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2020 – today
- 2023
- [j69]Milos Brajovic, Irena Orovic, Marko Beko, Srdjan Stankovic:
Reconstruction of signals with sparse representation in optimally dilated Hermite basis. Signal Image Video Process. 17(6): 2789-2797 (2023) - 2021
- [j68]Milos Brajovic, Irena Orovic, Marko Beko, Srdjan Stankovic:
Parameter optimization of orthogonal discrete Hermite transform formed using eigenvectors of a symmetric tridiagonal matrix. Digit. Signal Process. 117: 103140 (2021) - 2020
- [c51]Andjela Draganic, Irena Orovic, Maja Lakicevic Zaric, Srdjan Stankovic:
Quick Response Code Recovery using Sparse Signal Processing Approach. MECO 2020: 1-5
2010 – 2019
- 2019
- [j67]Ljubisa Stankovic, Ervin Sejdic, Srdjan Stankovic, Milos Dakovic, Irena Orovic:
A Tutorial on Sparse Signal Reconstruction and Its Applications in Signal Processing. Circuits Syst. Signal Process. 38(3): 1206-1263 (2019) - 2018
- [j66]Ervin Sejdic, Irena Orovic, Srdjan Stankovic:
Compressive sensing meets time-frequency: An overview of recent advances in time-frequency processing of sparse signals. Digit. Signal Process. 77: 22-35 (2018) - [j65]Nedjeljko Lekic, Nikola Zaric, Irena Orovic, Srdjan Stankovic:
Adaptive gradient-based analog hardware architecture for 2D under-sampled signals reconstruction. Microprocess. Microsystems 62: 72-78 (2018) - [j64]Isidora Stankovic, Irena Orovic, Milos Dakovic, Srdjan Stankovic:
Denoising of sparse images in impulsive disturbance environment. Multim. Tools Appl. 77(5): 5885-5905 (2018) - [j63]Milos Brajovic, Srdjan Stankovic, Irena Orovic:
Analysis of noisy coefficients in the discrete Hermite transform domain with application in signal denoising and sparse signal reconstruction. Signal Process. 150: 145-156 (2018) - [j62]Ervin Sejdic, Irena Orovic, Srdjan Stankovic:
A software companion for compressively sensed time-frequency processing of sparse nonstationary signals. SoftwareX 8: 9-10 (2018) - [j61]Milos Brajovic, Irena Orovic, Milos Dakovic, Srdjan Stankovic:
Compressive Sensing of Sparse Signals in the Hermite Transform Basis. IEEE Trans. Aerosp. Electron. Syst. 54(2): 950-967 (2018) - [c50]Milos Brajovic, Stefan Vujovic, Irena Orovic, Srdjan Stankovic:
Coefficient Thresholding in the Gradient Reconstruction Algorithm for Signals Sparse in the Hermite Transform Basis. APPIS 2018: 30-41 - [c49]Maja Lakicevic Zaric, Andjela Draganic, Irena Orovic, Srdjan Stankovic:
Sparse signal reconstruction using gradient-threshold based method. MECO 2018: 1-4 - 2017
- [j60]Srdjan Stankovic, Irena Orovic:
An Approach to 2D Signals Recovering in Compressive Sensing Context. Circuits Syst. Signal Process. 36(4): 1700-1713 (2017) - [j59]Drasko Furundzic, Srdjan Stankovic, Slobodan Jovicic, Silvana Punisic, Misko Subotic:
Distance based resampling of imbalanced classes: With an application example of speech quality assessment. Eng. Appl. Artif. Intell. 64: 440-461 (2017) - [j58]Andjela Draganic, Irena Orovic, Srdjan Stankovic, Xiumei Li, Zhi Wang:
An approach to classification and under-sampling of the interfering wireless signals. Microprocess. Microsystems 51: 106-113 (2017) - [j57]Budimir Lutovac, Milos Dakovic, Srdjan Stankovic, Irena Orovic:
An algorithm for robust image watermarking based on the DCT and Zernike moments. Multim. Tools Appl. 76(22): 23333-23352 (2017) - [j56]Srdjan Stankovic, Irena Orovic, Ljubisa Stankovic:
Polynomial Fourier domain as a domain of signal sparsity. Signal Process. 130: 243-253 (2017) - [j55]Milos Brajovic, Irena Orovic, Milos Dakovic, Srdjan Stankovic:
