Position-based services (PBSs) that deliver networked amenities based on roaming user's positions have become progressively popular with the propagation of smart mobile devices. Position is one of the important circumstances in PBSs. For effective PBSs, extraction and recognition of meaningful positions and estimating the subsequent position are fundamental procedures. Several researchers and practitioners have tried to recognize and predict positions using various techniques; however, only few deliberate the progress of position-based real-time applications considering significant tasks of PBSs. In this paper, a method for conserving position confidentiality of roaming PBSs users using machine learning techniques is proposed. We recommend a three-phase procedure for roaming PBS users. It identifies user position by merging decision trees and k-nearest neighbor and estimates user destination along with the position track sequence using hidden Markov models. Moreover, a mobile edge computing service policy is followed in the proposed paradigm, which will ensure the timely delivery of PBSs. The benefits of mobile edge service policy offer position confidentiality and low latency by means of networking and computing services at the vicinity of roaming users. Thorough experiments are conducted, and it is confirmed that the proposed method achieved above 90% of the position confidentiality in PBSs. © 2005-2012 IEEE.

Arun Kumar S

Department of Information Security

School of Computer Science and Engineering

Vellore Campus

Darshan Vishwasrao Medhane

Tao Han

M. Shamim Hossain

Ghulam Muhammad

Vellore Institute of Technology (VIT) is a private university located in&nbsp;Tamil Nadu, India. Founded in 1984, as Vellore Engineering College, the institution offers 20 undergraduate, 34 postgraduate, four integrated and four research programs. It has campuses in Vellore, Amravati, Bhopal and Chennai.

VIT is one of the top ranked private universities in India according to NIRF, THE and QS Rankings.&nbsp;Govt. of India has recognized&nbsp;VIT, Vellore as an&nbsp;Institution of Eminence. This has allowed VIT to take independent quality initiatives and move up in world ranking.

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VIT University

IEEE Transactions on Industrial Informatics

With the development of technology and computer systems, web services are used to develop business processes. Since a web service only performs a simple operation, web services composition has become important to respond to these business processes. In recent times, the number of existing web services has grown increasingly; therefore, similar services are presented increasingly. These similar web services are discriminated based on the various quality of service (QoS) parameters. These quality parameters include cost, execution time, availability, and reliability. In order to have the best QoS, each user should select a subset of services that presents best quality parameters. On the other hand, due to huge number of services, selecting web services for composition is an NP-hard optimization problem. This paper presents an efficient method for solving this problem using biogeography-based optimization (BBO). BBO is a very simple algorithm with few control parameters and effective exploit. The proposed method offers promising solutions to this problem. Evaluation and simulation results indicate efficiency and feasibility of the proposed algorithm. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.

Soft Computing

A novel quality-of-service-aware web services composition using biogeography-based optimization algorithm

Fault localization is essential to software debugging. Despite existing techniques, such as mutation analysis, development history and bug reports, have made great contributions to fault localization, the challenge of infeasibility still exits in practice due to expense of mutation analysis, lacking of development history and bug reports. To improve accuracy and feasibility in fault code locating, in this paper, we propose ABFL, an Autoencoder Based practical approach for Fault Localization. ABFL first introduces an autoencoder to extract 32 features from software static source code. Then it employs Spectrum Based Fault Localization (SBFL) techniques to calculate 14 types of scores, which are taken as another group of features in software running time. Finally, relying on the constructed ranking model, ABFL integrates two groups of features together and precisely locates faulty statements in code. The executed extensive experiments on the Defects4J repository show that our approach is superior to the state-of-the-art SBFL techniques, ranking the faulty statement at the 1st, 3rd, and 5th positions with 49, 94, and 123 faults, respectively. © 2019

Information Sciences

ABFL: An autoencoder based practical approach for software fault localization

Optimal resource allocation in cloud systems is NP-hard due to the involvement of several conflicting objectives and unpredictable cloud traffic. To improve user satisfaction and resource utilization while minimizing end-user cost, the joint allocation of cloud resources is inevitable. In this work, we model end-user cost in cloud as the optimization objective using bandwidth and compute allocation as the decision variables. To solve the joint Virtual Machine Placement (VMP) problem we propose a single point, greedy, software-defined network (SDN)-based solution that minimizes end-user cost by making certain changes to the fat-tree datacenter architecture. Mathematically, we show that the overall objective function is convex hence solving it using a weighted-sum greedy approach will induce solutions that are Pareto-optimal. Experimental evaluations confirm up to 15% reduction in the response time and up to 14% increase in the efficiency of resources. To analyse the risks involved in deploying delay-sensitive applications over cloud and to show the effects of resource allocation approaches, we perform a risk analysis of delay-sensitivity in cloud using real-time CVD detection. The results confirm the reduced response time due to the proposed approach while maintaining the efficiency of detection. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.

Journal of Ambient Intelligence and Humanized Computing

Pareto-optimal cost optimization for large scale cloud systems using joint allocation of resources

Resource allocation in cloud being NP-complete lacks a generalised optimal solution. In this work, we propose a nature-inspired ACO-Fuzzy framework based joint resource allocation algorithm for cloud datacenters. The algorithm assigns compute and network resources efficiently to minimize end-user cost. An ACO-based local search heuristic is used to discover the current status of resources and then a Fuzzy-based decision maker finds the most optimal set of compute and network resources minimising the end-user cost. Analytical and experimental evaluations validate the efficiency of joint allocation. Abbreviations: CSP: cloud service provider; VM: virtual machine; VMP: virtual machine placement; NIJA: nature-inspired joint allocation; DM: decision maker; WAN: wireless area network; ACO: ant colony optimisation; SDFF: server defined first-fit; GA: genetic algorithm; PSO: particle swarm optimisation; SA: simulated annealing. © 2019 Informa UK Limited, trading as Taylor & Francis Group.

