Your search keyword '"IEEE 802.22"' showing total 345 results

1. Performance Analysis of WRAN in Light of Full Duplex Capability

Author

Obhalia, Khusali, Vegad, Mayur M., Swadas, Prashant B., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Singh, Pradeep Kumar, editor, Wierzchoń, Sławomir T., editor, Tanwar, Sudeep, editor, Ganzha, Maria, editor, and Rodrigues, Joel J. P. C., editor

Published

2021

2. Software-Defined Radio-Based Evaluation Platform for Highly Mobile IEEE 802.22 System

Author

Ruiting Ouyang, Takeshi Matsumura, Keiichi Mizutani, and Hiroshi Harada

Subjects

IEEE 802.22, prototype, software-defined radio, vehicular network, wireless regional area network, Transportation engineering, TA1001-1280, Transportation and communications, HE1-9990

Abstract

Wide-area communication systems using TV white space (TVWS) are promising technologies capable of full-coverage and cost-effective vehicular and transportation communications owing to their excellent propagation characteristics. IEEE 802.22 was developed as a TVWS-based fixed communication standard to support a wide coverage area of 10–30 km. To cope with the various applications in mobile communication, the transmission performance needs to be enhanced and evaluated. Thus, it becomes necessary to develop an experimental platform to enable the flexible implementation of transmitter and receiver algorithms. In this regard, we propose a software-defined radio (SDR)-based evaluation platform enabling the bench testing of physical layer (PHY) performance for highly mobile IEEE 802.22 communication systems. Using this platform, radio frequency signals can be transmitted and received using reconfigurable hardware and software, with the received baseband signals being recorded and stored by the SDR device. The stored data were post-processed using a MATLAB-based program to evaluate the transmission performance. The performance achieved by SDR-based evaluation system is similar to computer simulations, thereby demonstrating the feasibility of highly mobile IEEE 802.22 communication systems. Moreover, the proposed evaluation platform is available for future field experiments to encourage the development and evaluation of novel PHY algorithms.

Published

2022

3. Channel Measurement and Modeling Prototype for IEEE 802.22-Based Regional Area Networks

Author

Ruiting Ouyang, Takeshi Matsumura, Keiichi Mizutani, and Hiroshi Harada

Subjects

Channel measurement, channel modeling, IEEE 802.22, prototype, wireless regional area network, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

During the design and development of a reliable transceiver, its performance and robustness are evaluated using channel models that simulate the propagation channel characteristics in a real-world environment. In the case of wide-area communication systems in rural areas such as those based on TV white spaces, long delay multipath fading is one of the dominant factors impairing communication quality, and it is important to apply realistic multipath fading channel models in various application scenarios. Therefore, it is necessary to develop channel measurement and modeling systems that adaptively obtain channel factors and reflect multipath propagation characteristics in various wide-area communication environments. In this study, we developed a flexible channel measurement and modeling prototype applicable to mobile IEEE 802.22-based wide-area communication systems, which can be simply implemented by using programmable hardware and software. The prototype includes a new channel modeling framework that applies an improved double exponential slope model to extract the essential factors of multipath propagation characteristics. To validate the developed prototype, a fading emulator is applied to it to measure the raw data used for modeling. As a result, the multipath fading characteristics measured with the prototype were successfully modeled and reproduced by the proposed channel modeling framework with a high fitness of root mean square delay spread distribution. The derived bit error rate characteristics agreed better with the simulation results compared to the conventional channel model.

Published

2021

4. Integration of IEC 61850 MMS and IEEE 802.22 for Smart Grid Communication

Author

Dehalwar, Vasudev, Kalam, Akhtar, Kolhe, Mohan Lal, Zayegh, Aladin, Dubey, Anil Kumar, Xhafa, Fatos, Series editor, Perez, Gregorio Martinez, editor, Mishra, Krishn K., editor, Tiwari, Shailesh, editor, and Trivedi, Munesh C., editor

Published

2018

5. An Experimental Setup of DSA Algorithm Suitable for High Bandwidth Data Transfer Using USRP and GNU Radio Companion

Author

Naveen Naik, S., Malarkodi, B., Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Thampi, Sabu M., editor, Krishnan, Sri, editor, Corchado Rodriguez, Juan Manuel, editor, Das, Swagatam, editor, Wozniak, Michal, editor, and Al-Jumeily, Dhiya, editor

Published

2018

6. Cooperative Spectrum Sensing in Cognitive Radio Networks: A Survey on Machine Learning-based Methods

Author

Sundous Khamayseh and Alaa Halawani

Subjects

cognitive radio, cooperative spectrum sensing, IEEE 802.22, machine learning, spectrum sensing, Telecommunication, TK5101-6720, Information technology, T58.5-58.64

Abstract

The continuous growth of demand experienced by wireless networks creates a spectrum availability challenge. Cognitive radio (CR) is a promising solution capable of overcoming spectrum scarcity. It is an intelligent radio technology that may be programmed and dynamically configured to avoid interference and congestion in cognitive radio networks (CRN). Spectrum sensing (SS) is a cognitive radio life cycle task aiming to detect spectrum holes. A number of innovative approaches are devised to monitor the spectrum and to determine when these holes are present. The purpose of this survey is to investigate some of these schemes which are constructed based on machine learning concepts and principles. In addition, this review aims to present a general classification of these machine learningbased schemes

Published

2020

7. D-GRACE: Discounted Spectrum Price Game-Based Resource Allocation in a Competitive Environment for TVWS Networks

Author

Anabi Hilary Kelechi, Nor Fadzilah Abdullah, Rosdiadee Nordin, and Mahamod Ismail

Subjects

IEEE 802.22, self-coexistence, game theory, transmit power algorithm, sub-carrier allocation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The IEEE 802.22 standard targets rural and sparsely populated regions exploiting television white space (TVWS) technology. In these regions, there are fewer mobile users per density and end-user traffic is light. Hence, there is a need to adopt traffic aware algorithm leveraging on the end-user nonuniform traffic attributes and in essence, promote spectrum efficiency in the TVWS spectrum-management regime. This paper investigates a mechanism to encourage spectrum sharing during low end-user traffic regime motivated by financial inducement. Since incumbent coexistence has been achieved using market models, it is tractable to apply market-assisted spectrum sharing models to address self-coexistence issues in TVWS networks. The purpose of this paper is to use the market model to promote self-coexistence in TVWS networks in the uplink self-frequency reuse. Toward this goal, this paper proposes discounted spectrum price game-based resource allocation in a competitive environment (D-GRACE). Specifically, D-GRACE is a transmit power reduction strategy motivated by financial incentives during light TVWS end-user traffic. When compared with an existing non-market-inspired TVWS self-coexistence resource allocation algorithm under the same scenario, D-GRACE exhibited superior power savings of about 20% and converged after five iterations.

