%J 2016 3rd International Conference on Computer and Information Sciences, ICCOINS 2016 - Proceedings
%L scholars6505
%O cited By 3; Conference of 3rd International Conference on Computer and Information Sciences, ICCOINS 2016 ; Conference Date: 15 August 2016 Through 17 August 2016; Conference Code:125433
%R 10.1109/ICCOINS.2016.7783217
%D 2016
%X During big data transmission, information loss occurs due to distinct single or multiple bits discrete or continuous transportation errors. The other causes are extra overhead and delays, triggered by diverse highly complex security policies, and illicit interferences. However, the present literature does not suggest any adequate security technique to handle these situations individually or in combination. Hence, this current research proposes a technique, which includes a unique pattern generation technique to protect information from distinct security attacks and a distinctive error control technique to control transmission error. A new pattern table has been introduced in this pattern generation and any number of discrete or continuous error bits can be handled by this unique error control technique. Moreover, this combination offers a backup for accidental Information loss. The performances of proposed technique to protect data have been verified by calculating Percentage of Information Loss, error control abilities have been verified by computing Signal to Noise Ratio and Uncorrectable Error Rate. The time efficiency offered by the proposed can be justified by calculating Throughput. © 2016 IEEE.
%K Data communication systems; Data transfer; Errors; Information science; Signal to noise ratio, Back-up systems; Error control techniques; Information loss; Overhead and delays; Protect information; Security attacks; Transmission error; Uncorrectable errors, Big data
%P 215-220
%A S. Bhattacharjee
%A L.B.A. Rahim
%A I.B.A. Aziz
%I Institute of Electrical and Electronics Engineers Inc.
%T A security scheme to minimize information loss during big data transmission over the internet