On the parameterization of Hermite transform with application to the compression of QRS complexes. Signal Process. 131: 113-119 (2017) - [j54]Ivan Volaric, Victor Sucic, Srdjan Stankovic:
A data driven compressive sensing approach for time-frequency signal enhancement. Signal Process. 141: 229-239 (2017) - [c48]Irena Orovic, Andjela Draganic, Nedjeljko Lekic, Srdjan Stankovic:
A system for compressive sensing signal reconstruction. EUROCON 2017: 170-175 - [c47]Milos Brajovic, Irena Orovic, Milos Dakovic, Srdjan Stankovic:
The reconstruction of 2D sparse signals by exploiting transform coefficients variances. EUROCON 2017: 282-286 - [c46]Srdjan Stankovic, Stefan Vujovic, Irena Orovic, Milos Dakovic, Ljubisa Stankovic:
Combination of gradient based and single iteration reconstruction algorithms for sparse signals. EUROCON 2017: 292-296 - [c45]Yubin Shen, Minrui Fei, Dajun Du, Wenjun Zhang, Srdjan Stankovic, Aleksandar Rakic:
Cyber Security Against Denial of Service of Attacks on Load Frequency Control of Multi-area Power Systems. LSMS/ICSEE (3) 2017: 439-449 - [c44]Andjela Draganic, Irena Orovic, Srdjan Stankovic, Xiaoshuan Zhang, Xiang Wang:
Compressive sensing approach in the table grape cold chain logistics. MECO 2017: 1-4 - [c43]Srdjan Stankovic, Irena Orovic:
Cognitive inspired learning based on the compressive sensing postulates. MECO 2017: 1-5 - [c42]Andjela Draganic, Milan Maric, Irena Orovic, Srdjan Stankovic:
Identification of image source using serial-number-based watermarking under Compressive Sensing conditions. MIPRO 2017: 1227-1232 - [i11]Andjela Draganic, Milan Maric, Irena Orovic, Srdjan Stankovic:
Identification of image source using serialnumber-based watermarking under Compressive Sensing conditions. CoRR abs/1703.00383 (2017) - [i10]Andjela Draganic, Irena Orovic, Srdjan Stankovic:
On some common compressive sensing recovery algorithms and applications - Review paper. CoRR abs/1705.05216 (2017) - [i9]Ljubisa Stankovic, Milos Dakovic, Srdjan Stankovic, Irena Orovic:
Conditions for Unique Reconstruction of Sparse Signals Using Compressive Sensing Methods. CoRR abs/1706.05201 (2017) - 2016
- [j53]Irena Orovic, Nedjeljko Lekic, Srdjan Stankovic:
An Analog-Digital Hardware for L-Estimate Space-Varying Image Filtering. Circuits Syst. Signal Process. 35(2): 409-420 (2016) - [j52]Josip Music, Tea Marasovic, Vladan Papic, Irena Orovic, Srdjan Stankovic:
Performance of Compressive Sensing Image Reconstruction for Search and Rescue. IEEE Geosci. Remote. Sens. Lett. 13(11): 1739-1743 (2016) - [c41]Andjela Draganic, Irena Orovic, Srdjan Stankovic, Xiumei Li, Zhi Wang:
Reconstruction and classification of wireless signals based on compressive sensing approach. MECO 2016: 369-372 - [c40]Andjela Draganic, Irena Orovic, Srdjan Stankovic, Xiumei Li:
ISAR reconstruction from incomplete data using total variation optimization. MECO 2016: 373-376 - [c39]Isidora Stankovic, Irena Orovic, Srdjan Stankovic, Milos Dakovic:
Iterative denoising of sparse images. MIPRO 2016: 503-507 - [c38]Milan Maric, Irena Orovic, Srdjan Stankovic:
Compressive sensing based image processing in trapview pest monitoring system. MIPRO 2016: 508-512 - 2015
- [j51]Nikola Besic, Gabriel Vasile, Jean-Pierre Dedieu, Jocelyn Chanussot, Srdjan Stankovic:
Stochastic Approach in Wet Snow Detection Using Multitemporal SAR Data. IEEE Geosci. Remote. Sens. Lett. 12(2): 244-248 (2015) - [j50]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic:
Polarimetric Incoherent Target Decomposition by Means of Independent Component Analysis. IEEE Trans. Geosci. Remote. Sens. 53(3): 1236-1247 (2015) - [c37]Srdjan Stankovic:
