Smart Disaster Management and Prevention using Reinforcement Learning in IoT Environment

Yogesh S Lonkar, Abhinav Bhagat, Sd Aasif Sd Manjur
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引用次数: 6

Abstract

At starting of the Internet of Things (IoT), it is passing around a world, in which diverse kinds of different objects are there connected to the Internet. It contains the use of smart phones, sensors, cameras, and other devices to make over the actions of people and things into data and link it to the Internet. With its capability to model the real world in digital form and accomplish scrutiny and replication in cyberspace, the IoT is able to reveal new value at an unparalleled rate and deliver it as response to the real world. This is set to convey main changes that will lengthen to the structure of industry in addition to the infrastructure of society itself. Therefore although the occurrence of the IoT contributes rise to new value, it besides means the occurrence of new threats. The proposed work covenant with disaster management as well as prevention to manufacturing industry using IoT. System first investigates the threat scenario during general execution of work, and finds the critical situations. The system processes learning approach for identifying such critical situations and execute the output appliances. System utilized multiple input along with output sensor for experiment. The Q-Learning approach has used for updating the policy which can provide the best result with high accuracy.
在物联网环境中使用强化学习的智能灾害管理和预防
在物联网(IoT)开始的时候,它正在传递一个世界,在这个世界中,各种不同的物体都连接到互联网上。它包括使用智能手机、传感器、摄像头和其他设备,将人和物的行为转化为数据,并将其连接到互联网。凭借其以数字形式模拟现实世界并在网络空间中完成审查和复制的能力,物联网能够以无与伦比的速度揭示新价值,并将其作为对现实世界的响应。这意味着除了社会本身的基础设施之外,还将延伸到工业结构的主要变化。因此,虽然物联网的出现带来了新的价值,但同时也意味着新的威胁的出现。拟议的工作契约与灾害管理以及使用物联网的制造业的预防。系统首先对一般工作执行过程中的威胁场景进行调查,发现关键情况。系统处理学习方法以识别此类关键情况并执行输出设备。系统采用多输入输出传感器进行实验。采用Q-Learning方法对策略进行更新,可以提供高精度的最佳结果。
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