Sagar Ramani scite author profile

Abstract-Contrasting to advances in street/outdoor navigation, wall mounted maps and signs continue to be the primary reference indoor navigation in hospitals, malls, museums, etc. The proliferation of mobile devices and the growing demand for location aware systems that filter information based on currently device location have led to an increase in research and product development in this field. An attempt has been made to provide solution for indoor navigation on Google maps and to provide location of a user in a building using Wi-Fi signal strength on android Smartphone.

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Machine learning in SDN networks for secure industrial cyber physical systems: a case of detecting link flooding attack

Deliwala¹,

Jhaveri²,

Ramani³

2022

IJESMS

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ML-Based Delay Attack Detection and Isolation for Fault-Tolerant Software-Defined Industrial Networks

Ramani

Jhaveri

2022

Sensors

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Traditional security mechanisms find difficulties in dealing with intelligent assaults in cyber-physical systems (CPSs) despite modern information and communication technologies. Furthermore, resource consumption in software-defined networks (SDNs) in industrial organizations is usually on a larger scale, and the present routing algorithms fail to address this issue. In this paper, we present a real-time delay attack detection and isolation scheme for fault-tolerant software-defined industrial networks. The primary goal of the delay attack is to lower the resilience of our previously proposed scheme, SDN-resilience manager (SDN-RM). The attacker compromises the OpenFlow switch and launches an attack by delaying the link layer discovery protocol (LLDP) packets. As a result, the performance of SDN-RM is degraded and the success rate decreases significantly. In this work, we developed a machine learning (ML)-based attack detection and isolation mechanism, which extends our previous work, SDN-RM. Predicting and labeling malicious switches in an SDN-enabled network is a challenge that can be successfully addressed by integrating ML with network resilience solutions. Therefore, we propose a delay-based attack detection and isolation scheme (DA-DIS), which avoids malicious switches from entering the routes by combining an ML mechanism along with a route-handoff mechanism. DA-DIS increases network resilience by increasing success rate and network throughput.

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Sagar Ramani

Managing Industrial Communication Delays with Software-Defined Networking

Real-time QoS-aware Routing Scheme in SDN-based Robotic Cyber-Physical Systems

Indoor Navigation on Google Maps and Indoor Localization Using RSS Fingerprinting

Machine learning in SDN networks for secure industrial cyber physical systems: a case of detecting link flooding attack

ML-Based Delay Attack Detection and Isolation for Fault-Tolerant Software-Defined Industrial Networks

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