Design and Implementation of IoT Testbed with Improved Reliability using Conditional Probability Techniques

2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC) Pub Date : 2020-10-07 DOI:10.1109/I-SMAC49090.2020.9243309

Kayalvizhi Jayavel, Kanagaraj Venusamy, L. G

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引用次数: 5

Abstract

Internet of Things (IoT) test beds are widely used by developers predominantly. Off late, Test beds are being used by data analysts, academicians, industrial persons and hardware ardent. The real purpose of test beds, is to achieve accurate testing results, mimicking the real time environment to the extent possible which is otherwise not possible to reproduce using simulators. As predicted by many industrial giants IoT based devices will reach the scale of billions by 2015. The applications and opportunities they create will also be innumerable. This has created a huge demand for such testing grounds, because a system deployed without proper testing may be vulnerable and sometimes disastrous. Thus our research aims to explore the qualities of test beds, the services they offer and how to enhance the performance of test beds. Our test bed framework is designed and developed with open-source boards to achieved heterogeneity, reusability, interoperability and scalability. This framework would like to be addressed as a utility, with “X” as service: data, sensor client, actuator client, and platform. To achieve this, APIs which is platform and language independent has been developed and provides third-party developer support. The APIs developed have shown considerable improvement in terms of data transfer rate, database upload and retrieval, and user responsiveness. Thus, our framework is capable of offering services through our API. And have demonstrated with the help of conditional probability techniques enhancement in performance and reusability, visualized the same in terms of graphs and datasets.

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基于条件概率技术的物联网试验台可靠性改进设计与实现

物联网(IoT)测试平台被开发人员广泛使用。最近，试验台被数据分析师、学者、工业人士和硬件爱好者使用。试验台的真正目的是获得准确的测试结果，尽可能地模拟实时环境，否则无法使用模拟器再现。正如许多工业巨头预测的那样，到2015年，基于物联网的设备将达到数十亿的规模。它们创造的应用和机会也将是无数的。这就产生了对此类测试场地的巨大需求，因为未经适当测试的系统部署可能是脆弱的，有时甚至是灾难性的。因此，我们的研究旨在探讨试验台的质量，他们提供的服务，以及如何提高试验台的性能。我们的测试平台框架是用开源板设计和开发的，以实现异构性、可重用性、互操作性和可扩展性。这个框架将被视为一个实用程序，“X”作为服务:数据、传感器客户端、执行器客户端和平台。为了实现这一目标，开发了与平台和语言无关的api，并提供第三方开发人员支持。所开发的api在数据传输速率、数据库上传和检索以及用户响应性方面显示出了相当大的改进。因此，我们的框架能够通过我们的API提供服务。并在条件概率技术的帮助下证明了性能和可重用性的增强，并在图形和数据集方面进行了可视化。

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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来源期刊

2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC)

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