Compressive sensing: Theory, algorithms and applications. MECO 2015: 4-6 - [c36]Andjela Draganic, Irena Orovic, Nedjeljko Lekic, Milos Dakovic, Srdjan Stankovic:
Architecture for single iteration reconstruction algorithm. MECO 2015: 77-80 - [c35]Stefan Vujovic, Milos Dakovic, Irena Orovic, Srdjan Stankovic:
An architecture for hardware realization of compressive sensing Gradient algorithm. MECO 2015: 189-192 - [i8]Srdjan Stankovic, Irena Orovic:
Compressive Sensing Reconstruction for Sparse 2D Data. CoRR abs/1502.05980 (2015) - [i7]Andjela Draganic, Irena Orovic, Nedjeljko Lekic, Milos Dakovic, Srdjan Stankovic:
Hardware Architecture for Single Iteration Reconstruction Algorithm. CoRR abs/1502.06230 (2015) - [i6]Irena Orovic, Andjela Draganic, Srdjan Stankovic:
Sparse Time-Frequency Representation for Signals with Fast Varying Instantaneous Frequency. CoRR abs/1502.07996 (2015) - [i5]Milos Brajovic, Irena Orovic, Milos Dakovic, Srdjan Stankovic:
Compressive Sensing of Sparse Signals in the Hermite Transform Basis: Analysis and Algorithm for Signal Reconstruction. CoRR abs/1511.04582 (2015) - [i4]Irena Orovic, Andjela Draganic, Nedjeljko Lekic, Srdjan Stankovic:
A System for Compressive Sensing Signal Reconstruction. CoRR abs/1511.04585 (2015) - 2014
- [j49]Nikola Zaric, Srdjan Stankovic, Zdravko Uskokovic:
Hardware realization of the robust time-frequency distributions. Ann. des Télécommunications 69(5-6): 309-320 (2014) - [j48]Ljubisa Stankovic, Igor Djurovic, Srdjan Stankovic, Marko Simeunovic, Slobodan Djukanovic, Milos Dakovic:
Instantaneous frequency in time-frequency analysis: Enhanced concepts and performance of estimation algorithms. Digit. Signal Process. 35: 1-13 (2014) - [j47]Srdjan Stankovic, Thayananthan Thayaparan, Victor Sucic:
Guest Editorial: Special Issue on Compressive Sensing and Robust Transforms. IET Signal Process. 8(3): 221-222 (2014) - [j46]Srdjan Stankovic, Ljubisa Stankovic, Irena Orovic:
Relationship between the robust statistics theory and sparse compressive sensed signals reconstruction. IET Signal Process. 8(3): 223-229 (2014) - [j45]Irena Orovic, Srdjan Stankovic, Thayananthan Thayaparan:
Time-frequency-based instantaneous frequency estimation of sparse signals from incomplete set of samples. IET Signal Process. 8(3): 239-245 (2014) - [j44]Irena Orovic, Srdjan Stankovic:
Improved higher order robust distributions based on compressive sensing reconstruction. IET Signal Process. 8(7): 738-748 (2014) - [j43]Irena Orovic, Milica Orlandic, Srdjan Stankovic:
An image watermarking based on the pdf modeling and quantization effects in the wavelet domain. Multim. Tools Appl. 70(3): 1503-1519 (2014) - [j42]Ljubisa Stankovic, Srdjan Stankovic, Moeness G. Amin:
Missing samples analysis in signals for applications to L-estimation and compressive sensing. Signal Process. 94: 401-408 (2014) - [j41]Irena Orovic, Srdjan Stankovic:
L-statistics based space/spatial-frequency filtering of 2D signals in heavy tailed noise. Signal Process. 96: 190-202 (2014) - [j40]Srdjan Stankovic, Irena Orovic, Ljubisa Stankovic:
An automated signal reconstruction method based on analysis of compressive sensed signals in noisy environment. Signal Process. 104: 43-50 (2014) - [j39]Ljubisa Stankovic, Srdjan Stankovic, Milos Dakovic:
From the STFT to the Wigner Distribution [Lecture Notes]. IEEE Signal Process. Mag. 31(3): 163-174 (2014) - [c34]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic, Alexandre Girard, Guy D'Urso:
