Abstract
With the exponential growth in the capacity of information generated and the emerging need for data to be stored for prolonged period of time, there emerges a need for a storage medium with high capacity, high storage density, and possibility to withstand extreme environmental conditions. DNA emerges as the prospective medium for data storage with its striking features. Diverse encoding models for reading and writing data onto DNA, codes for encrypting data which addresses issues of error generation, and approaches for developing codons and storage styles have been developed over the recent past. DNA has been identified as a potential medium for secret writing, which achieves the way towards DNA cryptography and stenography. DNA utilized as an organic memory device along with big data storage and analytics in DNA has paved the way towards DNA computing for solving computational problems. This paper critically analyzes the various methods used for encoding and encrypting data onto DNA while identifying the advantages and capability of every scheme to overcome the drawbacks identified priorly. Cryptography and stenography techniques have been analyzed in a critical approach while identifying the limitations of each method. This paper also identifies the advantages and limitations of DNA as a memory device and memory applications.
Highlights
The excursion of data storage initiated from bones, rocks, and paper
Idea of data storage in deoxyribonucleic acid (DNA) emerges with Microvenus project of Davis [5, 6]: to store an image to DNA leads the foundation for DNA based storage system with the core idea of storing abiotic information on DNA
Data is encrypted into DNA using diverse codes and this article analyzes and discusses the codes used for encrypting data
Summary
The excursion of data storage initiated from bones, rocks, and paper. This journey deviated to punched cards, magnetic tapes, gramophone records, floppies, and so forth. Afterwards with the development of the technology optical discs including CDs, DVDs, Blu-ray discs, and flash drives came into operation. All of these are subjected to decay. The demand for data storage is rapidly increasing day by day. Every year the storage necessity is increasing by 50% [2]. Researchers’ devotion has been driven towards development of a storage mechanism which overcomes the aforementioned drawbacks successfully
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