Using Radial Basis Function Neural Networks for Continuous and Discrete Pain Estimation from Bio-physiological Signals-Reference-Cited by-同舟云学术

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Using Radial Basis Function Neural Networks for Continuous and Discrete Pain Estimation from Bio-physiological Signals

Published:2016 Issue: Volume: Page:269-284
ISSN:0302-9743
Container-title:Artificial Neural Networks in Pattern Recognition
language:
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Author:

Amirian Mohammadreza,Kächele Markus,Schwenker Friedhelm

Publisher

Springer International Publishing

Link

http://link.springer.com/content/pdf/10.1007/978-3-319-46182-3_23

Reference23 articles.

1. Benedek, M., Kaernbach, C.: Decomposition of skin conductance data by means of nonnegative deconvolution. Psychophysiology 47(4), 647–658 (2010)

2. Brahnam, S., Chuang, C.F., Shih, F.Y., Slack, M.R.: Machine recognition and representation of neonatal facial displays of acute pain. Artif. Intell. Med. 36(3), 211–222 (2006)

3. Cao, C., Slobounov, S.: Application of a novel measure of EEG non-stationarity as ‘Shannon-entropy of the peak frequency shifting’ for detecting residual abnormalities in concussed individuals. Clin. Neurophysiol. 122(7), 1314–1321 (2011)

4. Chen, W., Zhuang, J., Yu, W., Wang, Z.: Measuring complexity using FuzzyEn, ApEn, and SampEn. Med. Eng. Phys. 31(1), 61–68 (2009)

5. Gholami, B., Haddad, W.M., Tannenbaum, A.R.: Agitation and pain assessment using digital imaging. In: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society, IEEE Engineering in Medicine and Biology Society, Conference, vol. 2009. NIH Public Access (2009)

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5. Automated Pain Assessment in Children Using Electrodermal Activity and Video Data Fusion via Machine Learning;IEEE Transactions on Biomedical Engineering;2022-01

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