“Cloud Centric loT Based Farmer’s Virtual Market place”
Main Article Content
Abstract
Cloud computing is aimed at providing IT as a service to the cloud users on-demand basis with greater flexibility, scalability, reliability and availability with utility computing model. This new ideal model of computing has a tremendous potential in it to be utilized as a part of the agriculture furthermore in rural improvement viewpoint in creating nations like India. The fragmented supply chain and inadequate health, safety and quality mechanisms (means the quantity and quality of fruits and vegetables) often do not meet the demands of high-end or international markets. Moreover, Indian farmers receive less than a fifth of the end price for the fruits and vegetables they produce, while a long line of middlemen, transporters, wholesalers and retailers get the rest. So, the aim behind developing this app is to give India’s huge farming community a fair and consistent price for their produce. Using this android based app “Cloud centric IoT based platform for Farmer’s virtual marketplace”, this paper concentrates on how Cloud Computing idea improves virtualization of supply chains in agribusiness segment which will help some of the farmers to overcome this problem. Using these app farmers can directly connect with the end users and supply the product directly to them. Farmers can get most advance grade cultivating and virtualization of supply chains systems, additionally track and check the entire methodology from production, distribution to consumption
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References
Reto Meier, ‚Professional android 4 application development‛. John Wiley & Sons, Inc. 10475 Cross point Boulevard Indianapolis, 2012
K.B.Priya Iyer. Intelligent Path Finder for Goal Directed Queries in Spatial Networks. International Conference on Advances in Mobile Network, Communication and Its Application 2012
Kerry Taylor, Colin Griffith, David Lamb, Greg Falzon, and Mark Trotter, ‚Farming the Web of Things‛, IEEE INTELLIGENT SYSTEMS Published by the IEEE Computer Society.
C.N. Verdouw, A.J.M. Beulens, J.G.A.J. van der Vorst, ‘’ Virtualisation of floricultural supply chains: A review from an Internet of Things perspective‛, Computers and Electronics in Agriculture 99 ,Elsevier (2013) 160–175
Acharya, S.S. (2005), ‚Agriculture marketing and rural credit: Status, Issues and Reform agenda, Area, Production and Yield of Principal Crops in India‛, Directorate of Economics and Statistics, Ministry of Agriculture.
Global Positioning System Open Courseware from MIT, 2012
van der Lans, Rick F. (September 7, 2009). The SQL Guide to SQLite (!st ed.)
Newman, Chris (November 9, 2004), SQLite (Developer’s Library)(1st ed.).
G. Suciu et al., ‚Smart cities built on resilient cloud computing and secure Internet of Things,‛ in Proc. 19th Int. Conf. Control Syst. Comput. Sci. (CSCS), May 2013, pp. 513–518.
X. Yu, F. Sun, and X. Cheng, ‚Intelligent urban traffic management system based on cloud computing and Internet of Things,‛ in Proc. Int. Conf. Comput. Sci. Service Syst. (CSSS), Aug. 2012, pp. 2169–2172.
Mentzer, John T., William DeWitt, James S. Keebler, Soonhoong Min, Nancy W. Nix, Carlo D. Smith, & Zach G. Zacharia (2001): ‚Defining Supply Chain Management‛, Journal of Business Logistics, Vol. 22, No. 2, pp. 1–25.
C. Perera, P. Jayaraman, A. Zaslavsky, P. Christen, and D. Georgakopoulos, ‚Dynamic configuration of sensors using mobile sensor hub in Internet of Things paradigm,‛ in Proc. IEEE Int. Conf. Intell. Sensors, Sensor Netw. Inf. Process., Apr. 2013, pp. 473–478.
A. E. Al-Fagih, F. M. Al-Turjman, W. M. Alsalih, and H. S. Hassanein, ‚A priced public sensing framework for heterogeneous IoT architectures,‛ IEEE Trans. Emerging Topics Comput., vol. 1, no. 1, pp. 133–147, Jun. 2013.