Enterprise Information Systems

Nature-inspired cost optimisation for enterprise cloud systems using joint allocation of resources

IEEE Internet of Things Journal

Blockchain-Enabled Distributed Security Framework for Next-Generation IoT: An Edge Cloud and Software-Defined Network-Integrated Approach

Evolutionary multi-objective optimization (EMO) algorithms are actively used for answering optimization problems with multiple contradictory objectives and scheming interpretable and precise real-time applications. A majority of existing EMO algorithms performs better on two or three objectives non-dominated problems; however, they meet complications in managing and maintaining a set of optimal solutions to multi-objective optimization problems. This paper proposes a search space-based multi-objective evolutionary algorithm (SSMOEA) for multi-objective optimization problems. To accomplish the potential of the search space-based method for solving multi-objective optimization problems and to reinforce the selection procedure toward the ideal direction while sustaining an extensive and uniform distribution of solutions is our key objective. To the best of our knowledge, this paper is the first attempt to propose a search space-based multi-objective evolutionary algorithm for multi-objective optimization. The experimental setup used showed that the proposed algorithm is good and competitive in comparison to the existing EMO algorithms from the viewpoint of finding a scattered and estimated solution set in multi-objective optimization problems. SSMOEA can achieve a good trade-off between search space convergence and search space diversity in the appropriate experimental setup. © 2017 Elsevier Ltd

Computers & Electrical Engineering

Search space-based multi-objective optimization evolutionary algorithm

Position monitoring systems (PMSs) that offer considerable convenience in our daily lives have been thoroughly studied in the past. A PMS has complete control of the position-related information, and it initiates the problem of a roaming users position confidentiality. We study the problem of a mobile objects position confidentiality in wireless networks. Confidentiality-preserved authentication in position-based roaming services is intended for the provision of legal access to wireless network services. Unfortunately, existing PMSs have practical inadequacies such as position cheating, higher communication cost, fake record generation, and forwarding. We propose a novel quantum-inspired hybrid intelligent PMS in wireless networks with the aim of conserving confidentiality of an individual in real-time position-based services. We devise a quantum-inspired PMS algorithm incorporating fuzzy logic and quantum computational theory to achieve computational intelligence in the problem of a mobile objects position confidentiality. To the best of our knowledge this is the first work in the PMS literature to integrate the concept of quantum-inspired computation, and hence the proposed PMS algorithm is also the first quantum-inspired hybrid intelligent PMS algorithm for solving the position confidentiality problem with the anonymity concept. The simulation results and case studies prove that the proposed quantum-inspired PMS can conserve confidentiality of the roaming user with reduced communication cost. © 2017 Elsevier Inc. All rights reserved.

Quantum Inspired Computational Intelligence

A quantum-inspired hybrid intelligent position monitoring system in wireless networks

Prosition monitoring system (PMS) is one of the applications of wireless networks that aim at monitoring and tracking current position of objects in wireless area. Battlefield surveillance is a classic example of this category in which the soldier needs protection from attackers. The problem here is how to hide and conserve the position of soldier from attacker? Moreover, this problem relates to different circumstances associated with applications like panda hunter game and patient monitoring. Hence, the dilemma lies in giving confidentiality to the source node. This paper, presents a detailed survey of source node position confidentiality (SNPC). We have summarised the solutions that provide SNPC in relation to the attackers' capability. The solutions and research gaps presented in the literature are categorised on the basis of the core techniques used for provision of SNPC and the limitations of the mechanisms stated in literature are addressed. © Copyright 2016 Inderscience Enterprises Ltd.

International Journal of High Performance Systems Architecture

Source node position confidentiality aspects in wireless networks: an extended review

Position Monitoring System (PMS) is one of the applications of wireless networking that aims for monitoring and tracking objects’ current position in the wireless area. For example, in order to keep an eye on the movement of an enemy in military applications the position monitoring system in wireless network can be set up. Battlefield surveillance is the classic example of this category in which the soldier needs protection from attackers. Consequently the issue is: how to conceal the position of the wireless node from the attacker? In this paper, we present a novel scheme for preserving confidentiality of the source node position in wireless network. The main objective behind presenting this scheme is to maximize the accuracy of the aggregate position information, to minimize the communication and computational cost and to offer source node position confidentiality by achieving numerous aspects of security, anonymity, traceability, revocation, data unlinkability and with the help of fake data resources. At the end, the experimental work and simulation results depicts the effectiveness of the proposed scheme. © 2015, Springer International Publishing Switzerland.

Advances in Intelligent Systems and Computing Emerging ICT for Bridging the Future - Proceedings of the 49th Annual Convention of the Computer Society of India CSI Volume 2

Journal	Data powered by TypesetIEEE Transactions on Industrial Informatics
Publisher	Data powered by TypesetInstitute of Electrical and Electronics Engineers (IEEE)
ISSN	1551-3203
Open Access	0