Endoscopic Management of Early-Stage Chronic Pancreatitis Based on M-ANNHEIM Classification System

Abstract-In wireless ad hoc networks, nodes communicate with far off destinations using intermediate nodes as relays. Since wireless nodes are energy constrained, it may not be in the best interest of a node to always accept relay requests. On the other hand, if all nodes decide not to expend energy in relaying, then network throughput will drop dramatically. Both these extreme scenarios (complete cooperation and complete noncooperation) are inimical to the interests of a user. In this paper we address the issue of user cooperation in ad hoc networks. We assume that nodes are rational, i.e., their actions are strictly determined by self interest, and that each node is associated with a minimum lifetime constraint. Given these lifetime constraints and the assumption of rational behavior, we are able to determine the optimal throughput that each node should receive. We define this to be the rational Pareto optimal operating point. We then propose a distributed and scalable acceptance algorithm called Generous TIT-FOR-TAT (GTFT). The acceptance algorithm is used by the nodes to decide whether to accept or reject a relay request. We show that GTFT results in a Nash equilibrium and prove that the system converges to the rational and optimal operating point.

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Optimal capacitor placement in a radial distribution system using Plant Growth Simulation Algorithm

Rao

Narasimham

Ramalingaraju

2011

International Journal of Electrical Power & Energy Systems

275

141

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This paper presents a new and efficient approach for capacitor placement in radial distribution systems that determine the optimal locations and size of capacitor with an objective of improving the voltage profile and reduction of power loss. The solution methodology has two parts: in part one the loss sensitivity factors are used to select the candidate locations for the capacitor placement and in part two a new algorithm that employs Plant growth Simulation Algorithm (PGSA) is used to estimate the optimal size of capacitors at the optimal buses determined in part one. The main advantage of the proposed method is that it does not require any external control parameters. The other advantage is that it handles the objective function and the constraints separately, avoiding the trouble to determine the barrier factors. The proposed method is applied to 9, 34, and 85-bus radial distribution systems. The solutions obtained by the proposed method are compared with other methods. The proposed method has outperformed the other methods in terms of the quality of solution.

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Purposeful mobility for relaying and surveillance in mobile ad hoc sensor networks

Rao

Kesidis

2004

IEEE Trans. on Mobile Comput.

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Abstract-In this paper, we consider a mobile ad hoc sensor network. The mobility of the sensor nodes is designed with the cost of communication and mobility in mind along with consideration of the possible scanning tasks of the nodes. Our mobility algorithm is developed in the context of a distributed system where, for any single mobile node, only local information about associated energy costs is known. We use a distributed simulated annealing framework to govern the motion of the nodes and prove that, in a limiting sense, a global objective function comprising mobility and communication energy costs will be minimized. This paper concludes with a simulation study focusing on mobile sensors with dual roles of scanning and relaying higher priority tracking traffic from tracking nodes.

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Optimal reactive power dispatch under unbalanced conditions using hybrid swarm intelligence

Shareef¹,

Rao

2018

Computers & Electrical Engineering

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Optimal Network Reconfiguration of Large-Scale Distribution System Using Harmony Search Algorithm

Rao¹,

Narasimham²,

Raju³

et al. 2011

IEEE Trans. Power Syst.

107

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Optimal Conductor Size Selection in Distribution Systems Using the Harmony Search Algorithm with a Differential Operator

Rao

Satish

Narasimham

2011

Electric Power Components and Systems

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A Novel Global MPP Tracking of Photovoltaic System based on Whale Optimization Algorithm

Cherukuri

Rao

2016

Int. J. Renew. Energy Dev.

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To harvest maximum amount of solar energy and to attain higher efficiency, photovoltaic generation (PVG) systems are to be operated at their maximum power point (MPP) under both variable climatic and partial shaded condition (PSC). From literature most of conventional MPP tracking (MPPT) methods are able to guarantee MPP successfully under uniform shading condition but fails to get global MPP as they may trap at local MPP under PSC, which adversely deteriorates the efficiency of Photovoltaic Generation (PVG) system. In this paper a novel MPPT based on Whale Optimization Algorithm (WOA) is proposed to analyze analytic modeling of PV system considering both series and shunt resistances for MPP tracking under PSC. The proposed algorithm is tested on 6S, 3S2P and 2S3P Photovoltaic array configurations for different shading patterns and results are presented. To compare the performance, GWO and PSO MPPT algorithms are also simulated and results are also presented. From the results it is noticed that proposed MPPT method is superior to other MPPT methods with reference to accuracy and tracking speed.Article History: Received July 23rd 2016; Received in revised form September 15th 2016; Accepted October 1st 2016; Available onlineHow to Cite This Article: Kumar, C.H.S and Rao, R.S. (2016) A Novel Global MPP Tracking of Photovoltaic System based on Whale Optimization Algorithm. Int. Journal of Renewable Energy Development, 5(3), 225-232.http://dx.doi.org/10.14710/ijred.5.3.225-232

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R. Srinivasa Rao

Power Loss Minimization in Distribution System Using Network Reconfiguration in the Presence of Distributed Generation

Cooperation in wireless ad hoc networks

Optimal capacitor placement in a radial distribution system using Plant Growth Simulation Algorithm

Purposeful mobility for relaying and surveillance in mobile ad hoc sensor networks

Optimal reactive power dispatch under unbalanced conditions using hybrid swarm intelligence

Optimal Network Reconfiguration of Large-Scale Distribution System Using Harmony Search Algorithm

Optimal Conductor Size Selection in Distribution Systems Using the Harmony Search Algorithm with a Differential Operator

A Novel Global MPP Tracking of Photovoltaic System based on Whale Optimization Algorithm

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