3 research outputs found
Parametric Estimation of Handoff
The efficiency of wireless technology depends upon the seamless connectivity
to the user at anywhere any time.Heterogeneous wireless networks are an
integration of different networks with diversified technologies. The most
essential requirement for Seamless vertical handover is that the received
signal strength should always be healthy. Mobile device enabled with multiple
wireless technologies makes it possible to maintain seamless connectivity in
highly dynamic environment.Since the available bandwidth is limited and the
number of users is growing rapidly, it is a real challenge to maintain the
received signal strength in a healthy stage.In this work, the proposed, cost
effective parametric estimation for vertical handover shows that the received
signal strength maintains a healthy level by considering the novel concept.Comment: 5 Pages,3 figures, NCCCS-12,ISBN:978-1-4673-2837-
Fast Load Balancing Approach for Growing Clusters by Bioinformatics
This paper presents Fast load balancing technique inspired by Bioinformatics
is a special case to assign a particular patient with a specialist physician
cluster at real time. The work is considered soft presentation of the Gaussian
mixture model based on the extracted features supplied by patients. Based on
the likelihood ratio test, the patient is assigned to a specialist physician
cluster. The presented algorithms efficiently handle any size and any numbers
of incoming patient requests and rapidly placed them to the specialist
physician cluster. Hence it smoothly balances the traffic load of patients even
at a hazard situation in the case of natural calamities. The simulation results
are presented with variable size of specialist physician clusters that well
address the issue for randomly growing patient size.Comment: 4 Pages, 2 figure
Efficient Packet Forwarding in Mesh Network
Wireless Mesh Network (WMN) is a multi hop low cost, with easy maintenance
robust network providing reliable service coverage. WMNs consist of mesh
routers and mesh clients. In this architecture, while static mesh routers form
the wireless backbone, mesh clients access the network through mesh routers as
well as directly meshing with each other. Different from traditional wireless
networks, WMN is dynamically self-organized and self-configured. In other
words, the nodes in the mesh network automatically establish and maintain
network connectivity. Over the years researchers have worked, to reduce the
redundancy in broadcasting packet in the mesh network in the wireless domain
for providing reliable service coverage, the source node deserves to broadcast
or flood the control packets. The redundant control packet consumes the
bandwidth of the wireless medium and significantly reduces the average
throughput and consequently reduces the overall system performance. In this
paper I study the optimization problem in Wireless Mesh Networks. We have
proposed a novel approach to reduce the broadcast redundant packet in the
wireless mesh network. Also we have shown, a novel procedure to forward the
control packet to the destination nodes and efficiently minimize the
transmitted control packet in the wireless mesh cloud, that covers the domain.Comment: 4 pages, 6 figure