Published

2018

8. Cooperative Spectrum Sensing in Cognitive Radio Networks: A Survey on Machine Learning-based Methods.

Author

Khamayseh, Sundous and Halawani, Alaa

Subjects

RADIO networks, RADIO technology, COGNITIVE interference, COGNITIVE radio, CONCEPT learning, MACHINE learning

Abstract

The continuous growth of demand experienced by wireless networks creates a spectrum availability challenge. Cognitive radio (CR) is a promising solution capable of overcoming spectrum scarcity. It is an intelligent radio technology that may be programmed and dynamically configured to avoid interference and congestion in cognitive radio networks (CRN). Spectrum sensing (SS) is a cognitive radio life cycle task aiming to detect spectrum holes. A number of innovative approaches are devised to monitor the spectrum and to determine when these holes are present. The purpose of this survey is to investigate some of these schemes which are constructed based on machine learning concepts and principles. In addition, this review aims to present a general classification of these machine learning-based schemes. [ABSTRACT FROM AUTHOR]

Published

2020

9. Sparse Channel Estimation for Interference Limited OFDM Systems and Its Convergence Analysis

Author

Abhijeet Bishnu and Vimal Bhatia

Subjects

Orthogonal frequency division multiplexing non-parametric maximum likelihood, Riemannian geometry, Gaussian mixture noise, natural gradient, IEEE 802.22, convergence analysis, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Wireless communication channels are highly prone to interference in addition to the presence of additive white Gaussian noise (AWGN). Stochastic gradient (SG)-based non-parametric maximum likelihood (NPML) estimator, gives better channel estimates in the presence of Gaussian mixture (AWGN plus interference) noise processes, for subsequent use by the channel equalizer. However, for sparse channels, the SG-NPML-based channel estimator requires large iterations to converge. In this paper, we propose a natural gradient (NG)-based channel estimator for sparse channel estimation in the presence of high interference. We propose a generalized pth order warping transformation on channel coefficients space and then calculate the Riemannian metric tensor, thereby resulting in faster convergence in interference limited channels. The proposed algorithm is applied for IEEE 802.22 (based on orthogonal frequency division multiplexing) channel estimation in the presence of interference. Extensive simulations and experimental results show that the proposed NG-based algorithm converges faster than SG-NPML for the same mean squared error (MSE) floor with similar computational complexity per iteration as an SG-NPML algorithm. We also present convergence analysis of proposed NG-NPML algorithm in the presence of Gaussian mixture noise and derive an analytical expression for the steady-state MSE.

Published

2017

10. Análisis de la Factibilidad Tecnológica en la Agrupación de Canales en Huecos Espectrales en Televisión para la Banda de Frecuencia de 470 Mhz A 698 Mhz en el Caso Colombiano

Author

Quitián Tocanchón, William Ricardo, Espinosa Buitrago, Mónica, and Universidad Santo Tomás

Subjects

Telecomunicaciones y Regulación TIC, IEEE 802.22, Televisión, Tecnología, Protocolo PAWS, IEEE 802.11af, PAWS protocol, Agrupación de canales, Channel Bonding

Abstract

Colombia tiene como propósito usar huecos en televisión Espectrales (TVWS por sus siglas en inglés) para conectar áreas rurales aisladas, para ello genera un marco legal con todas las condiciones técnicas y operativas en las bandas 470 MHz y 698 MHz en un ancho de banda de 6 MHz, donde se debe garantizar la Banda Ancha de 25 Mbps según resolución 5161 de 2017. La administración de huecos espectrales en televisión en otros países tales como Estados Unidos, Reino Unido y Canadá son diferentes uno del otros según su regulación. En algunos casos la administración de la base de datos es por un tercero o por entidades oficiales de la nación. El estándar 802.11af suministra un marco internacional que se acomoda a diferentes marcos regulatorios de Huecos espectrales para los canales que se encuentran establecidas en las bandas 54 MHZ Y 790 MHz y el 808.22 que es un estándar de área regional inalámbrica de radio cognitiva, que su banda de operación puede estar en 6, 7 u 8 según la regulación de cada país. Para Colombia se han considerado 3 fabricantes para la operación de huecos espectrales que cumplan con los requisitos técnicos y operativos del marco regulatorio en los cuales están ADAPTRUM, REDLINE COMMUNICATIONS y RADWIN. Colombia has the purpose of using TV White Spaces (TVWS) to connect isolated rural areas. To do this, a legal framework was set up with all the technical and operative conditions in 470 MHz and 698 MHz bands, under a broadband of 6 MHz, where a 25 Mbps broadband should be guaranteed according to the Resolution 5161 of 2017. In countries such as United States, United Kingdom, and Canada, the TVWS administration varies regarding its own regulation. In some cases, the database administration is operated by a third party or government entities. The 802.11af standard provides an international framework that fits into different TVWS regulations for those channels established under 54 MHz and 790 MHz bands, in addition to the 808.22, being a cognitive wireless regional radio standard that operates between a 6, 7, or 8 band, according to the country’s regulations. Three manufacturers (ADAPTRUM, REDLINE, and REDWIN) have been considered for Colombia that meet the requirements to operate the TVWS, assuring the technical and operational regulations. Magister en Telecomunicaciones y Regulación tic Maestría

Published

2023

11. Selection Combining Technique and Its Real-Time FPGA Implementation for Spectrum Sensing Efficiency Improvement in Cognitive Radio

Author

Nguyen, Tu T., Nguyen, Tri M., Dang, Khoa L., Nguyen, Phuong Huu, Zelinka, Ivan, editor, Duy, Vo Hoang, editor, and Cha, Jaesang, editor

Published

2014

12. Adaptive Duplex Technique for Reduction of Turnaround Time in IEEE 802.22

Author

Rajakani, Kalidoss, Bhagyaveni, M. A., Krishna, P. Venkata, editor, Babu, M. Rajasekhara, editor, and Ariwa, Ezendu, editor

Published

2012

13. An IEEE 802.22 transceiver framework and its performance analysis on software defined radio for TV white space.

Author

Bishnu, Abhijeet and Bhatia, Vimal

Subjects

TELECOMMUNICATION, BANDWIDTHS, VIRTUAL instrumentation, WHITE spaces (Telecommunication), COMMERCIAL products

Abstract

With rapid increase in new applications and services, there is huge demand for internet bandwidth. Several researchers around the world have found that, majority of licensed bands (mostly terrestrial TV band) are either unused or underused. These underutilized bands allocated for TV transmission are known as TV white space (TVWS). For effective utilization of TVWS, the IEEE 802.22 is proposed. The IEEE 802.22 wireless regional area network (WRAN) is the latest standard for effective utilization of TV bands. This standard is based on orthogonal frequency division multiplexing with various modulation techniques to provide different data rates. In this paper, an implementation framework for physical layer of IEEE 802.22 WRAN standard for normal mode is demonstrated and analyzed. This transceiver is implemented using the National Instruments Laboratory Virtual Instrument Engineering Workbench programming software on the National Instruments universal software radio peripheral 2952R. We have also analyzed different blocks of IEEE 802.22 based on their execution time, and identify the critical blocks of IEEE 802.22 that should be optimized for real-time applications for commercial product development and field deployments. We have also highlighted the difference between theoretical and practical performance of the considered error control codes for IEEE 802.22 specified block size. Additionally, various covariance based spectrum sensing methods are also analyzed for real-world environment. [ABSTRACT FROM AUTHOR]

Published

2018

14. Security threats and countermeasures of MAC layer in cognitive radio networks.

Author

Riahi Manesh, Mohsen and Kaabouch, Naima

Subjects

WIRELESS communications security, COGNITIVE radio, RADIO frequency allocation, CYBERTERRORISM, ACCESS control for information networks

Abstract

Cognitive radio is a promising technology proposed to solve the scarcity of the radio spectrum by opportunistically allocating the idle channels of the licensed users to unlicensed ones. The effectiveness of the cognitive radio is highly dependent on fair and efficient management of the access to the unused portion of the frequency channels, which is performed by the media access control layer. Therefore, any malicious activities disrupting operation of this layer result in significant performance degradation of the cognitive radio networks. As a result, it is necessary to understand functions of the media access control layer of the cognitive radio and analyze the impacts of possible attacks these functions might encounter. This paper provides an overview of different attacks that target the media access control layer of cognitive radio and analyzes them based on this layer's functions. In addition, the paper describes and compares recent defense strategies related to each attack. [ABSTRACT FROM AUTHOR]

