• Corpus ID: 212475969

A Survey on 6 LowPAN & its Future Research Challenges

@inproceedings{Albarakati2014ASO,
  title={A Survey on 6 LowPAN \& its Future Research Challenges},
  author={Aiman J. Albarakati and Junaid Ahmad Qayyum and Khalid Fakeeh},
  year={2014}
}
----The term (IoT) Internet of Things is well thought-out to be the subsequent or next big prospect, and test, for the Internet engineering society, clients of technology, society and companies as a whole. It entails linking embedded devices such as home appliances, weather stations, sensors and even playthings to the networks that are based on Internet Protocol (IP). According to recent surveys it is obvious that the number of IP-enabled embedded devices is growing fast, and even though tough… 

Figures from this paper

Internet of Things: Raging devices and standardization in low-powered protocols

  • Nidhi MehtaA. Sahai
  • Computer Science
    2017 Second International Conference on Electrical, Computer and Communication Technologies (ICECCT)
  • 2017
TLDR
The paper provides an overview of IoT system architecture and the forthcoming challenges it will bring, and presents some reasonable approaches to address the above issues in the IoT world.

Development and Performance Analysis of HRPL Using 6LoWPAN CC2538 Module for IoT Ecosystem

TLDR
HRPL was proposed to enhance the RPL by introducing the rebroadcast technique in order to minimize the routing overhead at the same time reduced the PC usage, and for this instance, HRPL has succeeded in reducing the use of PC for both experiments (simulation and 6LoSH).

Security Issues in IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN): A Review

TLDR
This review outlines the 6LoWPAN network architecture, the protocol stack, and its advantages and applications, and the security and privacy issues have been analyzed with solutions and recommendations given.

Improved IPv6 sphuTikA process in 6LoWPAN base IOT network

TLDR
6LoWPAN, IOT, IPv6, Header compression, fragmentation, reassembly, which allow different fragmented packet to take priority and provide efficient way to fragment to packet with critical sensor information.

References

SHOWING 1-10 OF 23 REFERENCES

A scheme to support mobility for IP based sensor networks

TLDR
This paper has analyzed various mobility scenarios for the low end devices, specifically the IEE802.4 devices and objectively analyzed the scalability of the system using the throughput and delay measures for benchmarking their performance under the influence of mobility.

A 6LoWPAN Routing Optimization Mechanism for WMSN

TLDR
A WSN model based on IPv6 over Low power Wireless Personal Area Networks (6LoWPANs) in mobile sensing application scenarios is proposed and results indicate that the mechanism is able to minimize the transmission costing, handoff delay, throughput and energy consumption of sensor nodes.

A UDP/IP Adaptation of the ZigBee Application Protocol

TLDR
A modified version of the ZigBee Application Protocol is named CAP (Compact Application Protocol), and it is intended to provide a complete stack of application profiles, data exchange, binding operations, security protocols, and discovery to IP-networked hosts and embedded devices.

Group mobility in 6LoWPAN-based WSN

TLDR
Simulation results demonstrate that comparing to MIPv6, the application of NEMO protocol in 6LoWPAN reduces both the handoff latency and the energy consumption of sensor node.

Full TCP/IP for 8-bit architectures

We describe two small and portable TCP/IP implementations fulfilling the subset of RFC1122 requirements needed for full host-to-host interoperability. Our TCP/IP implementations do not sacrifice any

Mobility Support in IPv6

This document specifies Mobile IPv6, a protocol which allows nodes to remain reachable while moving around in the IPv6 Internet. Each mobile node is always identified by its home address, regardless

MIRON: MIPv6 route optimization for NEMO

TLDR
The goal is to use the route optimisation support for Mohile 1Pv6 available in the Correspondent Nodes to provide route Optimisation for mobile networks.

IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs): Overview, Assumptions, Problem Statement, and Goals

TLDR
The assumptions, problem statement, and goals for transmitting IP over IEEE 802.15.4 networks form an initial set only.

A mobility framework to improve heterogeneous wireless network services

TLDR
Network Mobility (NEMO) can provide a flexible network integration mechanism across WiFi, WiMax and UMTS systems vertically using two operations: Policy enforced handover management and Dynamic handover implementation.

Policy Based Mobility & Flow Management for IPv6 Heterogeneous Wireless Networks

TLDR
Techniques considered in the framework include the IPv6 based Network Mobility (NEMO), multihoming capability, transparent vertical handovers, horizontal handovers and dynamic policy enforcement matching process to improve the Quality of Service (QoS), Quality of Experience (QoE) and ubiquitous connectivity.