Low-density parity-check code, Optical communication, Electronic engineering, Algorithm and Block code are his primary areas of study. His Low-density parity-check code research is multidisciplinary, incorporating elements of Discrete mathematics, Concatenated error correction code, Turbo code, Forward error correction and Linear code. His Optical communication research integrates issues from Code division multiple access, Coding, Bit error rate and Topology.
The concepts of his Electronic engineering study are interwoven with issues in Raptor code, Dispersion, Communication channel, Signal processing and Communications system. His Error detection and correction and Decoding methods study are his primary interests in Algorithm. His Decoding methods study combines topics in areas such as Theoretical computer science and Electrical engineering.
His primary areas of study are Low-density parity-check code, Algorithm, Decoding methods, Electronic engineering and Error detection and correction. Bane Vasic has researched Low-density parity-check code in several fields, including Discrete mathematics, Block code, Concatenated error correction code, Turbo code and Parity bit. In Concatenated error correction code, Bane Vasic works on issues like Linear code, which are connected to Hamming code.
His work deals with themes such as Forward error correction, Tornado code and Raptor code, which intersect with Turbo code. In his work, Detector is strongly intertwined with Communication channel, which is a subfield of Algorithm. Bane Vasic works in the field of Electronic engineering, focusing on Optical communication in particular.
The scientist’s investigation covers issues in Low-density parity-check code, Algorithm, Decoding methods, Error detection and correction and Parity bit. Bane Vasic interconnects Discrete mathematics and Bit error rate in the investigation of issues within Low-density parity-check code. His Algorithm study integrates concerns from other disciplines, such as Randomness and Communication channel.
His research integrates issues of Gradient descent, Probabilistic logic and Code in his study of Decoding methods. His work carried out in the field of Error detection and correction brings together such families of science as Graph, Noise measurement, Computer hardware and Robustness. Bane Vasic combines subjects such as Artificial neural network and Concatenated error correction code with his study of Parity bit.
Bane Vasic mainly focuses on Decoding methods, Low-density parity-check code, Algorithm, Error detection and correction and Gradient descent. His work deals with themes such as Randomness and Maxima and minima, which intersect with Decoding methods. His Low-density parity-check code research is multidisciplinary, relying on both Discrete mathematics, Girth and Algorithm design.
Many of his research projects under Algorithm are closely connected to Fault tolerance with Fault tolerance, tying the diverse disciplines of science together. His studies deal with areas such as Probabilistic logic, Computer hardware and Noise measurement as well as Error detection and correction. His Gradient descent research includes themes of List decoding and Parallel computing.
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Orthogonal frequency division multiplexing for high-speed optical transmission
Ivan B. Djordjevic;Bane Vasic.
Optics Express (2006)
Combinatorial constructions of low-density parity check codes for iterative decoding
B. Vasic;O. Milenkovic.
international symposium on information theory (2002)
Turbulence-induced channel crosstalk in an orbital angular momentum-multiplexed free-space optical link
Jaime A. Anguita;Mark A. Neifeld;Bane V. Vasic.
Applied Optics (2008)
Penetration of the Stigma and Style Elicits a Novel Transcriptome in Pollen Tubes, Pointing to Genes Critical for Growth in a Pistil
Yuan Qin;Alexander R. Leydon;Ann Manziello;Ritu Pandey.
PLOS Genetics (2009)
High-rate girth-eight low-density parity-check codes on rectangular integer lattices
B. Vasic;K. Pedagani;M. Ivkovic.
IEEE Transactions on Communications (2004)
High-rate low-density parity check codes based on anti-Pasch affine geometries
international conference on communications (2002)
Coding for Optical Channels
Ivan Djordjevic;William Ryan;Bane Vasic.
Coding and Signal Processing for Magnetic Recording Systems
Bane Vasic;Erozan M. Kurtas.
Shannon capacities and error-correction codes for optical atmospheric turbulent channels
Jaime A. Anguita;Ivan B. Djordjevic;Mark A. Neifeld;Bane V. Vasic.
Journal of Optical Networking (2005)
Eliminating Trapping Sets in Low-Density Parity-Check Codes by Using Tanner Graph Covers
M. Ivkovic;S.K. Chilappagari;B. Vasic.
IEEE Transactions on Information Theory (2008)
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