A survey of cognitive radio and TV white spaces in Malaysia

Elshafie, Hashim; Fisal, Norsheila; Abbas, Muhammad; Hassan, Walid A.; Mohamad, Hafizal; Ramli, Nordin; Jayavalan, Shanjeevan; Zubair, Suleiman

doi:10.1002/ett.2778

Cited by 18 publications

(20 citation statements)

References 52 publications

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“…whereĤ avm =Ĥ m( T s )+Ĥm(T) 2 . The EE is defined as the ratio of the average system throughput to the average power consumption, which is given by…”

Section: Problem Formulationmentioning

confidence: 99%

“…Traditional fixed frequency allocation policy necessitates more spectral resources to resolve the spectrum congestion problem. Hence, cognitive radio (CR) is introduced as a promising technology that uses the available spectral resources in an efficient manner . The concept of CR has been applied in various wireless technologies such as in disaster response networks, tactical networks, smart grid, etc.…”

Section: Introductionmentioning

confidence: 99%

“…Hence, cognitive radio (CR) is introduced as a promising technology that uses the available spectral resources in an efficient manner. 1,2 The concept of CR has been applied in various wireless technologies such as in disaster response networks, 3 tactical networks, 4 smart grid, 5 etc. Because of exponential increase in the vehicular devices, the CR technology is deployed in vehicular communications to exploit the available spectrum among the vehicular secondary users (VSUs) in CR vehicular ad hoc network (CR-VANET).…”

Section: Introductionmentioning

confidence: 99%

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An intelligent approach for resource allocation in the cognitive radio vehicular ad hoc network

Das

2017

Trans. Emerging Tel. Tech.

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With the overwhelming demand for wireless devices, cognitive radios (CRs) have been envisioned to be applied in the vehicular communications in the near future. In the moving vehicular scenario, reliable detection of the primary user and the interference‐aware power allocation to the vehicular secondary users (VSUs) are amongst the main challenging issues in CR. So, this paper proposes techniques to evaluate the false alarm probability and detection probability on the basis of the spatial correlation among the vehicular users in a soft decision fusion‐based CR vehicular ad hoc network. Further, an attempt has been made to optimize the power allocation to the VSUs. The energy efficiency maximization problem is formulated under the constraints of maximum transmission power limit, interference to the primary receiver and the minimum achievable data rate. For the nonlinear and nonconvex optimization problem to be solved, the parametric transformation is used. The power allocation to the VSUs satisfying the nonlinear constraints is solved by our proposed adaptive scheme on the basis of normalized least mean square algorithm. The relevant simulation results provided show the efficacy of our proposed scheme, and the effect of different network parameters is also studied.

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“…whereĤ avm =Ĥ m( T s )+Ĥm(T) 2 . The EE is defined as the ratio of the average system throughput to the average power consumption, which is given by…”

Section: Problem Formulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

An intelligent approach for resource allocation in the cognitive radio vehicular ad hoc network

Das

2017

Trans. Emerging Tel. Tech.

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“…Cognitive radio (CR) technology offers a solution to the spectrum scarcity issues using the dynamic spectrum access . Research claims that the radio spectrum resource is heavily underutilized due to the static allocation and on an average, almost 70% of it is being wasted . The CR proposes to improve the spectrum utilization efficiency through its opportunistic access in the underutilized portions that exist as whitespaces in the already allocated spectrum.…”

Section: Introductionmentioning

confidence: 99%

QoS optimization‐based dynamic secondary spectrum access model

Khan

Jamali

2018

Trans Emerging Tel Tech

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Cognitive radio (CR) is believed to be the future communication technology that provides the solution to the radio spectrum scarcity problem. Quality of service (QoS) and secondary radio spectrum pricing are two important aspects of the ongoing research on CR. The primary users (PUs) have guaranteed QoS while the secondary users (SUs) can make only opportunistic access to the radio spectrum. The SUs coexist with the PUs on a noninterfering basis and must vacate the bands under their use, if required by the PUs. Good QoS can be exercised by an allocation of whitespaces with QoS appropriate to the SUs that minimize the mobility probability. If the pricing issues are not addressed properly, they may result in economic viability challenges and/or pose existential threats to the CR technology. This research proposes a QoS optimization‐based dynamic secondary spectrum access model using genetic algorithm along with a pricing and a payment methodology for the sales to secondary spectrum markets. The trade‐off between the spectrum allocation and the economic parameters for the secondary radio spectrum trade is considered. An extensive simulation is created to analyze the QoS optimization and pricing for the secondary radio spectrum trade. The results indicate that the profitability and sales in the secondary spectrum market are based on the fitness of the offered QoS with respect to that requested by the SUs. An increase in the QoS provided to the SUs is realized at the cost of a slight increase in the unit cost of the secondary spectrum.

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“…It consists of Ultrahigh Frequency/ Very High Frequency (UHF/VHF) that are either freed via the digital switch over process or unused due to local regulations [4]. Therefore, FCC considered that the traditional fixed spectrum assignment policy has to be palliated.…”

Section: Introductionmentioning

confidence: 99%

Joint Channel Assignment and Power Allocation Based on Maximum Concurrent Multicommodity Flow in Cognitive Radio Networks

Salah

Abdel-Atty

Rizk

2018

Wireless Communications and Mobile Computing

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Emerging cognitive radio networking technology potentially provides a promising solution to the spectrum underutilization problem in wireless access. In this paper, a cross-layer routing for secondary multihop is studied in cognitive radio network operating in television white spaces. The framework considers a joint channel, power, and routing assignment under signal to interference noise ratio (SINR) constraints. The problem is formulated as a maximum concurrent multicommodity flow problem. The goal of conducting this research is to develop a new routing protocol for the secondary multihop cognitive radio network. Therefore, the objective of this paper focuses on maximizing a flow rate scaling factor. Moreover, the paper focuses on achieving multipath routing when it is possible under SINR constraints to utilize all possible unused channels efficiently. The numerical results proved the strength of the proposed algorithm in its routing ability under the physical model of SINR, in addition to the ability of using multipath routing if there are available free channels to be used in the cognitive communication paradigm.

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A survey of cognitive radio and TV white spaces in Malaysia

Cited by 18 publications

References 52 publications

An intelligent approach for resource allocation in the cognitive radio vehicular ad hoc network

An intelligent approach for resource allocation in the cognitive radio vehicular ad hoc network

QoS optimization‐based dynamic secondary spectrum access model

Joint Channel Assignment and Power Allocation Based on Maximum Concurrent Multicommodity Flow in Cognitive Radio Networks

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