Analysis of supplementary information emerging from the ICA based ICTD. IGARSS 2014: 1009-1012 - [c33]Sanja Zukovic, Milica Medenica, Irena Orovic, Srdjan Stankovic:
Synthetic software tool for compressive sensing reconstruction. MECO 2014: 217-220 - [c32]Radomir Mihajlovic, Marijana Scekic, Andjela Draganic, Srdjan Stankovic:
An analysis of CS algorithms efficiency for sparse communication signals reconstruction. MECO 2014: 221-224 - [c31]Marijana Scekic, Radomir Mihajlovic, Irena Orovic, Srdjan Stankovic:
CS performance analysis for the musical signals reconstruction. MECO 2014: 225-228 - [i3]Srdjan Stankovic, Irena Orovic, Ljubisa Stankovic:
Compressive Sensing of Polynomial Phase Signals. CoRR abs/1411.3651 (2014) - 2013
- [j38]Srdjan Stankovic, Irena Orovic, Marie Chabert, Bijan G. Mobasseri:
Image watermarking based on the space/spatial-frequency analysis and Hermite functions expansion. J. Electronic Imaging 22(1): 013014 (2013) - [j37]Srdjan Stankovic, Irena Orovic, Moeness G. Amin:
L-statistics based modification of reconstruction algorithms for compressive sensing in the presence of impulse noise. Signal Process. 93(11): 2927-2931 (2013) - [j36]Ljubisa Stankovic, Srdjan Stankovic, Irena Orovic, Moeness G. Amin:
Robust Time-Frequency Analysis Based on the L-Estimation and Compressive Sensing. IEEE Signal Process. Lett. 20(5): 499-502 (2013) - [j35]Irena Orovic, Srdjan Stankovic, Branka Jokanovic:
A Suitable Hardware Realization for the Cohen Class Distributions. IEEE Trans. Circuits Syst. II Express Briefs 60-II(9): 607-611 (2013) - [j34]Ljubisa Stankovic, Irena Orovic, Srdjan Stankovic, Moeness G. Amin:
Compressive Sensing Based Separation of Nonstationary and Stationary Signals Overlapping in Time-Frequency. IEEE Trans. Signal Process. 61(18): 4562-4572 (2013) - [c30]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic, Didier Boldo, Guy D'Urso:
Wet snow backscattering sensitivity on density change for SWE estimation. IGARSS 2013: 1174-1177 - [c29]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic, Didier Boldo, Guy D'Urso:
Independent Component Analysis within polarimetric incoherent target decomposition. IGARSS 2013: 4158-4161 - [c28]Srdjan Stankovic, Irena Orovic:
Robust complex-time distributions based on reconstruction algorithms. MECO 2013: 105-108 - [c27]Srdjan Stankovic, Irena Orovic:
An ideal OMP based complex-time distribution. MECO 2013: 109-112 - [c26]Andjela Draganic, Irena Orovic, Srdjan Stankovic:
FHSS signal characterization based on the crossterms free time-frequency distributions. MECO 2013: 152-155 - 2012
- [b1]Srdjan Stankovic, Irena Orovic, Ervin Sejdic:
Multimedia Signals and Systems. Springer 2012, ISBN 978-1-4614-4207-3, pp. 1-344 - [j33]Srdjan Stankovic, Irena Orovic, Victor Sucic:
Averaged multiple L-spectrogram for analysis of noisy nonstationary signals. Signal Process. 92(12): 3068-3074 (2012) - [c25]Nikola Zaric, Irena Orovic, Srdjan Stankovic:
Singular value decomposition and space/spatial-frequency analysis applied to digital watermarking. EUSIPCO 2012: 1698-1702 - [c24]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic, Jean-Pierre Dedieu, Guy D'Urso, Didier Boldo, Jean Philippe Ovarlez:
Dry snow backscattering sensitivity on density change for SWE estimation. IGARSS 2012: 4418-4421 - [c23]Nikola Besic, Gabriel Vasile, Jocelyn Chanussot, Srdjan Stankovic, Jean Philippe Ovarlez, Guy D'Urso, Didier Boldo, Jean-Pierre Dedieu:
Stochastically based wet snow mapping with SAR DATA. IGARSS 2012: 4859-4862 - [c22]Srdjan Stankovic, Irena Orovic, Moeness G. Amin:
Compressed sensing based robust time-frequency representation for signals in heavy-tailed noise. ISSPA 2012: 605-610 - [c21]Irena Orovic, Andjela Draganic, Srdjan Stankovic, Ervin Sejdic:
A unified approach for the estimation of instantaneous frequency and its derivatives for non-stationary signals analysis. ISSPA 2012: 1130-1134 - [c20]Irena Orovic, Srdjan Stankovic, Andjela Draganic:
Time-frequency based analysis of wireless signals. MECO 2012: 92-95 - 2011
- [j32]Xiumei Li, Guoan Bi, Srdjan Stankovic, Abdelhak M. Zoubir:
Local polynomial Fourier transform: A review on recent developments and applications. Signal Process. 91(6): 1370-1393 (2011) - [j31]Irena Orovic, Srdjan Stankovic, Moeness G. Amin:
A new approach for classification of human gait based on time-frequency feature representations. Signal Process. 91(6): 1448-1456 (2011) - [j30]Nikola Zaric, Nedjeljko Lekic, Srdjan Stankovic:
An Implementation of the L-Estimate Distributions for Analysis of Signals in Heavy-Tailed Noise. IEEE Trans. Circuits Syst. II Express Briefs 58-II(7): 427-431 (2011) - [j29]Irena Orovic, Milica Orlandic, Srdjan Stankovic, Zdravko Uskokovic:
A Virtual Instrument for Time-Frequency Analysis of Signals With Highly Nonstationary Instantaneous Frequency. IEEE Trans. Instrum. Meas. 60(3): 791-803 (2011) - [c19]Irena Orovic, Nikola Zaric, Srdjan Stankovic, Moeness G. Amin:
A multiwindow time-frequency approach based on the concepts of robust estimate theory. ICASSP 2011: 3584-3587 - [c18]Irena Orovic, Nikola Zaric, Srdjan Stankovic, Igor Radusinovic, Zoran Veljovic:
Analysis of power consumption in OFDM systems. MIPRO 2011: 653-657 - 2010
- [j28]Irena Orovic, Srdjan Stankovic:
Time-Frequency-Based Speech Regions Characterization and Eigenvalue Decomposition Applied to Speech Watermarking. EURASIP J. Adv. Signal Process. 2010 (2010) - [j27]Irena Orovic, Srdjan Stankovic, Tom Chau, Catriona M. Steele, Ervin Sejdic:
Time-Frequency Analysis and Hermite Projection Method Applied to Swallowing Accelerometry Signals. EURASIP J. Adv. Signal Process. 2010 (2010) - [j26]Srdjan Stankovic:
Time-Frequency Analysis and Its Application in Digital Watermarking. EURASIP J. Adv. Signal Process. 2010 (2010) - [j25]Srdjan Stankovic, Irena Orovic, Andrey S. Krylov:
Video Frames Reconstruction Based on Time-Frequency Analysis and Hermite Projection Method. EURASIP J. Adv. Signal Process. 2010 (2010) - [j24]Nikola Zaric, Irena Orovic, Srdjan Stankovic:
Robust Time-Frequency Distributions with Complex-Lag Argument. EURASIP J. Adv. Signal Process. 2010 (2010) - [j23]Srdjan Stankovic, Irena Orovic, Nikola Zaric, Cornel Ioana:
Two dimensional time-frequency analysis based eigenvalue decomposition applied to image watermarking. Multim. Tools Appl. 49(3): 529-543 (2010) - [j22]Srdjan Stankovic, Irena Orovic, Nikola Zaric:
An Application of Multidimensional Time-Frequency Analysis as a Base for the Unified Watermarking Approach. IEEE Trans. Image Process. 19(3): 736-745 (2010) - [c17]Cornel Ioana, Jérôme I. Mars, Alexandru Serbanescu, Srdjan Stankovic:
Time-frequency-phase tracking approach : Application to underwater signals in a passive context. ICASSP 2010: 5634-5637 - [i2]Srdjan Stankovic, Dejan Simic:
A Holistic Approach to Securing Web Applications. CoRR abs/1001.3479 (2010)
2000 – 2009
- 2009
- [j21]Irena Orovic, Srdjan Stankovic:
A Class of Highly Concentrated Time-Frequency Distributions Based on the Ambiguity Domain Representation and Complex-Lag Moment. EURASIP J. Adv. Signal Process. 2009 (2009) - [j20]Nikola Zaric, Irena Orovic, Srdjan Stankovic:
