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Sven Simon 0001
Person information
- affiliation: University of Stuttgart, Institute for Parallel and Distributed Systems, Germany
Other persons with the same name
- Sven Simon 0002 — Georgia Institute of Technology, School of Earth and Atmospheric Sciences, Atlanta, GA, USA (and 1 more)
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2020 – today
- 2023
- [j20]Kaicong Sun
, Sven Simon:
A resolution enhancement plug-in for deformable registration of medical images. Biomed. Signal Process. Control. 79(Part): 104090 (2023) - [j19]Ammar Alsaffar, Kaicong Sun, Sven Simon:
Multi-material blind beam hardening correction in near real-time based on non-linearity adjustment of projections. J. Real Time Image Process. 20(2): 20 (2023) - 2022
- [j18]Kaicong Sun
FL-MISR: fast large-scale multi-image super-resolution for computed tomography based on multi-GPU acceleration. J. Real Time Image Process. 19(2): 331-344 (2022) - [j17]Trung-Hieu Tran
A GPU-accelerated light-field super-resolution framework based on mixed noise model and weighted regularization. J. Real Time Image Process. 19(5): 893-910 (2022) - [j16]Ammar Alsaffar, Steffen Kieß, Kaicong Sun, Sven Simon:
Computational scatter correction in near real-time with a fast Monte Carlo photon transport model for high-resolution flat-panel CT. J. Real Time Image Process. 19(6): 1063-1079 (2022) - [j15]Trung-Hieu Tran, Jan Berberich, Sven Simon:
3DVSR: 3D EPI volume-based approach for angular and spatial light field image super-resolution. Signal Process. 192: 108373 (2022) - [j14]Kaicong Sun
An FPGA-Based Residual Recurrent Neural Network for Real-Time Video Super-Resolution. IEEE Trans. Circuits Syst. Video Technol. 32(4): 1739-1750 (2022) - [i5]Trung-Hieu Tran, Jan Berberich, Sven Simon:
3DVSR: 3D EPI Volume-based Approach for Angular and Spatial Light field Image Super-resolution. CoRR abs/2201.01294 (2022) - [i4]Trung-Hieu Tran, Kaicong Sun, Sven Simon:
A GPU-Accelerated Light-field Super-resolution Framework Based on Mixed Noise Model and Weighted Regularization. CoRR abs/2206.05047 (2022) - 2021
- [j13]Dieter Fritsch
Making Historical Gyroscopes Alive - 2D and 3D Preservations by Sensor Fusion and Open Data Access. Sensors 21(3): 957 (2021) - [j12]Trung-Hieu Tran
GVLD: A Fast and Accurate GPU-Based Variational Light-Field Disparity Estimation Approach. IEEE Trans. Circuits Syst. Video Technol. 31(7): 2562-2574 (2021) - [j11]Kaicong Sun
Bilateral Spectrum Weighted Total Variation for Noisy-Image Super-Resolution and Image Denoising. IEEE Trans. Signal Process. 69: 6329-6341 (2021) - [i3]Kaicong Sun, Sven Simon:
A Resolution Enhancement Plug-in for Deformable Registration of Medical Images. CoRR abs/2112.15180 (2021) - 2020
- [j10]Kaicong Sun, Trung-Hieu Tran, Roman Krawtschenko, Sven Simon:
Multi-frame super-resolution reconstruction based on mixed Poisson-Gaussian noise. Signal Process. Image Commun. 82: 115736 (2020) - [i2]Kaicong Sun, Sven Simon:
FDRN: A Fast Deformable Registration Network for Medical Images. CoRR abs/2011.02307 (2020)
2010 – 2019
- 2019
- [j9]Zhe Wang, Trung-Hieu Tran
A JND-Based Pixel-Domain Algorithm and Hardware Architecture for Perceptual Image Coding. J. Imaging 5(5): 50 (2019) - [j8]Michael J. Klaiber
Comparative Study and Proof of Single-Pass Connected Components Algorithms. J. Math. Imaging Vis. 61(8): 1112-1134 (2019) - [j7]Michael J. Klaiber, Donald G. Bailey
