Takahiro Ota

Senshu University, Network and Information, Faculty Member

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Mehdi Hussain

University of Malaya, Malaysia

Kruti Vyas

Nirma University of Science and Technology

Evans Twumasi

Robert Gordon University

Bello M Yakubu

Chulalongkorn University

Armando Marques-Guedes

UNL - New University of Lisbon

Gwen Robbins Schug

University of North Carolina at Greensboro

Gabriel Gutierrez-Alonso

University of Salamanca

John Sutton

Macquarie University

Kevin Arbuckle

Swansea University

Lev Manovich

Graduate Center of the City University of New York

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Addressing Information Using Data Hiding for DNA-based Storage Systems

2020 International Symposium on Information Theory and Its Applications (ISITA), 2020

DNA-based storage systems have been recently studied very well because the systems have ultra-hig... more DNA-based storage systems have been recently studied very well because the systems have ultra-high density and ultra-long endurance compared with traditional data storage media. DNA-based storage systems use a DNA strand which stores a subblock of an input data. Additionally, its infra-file location (an address or index of the subblock) is also stored to restore the input data from a set of DNA strands. In fact, the cost of the indices becomes large as input data size goes to large. Moreover, the cost of constructing DNA strands, called synthesizing, is expensive.In this paper, for reducing the cost of indices in DNA strands, we propose addressing information using data hiding (steganography) for DNA-based storage systems. The proposed algorithms embed an index to a subblock of an input data in a DNA strand, and the index block is removed from a DNA strand. We also evaluate the number of bits which can be embed to a subblock for variants of conventional DNA-based storage systems. Th...

A Reconstruction of Circular Binary String Using Substrings and Minimal Absent Words

IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences

A circular string formed by connecting the first and the last symbols of a string is one of the s... more A circular string formed by connecting the first and the last symbols of a string is one of the simplest sequence forms, and it has been used for many applications such as data compression and fragment assembly problem. A sufficient condition on the lengths of substrings with frequencies for reconstruction of an input circular binary string is shown. However, there are no detailed descriptions on the proof of the sufficient condition and reconstruction algorithm. In this paper, we prove a necessary and sufficient condition on the lengths of substrings with frequencies for reconstruction of the circular string. We show the length is shorter than that of previous study for some circular strings. For improving the length, we use minimal absent words (MAWs) for given substrings of length 𝑘, and we propose a new construction algorithm of MAWs of length ℎ (> 𝑘) while a conventional construction algorithm of MAWs can construct MAWs of length ℓ ( ≤ 𝑘). Moreover, we propose reconstruction algorithm of an input circular string for given substrings satisfying the new condition.

Takahiro Ota

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