Published

2018

15. Energy/bandwidth-Saving Cooperative Spectrum Sensing for Two-hopWRAN

Author

Ming-Tuo Zhou, Chunyi Song, Chin Sean Sum, and Hiroshi Harada

Subjects

TV White Space, Cognitive radio, IEEE 802.22, Wireless Regional Access Network, Cooperative Spectrum Sensing, Energy saving, Telecommunication, TK5101-6720

Abstract

A two-hop wireless regional area network (WRAN) providing monitoring services operating in Television White Space (TVWS), i.e., IEEE P802.22b, may employ a great number of subscriber customer-premises equipments (S-CPEs) possibly without mains power supply, leading to requirement of cost-effective and power-saving design. This paper proposes a framework of cooperative spectrum sensing (CSS) and an energy/bandwidth saving CSS scheme to P802.22b. In each round of sensing, S-CPEs with SNRs lower than a predefined threshold are excluded from reporting sensing results. Numerical results show that the fused missed-detection probability and false alarmprobability could remainmeeting sensing requirements, and the overall fused error probability changes very little. With 10 S-CPEs, it is possible to save more than 40% of the energy/bandwidth on a Rayleigh channel. The principle proposed can apply to other advanced sensing technologies capable of detecting primary signals with low average SNR.

Published

2014

16. Channel Measurement and Modeling Prototype for IEEE 802.22-Based Regional Area Networks

Author

Takeshi Matsumura, Ruiting Ouyang, Hiroshi Harada, and Keiichi Mizutani

Subjects

IEEE 802.22, General Computer Science, Computer science, wireless regional area network, General Engineering, Data_CODINGANDINFORMATIONTHEORY, Channel measurement, Communications system, Delay spread, TK1-9971, Robustness (computer science), channel modeling, Bit error rate, Electronic engineering, Computer Science::Networking and Internet Architecture, General Materials Science, Fading, Electrical engineering. Electronics. Nuclear engineering, prototype, Multipath propagation, Communication channel, Computer Science::Information Theory

Abstract

During the design and development of a reliable transceiver, its performance and robustness are evaluated using channel models that simulate the propagation channel characteristics in a real-world environment. In the case of wide-area communication systems in rural areas such as those based on TV white spaces, long delay multipath fading is one of the dominant factors impairing communication quality, and it is important to apply realistic multipath fading channel models in various application scenarios. Therefore, it is necessary to develop channel measurement and modeling systems that adaptively obtain channel factors and reflect multipath propagation characteristics in various wide-area communication environments. In this study, we developed a flexible channel measurement and modeling prototype applicable to mobile IEEE 802.22-based wide-area communication systems, which can be simply implemented by using programmable hardware and software. The prototype includes a new channel modeling framework that applies an improved double exponential slope model to extract the essential factors of multipath propagation characteristics. To validate the developed prototype, a fading emulator is applied to it to measure the raw data used for modeling. As a result, the multipath fading characteristics measured with the prototype were successfully modeled and reproduced by the proposed channel modeling framework with a high fitness of root mean square delay spread distribution. The derived bit error rate characteristics agreed better with the simulation results compared to the conventional channel model.

Published

2021

17. Self-Coexistence among IEEE 802.22 Networks: Distributed Allocation of Power and Channel.

Author

Sayef Azad Sakin, Md. Abdur Razzaque, Mohammad Mehedi Hassan, Alamri, Atif, Tran, Nguyen H., and Fortino, Giancarlo

Subjects

*NASH equilibrium, *IEEE 802 standard, *MATHEMATICAL optimization, *LOCAL area network standards, *GAME theory

Abstract

Ensuring self-coexistence among IEEE 802.22 networks is a challenging problem owing to opportunistic access of incumbent-free radio resources by users in co-located networks. In this study, we propose a fully-distributed non-cooperative approach to ensure self-coexistence in downlink channels of IEEE 802.22 networks. We formulate the self-coexistence problem as a mixed-integer non-linear optimization problem for maximizing the network data rate, which is an NP-hard one. This work explores a sub-optimal solution by dividing the optimization problem into downlink channel allocation and power assignment sub-problems. Considering fairness, quality of service and minimum interference for customer-premises-equipment, we also develop a greedy algorithm for channel allocation and a non-cooperative game-theoretic framework for near-optimal power allocation. The base stations of networks are treated as players in a game, where they try to increase spectrum utilization by controlling power and reaching a Nash equilibrium point. We further develop a utility function for the game to increase the data rate by minimizing the transmission power and, subsequently, the interference from neighboring networks. A theoretical proof of the uniqueness and existence of the Nash equilibrium has been presented. Performance improvements in terms of data-rate with a degree of fairness compared to a cooperative branch-and-bound-based algorithm and a non-cooperative greedy approach have been shown through simulation studies. [ABSTRACT FROM AUTHOR]

Published

2017

18. UPPER BOUNDS OF DIFFERENT TRAFFIC TYPES IN IEEE 802.22 BASED CRNS.

Author

Bhagat, Nikita and Malhotra, Jyoteesh

Subjects

IEEE 802 standard, COMPUTER networks, TELEPHONE systems, WEB browsing, STREAMING technology, KNOWLEDGE transfer

Abstract

Data communication networks are a vital component of any modern society. They are used extensively in numerous applications, including financial transactions, social interactions, education, national security and commerce. In particular, both wired and wireless devices are capable of performing a plethora of advanced functions that support a range of services, such as voice telephony, web browsing, streaming multimedia and data transfer [1]. With the rapid evolution of microelectronics, wireless transceivers are becoming more versatile, powerful and portable. In the wireless technology the major issue is the issue of spectrum utilization. The utilization of spectrum has increased to its maximum level. To tackle this issue the technology named cognitive radio was introduced to the rescue. The cognitive radio is an emerging technology that facilitate dynamic spectrum access in wireless networks. The cognitive radio is capable of expediently using the obtainable portions of a licensed spectrum to improve the application performance for unlicensed users. The opportunistic access of the accessible channels in the wireless environment requires dynamic channel assignment to efficiently utilize the available resources while minimizing the interference in the network. In this paper we are focusing the different traffic types such video and voice. In the voice we have different codec and in the video application we have different model types from which we need to choose the best for the optimum results. [ABSTRACT FROM AUTHOR]

Published

2017

19. ComRadE: Cognitive Passive Tracking in Symbiotic IEEE 802.22 Systems.

Author

Stinco, Pietro, Greco, Maria Sabrina, Gini, Fulvio, and Himed, Braham

Subjects

*IEEE 802 standard, *WIRELESS sensor networks, *PASSIVE optical networks, *TRACKING control systems, *UHF radio propagation, *TRANSMITTERS (Communication)

Abstract

This paper deals with a symbiotic radar, defined as a passive radar that is an integral part of a communication network. The symbiotic radar is integrated with an IEEE 802.22 Wireless Regional Area Network and linked with the base station. It can work as a purely passive radar or, and this is the novelty in the system, can use the base station to suggest the best customer premise equipment that should be scheduled for transmission to improve tracking performance. This paper defines a cognitive passive tracking algorithm that exploits the feedback information contained in the target state prediction to improve the performance while preserving the communication capabilities of the complete network. [ABSTRACT FROM PUBLISHER]

