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Results 1-10 of 13 (Search time: 0.003 seconds).
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Issue DateTitleAuthor(s)
2022-03Decision Tree Based IoT Attack Detection in Programmable Data Plane Using P4 LanguageHaribabu, K
2019Fair Scheduling in IEEE 802.11ah Networks for Internet of Things ApplicationsLakshmi, L.R.
2021Deep Neural Networks for Securing IoT Enabled Vehicular Ad-Hoc NetworksAlladi, Tejasvi; Chamola, Vinay
2020-06Applications of blockchain in unmanned aerial vehicles: A reviewAlladi, Tejasvi; Chamola, Vinay
2019Blockchain in Smart Grids: A Review on Different Use CasesAlladi, Tejasvi; Chamola, Vinay
2019Blockchain Applications for Industry 4.0 and Industrial IoT: A ReviewAlladi, Tejasvi; Chamola, Vinay
2021-04A hybrid trust management framework for a multi-service social IoT networkNarang, Nishit
2018-10Privacy enabled disjoint and dynamic address auto-configuration protocol for 6LowpanMavani, Monali
2018-10In unsecured 6LoWPANs, the nodes can be easily identified by their IPv6 as well as MAC addresses. An adversary can snoop (and later, spoof) these addresses, thereby posing a major threat against the node’s identity and communication integrity. Such threats necessitate enabling privacy by obscuring the node’s addresses. This study proposes a protocol for dynamic, auto-configuring and conflict-free IPv6 addressing scheme that attempts to ensure privacy of nodes. In the proposed protocol, each node obtains a three-level hierarchical IPv6 address space which is dynamically generated on basis of congruence classes. Use of congruence classes, along with hierarchical addressing, facilitates generation of inter-leaved (and hence, disjoint) and non-fragmented address space for each node, resulting in conflict free address auto-generation. Nodes auto-configure their address sets independently with congruence seeds shared by routers, potentially reducing router complexity. To ensure the MAC address privacy, MAC address also changes when IPv6 address changes and it is derived from the interface identification (IID) part of the IPv6 address. The proposed protocol runs on Contiki operating system, simulated in Cooja. Simulated results highlight lower latency and optimal communication costs when compared with existing protocols.Mavani, Monali
2018Privacy Preserving IPv6 Address Auto-Configuration for Internet of ThingsMavani, Monali

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