- Corpus ID: 13263309
WIMAX TECHNOLOGY AND ITS APPLICATIONS
- G. Prakash , Sadhana Pal
- Published 2011
- Computer Science, Engineering
7 Citations
Comparative analysis of wi-fi and wimax, downfall and uprising of wimax, performance analysis of bandwidth utilization in wimax network, enhanced dwrr and enhanced mwrr scheduling algorithms for wimax networks, analysis of bandwidth recycling in ieee 802.16 network using psa, rb-rfa & hsa, effective utilization of bandwidth in ieee 802.16 networks using rrsa, análisis de la calidad de servicio de una red wimax en conformidad con el estándar ieee 802.16-2009 en escenarios exteriores / analysis of the quality of service of a wimax network in accordance with ieee 802.16 -2009 in outdoor scenarios, 11 references, quality of service support in ieee 802.16 networks, quality of service support in ieee 802.11 wireless lan, ieee standard for local and metropolitan area networks part 16: air interface for fixed broadband wireless access systems draft amendment: management information base extensions, user-level performance of channel-aware scheduling algorithms in wireless data networks, efficient and fair scheduling of uplink and downlink in ieee 802.16 ofdma networks, user-level performance of channel-aware scheduling algorithms for wireless data networks, related papers.
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WiMAX Modeling: Techniques and Applications
- © 2020
- Bhavin S. Sedani 0 ,
- Komal R. Borisagar 1 ,
- Rohit M. Thanki ORCID: https://orcid.org/0000-0002-0645-6266 2
E. C. Department, L. D. Engineering College, Ahmedabad, India
You can also search for this author in PubMed Google Scholar
Mobile Computing and Networking Technology, Graduate School of Engineering and Technology, Gujarat Technological University, Ahmedabad, India
Faculty of technology and engineering, c. u. shah university, wadhwan city, india.
- Provides information about wireless system modeling and WiMAX systems
- Presents WiMAX system modeling using antenna diversity techniques and the Alamouti coding scheme
- Includes real time WiMAX system modeling for speech signal and digital images
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About this book
This book provides information about wireless systems and WIMAX modeling. The authors provide various techniques for the WiMAX systems such as antenna diversity and Alamouti coding. The performance of these systems is tested using various types of data and the results of systems are presented and discussed. Additional topics include WiMAX simulation using diversity techniques and real time WiMAX system modeling. The book pertains to researchers, academics, students, and professionals.
- Provides information about wireless system modeling and WiMAX systems;
- Presents WiMAX system modeling using antenna diversity techniques and the Alamouti coding scheme;
- Includes real time WiMAX system modeling for speech signal and digital images.
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Table of contents (7 chapters)
Front matter, introduction to wimax system.
- Bhavin S. Sedani, Komal R. Borisagar, Rohit M. Thanki
WiMAX Introduction and Modeling
Various techniques for wimax system modeling, wimax system modeling, wimax system modeling for real-time data transmission, summary of book and future direction in wimax system modeling, correction to: introduction to wimax system, back matter, authors and affiliations.
Bhavin S. Sedani
Komal R. Borisagar
Rohit M. Thanki
About the authors
Dr. Bhavin S. Sedani is working as a professor in Electronics and Communication Department at L.D. College of Engineering, Ahmedabad, India. He has teaching experience of 16 years. He has presented more than 46 research papers in various international and national conferences. His 21 research papers are published in various international journals and IEEE Xplore. He has achieved best paper presentation awards 7 times for his research articles. He is awarded pedagogical award for continuing efforts towards teaching-learning methodology, research and innovation in 2017 by Gujarat Technological University, Young Researcher Award in 2018 by Integrated Intelligent Research, ISTE Professional Center, Anna University Campus, Chennai – India. He has filled Indian patent with titled “Brain Machine Technology based Wireless Blazing of Traditional Indian Wick Lamp”. His area of research is in wireless communication and speech processing.
Dr. Komal R. Borisagar has obtained her Ph.D. in Speech Enhancement Techniques for Digital Hearing Aids in 2012. She has teaching experience of over 15 years. She is working as an Associate Professor at Electronics & Communication Department, Atmiya Institute of Technology and Science, Rajkot. She has published 3 books, 3 book chapters and more than 50 research papers to her credit in referred & indexed journals, conferences at international and in IEEE digital library. She has achieved best paper award five times for her research articles and presentation. Her areas of interest are wireless communication, speech processing, signal & system, and image processing.