Published

2017

20. Estándar IEEE 802.22 para redes inalámbricas basadas en radio cognitiva: una revisión

Author

Sibilla B. Luz and Paulo C. de Oliveira

Subjects

IEEE 802.22, sem fi o, rádio cognitivo, reutilização de freqüência., Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Este artigo apresenta um resumo sobre o padrão IEEE 802.22 para redes regionais sem fi o baseadas em rádio cognitivo. Essas redes foram, originalmente, criadas com o objetivo de prover serviço de banda larga a regiões rurais. O IEEE 802.22 reutiliza o espectro alocado para os canais de televisão sem prejudicar signifi cativamente os receptores licenciados de TV. Para isso, usa apenas canais vagos ou temporariamente ociosos. O rádio cognitivo utiliza técnicas para detectar a atividade do espectro, tendo parâmetros de reconfi gurar suas características de transmissão/recepção conforme a disponibilidade encontrada

Published

2011

21. Receiver Design for Highly Mobile Wireless Regional Area Network

Author

OUYANG, RUITING and OUYANG, RUITING

Published

2021

22. 高速移動広域無線通信システムにおける受信機に関する研究

Author

OUYANG, RUITING, 原田, 博司, 大木, 英司, and 山本, 高至

Subjects

IEEE 802.22, Vehicular communication, Wireless communication, Channel estimation, Wireless regional area network, Channel modeling

Published

2021

23. A Reliable Channel Estimation Scheme Using Scattered Pilot Pattern for IEEE 802.22-Based Mobile Communication System

Author

Takeshi Matsumura, Hiroshi Harada, Keiichi Mizutani, and Ruiting Ouyang

Subjects

Computer Networks and Communications, Computer science, Orthogonal frequency-division multiplexing, business.industry, Bandwidth (signal processing), Real-time computing, 020302 automobile design & engineering, 020206 networking & telecommunications, 02 engineering and technology, Communications system, IEEE 802.22, 0203 mechanical engineering, Artificial Intelligence, Hardware and Architecture, Carrier frequency offset, 0202 electrical engineering, electronic engineering, information engineering, Bit error rate, Mobile telephony, business, Multipath propagation

Abstract

Current vehicular communication systems are disadvantageous in dealing with a full-range futuristic intelligent transportation system (ITS) with regard to coverage and cost. On the contrary, TV white-spaces have the potential to provide a wide-coverage, large-capacity, and cost-effective connectivity for ITS because of the excellent propagation properties, and there are increasing demands for applying IEEE 802.22 to mobile communication system capable of a wide coverage of 10–30 km. Meanwhile, since IEEE 802.22 was standardized as a fixed communication system, its scattered pilot pattern hinders accurate channel estimation in a highly mobile environment due to the Doppler shift and long-delay multipath fading. In this paper, we propose a reliable channel estimation scheme enabling an IEEE 802.22-based mobile communication system in rural areas without altering physical layer parameters. The proposed scheme effectively uses pilot symbols in adjacent subcarriers to extend interpolation range and shorten interpolation interval and offers high-accurate and stable channel estimation while maintaining flexibility in downstream/upstream ratio. As a simulation result, our proposed scheme sufficiently achieves a required bit error rate of $2\times 10^{-4}$ in a highly mobile long-delay multipath fading environment even in the presence of high carrier frequency offset.

Published

2019

24. Fuzzy inference based adaptive channel allocation for IEEE 802.22 compliant smart grid network

Author

Muhammad Zeeshan and Muhammad Waqas Khan

Subjects

Channel allocation schemes, Computer science, Quality of service, Distributed computing, Physical layer, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, Smart grid, IEEE 802.22, Cognitive radio, 0203 mechanical engineering, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Unavailability, Communication channel

Abstract

Smart grid (SG) uses bi-directional communication among the components of power system all the way from generation down to power consumers. The basic architecture of SG is comprised of multi-layered network with applications that have diverse quality-of-service (QoS) requirements. Integrating cognitive radio (CR) in SG network results in efficient handling of differential data amounts and latencies, while meeting stringent reliability requirements through cognition in the system parameters and bandwidth adaptation. Meeting data rate, reliability, and latency demands of various smart grid applications pose greater challenge in presence of uncertainty factors e.g. spectrum sensing errors, channel unavailability with desired parameters and signal-to-noise ratio etc. Spectrum sensing is the fundamental requirement of any CR-based network and this is required to identify available idle channels. Existing channel selection algorithms do not consider exact SG communication requirements simultaneously to allocate a suitable channel in accordance with some wireless standards. In this paper, we propose a technique which selects the optimum channel for the particular application, from a pool of available channels which best meets the QoS requirements. For the optimum channel selection, fuzzy inference system optimization technique is used. The physical layer is based on mode-4 of IEEE 802.22 standard, wireless regional area network. A novel approach is also proposed for allocation of channel when desired channel in not available. This approach is based on selecting an alternate channel, in event of unavailability of desired channel, with parameters that closely match with the desired requirements in order to reduce re-transmission probability. The proposed technique outperforms existing algorithms in terms of achieved latency by a minimum of 200%, and throughput by approximately 50%.

Published

2019

25. A Highly Successful Frame Contention Strategy for Self-Coexistence in IEEE 802.22 Wireless Regional Area Networks.

Author

Salim, Shelly and Moh, Sangman

Subjects

COGNITIVE radio, SPECTRUM allocation, RANDOM number generators, WIRELESS communications, PROBABILITY theory, RADIO transmitter-receivers

Abstract

As the first standard for cognitive radio networks, IEEE 802.22 wireless regional area networks (WRANs) exploit television white spaces. Secondary networks have to preserve primary network communications and to coexist with other secondary networks. To support self-coexistence in the IEEE 802.22 WRANs, two spectrum access methods are provided; namely, spectrum etiquette and on-demand frame contention (ODFC). The IEEE 802.22 base stations conduct the spectrum etiquette if there is an exclusively available channel; otherwise, it performs ODFC. ODFC enables the base stations to share the operating channel. However, in ODFC, contention success or failure depends on a random number generator without other considerations and contention destination is randomly selected regardless of the traffic at the destination. This paper proposes a novel frame contention strategy called highly successful frame contention (HSFC). The outstanding features of HSFC are: (1) the contention source chooses the idlest base station as the contention destination (2) the contention source with more users has a higher probability to win the frame contention, and (3) the contention destination takes its own traffic condition into consideration when processing the contention request. The performance evaluation showed that the proposed HSFC increases contention success probability and throughput remarkably compared to the conventional ODFC. [ABSTRACT FROM AUTHOR]

Published

2015

26. Cooperative MIMO Based Reporting System for IEEE 802.22 Standard Over Fading Channels.

Author

Hariharan, S. and Muthu Chidambara Nathan, P.

