By Suresh Chandra Satapathy, Jyotsna Kumar Mandal, Siba K. Udgata, Vikrant Bhateja
The 3rd overseas convention on info structures layout and clever purposes (INDIA – 2016) held in Visakhapatnam, India in the course of January 8-9, 2016. The e-book covers all facets of data procedure layout, machine technological know-how and know-how, basic sciences, and academic learn. Upon a double blind evaluate procedure, a few top of the range papers are chosen and picked up within the publication, which consists of 3 diversified volumes, and covers numerous subject matters, together with usual language processing, synthetic intelligence, safety and privateness, communications, instant and sensor networks, microelectronics, circuit and structures, laptop studying, tender computing, cellular computing and functions, cloud computing, software program engineering, portraits and photo processing, rural engineering, e-commerce, e-governance, enterprise computing, molecular computing, nano-computing, chemical computing, clever computing for GIS and distant sensing, bio-informatics and bio-computing. those fields should not basically constrained to laptop researchers but additionally contain arithmetic, chemistry, biology, bio-chemistry, engineering, records, and all others during which laptop suggestions may perhaps assist.
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Additional resources for Information Systems Design and Intelligent Applications: Proceedings of Third International Conference INDIA 2016, Volume 3
Hübel, and T. Jennewein, “How to implement decoy-state quantum key distribution for a satellite uplink with 50-db channel loss,” Physical Review A, vol. 84, no. 6, p. 062326, 2011. 7. S. Nauerth, F. Moll, M. Rau, C. Fuchs, J. Horwath, S. Frick, and H. Weinfurter, “Air-toground quantum communication,” Nature Photonics, vol. 7, no. 5, pp. 382–386, 2013. 8. M. T. Rahman, S. Iqbal, and M. M. Islam, “Modeling and performance analysis of free space optical communication system,” in Informatics, Electronics Vision (ICIEV), 2012 International Conference on.
The section ahead verify the free space QKD model using the set of parameters from Table 1. It is essential to mention here, that the simulation assumes default values for eerror ¼ 0:01 and f ðQBERÞ ¼ 1:22 . 48 −5 dB Dark count rate ðDCRÞ ¼ 1 kHz, timing window ðtw Þ ¼ 350 ps, no. 25 −28 dB Dark count rate ðDCRÞ ¼ 1 kHz, timing window ðtw Þ ¼ 5:9 ns, no. 18 dB Dark count rate ðDCRÞ ¼ 300 Hz, timing window ðtw Þ ¼ 125 ns, no. of detectors = 2 – Kim  Modeling and Performance Analysis of Free Space … 35 36 M.
The organization of this paper is as follows: In Sect. 2 the effects of atmospheric disturbances on free space optical transmission and modeling free space QKD is discussed in detail. Section 3 will present a comprehensive review of selective literature, reporting free space QKD and enumerate the parameters essential for modeling. Section 4 will evaluate the developed model against experimental results discussed in Sect. 2. Section 5 will conclude and explore the future scope for free space quantum communication.