Dr. Rohit M. Thanki received his Ph.D. in electronics and communication engineering from C. U. Shah University, M.E. in communication engineering from G. H. Patel College of Engineering and Technology and B.E. in electronics and communication engineering from Atmiya Institute of Technology and Science, India. He has more than 3 years of experience in academic and research. He has published 9 books with Springer and 1 book with CRC press. He has published 13 book chapters in edited books which are published by Elsevier, Springer, CRC press, and IGI Global. He has also published 19 research articles, out of these, 4 articles in SCI-indexed journal and 18 articles in Scopus indexed journal. He is a reviewer of renowned journals such as IEEE access, IEEE Consumer Electronics Magazine, IET Image Processing, IET Biometrics, Soft Computing, Imaging Science Journal, Signal Processing: Image Communication, and Computers & Electrical Engineering. His current research interests include Image Processing, Multimedia Security, Digital Watermarking, Artificial Intelligence, Medical Image Analysis, Biometrics and Compressive Sensing.
Bibliographic Information
Book Title : WiMAX Modeling: Techniques and Applications
Authors : Bhavin S. Sedani, Komal R. Borisagar, Rohit M. Thanki
DOI : https://doi.org/10.1007/978-3-030-22460-8
Publisher : Springer Cham
eBook Packages : Engineering , Engineering (R0)
Copyright Information : Springer Nature Switzerland AG 2020
Hardcover ISBN : 978-3-030-22459-2 Published: 26 February 2020
Softcover ISBN : 978-3-030-22462-2 Published: 26 August 2021
eBook ISBN : 978-3-030-22460-8 Published: 25 February 2020
Edition Number : 1
Number of Pages : XX, 118
Number of Illustrations : 65 b/w illustrations, 42 illustrations in colour
Topics : Communications Engineering, Networks , Signal, Image and Speech Processing , Computer Communication Networks
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WiMAX Modeling: Techniques and Applications
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Worldwide Interoperability for Microwave Access (WIMAX) is the fourth-generation mobile telecommunications technology that provides wireless broadband for both fixed and mobile stations through wireless metropolitan area networks. This study aims to elucidate how WIMAX network performance is affected by different subscriber speeds in different propagation models. OPNET Modeler 14.5 was utilized to simulate a typical WIMAX network in three different scenarios to evaluate its performance in terms of average throughput, average delay, average load, and average downlink signal-to-noise ratio. Results showed that even at low speed (i.e. 3 km/h), the subscriber station of the WIMAX network can achieve good performance in different propagation models, particularly in term of throughput and SNR.
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WiMAX1 has attracted a lot of attention recently in the telecommunication community including researchers, product developers, and service providers. Numerous papers have been published on various design issues of WiMAX networks. Since the issues being discussed are usually ahead of product availability, most of these studies require simulation. It is important to have some common features among these models so that their results can be compared. Therefore, the Application Working Group of the WiMAX Forum has developed a standard simulation methodology that describes the key features to be simulated, the method of simulating these features, and various parameter values to be used. This system-level methodology has been used in several public and commercial WiMAX simulation models. This article presents a summary of the simulation methodology, and discusses the key issues and common mistakes in simulating various features of network configuration, and the physical, MAC, and applicati...
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IMAGES
VIDEO
COMMENTS
This paper provides a basic overview of WiMAX in terms of what it is and how it works, its throughput, coverage and security features as well as the services it could support.
The emerging WiMAX system satisfies the growing need for high data-rate applications such as voiceover IP, video conferencing, interactive gaming, and multimedia streaming.
The IEEE 802.16 family WiMAX is designed to accommodate both fixed and mobile broadband applications. WiMAX offers higher peak data rates and greater flexibility than 3G networks and Wi-Fi.
proliferation of Wimax throughout the world. This paper reviews the basic architecture, features, advantages, limitations and some of the applications also. The comparison of Wimax with edge technologies is also discussed. Index Terms – fixed Wimax, mobile Wimax, IEEE 802.16, MIMO, CPE, QoS. 1. INTRODUCTION
Abstract This paper presents the features of the Worldwide Interoperability for Microwave Access (WiMAX) technology and future applications of WiMAX. A discussion is given by comparing WIMAX with DSL (Digital subscriber line) & Cable and Wireless Fidelity (Wi-Fi).
WiMAX is an IP based, wireless broadband access technology that provides performance similar to 802.11/Wi-Fi networks with the coverage and QOS of cellular networks with a spectral efficiency of 5 b ps/Hz, which is very good in comparison to other broadband wireless technologies, especially 3G.
An overview of the different evolutions of the IEEE 802.16/WiMAX standard broadband wireless access (BWA) is presented and the open research issues in protocol engineering (e.g., for radio resource management, mobility support, security) are identified.
This paper proposes a design of an IEEE 802.16 worldwide interoperability for microwave access (WiMAX) network to be used for smart grid communications. A simulation model is developed based on the smart grid applications requirements and the IEEE 802.16 WiMAX network parameters.
Provides information about wireless system modeling and WiMAX systems; Presents WiMAX system modeling using antenna diversity techniques and the Alamouti coding scheme; Includes real time WiMAX system modeling for speech signal and digital images.
Through this paper we discusses the architecture, various standards applications and advantages of Wimax provided by developers who introduced the users across a broadband access services to solve barriers to adoption such as interoperability and cist of deployment.