Subjects

MIMO systems, IEEE 802 standard, WIRELESS cooperative communication, DIGITAL video broadcasting, COGNITIVE radio

Abstract

As cooperative spectrum sensing improves the detection probability, the multiple-input multiple-output (MIMO) system spatially transmits multiple copy of data independently to improve capacity and the IEEE 802.22 wireless regional area network standard aims to utilize the digital video broadcasting-terrestrial (DVB-T) bands opportunistically for data communication to the rural area, we consider a cooperative MIMO based reporting system where the cognitive radio users forward the DVB-T signal to the fusion center (FC) using time division multiple access. The network is operating over AWGN sensing channel and the reporting channel experiences an independent and identically distributed Rayleigh, Rician fading. We arrive an expression for average detection probability at FC for maximum ratio combining scheme. We consider the FC has the prior knowledge about the reporting channel. We analyze the system performance under various MIMO scenarios through Monte Carlo simulations. [ABSTRACT FROM AUTHOR]

Published

2015

27. High linearity 24 dB gain wideband inductorless balun low-noise amplifier for IEEE 802.22 band.

Author

Costa, Arthur, Klimach, Hamilton, and Bampi, Sergio

Subjects

IEEE 802 standard, LOCAL area network standards, TRANSISTORS, COMPLEMENTARY metal oxide semiconductors, MONTE Carlo method, BROADBAND communication systems

Abstract

A 50 MHz-1 GHz low-noise amplifier circuit with high linearity for IEEE 802.22 wireless regional area network is presented. It was implemented without any inductor and offers a differential output for balun use. Noise canceling and linearity boosting techniques were combined to improve the amplifier performance in such a way that they can be separately optimized. Linearity was improved using diode-connected transistors. The amplifier was implemented in a 130 nm CMOS process in a compact 136 μm × 71 μm area. Simulations are presented for post-layout schematics for two classes of design: one for best linearity, another for best noise figure (NF). When optimized for best linearity, simulation results achieve a voltage gain >23.7 dB (power gain >19.1 dB), a NF <3.6 dB over the entire band (with 2.4 dB min figure), an input third-order intercept point (IIP3) >3.3 dBm (7.6 dBm max.) and an input power reflection coefficient S <−16 dB. When optimized for best NF, it achieves a voltage gain >24.7 dB (power gain >19.8 dB), a NF <2 dB over the entire band, an IIP3 >−0.3 dBm and an S <−11 dB. Monte Carlo simulation results confirm low sensitivity to process variations. Also a low sensitivity to temperature within the range −55 to 125 °C was observed for Gain, NF and S11. Power consumption is 18 mW under a 1.2 V supply. [ABSTRACT FROM AUTHOR]

Published

2015

28. A Location Based Duplex Scheme for Cross Time Slot Interference Reduction in (IEEE 802.22) Cognitive Radio Based Wireless Regional Area Networks (WRAN).

Author

Kalidoss, Rajkani, Bhagyaveni, Marsharla Anjanewlo, and Ahmed, Ahmed Hassain

Subjects

IEEE 802 standard, LOCAL area network standards, COGNITIVE radio, SPECTRUM allocation, TELECOMMUNICATION research

Abstract

Copyright of Arab Gulf Journal of Scientific Research is the property of Arabian Gulf University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

29. Interference aware scheduling for peak channel reuse and max-capacity in smart meter networks.

Author

Nagothu, Kranthi Manoj, Rajaee, Amir, Kelley, Brian, and Jamshidi, Mo

Abstract

This paper introduces highly significant improvements in the multiuser capacity in unplanned networks with high levels of co-channel interference. We view this as the likely system scenario for future cognitive radio (CR) networks. For this reason, this paper presents a novel opportunistic interference aware scheduling protocol ideally suited for maximum channel reuse in unplanned networks. We present results for maximum capacity CR networks, many of which may be based upon the future IEEE 802.22 standard. The IEEE 802.22 standard lists smart grid as a future application protocol. We analyze the application of SISO (single-input and single-output) and MIMO (multiple-input and multiple output) interference aware scheduling to maximize the capacity and number of scheduled smart meters. We present simulation results that show tremendous improvement in the total capacity and number of scheduled smart meters in comparison to traditional scheduling schemes. [ABSTRACT FROM PUBLISHER]

Published

2013

30. Simulation of Physical Layer of IEEE 802.22 WRAN Under Different Cyclic Prefix

Author

Sharad Jain and Ashwani Kumar Yadav

Subjects

IEEE 802.22, Analog transmission, Orthogonal frequency-division multiplexing, Computer science, White spaces, Electronic engineering, Physical layer, Data transmission, Phase-shift keying, Cyclic prefix

Abstract

IEEE 802.22 is the cognitive radio-based first worldwide standard for wireless regional area network (WRAN). The primary objective of this standard is to provide broadband access to remote and rural areas. In these remote areas, a large number of vacant TV channels are available, known as white spaces. This standard allows broadband access to the users using these TV white spaces (TVWS). Also, much analog transmission has been moved towards digital transmission in UHF band so this situation has created a digital divide. In this paper, we proposed a novel scheme of simulation for the physical layer of IEEE 802.22 Wireless Regional Area Network (WRAN) with another cyclic prefix. In this paper, we have also demonstrated the effect of length of cyclic prefix in OFDM symbol on the BER performance of the physical layer of WRAN. We simulated the physical layer of WRAN with cyclic prefix 1/4 and 1/32 between successive OFDM symbols. We used convolution code with code rate 1/2 as FEC and evaluated the performance with BPSK, QPSK, and QAM-19 digital modulation schemes in Rayleigh fading condition in MATLAB. We concluded that the effect of ISI can be mitigated with cyclic prefix 1/32 for all three proposed modulation schemes and found that better BER performance in limited SNR. Also, the performance of BPSK with CP 1/32 is superior to QPSK and QAM-16 for CP of 1/4 as well as 1/32.

Published

2021

31. Performance Analysis of WRAN in Light of Full Duplex Capability

Author

Mayur M. Vegad, Khusali Obhalia, and Prashant B. Swadas

Subjects

education.field_of_study, Wireless network, business.industry, Computer science, Node (networking), ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Population, Throughput, IEEE 802.22, Cognitive radio, Transmission (telecommunications), Wireless, business, education, Computer network

Abstract

IEEE 802.22 is a wireless regional area network (WRAN) standard that works on cognitive radios, allowing sharing of unused spectrum allocated to television services on a non-interfering basis. This standard is helpful in providing data services to rural areas with less population. IEEE 802.22 has three operations: transmission, reception and sensing of data. This standard operates on half duplex mode where not only transmission and reception by a participating station occurs at different times, but sensing of a channel is also not allowed while transmission is going on at any node. This reduces the spectrum usage. Recent developments have shown that full duplex communication, i.e., concurrent transmission and reception by a node, is possible even in wireless networks. The full duplex operation helps in increasing the throughput and reduces collisions. In this paper, our attempt is to explore the possibility of exploiting full duplex capabilities of wireless nodes in IEEE 802.22 WRAN by allowing a node to perform the process of channel sensing while it is engaged in transmission of some data. The simulation results show noticeably good performance enhancement of WRAN in terms of throughput by 9% which leads to efficient usage of spectrum without inviting increased interference.

