Wimax technology has reshaped the framework of broadband wireless internet
service. It provides the internet service to unconnected or detached
areas such as east South
Africa, rural areas of America and Asia region. Full duplex helpers employed with one of
the relay stations selection and indexing method that is Randomized Distributed Space Time
are used to expand the coverage area of primary Wimax station. The basic problem was
identified at cell edge due to weather conditions (rain, fog), insertion of destruction because
of multiple paths in the same communication channel and due to interference created by
other users in that communication. It is impractical task for the receiver station to decode
the transmitted signal successfully at the cell edges, which increases the high packet loss and
retransmissions. But Wimax is a outstanding technology which is used for improving the
quality of internet service and also it offers various services like Voice over Internet
Protocol, Video conferencing and Multimedia broadcast etc where a little delay in packet
transmission can cause a big loss in the communication. Even setup and initialization of
another Wimax station nearer to each other is not a good alternate, where any mobile
station can easily handover to another base station if it gets a strong signal from other one.
But in rural areas, for few numbers of customers, installation of base station nearer to each
other is costlier task. In this review article, we present a scheme using R-DSTC technique to
choose and select helpers (relay nodes) randomly to expand the coverage area and help to
mobile station as a helper to provide secure communication with base station. In this work,
we use full duplex helpers for better utilization of bandwidth.
%0 Generic
%1 chauhan2014randomized
%A Chauhan, Naveen
%A Rao, A. L. N.
%A and Vineet Sharma,
%B Int. Conf. on Recent Trends in Information, Telecommunication and Computing , ITC
%D 2014
%I ACEEE (A Computer division of IDES)
%K Code Randomized-Distributed Space Time
%T Randomized – Distributed Space Time Selection
Scheme for Full Duplex Relay Helpers in
Development of Next Generation Wimax Network
%X Wimax technology has reshaped the framework of broadband wireless internet
service. It provides the internet service to unconnected or detached
areas such as east South
Africa, rural areas of America and Asia region. Full duplex helpers employed with one of
the relay stations selection and indexing method that is Randomized Distributed Space Time
are used to expand the coverage area of primary Wimax station. The basic problem was
identified at cell edge due to weather conditions (rain, fog), insertion of destruction because
of multiple paths in the same communication channel and due to interference created by
other users in that communication. It is impractical task for the receiver station to decode
the transmitted signal successfully at the cell edges, which increases the high packet loss and
retransmissions. But Wimax is a outstanding technology which is used for improving the
quality of internet service and also it offers various services like Voice over Internet
Protocol, Video conferencing and Multimedia broadcast etc where a little delay in packet
transmission can cause a big loss in the communication. Even setup and initialization of
another Wimax station nearer to each other is not a good alternate, where any mobile
station can easily handover to another base station if it gets a strong signal from other one.
But in rural areas, for few numbers of customers, installation of base station nearer to each
other is costlier task. In this review article, we present a scheme using R-DSTC technique to
choose and select helpers (relay nodes) randomly to expand the coverage area and help to
mobile station as a helper to provide secure communication with base station. In this work,
we use full duplex helpers for better utilization of bandwidth.
@conference{chauhan2014randomized,
abstract = {Wimax technology has reshaped the framework of broadband wireless internet
service. It provides the internet service to unconnected or detached
areas such as east South
Africa, rural areas of America and Asia region. Full duplex helpers employed with one of
the relay stations selection and indexing method that is Randomized Distributed Space Time
are used to expand the coverage area of primary Wimax station. The basic problem was
identified at cell edge due to weather conditions (rain, fog), insertion of destruction because
of multiple paths in the same communication channel and due to interference created by
other users in that communication. It is impractical task for the receiver station to decode
the transmitted signal successfully at the cell edges, which increases the high packet loss and
retransmissions. But Wimax is a outstanding technology which is used for improving the
quality of internet service and also it offers various services like Voice over Internet
Protocol, Video conferencing and Multimedia broadcast etc where a little delay in packet
transmission can cause a big loss in the communication. Even setup and initialization of
another Wimax station nearer to each other is not a good alternate, where any mobile
station can easily handover to another base station if it gets a strong signal from other one.
But in rural areas, for few numbers of customers, installation of base station nearer to each
other is costlier task. In this review article, we present a scheme using R-DSTC technique to
choose and select helpers (relay nodes) randomly to expand the coverage area and help to
mobile station as a helper to provide secure communication with base station. In this work,
we use full duplex helpers for better utilization of bandwidth. },
added-at = {2014-03-21T10:42:24.000+0100},
author = {Chauhan, Naveen and Rao, A. L. N. and and Vineet Sharma},
biburl = {https://www.bibsonomy.org/bibtex/2e1c0188f1867853a4a2a6af7fbfbfde6/idescitation},
booktitle = {Int. Conf. on Recent Trends in Information, Telecommunication and Computing , ITC},
interhash = {360a7fb39c97e6d7b7408454fcb51d0a},
intrahash = {e1c0188f1867853a4a2a6af7fbfbfde6},
keywords = {Code Randomized-Distributed Space Time},
organization = {Institute of Doctors Engineers and Scientists},
publisher = {ACEEE (A Computer division of IDES)},
timestamp = {2014-03-21T10:42:24.000+0100},
title = {Randomized – Distributed Space Time Selection
Scheme for Full Duplex Relay Helpers in
Development of Next Generation Wimax Network },
year = 2014
}