Hardware Realization of Generalized Time-Frequency Distribution with Complex-Lag Argument. EURASIP J. Adv. Signal Process. 2009 (2009) - [j19]Srdjan Stankovic, Irena Orovic, Cornel Ioana:
Effects of Cauchy Integral Formula Discretization on the Precision of IF Estimation: Unified Approach to Complex-Lag Distribution and its Counterpart L-Form. IEEE Signal Process. Lett. 16(4): 327-330 (2009) - [c16]Bertrand Gottin, Irena Orovic, Cornel Ioana, Srdjan Stankovic, Jocelyn Chanussot:
Signal characterization using generalized "Time-phase derivatives" representation. ICASSP 2009: 3001-3004 - [i1]Srdjan Stankovic, Dejan Simic:
Defense Strategies Against Modern Botnets. CoRR abs/0906.3768 (2009) - 2008
- [j18]Irena Orovic, Predrag Zogovic, Nikola Zaric, Srdjan Stankovic:
Speech signals protection via logo watermarking based on the time-frequency analysis. Ann. des Télécommunications 63(7-8): 369-377 (2008) - [j17]Srdjan Stankovic, Irena Orovic, Nikola Zaric:
Robust Speech Watermarking Procedure in the Time-Frequency Domain. EURASIP J. Adv. Signal Process. 2008 (2008) - [j16]Srdjan Stankovic, Irena Orovic, Nikola Zaric:
Robust watermarking procedure based on JPEG discrete cosine transform image compression. J. Electronic Imaging 17(4): 043001 (2008) - [c15]Bertrand Gottin, Cornel Ioana, Srdjan Stankovic, Ljubisa Stankovic, Jocelyn Chanussot:
On the concept of time-frequency distributions based on complex-lag moments. EUSIPCO 2008: 1-5 - 2007
- [j15]Cédric Cornu, Srdjan Stankovic, Cornel Ioana, André Quinquis, Ljubisa Stankovic:
Generalized Representation of Phase Derivatives for Regular Signals. IEEE Trans. Signal Process. 55(10): 4831-4838 (2007) - 2006
- [c14]Cornel Ioana, Arnaud Jarrot, André Quinquis, Srdjan Stankovic, Ljubisa Stankovic:
Analysis of Time-Frequency Transient Components Using Phase Chirping Operator. ICASSP (3) 2006: 173-176 - 2005
- [c13]Cornel Ioana, Srdjan Stankovic, André Quinquis, Ljubisa Stankovic:
Modelling of signal's time-frequency content using warped complex-time distributions. ICASSP (4) 2005: 477-480 - [c12]Cornel Ioana, Srdjan Stankovic, André Quinquis:
Estimation of parameters of a polynomial phase model using the warped complex time distributions. ISSPA 2005: 635-638 - 2004
- [j14]Igor Djurovic, Srdjan Stankovic, Akira Ohsumi, Hiroshi Ijima:
Motion parameters estimation by new propagation approach and time-frequency representations. Signal Process. Image Commun. 19(8): 755-770 (2004) - 2003
- [j13]Igor Djurovic, Srdjan Stankovic:
Estimation of time-varying velocities of moving objects by time-frequency representations. IEEE Trans. Image Process. 12(5): 550-562 (2003) - [c11]Srdjan Stankovic, Igor Djurovic, Rainer Herpers:
Velocity and acceleration estimation in video sequences by the local polynomial periodogram. ISSPA (1) 2003: 145-148 - 2002
- [j12]Srdjan Stankovic, Ljubisa Stankovic, Veselin N. Ivanovic, Radovan Stojanovic:
An architecture for the vlsi design of systems for time-frequency analysis and time-varying filtering. Ann. des Télécommunications 57(9-10): 974-995 (2002) - [c10]Srdjan Stankovic, Veselin N. Ivanovic, Ljubisa Stankovic:
Hartley transform based architecture for time-frequency analysis and time-varying filtering. EUSIPCO 2002: 1-4 - [c9]Igor Djurovic, Srdjan Stankovic, Akira Ohsumi, Hiroshi Ijima:
Estimation of line parameters using SLIDE algorithm and TF representations. ICECS 2002: 1067-1070 - 2001
- [j11]Predrag Pejnovic, Milan Markovic, Srdjan Stankovic:
Shape Classification by Moment and Autoregressive Invariants. Int. J. Pattern Recognit. Artif. Intell. 15(2): 311-327 (2001) - [j10]Igor Djurovic, Srdjan Stankovic, Ioannis Pitas:
