4 research outputs found
Performance Evaluation of VoIP in Mobile WiMAX; Simulation and Emulation studies
Worldwide Interoperability for Microwave Access (WiMAX) is an acronym for IEEE 802.16 family which is a leading contemporary broadband wireless Access (BWA) technology. IEEE 802.16e is intended for mobile WiMAX, which supports vehicular mobility with the stringent quality of service
(QoS) parameters for various data traffics. Voice over IP (VoIP) provides low cost, modern telephony which can become a better alternative for classical telephony; however there are some issues need to be addressed prior to the deployment of any new technology. Significance of simulation study results can be verified and assessed by emulation testbed results. It is expected that both the results should match closely with each other. This paper makes an effort to study the performance evaluation of VoIP for a mobile user and how the QoS parameters vary for different speeds. The simulation and emulation of a
mobile WiMAX system using EXata 2.0.1 are performed. The effectiveness of the comparison of results is
discussed
Traffic Sensitive and Traffic Load Aware Path Selection Algorithm For MMR WIMAX Networks
The recent developments in the broadband wireless access (BWA) communication systems have introduced several major changes to the existing systems. Legacy IEEE 802.16j is one such amendment to the existing IEEE 802.16 WiMAX family. The key modification introduced by 802.16j system is the
concept of relay station (RS), which may be used to enhance the system coverage or to make system throughput optimal. The end terminals, subscriber stations (SS) are unchanged in the standard. The overall change pertinent to the system has raised many unresolved issues related to RS and multi-hop
relay base station (MR-BS). The selection of path from a SS to MR-BS via a RS is also one of the issues,
need to be addressed. The path selection of a SS in both uplink and downlink directions is left open in the
standard. It is very significant to satisfy the traffics of stringent quality of service (QoS) requirements and
to appropriately manage the resources of a cell under different circumstances. This paper proposes a
path selection algorithm to achieve the aforementioned qualities in the network. The path selection
metrics include traffic load of the transparent relay station and traffic sensitivity factor of the SS. An
extensive simulation work discusses the performance evaluation of the proposed work using QualNet simulator
Channel Aware Uplink Scheduler for a Mobile Subscriber Station of IEEE 802.16e
The scheduling part of the IEEE 802.16 (WiMAX) standards
is kept as an open issue to provide differentiation among
equipment manufacturers and operators. The uplink
scheduling is very significant and more complex compared
to downlink scheduling. Uplink scheduling is divided into
two parts; one is scheduling the resources among many users
from a base station (BS) and the other is sharing the
resources among its services in a single user. BS uplink
scheduling has been given more attention compared to
subscriber station (SS) uplink scheduling. SS scheduler
plays a significant role in providing the quality of service
(QoS) among its services. The channel status awareness is
vital in designing the SS scheduler as the channel conditions vary for a mobile user. This work proposes a scheduling algorithm for SS, which utilizes the channel information and queue length variation for the reallocation of received aggregated bandwidth grant to optimize the QoS parameters. The performance of the proposed algorithm is studied by conducting simulations using QualNet 5.0.2 simulation tool. Simulation results demonstrate the effectiveness of the proposed algorithm to improve the QoS
Dielectric and Electrical Studies of Pr3+ Doped Nano CaSiO3 Perovskite Ceramics
CaSiO3 nano-ceramic powder doped with Pr3+ has been prepared by solution combustion method. The powder Ca0.95Pr0.05SiO3 is investigated for its dielectric and electrical properties at room temperature to study the effect of doping. The sample is characterized by X-ray diffraction and infrared spectroscopy. The size of either of volume elements of CaSiO3:Pr3+ estimated from transmission electron microscopy is about 180–200 nm. The sample shows colossal dielectric response at room temperature. This colossal dielectric behaviour follows Debye-type relaxation and can be explained by Maxwell–Wagner (MW) polarization. However, analysis of impedance and electric modulus data using Cole–Cole plot shows that it deviates from ideal Debye behaviour resulting from the distribution of relaxation times. The distribution in the relaxation times may be attributed to existence of electrically heterogeneous grains, insulating grain boundary, and electrode contact regions. Doping, thus, results in substantial modifications in the dielectric and electrical properties of the nano-ceramic CaSiO3