A single-cycle parallel multi-slice connected components analysis hardware architecture. J. Real Time Image Process. 16(4): 1165-1175 (2019) - [j6]Yousef Baroud, José Manuel Mariños Velarde, Zhe Wang, Steffen Kieß, Seyyed Mahdi Najmabadi, Guhathakurta Jajnabalkya, Sven Simon:
Architecture for parallel marker-free variable length streams decoding. J. Real Time Image Process. 16(6): 2127-2146 (2019) - [j5]Seyyed Mahdi Najmabadi, Trung-Hieu Tran, Sherif Eissa, Harsimran Singh Tungal, Sven Simon:
An Architecture for Asymmetric Numeral Systems Entropy Decoder - A Comparison with a Canonical Huffman Decoder. J. Signal Process. Syst. 91(7): 805-817 (2019) - [c52]Hamish Bradley, Donald G. Bailey, Steven Le Moan, Peter Gaenz
Sub-Pixel Registration Technique for X-ray Phase Contrast Imaging. IVCNZ 2019: 1-5 - 2018
- [c51]Trung-Hieu Tran, Gasim Mammadov, Kaicong Sun, Sven Simon:
GPU-Accelerated Light-Field Image Super-Resolution. ACOMP 2018: 7-13 - [i1]Trung-Hieu Tran, Zhe Wang, Sven Simon:
Variational Disparity Estimation Framework for Plenoptic Image. CoRR abs/1804.06633 (2018) - 2017
- [j4]Seyyed Mahdi Najmabadi, Philipp Offenhäuser, Moritz Hamann, Guhathakurta Jajnabalkya, Fabian Hempert, Colin W. Glass, Sven Simon:
Analyzing the Effect and Performance of Lossy Compression on Aeroacoustic Simulation of Gas Injector. Comput. 5(2): 24 (2017) - [c50]Seyyed Mahdi Najmabadi, Harsimran Singh Tungal, Trung-Hieu Tran, Sven Simon:
Hardware-based architecture for asymmetric numeral systems entropy decoder. DASIP 2017: 1-6 - [c49]Trung-Hieu Tran
Light-field image compression based on variational disparity estimation and motion-compensated wavelet decomposition. ICIP 2017: 3260-3264 - [c48]Trung-Hieu Tran
Variational disparity estimation framework for plenoptic images. ICME 2017: 1189-1194 - [c47]Seyyed Mahdi Najmabadi, Prajwala Pandit, Trung-Hieu Tran, Sven Simon:
A resource-efficient monitoring architecture for hardware accelerated self-adaptive online data stream compression. SPA 2017: 222-227 - 2016
- [j3]Michael J. Klaiber, Donald G. Bailey
A Resource-Efficient Hardware Architecture for Connected Component Analysis. IEEE Trans. Circuits Syst. Video Technol. 26(7): 1334-1349 (2016) - [c46]Zhe Wang, Sven Simon:
Low Complexity Pixel Domain Perceptual Image Compression via Adaptive Down-Sampling. DCC 2016: 636 - [c45]Seyyed Mahdi Najmabadi, Zhe Wang, Yousef Baroud, Sven Simon:
Online Bandwidth Reduction Using Dynamic Partial Reconfiguration. FCCM 2016: 168-171 - [c44]Zhe Wang, Yousef Baroud, Seyyed Mahdi Najmabadi, Sven Simon:
Low complexity perceptual image coding by just-noticeable difference model based adaptive downsampling. PCS 2016: 1-5 - [c43]Yousef Baroud, José Manuel Mariños Velarde, Sven Simon:
Architecture for parallelizing decoding of marker-free variable length code streams. SPA 2016: 270-275 - 2015
- [c42]Seyyed Mahdi Najmabadi, Zhe Wang, Yousef Baroud, Sven Simon:
High throughput hardware architectures for asymmetric numeral systems entropy coding. ISPA 2015: 256-259 - [c41]Zhe Wang, Sven Simon, Yousef Baroud, Seyyed Mahdi Najmabadi:
Visually lossless image compression extension for JPEG based on just-noticeable distortion evaluation. IWSSIP 2015: 237-240 - 2014
- [c40]Ghada Dessouky, Michael J. Klaiber, Donald G. Bailey
Adaptive Dynamic On-chip Memory Management for FPGA-based reconfigurable architectures. FPL 2014: 1-8 - 2013
- [c39]Seyyed Mahdi Najmabadi, Michael J. Klaiber, Zhe Wang, Yousef Baroud, Sven Simon:
Stream Processing of Scientific Big Data on Heterogeneous Platforms - Image Analytics on Big Data in Motion. CSE 2013: 965-970 - [c38]Thomas Richter, Sven Simon:
