Real-Time Internet of Things (IOT) Application Big Data Stream Graph Optimization Framework

This article proposes an intelligent monitoring system for semiconductor manufacturing equipment, which determines spec-in or spec-out for a wafer in process, using Internet of Things–based big data analysis. The proposed system consists of three phases: initialization, learning, and prediction in real time. The initialization sets the weights and the effective steps for all parameters of equipment to be monitored. The learning performs a clustering to assign similar patterns to the same class. The patterns consist of a multiple time-series produced by semiconductor manufacturing equipment and an after clean inspection measured by the corresponding tester. We modify the Line, Buzo, and Gray algorithm for classifying the time-series patterns. The modified Line, Buzo, and Gray algorithm outputs a reference model for every cluster. The prediction compares a time-series entered in real time with the reference model using statistical dynamic time warping to find the best matched pattern and then calculates a predicted after clean inspection by combining the measured after clean inspection, the dissimilarity, and the weights. Finally, it determines spec-in or spec-out for the wafer. We will present experimental results that show how the proposed system is applied on the data acquired from semiconductor etching equipment.

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A Robust Architectural Framework for Big Data Stream Computing in Personal Healthcare Real Time Analytics

2017 World Congress on Computing and Communication Technologies (WCCCT) ◽

10.1109/wccct.2016.32 ◽

2017 ◽

Cited By ~ 5

Author(s):

R. Vanathi ◽

A. Shaik Abdul Khadir

Keyword(s):

Big Data ◽

Real Time ◽

Data Stream ◽

Stream Computing ◽

Personal Healthcare ◽

Architectural Framework

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PERFORMANCE ANALYSIS OF HYBRID CLASSIFICATION SYSTEM MODEL FOR BIG DATA STREAM USING INTERNET OF THINGS

International Journal of System of Systems Engineering ◽

10.1504/ijsse.2021.10034877 ◽

2021 ◽

Vol 11 (3/4) ◽

pp. 1

Author(s):

Gayathri Devi N ◽

Manikandan K

Keyword(s):

Big Data ◽

Performance Analysis ◽

Internet Of Things ◽

Classification System ◽

Data Stream ◽

System Model ◽

Hybrid Classification

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Performance Improvement IoT Applications Through Multimedia Analytics Using Big Data Stream Computing Platforms

Exploring the Convergence of Big Data and the Internet of Things - Advances in Data Mining and Database Management ◽

10.4018/978-1-5225-2947-7.ch015 ◽

2018 ◽

pp. 200-221

Author(s):

Rizwan Patan ◽

Rajasekhara Babu M ◽

Suresh Kallam

Keyword(s):

Big Data ◽

Real Time ◽

Performance Improvement ◽

Data Stream ◽

Real Data ◽

Stream Computing ◽

Time Data ◽

Real Time Data ◽

Computing Platforms ◽

Time And Energy

A Big Data Stream Computing (BDSC) Platform handles real-time data from various applications such as risk management, marketing management and business intelligence. Now a days Internet of Things (IoT) deployment is increasing massively in all the areas. These IoTs engender real-time data for analysis. Existing BDSC is inefficient to handle Real-data stream from IoTs because the data stream from IoTs is unstructured and has inconstant velocity. So, it is challenging to handle such real-time data stream. This work proposes a framework that handles real-time data stream through device control techniques to improve the performance. The frame work includes three layers. First layer deals with Big Data platforms that handles real data streams based on area of importance. Second layer is performance layer which deals with performance issues such as low response time, and energy efficiency. The third layer is meant for Applying developed method on existing BDSC platform. The experimental results have been shown a performance improvement 20%-30% for real time data stream from IoT application.

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Energy-Saving QoS Resource Management of Virtualized Networked Data Centers for Big Data Stream Computing

Big Data ◽

10.4018/978-1-4666-9840-6.ch040 ◽

2016 ◽

pp. 848-886

Author(s):

Nicola Cordeschi ◽

Mohammad Shojafar ◽

Danilo Amendola ◽

Enzo Baccarelli

Keyword(s):

Big Data ◽

Resource Management ◽

Real Time ◽

Data Stream ◽

Data Centers ◽

Software As A Service ◽

Stream Computing ◽

Management Optimization ◽

Hard Real Time ◽

Optimal Scheduler

In this chapter, the authors develop the scheduler which optimizes the energy-vs.-performance trade-off in Software-as-a-Service (SaaS) Virtualized Networked Data Centers (VNetDCs) that support real-time Big Data Stream Computing (BDSC) services. The objective is to minimize the communication-plus-computing energy which is wasted by processing streams of Big Data under hard real-time constrains on the per-job computing-plus-communication delays. In order to deal with the inherently nonconvex nature of the resulting resource management optimization problem, the authors develop a solving approach that leads to the lossless decomposition of the afforded problem into the cascade of two simpler sub-problems. The resulting optimal scheduler is amenable of scalable and distributed adaptive implementation. The performance of a Xen-based prototype of the scheduler is tested under several Big Data workload traces and compared with the corresponding ones of some state-of-the-art static and sequential schedulers.

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Trends and Technologies in Big Data Processing

Advances in Computational Intelligence and Robotics - Innovations, Algorithms, and Applications in Cognitive Informatics and Natural Intelligence ◽

10.4018/978-1-7998-3038-2.ch002 ◽

2020 ◽

pp. 17-42

Author(s):

Amitava Choudhury ◽

Kalpana Rangra

Keyword(s):

Cloud Computing ◽

Big Data ◽

Internet Of Things ◽

Data Processing ◽

Real Time ◽

Computing Technology ◽

Time Data ◽

Big Data Processing ◽

Real Time Data ◽

Real Time Data Processing

Data type and amount in human society is growing at an amazing speed, which is caused by emerging new services such as cloud computing, internet of things, and location-based services. The era of big data has arrived. As data has been a fundamental resource, how to manage and utilize big data better has attracted much attention. Especially with the development of the internet of things, how to process a large amount of real-time data has become a great challenge in research and applications. Recently, cloud computing technology has attracted much attention to high performance, but how to use cloud computing technology for large-scale real-time data processing has not been studied. In this chapter, various big data processing techniques are discussed.

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Conceptualization, Operationalization, and Validation of the Digital Data Stream Readiness Index

Journal of Global Information Management ◽

10.4018/jgim.2018100106 ◽

2018 ◽

Vol 26 (4) ◽

pp. 92-112 ◽

Cited By ~ 2

Author(s):

Elisabetta Raguseo ◽

Federico Pigni ◽

Gabriele Piccoli

Keyword(s):

Big Data ◽

Real Time ◽

Value Creation ◽

Data Stream ◽

Organizational Readiness ◽

Digital Data ◽

Measurement Instruments ◽

Scholarly Research ◽

Four Dimensions ◽

Significant Attention

This article describes how in their search for value creation, companies are investing considerable resources in so-called “Big Data” initiatives. A peculiar aspect of these initiatives is the increasing availability of real-time streams of data. Successfully leveraging these streams to extract value is emerging as a critical competence for the modern firm. Despite the significant attention received, scholarly research on Digital Data Stream (DDS) remains insufficient. More importantly, there are no specialized definitions and measurement instruments that can move the field forward by initiating a cumulative research tradition. This article can provide clarification on key definitions, differentiating DDS from Big Data. Drawing on the organizational readiness concept, the DDS readiness index develops as a measure of organizational readiness to exploit real-time digital data. This article will conceptualize, define, operationalize and validate the index. By identifying the four dimensions of mindset, skillset, dataset and toolset as the elements of the DDS readiness index and discussing its managerial and research implications

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