Switched Ethernet-Based Real-Time Networked Control System with Multiple-Client–Server Architecture

Bibinagar, Naveen Kumar; Kim, Won-jong

doi:10.1109/tmech.2011.2163316

Cited by 36 publications

(10 citation statements)

References 15 publications

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“…The recent growth in internet networks and infrastructure have enhanced the development in the solar photovoltaic energy industry over the last two decades in data monitoring and acquisition systems for onsite, remote data collection and transfer via the web for evaluating solar photovoltaic module efficiencies, improving on optimisation performance and operational flexibility, achieving advanced control capabilities, periodic maintenance, fault detection and location [15]. The solar photovoltaic energy industry transformation has been evolving in data monitoring and acquisition architecture from a client/server architecture employed for distributed Proceedings of the IEEE SoutheastCon 2015, April 9 -12, 2015 -Fort Lauderdale, Florida 978-1-4673-7300-5/15/$31.00 ©2015 IEEE 300-5/15/$31.00 ©2015 IEEE measuring instruments where acquired data is available in the server station and retrieved anytime needed through the internet network by the clients is shown in Figure 3a [16]. In an alternative arrangement is shown in Figure 3b, the clients access the obtained solar photovoltaic data via intranet network from the server station [17].…”

Section: Robust Real-time Online Solar Photovoltaic Monitoring Inmentioning

confidence: 99%

A robust real-time online comparative monitoring of an azimuthal-altitude dual axis GST 300 and a 45° fixed solar photovoltaic energy tracking systems

et al. 2015

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A robust real-time online solar photovoltaic monitoring system is carefully designed for the solar photovoltaic energy industry via cloud computing technology broadcasting instant and exact energy harvested from installed solar photovoltaic modules onsite. Remote monitoring for both the stationary positioned and hybrid solar photovoltaic tracking modules is achieved via the web on mobiles, tablets, PCs and notebooks through installed applications. The introduction of these robust adaptive devices have significantly increased the optimisation, performance and the high concentration of energy harvested in hybrid solar photovoltaic tracking system based on the developed tracking movement models. This paper investigates the design of a robust real-time online comparative data with visual analysis for both stationary and hybrid solar photovoltaic tracking monitoring systems spanning the installation lifetime. The hybrid solar photovoltaic monitoring system consists of two main components the programmable logic control (PLC) box and the data logger connected to the router for remote access and transfer of real-time solar photovoltaic data information generated. A photovoltaic data acquisition and monitoring system has been deployed at the National Kaohsiung University, Taiwan for optimal solar photovoltaic energy harvest, forecast and sustainable solar photovoltaic management and policies to validate simulation models. The research results presented are likely to offer real experience for the future solar photovoltaic energy industry applications not only in Taiwan but also in the world.

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Section: Robust Real-time Online Solar Photovoltaic Monitoring Inmentioning

confidence: 99%

A robust real-time online comparative monitoring of an azimuthal-altitude dual axis GST 300 and a 45° fixed solar photovoltaic energy tracking systems

et al. 2015

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“…In today's world, pc networking has become integral a part of life. There are many alternative networks on the market to share info between teams of devices through a shared communication medium [1]. They're chiefly differentiated by the physical medium and protocol standards.…”

Section: Introductionmentioning

confidence: 99%

A Secure Electronic Messaging System in Client Server Cryptography-RSA Algorithm

Sruthi,

Raghupathi

2019

IJEAT

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The potency and effectiveness of the knowledge systems, in some ways, rely upon its design and the way knowledge area unit transmitted among totally different parties. Similarly, a really crucial side within the computer code development is that the security of knowledge that flows through open communication channels. one in all the foremost widespread design is client/server design that creates the centralization of knowledge storage and process modify, and supply flexibility for applying authentication strategies and coding algorithms inside info systems. whereas the amount of shoppers increase, its need increasing the authentication and coding level as high as potential. Client/server could be a technology that enables to open associate degree interactive session between the user's browser and also the server. during this study, we tend to used client/server design to accomplish secure messaging/chat between shoppers while not the server having the ability to decode the message by applying 2 layer security: one layer of coding between the shoppers and also the server, and also the second layer of coding between the shoppers within the chat space. during this manner, a shopper / Server Cryptography- based mostly Secure electronic messaging System mistreatment RSA (Rivest- Shamir-Adelman), that could be a wide used public-key cryptography and authentication system for encryption of digital electronic messaging transactions like email over the computer network, extranet and net, to write in code and decipher messages in an exceedingly terminal window is developed.

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“…2647 [21][22][23][24][25]. The other research topics on delayed systems were often related to networked control systems [26][27][28][29][30][31][32][33][34], complex networks [35][36][37][38][39][40][41], and Markovian jump systems [42][43][44][45][46]. Particularly, there is a special kind of time delay for Markovian jump systems, which is named as mode-dependent time delay.…”

mentioning

confidence: 99%

A partially delay‐dependent and disordered controller design for discrete‐time delayed systems

Wang

Zhang

et al. 2016

Intl J Robust & Nonlinear

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Summary This paper considers the stabilization problem for a class of discrete‐time delayed systems by exploiting a partially delay‐dependent controller whose gains suffer a disordering phenomenon simultaneously. Two stochastic variables are used to describe the partially delay‐dependent and disordering properties, which are not independent, and referred to the original operation modes here. By introducing an augmented Markov chain, the corresponding closed‐loop system is transformed into a Markovian jump system with four new operation modes (NOMs). Based on the proposed model, a kind of controller depending on NOMs is firstly proposed with linear matrix inequalities forms. Moreover, without designing a controller containing NOMs directly, another kind of stabilizing controller referring to one depending on original operation modes is developed, which is composed of a series of NOM‐dependent controllers and satisfies a minimum variance approximation. Finally, two numerical examples are used to demonstrate the utility and superiority of the proposed methods. Copyright © 2016 John Wiley & Sons, Ltd.

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Switched Ethernet-Based Real-Time Networked Control System with Multiple-Client–Server Architecture

Cited by 36 publications

References 15 publications

A robust real-time online comparative monitoring of an azimuthal-altitude dual axis GST 300 and a 45° fixed solar photovoltaic energy tracking systems

A robust real-time online comparative monitoring of an azimuthal-altitude dual axis GST 300 and a 45° fixed solar photovoltaic energy tracking systems

A Secure Electronic Messaging System in Client Server Cryptography-RSA Algorithm

A partially delay‐dependent and disordered controller design for discrete‐time delayed systems

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