High Throughput Coding of Video Signals. DCC 2013: 517 - [c37]Michael J. Klaiber, Donald G. Bailey
A high-throughput FPGA architecture for parallel connected components analysis based on label reuse. FPT 2013: 302-305 - [c36]Thomas Richter, Sven Simon:
Coding strategies and performance analysis of GPU accelerated image compression. PCS 2013: 125-128 - 2012
- [c35]Yurij Gera, Zhe Wang, Sven Simon, Thomas Richter:
Fast and Context-Free Lossless Image Compression Algorithm Based on JPEG-LS. DCC 2012: 396 - [c34]Zhe Wang, Michael J. Klaiber, Yurij Gera, Sven Simon, Thomas Richter:
Fast lossless image compression with 2D Golomb parameter adaptation based on JPEG-LS. EUSIPCO 2012: 1920-1924 - [c33]Michael J. Klaiber, Lars Rockstroh, Zhe Wang, Yousef Baroud, Sven Simon:
A memory-efficient parallel single pass architecture for connected component labeling of streamed images. FPT 2012: 159-165 - [c32]T. Lefeure, Lars Rockstroh, Michael J. Klaiber, N. Fortier, Sven Simon:
Relaxation of particle image velocimetry based on single autocorrelation of filtered motion blurring. ICASSP 2012: 1329-1332 - [c31]Lars Rockstroh, Michael J. Klaiber, Sven Simon:
Correlation and convolution of image data using fermat number transform based on two's complement. ICASSP 2012: 1637-1640 - [c30]Zhe Wang, Sven Simon, Michael J. Klaiber, Silvia Ahmed, Thomas Richter:
SSPQ - spatial domain perceptual image codec based on subsampling and perceptual quantization. ICIP 2012: 1061-1064 - [c29]Thomas Richter, Sven Simon:
On the JPEG 2000 ultrafast mode. ICIP 2012: 2501-2504 - [c28]Zhe Wang, Debasish Chanda, Sven Simon, Thomas Richter:
Memory efficient lossless compression of image sequences with JPEG-LS and temporal prediction. PCS 2012: 305-308 - 2011
- [c27]Lars Rockstroh, Simeon Wahl, Zhe Wang, Philipp Werner, Sven Simon:
An image filter technique to relax particle image velocimetry. EUSIPCO 2011: 283-287 - [c26]Simeon Wahl, Haitham A. Tantawy, Zhe Wang, Philipp Werner, Sven Simon:
Exploitation of context classification for parallel pixel coding in JPEG-LS. ICIP 2011: 2001-2004 - [c25]Wenbin Li, Sven Simon, Steffen Kieß:
On the numerical sensitivity of computer simulations on hybrid and parallel computing systems. HPCS 2011: 510-516 - [c24]Zhe Wang, Anto Y. Michael, Simeon Wahl, Philipp Werner, Sven Simon:
A memory efficient parallel lossless image compression engine for high performance embedded systems. ISPA 2011: 390-395 - [c23]M. Z. Shaikh, Mireille Grégoire, W. Li, Marek Wróblewski, Sven Simon:
In Situ Power Analysis of General Purpose Graphical Processing Units. PDP 2011: 40-44 - 2010
- [c22]Simeon Wahl, Zhe Wang, Chensheng Qiu, Marek Wróblewski, Lars Rockstroh, Sven Simon:
Memory-efficient parallelization of JPEG-LS with relaxed context update. PCS 2010: 142-145
2000 – 2009
- 2008
- [c21]Ana Balevic, Lars Rockstroh, Wenbin Li, Jürgen Hillebrand, Sven Simon, Andreas Tausendfreund, Stefan Patzelt, Gert Goch:
Acceleration of a finite-difference method with general purpose GPUs - Lesson learned. CIT 2008: 291-294 - [c20]Ana Balevic, Lars Rockstroh, Andreas Tausendfreund, Stefan Patzelt, Gert Goch, Sven Simon:
Accelerating Simulations of Light Scattering Based on Finite-Difference Time-Domain Method with General Purpose GPUs. CSE 2008: 327-334 - [c19]Ana Balevic, Lars Rockstroh, Marek Wróblewski, Sven Simon:
Using Arithmetic Coding for Reduction of Resulting Simulation Data Size on Massively Parallel GPGPUs. PVM/MPI 2008: 295-302 - 2006