Published

2021

32. Towards IEEE 802.22 based SCADA system for future distributed system.

Author

Mollah, Muhammad Baqer and Islam, Sikder Sunbeam

Abstract

Supervisory Control and Data Acquisition (SCADA) systems are critically important to the procedure of modernization of contemporary power systems, industries etc. A SCADA system involves the integrated technologies of computer, communication, electric devices etc. Electric utilities are expected to choose the communication media best suited for the characteristics of distribution facilities. The communications systems provide the physical medium for transferring, controlling and acquisition of data within SCADA from remote locations. Currently, it is generally recognized that wired communications will serve as the best solution to this problem. Obviously, compared with wired communications, wireless communication presents a number of security and reliability concerns for SCADA system but wireless communications become an attractive option as communication network. In SCADA system the communication system plays a key role and to meet objective of the SCADA system, as a result, various communication media have been applied. In our paper we present a concept about SCADA system using IEEE 802.22 standard where details design of system, analyses of feasibility and benefits over wired and other wireless systems and scopes to enhance the performance are also described. If we apply this system in a large industrial distributed system and in a total railway system, then the total designs are also shown in our paper. [ABSTRACT FROM PUBLISHER]

Published

2012

33. A novel channel allocation scheme in IEEE 802.22 systems.

Author

Hwang, Seung-Hoon and Jeon, Cha-Eul

Abstract

In this paper, novel operating and backup channels allocation schemes for IEEE 802.22 system are introduced and their performances are investigated. Interference level and the probability of appearance for incumbent user are taken into account in order to optimally update the backup channels list. Additionally, the operating channel is allocated based on Carrier to Interference and Noise Ratio (CINR) so as to meet Quality of Service (QoS) requirement. Simulation results illustrate that performance is significantly enhanced by employing the proposed channel allocation schemes in the IEEE 802.22 system. [ABSTRACT FROM PUBLISHER]

Published

2012

34. Experimental implementation of dynamic spectrum access for video transmission using USRP.

Author

Tahir, Mohammad, Mohamad, Hafizal, Ramli, Nordin, and Jarot, Sigit P.W.

Abstract

In this paper we present the experimental implementation of dynamic spectrum access (DSA) algorithm using universal software radio peripheral (USRP) and GNU Radio. The setup contains two primary users and two cognitive radios or secondary users. One primary user is fixed and the other is allowed to change its position randomly. Depending upon the position of the primary user the cognitive user will use the spectrum band where the detected energy is below certain predefined threshold level. The cognitive radio users are also programmed to operate independently without interfering with each other using energy detection algorithm for spectrum sensing. The modulation scheme is set to GMSK for secondary user performing data transmission. This experimental setup is used to analyze the quality of video transmission using DSA which provides the insight regarding the possibility of using free spectrum space to improve the performance of the system and its advantage over a non-DSA system. From the experiment it is shown that under congestion and interference DSA perform better than a non- DSA system. [ABSTRACT FROM PUBLISHER]

Published

2012

35. Fairness and network capacity trade-off in P2P IEEE 802.22 networks.

Author

Shi, Huaizhou, Prasad, R. Venkatesha, Rao, Vijay S, and Niemegeers, I.G.M.M.

Abstract

Wireless Regional Area Networks(WRAN), IEEE 802.22 standard, adopts a centralized cellular topology including base station (BS) and customer-premise equipments (CPEs). However this may lead to limited network capacity, since every CPE needs to communicate to the BS and only one channel can be used to communicate in the whole cell per time slot with one BS antenna. Peer to Peer WRAN (P2PWRAN) was proposed [3] to circumvent this, where CPEs can communicate with each other directly. P2PWRAN increases network capacity compared to the standard WRAN because of spatial reuse. Multiple communication channels can be simultaneously allocated and reused in one time slot by the BS and multiple CPEs. In IEEE 802.22b [4], a standard in progress, peer to peer communication plays an important role for enabling smart grids. Channel allocation influences the network performance significantly, therefore, we formulate the spectrum allocation problem in P2PWRAN as a quadratically constrained programming (QCP) problem. It is also proved as a computationally hard problem. The Greedy Coloring Algorithm (GCA) is examined in P2PWRAN channel allocation, and the results show that it may cause severe unfairness in allocation of channels. Thus a Fair Greedy Coloring Algorithm (FGCA) is proposed to guarantee a fair allocation by queuing flows considering previous allocations. However, FGCA guarantees fairness but leads to decrease in performance of P2PWRAN. Therefore, a Trade-off FGCA (TFGCA) is proposed considering fairness and network performance at the same time during allocation. Simulation results show that with the adjustment of two factors in TFGCA, network performance and fairness can be balanced. [ABSTRACT FROM PUBLISHER]

Published

2012

36. Procedure to build interference map in peer to peer IEEE 802.22 networks.

Author

Shi, Huaizhou, Prasad, R. Venkatesha, Rao, Vijay S, and Niemegeers, I.G.M.M.

Abstract

Peer to peer wireless regional area network (P2PWRAN) is proposed as an extension to support peer to peer communication based on IEEE 802.22 [1]. Multiple channel allocation and reuse of channels in the same time slot in P2PWRAN significantly increase the network capacity compared to standard IEEE 802.22 networks. One of the key issues in bringing P2PWRAN into reality is building the interference map. The concept of interference map/mapping has been mentioned in literature however, how to build an interference map is still an open issue. Therefore, we propose a simple and self-adapting interference map building protocol (SIMBP) for P2PWRAN, which can also be used in other multi-channel wireless networks with minor modifications. The simulation results show that SIMBP converges under the P2PWRAN setting, and with number of available channels and growing number of nodes, the capacity of the network is reached eventually. [ABSTRACT FROM PUBLISHER]

Published

2012

37. A physical layer implementation of IEEE 802.22 prototype.

Author

Toh, Keat-Beng, Takekawa, Masayuki, Hasegawa, Keigo, Yanagisawa, Kei, Sasaki, Seishi, and Asano, Masahiro

Abstract

In this paper, we present a recently developed physical layer implementation of IEEE 802.22 prototype. The prototype includes the following components: a channel (CH) unit, a Medium Access Control Layer (MAC) Control unit, a Global Positioning System (GPS) unit and a Radio Frequency (RF) control unit. The prototype is developed in a flexible and scalable platform to enable future enhancement for higher data rate application. In order to achieve higher data rate, the prototype is designed to accommodate multiple channel units for multiple channel access capability. A channel unit consists of a MAC Layer unit, a Physical Layer (PHY) unit and a Transceiver (TRX) unit. In this paper, we will concentrate our discussion on the physical layer implementation of IEEE 802.22 prototype and show the Bit Error Rate (BER) performances of the implemented physical layer of IEEE 802.22 prototype. [ABSTRACT FROM PUBLISHER]

Published

2012

38. Hardware implementation of the bit interleaver for the IEEE 802.22 Standard.

Author

Ahmadi, Mehdi, Azarpeyvand, Ali, and Fakhraie, Seid Mehdi

Abstract

In this paper, hardware implementation of the IEEE 802.22 Interleaver is presented. The key challenge in implementing the interleaver is its address generator unit as other units implementation is straightforward. Two fully-combinational and combinational-sequential architectures of the address generator are designed using and synthesized VHDL and compared in terms of area, timing, and power. Simulation results show that the second approach results in 70% improvement in area compared to the first approach even though operates two times slower. In addition, power consumption of the combinational-sequential method is more acceptable for wireless applications. Moreover, both methods meet the standard requirements. [ABSTRACT FROM PUBLISHER]

Published

2012

39. A novel operating and backup channel allocation scheme in IEEE 802.22 systems.

Author

Hwang, Seung-Hoon and Jeon, Cha-Eul

Abstract

In this paper, novel operating and backup channels allocation schemes for IEEE 802.22 system are introduced and their performances are investigated. Interference level and the probability of appearance for incumbent user are taken into account in order to optimally update the backup channels list. Additionally, the operating channel is allocated based on Carrier to Interference and Noise Ratio (CINR) so as to meet Quality of Service (QoS) requirement. Simulation results illustrate that performance is significantly enhanced by employing the proposed channel allocation schemes in the IEEE 802.22 system. [ABSTRACT FROM PUBLISHER]

Published

2011

40. An intra-cell peer to peer protocol in IEEE 802.22 networks.

Author

Shi, Huaizhou, Prasad, R. Venkatesha, and Niemegeers, I. G. M. M.