Digital watermarking in the fractional Fourier transformation domain. J. Netw. Comput. Appl. 24(2): 167-173 (2001) - [j9]Srdjan Stankovic, Igor Djurovic, Ioannis Pitas:
Watermarking in the space/spatial-frequency domain using two-dimensional Radon-Wigner distribution. IEEE Trans. Image Process. 10(4): 650-658 (2001) - [c8]Igor Djurovic, Srdjan Stankovic, Ljubisa Stankovic, Radovan Stojanovic:
Local frequency estimation based on the Wigner distribution. ICIP (3) 2001: 736-739 - 2000
- [j8]Ruzica Maksimovic, Srdjan Stankovic, Dragorad Milovanovic:
Computed tomography image analyzer: 3D reconstruction and segmentation applying active contour models - 'snakes'. Int. J. Medical Informatics 58: 29-37 (2000) - [j7]Srdjan Stankovic:
About time-variant filtering of speech signals with time-frequency distributions for hands-free telephone systems. Signal Process. 80(9): 1777-1785 (2000) - [j6]Ljubisa Stankovic, Srdjan Stankovic, Igor Djurovic:
Space/spatial-frequency analysis based filtering. IEEE Trans. Signal Process. 48(8): 2343-2352 (2000) - [c7]Predrag Pejnovic, Milan Markovic, Srdjan Stankovic:
Classification of two-dimensional shapes based on moment invariants. EUSIPCO 2000: 1-4 - [c6]Ljubisa Stankovic, Igor Djurovic, Srdjan Stankovic:
The robust Wigner distribution. ICASSP 2000: 77-80
1990 – 1999
- 1999
- [c5]Ruzica Maksimovic, Srdjan Stankovic, Dragorad Milovanovic, Jelena Marinkovic, Branislav Goldner, Milos Janicijevic, Petar M. Seferovic:
Computed Tomography Image Analyzer: Segmentation Applying Active Contour Models - "Snakes". MIE 1999: 395-399 - 1998
- [c4]Ljubisa Stankovic, Srdjan Stankovic:
Cross-terms free forms of some quadratic and higher order time-frequency representations. EUSIPCO 1998: 1-4 - [c3]Vladimir Delevski, Srdjan Stankovic:
Recognition of Handwritten Digits Based on their Topological and Morphological Properties. SSPR/SPR 1998: 516-523 - 1997
- [c2]Ljubisa Stankovic, Srdjan Stankovic, Igor Djurovic:
An architecture for realization of the cross-terms free polynomial Wigner-Ville distribution. ICASSP 1997: 2053-2056 - 1996
- [j5]Ljubisa Stankovic, Srdjan Stankovic:
Corrections to "An Analysis of Instantaneous Frequency Representation Using Time-Frequency Distributions-Generalized Wigaer Distribution. IEEE Trans. Signal Process. 44(5): 1292 (1996) - [c1]Dusko Katic, Srdjan Stankovic:
Fast learning algorithms for training of feedforward multilayer perceptrons based on extended Kalman filter. ICNN 1996: 196-201 - 1995
- [j4]Ljubisa Stankovic, Srdjan Stankovic:
An analysis of instantaneous frequency representation using time-frequency distributions-generalized Wigner distribution. IEEE Trans. Signal Process. 43(2): 549-552 (1995) - [j3]Srdjan Stankovic, Ljubisa Stankovic, Zdravko Uskokovic:
On the local frequency, group shift, and cross-terms in some multidimensional time-frequency distributions: a method for multidimensional time-frequency analysis. IEEE Trans. Signal Process. 43(7): 1719-1724 (1995) - 1994
- [j2]Ljubisa Stankovic, Srdjan Stankovic:
On the Wigner distribution of discrete-time noisy signals with application to the study of quantization effects. IEEE Trans. Signal Process. 42(7): 1863-1867 (1994) - 1993
- [j1]Ljubisa Stankovic, Srdjan Stankovic:
Wigner distribution of noisy signals. IEEE Trans. Signal Process. 41(2): 956-960 (1993)
Coauthor Index
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Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-07 21:24 CEST by the dblp team
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