Basic Image
Summary for Basic Image
Basic Image
Summary
Content Cards Block
Cart title
Cart textCard title 2
Card textCard Title 3
Card text 3Sponsor's Logo
Title Description
The name of this block is "Title Description"
Recent Journal Issues
Journal descriptionÂ
Journal Description
Two Cards
This card provides an image
Title description link
Body of "Title description link"/ Â There is the option for a background image. Â Set "Fixed Container"
Events
DCC2026 - Data Compression Conference
The Data Compression Conference (DCC) is an international forum for current work on data compression and related applications. It will take place March 24–27, 2026 at The Cliff Lodge convention center in the beautiful Snowbird & Alta Ski areas.
https://datacompressionconference.org/
The 10th van der Meulen Seminar
The 10th van der Meulen Seminar will be held at Eindhoven University of Technology on Monday, 24 November 2025. The seminar will feature three lectures by leading international experts in information theory.
Call for Papers: XIÐ¥ International Symposium Problems of Redundancy in Information and Control Systems (REDUNDANCY 2025)
The 19th International Symposium on "Problems of Redundancy in Information and Control Systems" will take place on 05-07th November 2025. Paper submission deadline is the 22st of September, 2025.
Events and meeting: Events and Meeting
BoG Meeting - Hybrid Meeting, NYC - November 2025
This will be a hybrid meeting in person room and on Zoom.
Call for Papers: XIÐ¥ International Symposium Problems of Redundancy in Information and Control Systems (REDUNDANCY 2025)
The 19th International Symposium on "Problems of Redundancy in Information and Control Systems…
XIÐ¥ International Symposium on Problems of Redundancy in Information and Control Systems (REDUNDANCY 2025)
The conference will be held on 05–07 November 2025 at the MIEM HSE premises (Tallinskaya 34, Moscow…
Upcoming Events
The 11th International Workshop on Signal Design and its Applications in Communications(IWSDA'25)
ÌÇÐÄlogo International Symposium on Information Theory (ISIT) 2026
2026 ÌÇÐÄlogo Information Theory Workshop (ITW)
Upcoming Events AAA
The 11th International Workshop on Signal Design and its Applications in Communications(IWSDA'25)
ÌÇÐÄlogo International Symposium on Information Theory (ISIT) 2026
2026 ÌÇÐÄlogo Information Theory Workshop (ITW)
Research In Information Theory
This paper presents constructions of DNA codes that satisfy biological and combinatorial constraints for DNA-based data storage systems. We introduce an algorithm that generates DNA blocks containing sequences that meet the required constraints for DNA codes. The constructed DNA sequences satisfy biological constraints: balanced GC-content, avoidance of secondary structures, and prevention of homopolymer runs.
DNA-based data storage systems face practical challenges due to the high cost of DNA synthesis. A strategy to address the problem entails encoding data via topological modifications of the DNA sugar-phosphate backbone. The DNA Punchcards system, which introduces nicks (cuts) in the DNA backbone, encodes only one bit per nicking site, limiting density. We propose DNA Tails, a storage paradigm that encodes nonbinary symbols at nicking sites by growing enzymatically synthesized single-stranded DNA of varied lengths.
The number of zeros and the number of ones in a binary string are referred to as the composition of the string, and the prefix-suffix compositions of a string are a multiset formed by the compositions of the prefixes and suffixes of all possible lengths of the string. In this work, we present binary codes of length n in which every codeword can be efficiently reconstructed from its erroneous prefix-suffix compositions with at most t composition errors.
This paper studies two problems that are motivated by the novel recent approach of composite DNA that takes advantage of the DNA synthesis property which generates a huge number of copies for every synthesized strand. Under this paradigm, every composite symbols does not store a single nucleotide but a mixture of the four DNA nucleotides. The first problem studies the expected number of strand reads in order to decode a composite strand or a group of composite strands.