Abstract

IEEE 802.22 mostly considers a typical cellular network with centralized control. Therefore, all intra-cell communications have to be via base stations. It not only leads to extra power consumption for intra-cell communications, but also only one channel can be used per time slot in the whole cell. This may lead to decrease in the network performance. Therefore, we propose a protocol called intra-cell peer to peer communication protocol (ICP2P) based on IEEE 802.22 protocol. The main accomplishments of ICP2P are to support direct intra-cell peer to peer communications between Customer Premises Equipments (CPEs), to allocate multiple channels per time slot in a cell, and to re-allocate same channels in one time slot. The network performance, such as capacity, channel usage and energy consumption, are significantly improved by ICP2P. Additionally, a weighed demand queue algorithm (WDQA) is proposed to guarantee the fairness in channel access opportunities for CPEs. [ABSTRACT FROM PUBLISHER]

Published

2011

41. A Location-Based Duplex Scheme for Cost Effective Rural Broadband Connectivity Using IEEE 802.22 Cognitive Radio Based Wireless Regional Area Networks.

Author

Kalidoss, R., Bhagyaveni, M. A., and Vishvaksenan, K. S.

Subjects

*COGNITIVE radio, *BROADBAND communication systems, *SIMULATION methods & models, *SPECTRUM allocation, *WIRELESS communications, *TELECOMMUNICATION traffic

Abstract

The search for a method of utilizing the scarce spectrum in an efficient manner is an active area of research in both academic and industrial communities. IEEE 802.22 is a standard for wireless regional area network (WRAN) based on cognitive radio (CR) that operates over underutilized portions of TV bands (54-862MHz). Time division duplex (TDD)-based WRAN cells have such advantages as dynamic traffic allocation, traffic asymmetry to users and ease of spectrum allocation. However, these cells suffer from severe cross time slot (CTS) interference when the frames of the cells are not synchronized with adjacent WRAN cells. In this paper, we evaluate the location-based duplex (LBD) scheme for eliminating the CTS interference. The proposed LBD system is much more flexible and efficient in providing asymmetric data service and eliminating CTS interference by exploiting the advantages of both TDD and frequency division duplex (FDD) schemes. We also compare the performance of LBD systems with virtual cell concepts. Furthermore, our simulation results reveal that LBD-based systems outperform the virtual cell approach in terms of the low signal-to-interference (SIR) ratio requirement by mitigating the effects of CTS. [ABSTRACT FROM AUTHOR]

Published

2014

42. News Briefs.

Subjects

*HIGH technology industries, *COMPUTER crimes, *SCIENTISTS

Abstract

Topics include an intensification of the digital crime wave that began in late 2013; technology companies supporting an inexpensive wireless technology that could bring Internet access to poor and remote areas; Intel developing a small, energy-efficient chip that could enable ultrathin mobile devices; a new approach that lets huge robot swarms self-assemble into complex shapes; scientists using visible light for car-to-car communications; NATO preparing to approve a mutual cyberattack defense pact; systems that secretly track cell phone owners' movements becoming increasingly popular; NASA developing tumbling robotic cubes for exploring asteroids; ransomware being found on Android phones for the first time; researchers naming the most hackable cars; and a list of US colleges providing computer-science graduates with the greatest earning potential. [ABSTRACT FROM PUBLISHER]

Published

2014

43. Channel Modeling Algorithm for TVWS-based IEEE 802.22 WRAN System in Rural Areas

Author

Takeshi Matsumura, Ruiting Ouyang, Keiichi Mizutani, and Hiroshi Harada

Subjects

Computer science, business.industry, 020302 automobile design & engineering, 020206 networking & telecommunications, 02 engineering and technology, Delay spread, IEEE 802.22, 0203 mechanical engineering, White spaces, Computer Science::Networking and Internet Architecture, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Fading, business, Algorithm, Multipath propagation, Computer Science::Information Theory, Communication channel

Abstract

IEEE 802.22 is a standardized WRAN (Wireless Regional Area Network) system that operates in TVWS (TV White Spaces) and aims to achieve an effective spectrum utilization. Since IEEE 802.22 offers excellent propagation characteristics in the UHF (Ultra High Frequency) band, it is expected to support a cost-effective wireless communication system in rural areas. To provide a long-distance wireless communication, it is important for the receiver design to compensate a multipath fading attributed to large differences in path lengths, while existing multipath fading channel profiles applicable to IEEE 802.22 has generalization and statistical limitations. To generally and stochastically reproduce the multipath propagation characteristics in an actual wide area environment, an algorithm to obtain a statistical channel model extracted from the field experiment data is required. In this study, we develop a novel channel modeling algorithm based on the conventional S-V (Saleh-Valenzuela) modeling algorithm that offers an approach to model and reproduce the multipath characteristics in an actual environment. The proposed channel modeling algorithm applies a dynamic GEV (Generalized Extreme Value) distribution fitting for the amplitude fluctuation of individual arrival cluster. We also evaluate the channel reproduction performance of the proposed algorithm by computer simulation using channel modeling factors calculated from the experiment result with a FE (Fading Emulator). As a result, by applying the proposed algorithm, the multipath fading characteristics measured in the experiment can be modeled, and its reproducibility is confirmed with regard to relative path power distribution, rms delay spread distribution, and BER characteristics.

Published

2020

44. Development of Evaluation Platform for IEEE 802.22-based Highly Mobile WRAN Communication System with an SDR-based Receiver

Author

Takeshi Matsumura, Hiroshi Harada, Ruiting Ouyang, and Keiichi Mizutani

Subjects

business.industry, Orthogonal frequency-division multiplexing, Computer science, Physical layer, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, Software-defined radio, Communications system, Analog signal, IEEE 802.22, 0203 mechanical engineering, White spaces, 0202 electrical engineering, electronic engineering, information engineering, Baseband, business, Computer hardware

Abstract

TVWS (TV White Spaces) communication systems are expected as one of the promising technologies to support full-coverage and cost-effective vehicular and transportation communications because of its superior propagation characteristics. IEEE 802.22 that was standardized for point-to-multipoint fixed communications supports a wide coverage of 10–30 km. While the application of IEEE 802.22 to a vehicular network has attracted attentions, it is necessary to improve the receiver performance and to enhance its tolerance in a highly mobile multipath propagation environment. Thus, not only numerical evaluation by computer simulation with baseband signals but also experimental evaluation with RF (Radio Frequency) analog signal are vitally required. In this paper, we develop an SDR (Software Defined Radio)-based evaluation platform enabling a bench test of the PHY (Physical Layer) performance with the RF analog signal for a highly mobile IEEE 802.22 communication system. In this platform, RF signals are transmitted and received with flexibly reconfigurable hardware and software, and the received baseband signals are recorded and stored by the SDR device. The stored data are post-processed with a MATLAB-based program to evaluate transmission performance such as BER. As a measurement result, the SDR-based evaluation system achieves similar performance with computer simulation, and thus, the feasibility of the highly mobile IEEE 802.22 communication system is further demonstrated. In addition, the proposed evaluation platform is also available for the future field experiment and can encourage the development and evaluation of novel PHY algorithms.

