2008 |
13 | EE | Yalan Ye,
Zhi-Lin Zhang,
Jiazhi Zeng,
Lei Peng:
A fast and adaptive ICA algorithm with its application to fetal electrocardiogram extraction.
Applied Mathematics and Computation 205(2): 799-806 (2008) |
12 | EE | Yalan Ye,
Zhi-Lin Zhang,
Jia Chen:
A Robust and Non-invasive Fetal Electrocardiogram Extraction Algorithm in a Semi-Blind Way.
IEICE Transactions 91-A(3): 916-920 (2008) |
11 | EE | Zhi-Lin Zhang:
Morphologically constrained ICA for extracting weak temporally correlated signals.
Neurocomputing 71(7-9): 1669-1679 (2008) |
2007 |
10 | EE | Yalan Ye,
Jing Wan,
Zhi-Lin Zhang,
Chen Jia,
Wu Lei:
A Flexible Fully-Multiplicative Orthogonal-Group Based ICA Algorithm.
CIBCB 2007: 476-479 |
9 | EE | Zhi-Lin Zhang,
Liqing Zhang:
Linear Prediction Based Blind Source Extraction Algorithms in Practical Applications.
ICA 2007: 309-316 |
2006 |
8 | EE | Zhi-Lin Zhang,
Liqing Zhang:
A Two-Stage Based Approach for Extracting Periodic Signals.
ICA 2006: 303-310 |
7 | EE | Zhi-Lin Zhang,
Liqing Zhang,
Xiu-Ling Wu,
Jie Li,
Qibin Zhao:
Two-Stage Temporally Correlated Source Extraction Algorithm with Its Application in Extraction of Event-Related Potentials.
ICONIP (2) 2006: 523-532 |
6 | EE | Gang Wang,
NiNi Rao,
Zhi-Lin Zhang,
Quanyi Mo,
Pu Wang:
An Extended Online Fast-ICA Algorithm.
ISNN (1) 2006: 1109-1114 |
5 | EE | Zhi-Lin Zhang,
Haitao Meng:
A Flexible Algorithm for Extracting Periodic Signals.
ISNN (2) 2006: 688-693 |
4 | EE | Pu Wang,
Jianyu Yang,
Zhi-Lin Zhang,
Gang Wang,
Quanyi Mo:
A Signal-Dependent Quadratic Time Frequency Distribution for Neural Source Estimation.
ISNN (2) 2006: 700-705 |
3 | EE | Zhi-Lin Zhang,
Zhang Yi:
Robust extraction of specific signals with temporal structure.
Neurocomputing 69(7-9): 888-893 (2006) |
2 | EE | Zhi-Lin Zhang,
Zhang Yi:
Extraction of temporally correlated sources with its application to non-invasive fetal electrocardiogram extraction.
Neurocomputing 69(7-9): 894-899 (2006) |
1 | EE | Zhi-Lin Zhang,
Zhang Yi:
Extraction of a source signal whose kurtosis value lies in a specific range.
Neurocomputing 69(7-9): 900-904 (2006) |