Big Data and Internet of Things for Analysing and Designing Systems Based on Hyperspectral Images

IF 1.3 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS International Journal of Agricultural and Environmental Information Systems Pub Date : 2019-01-01 DOI:10.4018/978-1-5225-2947-7.CH017
P. Bhargavi, S. Jyothi
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引用次数: 5

Abstract

The recent development of sensors remote sensing is an important source of information for mapping and natural and man-made land covers. The increasing amounts of available hyperspectral data originates from AVIRIS, HyMap, and Hyperion for a wide range of applications in the data volume, velocity, and variety of data contributed to the term big data. Sensing is enabled by Wireless Sensor Network (WSN) technologies to infer and understand environmental indicators, from delicate ecologies and natural resources to urban environments. The communication network creates the Internet of Things (IoT) where sensors and actuators blend with the environment around us, and the information is shared across platforms in order to develop a common operating picture (COP). With RFID tags, embedded sensor and actuator nodes, the next revolutionary technology developed transforming the Internet into a fully integrated Future Internet. This chapter describes the use of Big Data and Internet of the Things for analyzing and designing various systems based on hyperspectral images.
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基于高光谱图像的系统分析与设计的大数据与物联网
遥感传感器的最新发展是测绘和自然和人为土地覆盖的重要信息来源。越来越多的可用高光谱数据来源于AVIRIS、HyMap和Hyperion,它们在数据量、速度和数据种类方面的广泛应用促成了“大数据”这一术语。传感是通过无线传感器网络(WSN)技术来推断和理解环境指标,从脆弱的生态和自然资源到城市环境。通信网络创造了物联网(IoT),传感器和执行器与我们周围的环境融合在一起,信息在平台上共享,以形成共同的操作图像(COP)。随着RFID标签、嵌入式传感器和执行器节点的发展,下一个革命性的技术将把互联网转变为一个完全集成的未来互联网。本章描述了利用大数据和物联网对基于高光谱图像的各种系统进行分析和设计。
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来源期刊
International Journal of Agricultural and Environmental Information Systems
International Journal of Agricultural and Environmental Information Systems COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
6.70
自引率
0.00%
发文量
10
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