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REFERENCES G. L. Gerstein and W. A. Clark, "Simultaneous Studies of Firing Patterns in Several Neurons," Science, vol. 143, pp. 1325-1327, (1964 ). 2. D. G. Keehn, "An Iterative Spike Separation Technique," IEEE Trans. Bio-Med. Eng., vol. 13, pp. 19-28, (1966). 3. V. J. Prochazka, "Bioelectric Signal Sorter," (JULIA), Decus Program Library, Digital Equipment Computer Users' Society, Digital Equipment Corp., Marlboro, Mass., pp. 12-35 (1971). 4. V. J. Prochazka, B. Conrad and F. Sinderrnann, "A Neuroelectric Signal Recognition System," Eleclroenceph. CUn. Neurophysiol., vol. 32, pp. 95-97, (1972). 5. J. J. Capowski, "The Spike Program: A Computer System for Analysis of Neurophysiological Action Potentials," Computer Technology in Neuroscience, P. B. Brown, ed., Hemisphere Publ. Co., Washington, DC, pp. 237-251, (1976). 6. B. Matthews, "Identifying Action Potential Waveforms in Neurophysiological Recordings," J. Physiol. (London), vol. 277, pp. 32P-33P, (1978). 7. E. H. D'Hollander and G. A. Orban, "Spike Recognition and On-line Classification by Unsupervised Learning System," IEEE Trans. Bio-Med. Eng., vol. 26, pp. 279-284, (1979). 8. C. J. DeLuca and W. J. Forrest, "An Electrode for Single Motor Unit Activity During Strong Muscle Contractions," IEEE Trans Bio-Med. Eng., vol. 19, pp. 367-372, (1979). 9. J. Dinning and A. C. Sanderson, "Real-time Classification of Multiunit Neural Signals Using Reduced Feature Sets," IEEE Trans. Bio-Med. Eng., vol. 28, pp. 804-812, (1981). 10. R. S. LeFever and C. J. DeLuca, "A Procedure for Decomposing the Myoelectric Signal into its Constituent Action Potentials -Part I: Technique, . Theory and Implementation," IEEE Trans. Biomed. Eng., vol. 29, pp. 149-157, (1982).
DOI link for REFERENCES G. L. Gerstein and W. A. Clark, "Simultaneous Studies of Firing Patterns in Several Neurons," Science, vol. 143, pp. 1325-1327, (1964 ). 2. D. G. Keehn, "An Iterative Spike Separation Technique," IEEE Trans. Bio-Med. Eng., vol. 13, pp. 19-28, (1966). 3. V. J. Prochazka, "Bioelectric Signal Sorter," (JULIA), Decus Program Library, Digital Equipment Computer Users' Society, Digital Equipment Corp., Marlboro, Mass., pp. 12-35 (1971). 4. V. J. Prochazka, B. Conrad and F. Sinderrnann, "A Neuroelectric Signal Recognition System," Eleclroenceph. CUn. Neurophysiol., vol. 32, pp. 95-97, (1972). 5. J. J. Capowski, "The Spike Program: A Computer System for Analysis of Neurophysiological Action Potentials," Computer Technology in Neuroscience, P. B. Brown, ed., Hemisphere Publ. Co., Washington, DC, pp. 237-251, (1976). 6. B. Matthews, "Identifying Action Potential Waveforms in Neurophysiological Recordings," J. Physiol. (London), vol. 277, pp. 32P-33P, (1978). 7. E. H. D'Hollander and G. A. Orban, "Spike Recognition and On-line Classification by Unsupervised Learning System," IEEE Trans. Bio-Med. Eng., vol. 26, pp. 279-284, (1979). 8. C. J. DeLuca and W. J. Forrest, "An Electrode for Single Motor Unit Activity During Strong Muscle Contractions," IEEE Trans Bio-Med. Eng., vol. 19, pp. 367-372, (1979). 9. J. Dinning and A. C. Sanderson, "Real-time Classification of Multiunit Neural Signals Using Reduced Feature Sets," IEEE Trans. Bio-Med. Eng., vol. 28, pp. 804-812, (1981). 10. R. S. LeFever and C. J. DeLuca, "A Procedure for Decomposing the Myoelectric Signal into its Constituent Action Potentials -Part I: Technique, . Theory and Implementation," IEEE Trans. Biomed. Eng., vol. 29, pp. 149-157, (1982).
REFERENCES G. L. Gerstein and W. A. Clark, "Simultaneous Studies of Firing Patterns in Several Neurons," Science, vol. 143, pp. 1325-1327, (1964 ). 2. D. G. Keehn, "An Iterative Spike Separation Technique," IEEE Trans. Bio-Med. Eng., vol. 13, pp. 19-28, (1966). 3. V. J. Prochazka, "Bioelectric Signal Sorter," (JULIA), Decus Program Library, Digital Equipment Computer Users' Society, Digital Equipment Corp., Marlboro, Mass., pp. 12-35 (1971). 4. V. J. Prochazka, B. Conrad and F. Sinderrnann, "A Neuroelectric Signal Recognition System," Eleclroenceph. CUn. Neurophysiol., vol. 32, pp. 95-97, (1972). 5. J. J. Capowski, "The Spike Program: A Computer System for Analysis of Neurophysiological Action Potentials," Computer Technology in Neuroscience, P. B. Brown, ed., Hemisphere Publ. Co., Washington, DC, pp. 237-251, (1976). 6. B. Matthews, "Identifying Action Potential Waveforms in Neurophysiological Recordings," J. Physiol. (London), vol. 277, pp. 32P-33P, (1978). 7. E. H. D'Hollander and G. A. Orban, "Spike Recognition and On-line Classification by Unsupervised Learning System," IEEE Trans. Bio-Med. Eng., vol. 26, pp. 279-284, (1979). 8. C. J. DeLuca and W. J. Forrest, "An Electrode for Single Motor Unit Activity During Strong Muscle Contractions," IEEE Trans Bio-Med. Eng., vol. 19, pp. 367-372, (1979). 9. J. Dinning and A. C. Sanderson, "Real-time Classification of Multiunit Neural Signals Using Reduced Feature Sets," IEEE Trans. Bio-Med. Eng., vol. 28, pp. 804-812, (1981). 10. R. S. LeFever and C. J. DeLuca, "A Procedure for Decomposing the Myoelectric Signal into its Constituent Action Potentials -Part I: Technique, . Theory and Implementation," IEEE Trans. Biomed. Eng., vol. 29, pp. 149-157, (1982).