Dimensionality reduction using asynchronous sampling of first derivative features for real-time and computationally efficient neural spike sorting
Dimensionality reduction using asynchronous sampling of first derivative features for real-time and computationally efficient neural spike sorting
In recent years, spike sorting has become an emerging technique in multi-channel recording for neuroprosthetic applications. To achieve on-chip real-time processing, it is necessary to design reliable yet low complexity feature extraction and dimensionality reduction to suit low power hardware resources. To satisfy this criterion, this paper proposes asynchronous sampling of first derivative spike waveform features as a dimensionality reduction algorithm. The resulting accuracy of this approach enables identification of the differences temporally localized between the clusters. Directions with maximized or minimized mutual differences are chosen. The classification accuracy of this method is compared with other approaches using different datasets. Using the k-Means clustering algorithm the proposed method achieves an average classification accuracy of > 94% and has very significantly less complexity compared with techniques such as principal component analysis and discrete wavelet transform.
237-240
Zamani, Majid
431788cc-0702-4fa9-9709-f5777a2d0d25
Demosthenous, Andreas
bed19531-d770-4f48-8464-59d225ddea8d
2013
Zamani, Majid
431788cc-0702-4fa9-9709-f5777a2d0d25
Demosthenous, Andreas
bed19531-d770-4f48-8464-59d225ddea8d
Zamani, Majid and Demosthenous, Andreas
(2013)
Dimensionality reduction using asynchronous sampling of first derivative features for real-time and computationally efficient neural spike sorting.
In 2013 IEEE 20th International Conference on Electronics, Circuits, and Systems, ICECS 2013.
IEEE.
.
(doi:10.1109/ICECS.2013.6815398).
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Conference or Workshop Item
(Paper)
Abstract
In recent years, spike sorting has become an emerging technique in multi-channel recording for neuroprosthetic applications. To achieve on-chip real-time processing, it is necessary to design reliable yet low complexity feature extraction and dimensionality reduction to suit low power hardware resources. To satisfy this criterion, this paper proposes asynchronous sampling of first derivative spike waveform features as a dimensionality reduction algorithm. The resulting accuracy of this approach enables identification of the differences temporally localized between the clusters. Directions with maximized or minimized mutual differences are chosen. The classification accuracy of this method is compared with other approaches using different datasets. Using the k-Means clustering algorithm the proposed method achieves an average classification accuracy of > 94% and has very significantly less complexity compared with techniques such as principal component analysis and discrete wavelet transform.
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Published date: 2013
Venue - Dates:
2013 IEEE 20th International Conference on Electronics, Circuits, and Systems, ICECS 2013, , Abu Dhabi, United Arab Emirates, 2013-12-08 - 2013-12-11
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Local EPrints ID: 499921
URI: http://eprints.soton.ac.uk/id/eprint/499921
PURE UUID: d116db01-f8b5-4b2f-8a50-013de8d85fbb
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Date deposited: 08 Apr 2025 16:50
Last modified: 09 Apr 2025 02:08
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Author:
Majid Zamani
Author:
Andreas Demosthenous
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