle sounds are emitted at the resonant frequencies of skeletal muscle.
  13. (2002). Control of multifunctional prosthetic hands by processing the electromyographic signal. Critical Reviews in Biomedical Engineering
  14. (2008). Dual-axis swallowing accelerometry signals. Physiological measurement
  15. (1974). Effectiveness of linear prediction characteristics of the speech wave for automatic speaker identification and verification.
  16. (2010). Effects of liquid stimuli on dual-axis swallowing accelerometry signals in a healthy population. BioMedical Engineering OnLine
  17. (2004). Electromyographic and mechanomyographic estimation of motor unit activation strategy in voluntary force production. Electromyography and clinical neurophysiology
  18. (1999). Felici F: Detection of hidden rhythms in surface EMG signals with a non-linear time-series tool. Medical engineering & physics
  19. (1998). Fourment A: Summation of elementary phonomyograms during isometric twitches in humans. European journal of applied physiology and occupational physiology
  20. (1990). GG: Acoustic and surface EMG diagnosis of pediatric muscle disease. Muscle and nerve
  21. (2007). Heterogeneous mechanomyographic absolute activation of paraspinal muscles assessed by a two-dimensional array during short and sustained contractions.
  22. (2003). Hudgins B: A robust, real-time control scheme for multifunction myoelectric control. IEEE transactions on biomedical engineering
  23. (2001). Itoh Y: Mechanical behaviour of condenser microphone in mechanomyography. Medical and biological engineering and computing
  24. (1982). KH: Multifunctional prosthesis and orthosis control via microcomputer identification of temporal pattern differences in single-site myoelectric signals.
  25. (2008). Longitudinal and transverse propagation of surface mechanomyographic waves generated by single motor unit activity. Medical and biological engineering and computing
  26. (2007). MH: Does the frequency content of the surface mechanomyographic signal reflect motor unit firing rates? A brief review. Journal of electromyography and kinesiology
  27. (2003). Moradi MH: Evaluation of the forearm EMG signal features for the control of a prosthetic hand. Physiological measurement
  28. (2008). Motor unit acceleration maps and interference mechanomyographic distribution.
  29. (2001). Multiclass linear dimension reduction by weighted pairwise Fisher criteria.
  30. (1993). Muscle sound: bases for the introduction of a mechanomyographic signal in muscle studies. Critical reviews in biomedical engineering
  31. (1991). Muscle sounds from evoked twitches in the hand. Archives of physical medicine and rehabilitation
  32. (2004). Non-invasive assessment of single motor unit mechanomyographic response and twitch force by spike-triggered averaging. Medical and biological engineering and computing
  33. (2004). Orizio C: Effect of accelerometer location on mechanomyogram variables during voluntary, constant-force contractions in three human muscles.
  34. (2001). Pattern classification 2nd edition.
  35. (1995). Phonomyogram from single motor units during voluntary isometric contraction. European journal of applied physiology
  36. (1986). RD: Acoustic myography as a control signal for an externally powered prosthesis. Archives of physical medicine and rehabilitation
  37. (2007). Real-time classification of forearm electromyographic signals corresponding to user-selected intentional movements for multifunction prosthesis control.
  38. (2002). Sjogaard G: Development of muscle fatigue as assessed by electromyography and mechanomyography during continuous and intermittent low-force contractions: effects of the feedback mode. European journal of applied physiology
  39. (2006). Sogaard K: Mechanomyography for studying force fluctuations and muscle fatigue. Exercise and sport sciences reviews
  40. (2006). Spatial and force dependency of mechanomyographic signal features. Journal of neuroscience methods
  41. (2010). Surface Mechanomyogram. In Electromyography: Physiology, Engineering and Noninvasive Applications Edited by: Merletti
  42. (2005). T: A self-contained, mechanomyography-driven externally powered prosthesis. Archives of physical medicine and rehabilitation
  43. (2008). T: Stationarity distributions of mechanomyogram signals from isometric contractions of extrinsic hand muscles during functional grasping. Journal of electromyography and kinesiology
  44. The design and testing of a novel mechanomyogram-driven switch controlled by small eyebrow movements.
  45. (2007). Two-dimensional spatial distribution of surface mechanomyographical response to single motor unit activity. Journal of neuroscience methods
  46. (2010). Uncovering patterns of forearm muscle activity using multi-channel mechanomyography. Journal of electromyography and kinesiology in press. (Eprint available online doi:10.1016/j.jelekin.2009.09.003). Received:
  47. (1990). Veicsteinas A: Spectral analysis of muscular sound during isometric contraction of biceps brachii. Journal of applied physiology
  48. (1996). Veicsteinas A: Surface mechanomyogram reflects muscle fibres twitches summation.
  49. (1992). Vibrations and sounds from evoked muscle twitches. Electromyography and clinical neurophysiology
  50. (2010). Zheng YP: A comparative study of pattern synchronization detection between neural signals using different cross-entropy measures. Biological cybernetics
  51. (2009). Zheng YP: Uncovering chaotic structure in mechanomyography signals of fatigue biceps brachii muscle.