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S-GinMob: Soft-Handoff Solution for Mobile Users in Industrial Environments
(IEEE, 2011)
In current research studies and testbed deployments of sensor networks, individual sensor nodes are usually assumed to be static. However, recent applications require mobile sensor nodes, something that poses unique ...
Handoff Triggering for Wireless Sensor Networks with Performance Needs
(IEEE, 2013)
In this paper, we deal with mobility management for wireless sensor networks and we focus on the first phase of a handoff procedure which is concerned with the mechanics of measuring important parameters and initiating ...
Inter-Mobility Support in Controlled 6LoWPAN Networks
(IEEE, 2011)
The research and industrial community started to think of more complex application scenarios for wireless sensor networks, where the use of mobile sensor nodes is essential. The support of mobile sensor nodes in such ...
Mobility Management in WSNs using Fuzzy Logic: An Industrial Application Scenario
(IEEE, 2012)
Mobility management in Wireless Sensor Networks is considered to be of an up most importance for today's critical applications. In this paper, we present a soft mobility management solution where the mobility procedures ...
The GINSENG System for Wireless Monitoring and Control: Design and Deployment Experiences
(ACM, 2013)
Today’s industrial facilities, such as oil refineries, chemical plants, and factories, rely on wired sensor systems to monitor and control the production processes. The deployment and maintenance of such cabled systems is ...
Wireless sensor networks mobility management using fuzzy logic
(Elsevier, 2014)
This paper presents a novel, intelligent controller to support mobility in wireless sensor
networks. In particular, the focus is on the deployment of such mobility solution to critical
applications, like personnel safety ...
An Analysis of the Handover Latency Components in Mobile IPv6
(IEEE, 2009)
This article analyses the latency components in Mobile IPv6 handovers. It provides real-implementation results for significant parts of the handover process through measurements in a real MIPv6 implementation on a wireless ...
WSN Evaluation in Industrial Environments First results and lessons learned
(IEEE, 2011)
The GINSENG project develops performance-controlled wireless sensor networks that can be used for time-critical applications in hostile environments such as industrial plant automation and control. GINSENG aims at integrating ...
An Experimental Analysis of the Mobile IPv6 Handover Latency Components
(2009)
This paper examines the handover process of Mobile IPv6 in a real wireless testbed, based on IEEE 802.11b and extracts information on the actions taken by network entities during the movement of a mobile node. This work ...
Mobility in WSNs for Critical Applications
(IEEE, 2011)
Recent critical application sectors of sensor networks like military, health care, and industry require the use of mobile sensor nodes, something that poses unique challenges in aspects like handoff delay, packet loss, and ...