Biomedical Engineering Reference
In-Depth Information
40. Holsinger
WP,
Kempner
KM,
Miller
MH.
A
QRS
preprocessor
based
on
digital
differentiation. IEEE Tran Biomed Eng BME-18. 1971;3:212-217.
41. Ahlstrom
ML,
Tompkins
WJ.
Automated
high-speed
analysis
of
Holter
tapes
with
microcomputers. IEEE Trans Biomed Eng. 1983;30:651-7.
42. Okada M. A digital filter for the QRS complex detection. IEEE Tran Biomed Eng BME-26.
1979;12:700-703.
43. Ligtenburg A, Kunt M. A robust-digital QRS detection algorithm for arrhythmia monitoring.
Comput Biomed Res. 1983;16(3):273-86.
44. Pan J, Tompkins WJ. A real time QRS detection algorithm. IEEE Tran Biomed Eng BME-32.
1985;3:230-236.
45. Hamilton PS, Tompkins WJ. Quantitative investigation of QRS detection rules using the
MIT/BIH arrhythmia database IEEE Tran Biomed Eng BME-33. 1986;12:1157-1165.
46. Azreno NM, Deng ZD, Poon CS. Analysis of first-derivative based QRS detection algorithms.
IEEE Tran Biomed Eng. 2008;55(2):478-84.
47. Borjesson PO, Pahlm O, Sörnmo L, Nygards ME. Adaptive QRS detection based on
maximum a posteriori estimation. IEEE Tran Biomed Eng BME-29. 1982;5:341-351.
48. Sörnmo L, Pahlm O, Nygards ME. Adaptive QRS detection: a study of performance. IEEE
Tran Biomed Eng BME-32. 1985;6:392-401.
49. Trahanias PE. An approach to QRS detection using mathematical morphology. IEEE Tran
Biome Eng. 1993;40(2):201-5.
50. Ghaffari A, Golbayani H, Ghasemi M. A new mathematical based QRS detector using
continuous wavelet transform. Comput Elect Eng. 2008;34(2):81-91.
51. Islam Md S, Alajlan N. A morphology alignment method for resampled heartbeat signals.
Biomed Signal Proc Control. 2013;8(3):315-24.
52. Suppappola S, Sun Y. Nonlinear transforms of ECG signals for digital QRS detection: a
quantitative analysis. IEEE Tran Biome Eng. 1994;41(4):397-400.
53. Benitez D, Gaydecki PA, Zaidi A, Fitzpatrick AP. The use of Hilbert transform for ECG
signal analysis. Comput Biol Med. 2001;31(5):399-406.
54. Benitez DS, Gaydecki PA, Zaidi A, Fitzpatrick AP. A new QRS detection algorithm based on
the Hilbert transform. In: Proceedings of computers in cardiology, 2000, 24-27 Sep 2000,
pp. 379-382.
55. Kadambe S, Murray R, Bartels GB. Wavelet transform-based QRS complex detector. IEEE
Tran Biome Eng. 1999;46(7):838-48.
56. Zhang F, Lian Y. Novel QRS detection by CWT for ECG sensor. In: Proceedings of IEEE
biomedical
circuits
and
systems
conference
(BIOCAS),
2007,
27-30
Nov.
2007,
pp. 211-214.
57. Bahoura M, Hassani M, Hubin M. DSP implementation of wavelet transform for real time
ECC
wave
forms
detection
and
heart
rate
analysis.
Comput
methods
Prog
Biomed.
1997;52(1):35-44.
58. Zhu K, Noakes PD, Green ADP. ECG monitoring with artificial neural networks. In:
Proceedings of 2nd international conference on artificial neural networks, 1991, 18-20 Nov
1991, Colchester, pp. 205-209.
59. Xue Q, Hue YH, Tompkins WJ. Neural-network-based adaptive matched filtering for QRS
detection. IEEE Tran Biomed Eng. 1992;39(4):317-29.
60. Behrad A, Faez K. New method for QRS-wave recognition in ECG using MART neural
network. In: Proceedings of the 7th Australian and New Zealand intelligent information
systems conference, 2001, 18-21 Nov 2001, pp. 291-296.
61. Poli R, Cagnoni S, Valli G. Genetic design of optimum linear and nonlinear QRS detectors.
IEEE Tran Biomed Eng. 1995;42(11):1137-1141.
62. Karpagachelvi S, Arthanari M, Sivakumar M. ECG feature extraction techniques-a survey
approach. Int J Comput Sci Inf Secur. 2010;8(1):76-80.
63. Vaneghi FM, Oladazimi M, Shiman F, Kordi A, Safari MJ, Ibrahim F. A comparative
approach to ECG feature extraction methods. In: Proceedings of 3rd international conference
on intelligent systems modeling and simulation, 2012,08-10 Feb, Malaysia, pp. 252-256.
Search WWH ::
Custom Search