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  • Ajin Joy and Joseph Suresh Paul. "A Mixed-order Non-Linear Diffusion Compressed Sensing MR Image Reconstruction." Magnetic Resonance in Medicine, March 2018. https://doi.org/10.1002/mrm.27162

  • Raji Susan Mathew, Joseph Suresh Paul. "Sparsity promoting adaptive regularization for Compressed Sensing Parallel MRI." IEEE Trans. Computational Imaging. Dec (2017).

  • Ajin Joy and Joseph Suresh Paul. "Multichannel compressed sensing MR image reconstruction using statistically optimized nonlinear diffusion." Magnetic Resonance in Medicine, (June 2017), doi:10.1002/mrm.26774.

  • Raji Susan Mathew, Joseph Suresh Paul. "A Frequency Dependent Regularization for autocalibrating Parallel MRI using the Generalized Discrepancy Principle". IEEE Trans. Computational Imaging. May (2017).

  • Madhusoodhanan, S. and Paul, J. S. (2016), A quantitative survey of GRAPPA reconstruction in parallel MRI: impact on noise reduction and aliasing. Concepts Magn Reson. doi:10.1002/cmr.a.21364

  • Mathew RS, Paul JS. “Improving Image Quality in low SNR Parallel Acquisition using a Weighted Least Squares GRAPPA reconstruction,” Journal of Imaging and Interventional Radiology, Vol.2, No.2:26, pp.1-5, April 2016.

  • Akshara P. Krishnan; Ajin Joy; Joseph Suresh Paul. Improved image reconstruction of low-resolution multichannel phase contrast angiography. J. Med. Imag. 3 (1), 014001 (January 22, 2016); doi: 10.1117/1.JMI.3.1.014001

  • JS. Paul , UKS.Pillai, A Higher dimensional homodyne filter for phase sensitive partial Fourier reconstruction of MRI, Magnetic Resonance Imaging. (2015)

  • J. S. Paul , J. J.Mathew, C.Kesavadas , MR image enhancement using an extended neighborhood filter, . J. Vis. Commun. Image Representation. 25 :1604–1615 (2014).

  • J. S. Paul, M. Prasad, R. Venkatesan and M. Braun, “Magnetic Resonance Scan Time Reduction using Echo Prediction”, Int. J. of Imaging Syst. and Technology, vol 23, no.1, pp. 1-8, 2013.

  • J. S. Paul, U. K. S. Pillai , "Application of Linear Prediction for Phase and Magnitude Correction in Partially acquired MRI", ISRN Biomedical Imaging, http://dx.doi.org/10.1155/2013/826508.

  • J. S. Paul and U. K. S. Pillai, “A Model-based Echo Filter for MR Image Restoration with Partial-echo Acquisition”, Journal of Medical Imaging and Health Informatics 4: 576-586 (2014).

  • JS Paul, S.Dokos, P.Duchateau, Eigenfunctions of Acousto-optics, Optics Letters, 34(16): (2009).

  • JS Paul, WC.Fu, S.Dokos, MA. Box, Anisotropic scattering of discrete lattices, Journal of Optical Society of America. A, 27(5): 951-959 (2010).

  • JS.Paul, WC.Fu, Acousto-optic modulation of point scatterer arrays, Optics Letters, 35(7):925-927 (2010).

  • JS.Paul, S.Dokos, Implications of Ultrasound Beam Shape on the Modulation of Diffuse light: Analysis using spatio-temporal perturbation of the refractive index, Springer Journal of Optics, 39(3):126-135 (2010).

  • JS.Paul, D.Sen, S.Dokos, Acousto-Optic Modulation by Pulsed Optical Excitation: Implications for Imaging in Turbid media, Optics Letters, 35(16):2780-2782 (2010).

  • F.Kruggel, JS Paul, HJ Gertz, Texture Based Segmentation of Diffuse Lesions of White Matter, Neuroimage 39: 987–996 (2008).

  • TM.Le, JS.Paul, H.Al-Nashash, AR.Luft, FS.Sheu, SH.Ong, New Insights into image processing of cortical blood flow monitors using Laser Speckle Imaging, IEEE Trans. Medical Imaging, 26(6):833-841 (2007).

  • L.Lemieux, H.Laufs, D.Carmichael, JS.Paul, MC.Walker, JS Duncan, Noncanonical spike-related BOLD responses in Focal epilepsy, Human Brain Mapping 29:329–345 (2008).

  • JS.Paul, AR.Luft, E.Yu, FS.Sheu, Imaging the development of an ischemic ore following photochemically induced cortical infarction in rats using Laser speckle contrast Analysis (LASCA), Neuroimage, 29(1):38-45 (2006).

  • JS. Paul, FS Sheu, AR Luft, Early adaptations in somatosensory cortex after focal ischemic injury to motor cortex, Experimental Brain Research, 168:178-185 (2006).

  • JS Paul, H. Al-Nashash,AR Luft, TM Le. Statistical mapping of speckle autocorrelation for visualization of Hyperemic responses to Cortical stimulation. Annals of Biomedical engineering, 34(7):1107-1118 (2006.).

  • H.Laufs, JL.Holt, R.Elfont, M.Krams, JS.Paul, K.Krakow, A.Kleinshmidt, Where the BOLD signal goes when alpha EEG leaves. Neuroimage. 31(4):1408-1418 (2006).

  • H.Al-Nashash, Y.Yousof, JS Paul, NV.Thakor, EEG Signal Modelling Using Adaptive Markov Process Amplitude, IEEE Trans. Biomed. Engineering, 51(5):744 – 751 (2004).

  • JS.Paul, CB.Patel, H.Al-Nashash, N.Zhang, W.Ziai, MA.Mirski, DL.Sherman, Prediction of PTZ-Induced Seizures Using Wavelet-Based Residual Entropy of Cortical and Subcortical Field Potentials, IEEE Transactions on Biomedical Engineering, 50(5):640-648 (2002).

  • S.Tong, A.Bezerianos, JS.Paul, Y.Zhu, NV.Thakor, Independent Component Analysis for separation of EKG artefacts from weak EEG signals, J. of Neuroscience Methods, 108:11-17 (2001).

  • S.Tong, A.Bezerianos, JS.Paul, Y. Zhu, NV.Thakor, Nonextensive entropy measure of EEG following brain injury from cardiac arrest, Physica A, 305:619-628 (2002).

  • JS.Paul, MRS.Reddy and VJ.Kumar, A Transform Domain SVD Filter for suppression of Muscle noise Artefacts in Exercise ECGs, IEEE Trans. Biomed. Eng., 47:654-663 (2000).

  • JS.Paul, MRS.Reddy and VJ.Kumar, QRS Estimator Using Linear Prediction Approach, Signal Processing, 72:15-22 (1999).

  • JS.Paul, MRS.Reddy and VJ.Kumar, A recursive Algorithm for efficient representation of ECG signals, Electronic Letters, 34:526-528 (1998).

  • JS.Paul, MRS.Reddy and VJ.Kumar, Cepstral Transformation Technique for Dissociation of Wide QRS Type Arrhythmia Signals Using DCT, Signal Processing, 76:123-131 (1999).

  • JS.Paul, MRS.Reddy and VJ.Kumar, Data Processing of Stress ECG Using DCT, Computers in Biology and Medicine, 28:639-658 (1998).

  • JS.Paul, MRS.Reddy and VJ.Kumar, Identification of Premature Ventricular Cycles in Surface Electrograms Using the envelope of DCT, Journal of Applied Signal Processing, 5(4):226-239 (1998).