Published

2020

45. Extending IEEE 802.22 Standard from Rural to Urban Applications

Author

Taiwo Olanrewaju, Babatunde Seyi Olanrewaju, Oludele Adeleke, and Oluwaseyitan Osunade

Subjects

Cognitive radio, IEEE 802.22, Transmission (telecommunications), business.industry, Computer science, SIGNAL (programming language), Electronic engineering, Wireless, Spectral efficiency, Interference (wave propagation), business, Power (physics)

Abstract

The usage of licensed television spectrum by unlicensed user to improve spectrum utilisation has been described by the IEEE 802.22 standard which seeks to use cognitive radios for wireless regional area networks. This standard is meant for usage in the rural areas where there is low usage of the TV spectrum. To make this standard available for use in the urban areas where there is greater usage of the TV spectrum; a new spectrum utilisation technique for cognitive radios is developed. This method uses the principle of matched filtering for spectrum sensing and interference temperature management for interference control against the licensed user. In the system modelling, cognitive radio access point transmits with the maximum transmission power of 36dBm when there is absence of television signal but has to compute the appropriate transmission power which is determined by the strength of the television signal present. Simulation of the developed method was done using Java programming language. In the presence of different licensed signal levels of -34.80dBm, -14.80dBm and -7.81dBm, the developed method achieved a distance of 150m, 1.5km and 3.5km respectively at 66MHz, a capacity of 789Kb/s, and a spectral efficiency of 0.045b/s/Hz.. This developed method therefore gives improved spectrum utilisation in areas where there is higher usage of the limited spectrum.

Published

2020

46. Simulation and Analysis of IEEE 802.22 Cognitive Radio Network

Author

Kavita Bani and Vaishali Kulkarni

Subjects

Base station, IEEE 802.22, Cognitive radio, business.industry, Computer science, Network packet, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Wireless, Throughput, business, Network topology, Wireless sensor network, Computer network

Abstract

Demand of wireless users are increasing day by day, available spectrum resources should be utilized effectively. Cognitive Radio is wireless technology which configured dynamically to adapt environmental changes and change its parameters according to vacant channels. IEEE 802.22 is a standard defined for Wireless Regional Area Networking (WRAN) to utilize TV white band channels. Under the NETSIM environment, Cognitive radio network topology is made up and analyzed its various parameters like simulation time, packets transmitted, packets errored, various codecs, and throughput.

Published

2020

47. Security threats and countermeasures of MAC layer in cognitive radio networks

Author

Naima Kaabouch and Mohsen Riahi Manesh

Subjects

Computer Networks and Communications, business.industry, Computer science, media_common.quotation_subject, 020206 networking & telecommunications, 02 engineering and technology, Cognitive network, Computer security, computer.software_genre, Radio spectrum, Scarcity, Countermeasure, Cognitive radio, IEEE 802.22, Hardware and Architecture, 0202 electrical engineering, electronic engineering, information engineering, Media access control, 020201 artificial intelligence & image processing, Layer (object-oriented design), business, computer, Software, Computer network, Communication channel, media_common

Abstract

Cognitive radio is a promising technology proposed to solve the scarcity of the radio spectrum by opportunistically allocating the idle channels of the licensed users to unlicensed ones. The effectiveness of the cognitive radio is highly dependent on fair and efficient management of the access to the unused portion of the frequency channels, which is performed by the media access control layer. Therefore, any malicious activities disrupting operation of this layer result in significant performance degradation of the cognitive radio networks. As a result, it is necessary to understand functions of the media access control layer of the cognitive radio and analyze the impacts of possible attacks these functions might encounter. This paper provides an overview of different attacks that target the media access control layer of cognitive radio and analyzes them based on this layer's functions. In addition, the paper describes and compares recent defense strategies related to each attack.

Published

2018

48. D-GRACE: Discounted Spectrum Price Game-Based Resource Allocation in a Competitive Environment for TVWS Networks

Author

Mahamod Ismail, Rosdiadee Nordin, Nor Fadzilah Abdullah, and Anabi Hilary Kelechi

Subjects

game theory, IEEE 802.22, General Computer Science, Computer science, 02 engineering and technology, 0203 mechanical engineering, White spaces, Telecommunications link, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Resource management, Spectrum sharing, self-coexistence, business.industry, General Engineering, 020206 networking & telecommunications, 020302 automobile design & engineering, Spectral efficiency, Transmitter power output, transmit power algorithm, Resource allocation, sub-carrier allocation, lcsh:Electrical engineering. Electronics. Nuclear engineering, Telecommunications, business, Game theory, lcsh:TK1-9971

Abstract

The IEEE 802.22 standard targets rural and sparsely populated regions exploiting television white space (TVWS) technology. In these regions, there are fewer mobile users per density and end-user traffic is light. Hence, there is a need to adopt traffic aware algorithm leveraging on the end-user non-uniform traffic attributes and in essence, promote spectrum efficiency in the TVWS spectrum-management regime. This paper investigates a mechanism to encourage spectrum sharing during low end-user traffic regime motivated by financial inducement. Since incumbent coexistence has been achieved using market models, it is tractable to apply market-assisted spectrum sharing models to address self-coexistence issues in TVWS networks. The purpose of this paper is to use the market model to promote self-coexistence in TVWS networks in the uplink self-frequency reuse. Toward this goal, this paper proposes discounted spectrum price game-based resource allocation in a competitive environment (D-GRACE). Specifically, D-GRACE is a transmit power reduction strategy motivated by financial incentives during light TVWS end-user traffic. When compared with an existing non-market-inspired TVWS self-coexistence resource allocation algorithm under the same scenario, D-GRACE exhibited superior power savings of about 20% and converged after five iterations.

Published

2018

49. An Adaptive Cross-Layer Admission Control Mechanism for Telemedicine Services over the IEEE 802.22/WRAN Standard

Author

Salvador Villarreal-Reyes, Raul Rivera-Rodriguez, Roberto Conte-Galvan, Roberto Magana-Rodriguez, and Alejandro Galaviz-Mosqueda

Subjects

Telemedicine, IEEE 802.22, Computer Networks and Communications, business.industry, Computer science, Quality of service, Cross layer, Admission control, Electrical and Electronic Engineering, business, Software, Mechanism (sociology), Computer network

Published

2018

50. Modeling and Analysis of Cognitive Radio Based IEEE 802.22 Wireless Regional Area Networks.

Author

Tadayon, Navid and Aissa, Sonia

Abstract

The recent emergence of the cognitive radio standard IEEE 802.22 is finally empowering network operators with a new platform for their abundant services. Likewise previous wireless standards, where the modeling helped in a better understanding of the concepts and played an important role in extending the outreach of the technology and subsequent innovations, the modeling of IEEE 802.22 wireless regional area networks (WRANs) is a necessity. In this work, we accomplish this task using the theory of queues. To that end, we model the dynamics of each cognitive user, termed customer premises equipments (CPE) according to the standard terminology, with a 2-D Markov chain. Given this model, we show that a WRAN cell can be modeled as a Jackson network. We also find the probability mass function (PMF) and cumulative distribution function (CDF) of the CPE queue length, from which any higher moment can be derived. Notable is the fact that said PMF is expressed in an exact closed-form. In addition to the nodal analysis, a WRAN cell-level discussion is conducted by finding the stability condition and peer-to-peer delay. Moreover, we provide preliminary results on the resource allocation in WRANs, which is a very important area of focus and discovery for an efficient deployment and operation of future WRANs. [ABSTRACT FROM PUBLISHER]

Published

2013