Auction Algorithm: Peer-To-Peer System Based on Hybrid Technologies for Smallholder Farmers to Control Demand and Supply

International Journal of Research In Science & Engineering Pub Date : 2023-01-02 DOI:10.55529/ijrise.31.9.23

M. Srikanth, R. Mohan, M. Naik

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引用次数: 5

Abstract

The demand for agricultural goods could be affected by variables such as population growth and consumer tastes. Environmental and zoonotic risks jeopardise crop yields as well as the dependability of distribution and storage networks. Governments can aid in addressing issues of supply and demand by enacting policies like price controls and subsidies. Climate change threatens agricultural output and livestock health, while other climate variables have been polluted by outside sources. Pesticides not only endanger wildlife that isn't intended to be harmed, but they also poison the environment, killing beneficial insects and other organisms. The rising costs of agricultural goods may be mitigated, at least in part, through regional and global trade agreements. When third parties intervene in farming, farmers stand to lose money. One example is the utilisation of low-quality inputs, while another is predatory financing. So we are proposing an Auction Algorithm: peer-to-peer system based on hybrid technologies for smallholder farmers to control demand and supply. To implement an auction algorithm, you need to set up the auction platform and back-end systems. You may also need to integrate the platform with hybrid technologies such as block chain and machine learning. Together, machine learning and blockchain technology can help agriculture companies improve their forecasts of demand and supply, make it easier to keep track of inventory, and reduce risks and inefficiencies in the supply chain. Designing and constructing the blockchain, establishing the P2P network, testing and deploying the system these are the stages of bringing a peer-to-peer system to life using blockchain technology. When we implement the above technologies in the agriculture sector, they have the potential to improve efficiency, promote transparency, and eventually help farmers increase their earnings. This technology can help increase agricultural quality by enhancing industrial efficiency, transparency, and sustainability.

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拍卖算法:基于混合技术的小农供需控制点对点系统

对农产品的需求可能受到人口增长和消费者口味等变量的影响。环境和人畜共患病风险危及作物产量以及分配和储存网络的可靠性。政府可以通过制定价格控制和补贴等政策来帮助解决供需问题。气候变化威胁着农业产出和牲畜健康，而其他气候变量也受到外部来源的污染。杀虫剂不仅危害了本不应受到伤害的野生动物，还毒害了环境，杀死了益虫和其他生物。通过区域和全球贸易协定，农产品成本的上升可能会得到缓解，至少在一定程度上是这样。当第三方干预农业时，农民就会蒙受损失。一个例子是使用低质量投入，另一个例子是掠夺性融资。因此，我们提出了一种拍卖算法:基于混合技术的点对点系统，用于小农控制需求和供应。要实现拍卖算法，需要设置拍卖平台和后端系统。您可能还需要将平台与混合技术(如区块链和机器学习)集成。机器学习和区块链技术可以帮助农业公司改善对需求和供应的预测，使其更容易跟踪库存，并降低供应链中的风险和低效率。设计和构建区块链，建立P2P网络，测试和部署系统，这些都是使用区块链技术将点对点系统带入生活的阶段。当我们在农业部门实施上述技术时，它们有可能提高效率，提高透明度，并最终帮助农民增加收入。这项技术可以通过提高工业效率、透明度和可持续性来帮助提高农业质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Research In Science & Engineering

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