- [j2]Matthias Müller, Sven Simon, Holger Gryska, Andreas Wortmann, Steffen Buch:
Low power synthesizable register files for processor and IP cores. Integr. 39(2): 131-155 (2006) - 2005
- [c18]Vijayakumar Kalyanaraman, Matthias Müller, Sven Simon, Mario Steinert, Holger Gryska:
A power dissipation comparison of ALU-architectures for ASIPs. ECCTD 2005: 217-220 - [c17]Vijayakumar Kalyanaraman, Matthias Müller, Sven Simon, Mario Steinert, Holger Gryska:
Power reduction of ASIPs by distributing the workload on several ASIP-instances. ECCTD 2005: 457-460 - [c16]Matthias Müller, Sven Simon:
Datenskalierung für die verlustleistungsarme Signalverarbeitung in Prozessorsystemen. GI Jahrestagung (1) 2005: 457 - 2004
- [c15]Andreas Wortmann, Sven Simon, Matthias Müller:
A High-Speed Transceiver Architecture Implementable as Synthesizable IP Core. DATE 2004: 46-51 - [c14]Sven Simon, Matthias Müller, Holger Gryska, Andreas Wortmann, Steffen Buch:
An instruction set for the efficient implementation of the CORDIC algorithm. ISCAS (2) 2004: 357-360 - [c13]Matthias Müller, Andreas Wortmann, Sven Simon, Michael Kugel, Tim Schoenauer:
The impact of clock gating schemes on the power dissipation of synthesizable register files. ISCAS (2) 2004: 609-612 - [c12]Matthias Müller, Andreas Wortmann, Dominik Mader, Sven Simon:
Register Isolation for Synthesizable Register Files. PATMOS 2004: 228-237 - 2003
- [c11]Marek Wróblewski, Matthias Müller, Andreas Wortmann, Sven Simon, Wilhelm Pieper, Josef A. Nossek:
A power efficient register file architecture using master latch sharing. ISCAS (5) 2003: 393-396 - 2002
- [c10]Matthias Müller, Andreas Wortmann, Sven Simon, S. Wolter, Steffen Buch, Marek Wróblewski, Josef A. Nossek:
Low power register file architecture for application specific DSPs. ISCAS (4) 2002: 89-92 - 2000
- [c9]Marek Wróblewski, Sven Simon, Josef A. Nossek:
Low power transformation of datapath architectures with cyclic SFGs. ISCAS 2000: 597-600
1990 – 1999
- 1999
- [j1]Peter Rieder, Sven Simon, Christian V. Schimpfle:
Application Specific Efficient VLSI Architectures for Orthogonal Single- and Multiwavelet Transforms. J. VLSI Signal Process. 21(2): 77-90 (1999) - [c8]Christian V. Schimpfle, Sven Simon, Josef A. Nossek:
High-level circuit modeling for power estimation. ICECS 1999: 807-810 - [c7]Sven Simon, Marek Wróblewski:
Low power datapath design using transformation similar to temporal localization of SFGs. ISCAS (1) 1999: 59-61 - [c6]Christian V. Schimpfle, Sven Simon, Josef A. Nossek:
Device level based cell modeling for fast power estimation. ISCAS (1) 1999: 90-93 - 1997
- [b1]Sven Simon:
Entwurf von Datenpfaden in schnellen integrierten Schaltungen. Technical University Munich, Shaker 1997, ISBN 3-8265-2623-6, pp. 1-130 - [c5]Christian V. Schimpfle, Sven Simon, Josef A. Nossek:
Low Power CORDIC Implementation Using Redundant Number Representation. ASAP 1997: 154-161 - 1996
- [c4]Ernst G. Bernard, Sven Simon, Josef A. Nossek:
Built-in self test architectures for multistage interconnection networks. ED&TC 1996: 176-180 - 1995
- [c3]Sven Simon, Johann Hofner, Josef A. Nossek:
Retiming of Circuits Containing Multiplexers. ISCAS 1995: 1736-1739 - [c2]Sven Simon, Ralf Bucher, Josef A. Nossek:
Retiming of synchronous circuits with variable topology. VLSI Design 1995: 130-134 - 1994
- [c1]Sven Simon, Ernst G. Bernard, Matthias Sauer, Josef A. Nossek:
A New Retiming Algorithm for Circuit Design. ISCAS 1994: 35-38
Coauthor Index
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