Cognitive Radio Techniques for Utilizing the Primary L-Band Distance Measuring Equipment for Aeronautical Communications

Abd-Elaty, Emad; Zekry, Abdelhalim; Elagooz, Salah S.; Helaly, A.

doi:10.1109/access.2020.3007741

Cited by 4 publications

(2 citation statements)

References 38 publications

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“…The research of cognitive radio technology needs the cross knowledge of computers, artificial intelligence, radio technology, and other fields. The cross research in these fields not only increases the complexity of technology but also promotes the progress and application of technology [56,57].…”

Section: Increase In Complexitymentioning

confidence: 99%

An Overview of Cognitive Radio Technology and Its Applications in Civil Aviation

Zheng

Chen

2023

Sensors

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This paper provides an overview of cognitive radio technology and its applications in the field of civil aviation. Cognitive radio technology is a relatively new and emerging field that allows for dynamic spectrum access and efficient use of spectrum resources. In the context of civil aviation, cognitive radio technology has the potential to enable more efficient use of the limited radio spectrum available for communication and navigation purposes. This paper examines the current state of cognitive radio technology, including ongoing research and development efforts, regulatory issues, and potential challenges to widespread adoption. The potential applications of cognitive radio technology in civil aviation are also explored, including improved spectrum utilization, increased safety and security, and enhanced situational awareness. Finally, the paper concludes with a discussion of future research directions and the potential impact of cognitive radio technology on the future of civil aviation. It is hoped that this paper will serve as a useful resource for researchers, engineers, and policy makers interested in the emerging field of cognitive radio technology and its potential applications in the field of civil aviation.

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Section: Increase In Complexitymentioning

confidence: 99%

An Overview of Cognitive Radio Technology and Its Applications in Civil Aviation

Zheng

Chen

2023

Sensors

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“…Also, related spectrum sensing methods on L-band in the field of aeronautical communication, such as the energy difference method [8], low-power correlator method [9], and cyclic prefix assisted method [10], are used to sense OFDM signal of L-band. Furthermore, coherence detection [11] and power detection [12] are used for detecting DME signals [13,14]. e former employs the repetitive structure of DME pulse pairs and proposes a correlation of parts of the received signal with shifted parts.…”

Section: Introductionmentioning

confidence: 99%

Adaptive Threshold Energy Detection Spectrum Sensing Method for L-Band Digital Aeronautical Communication System

Wang

Liu

Zhang

et al. 2022

Security and Communication Networks

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Air travel is growing at an alarming rate. However, according to the latest research report by Eurocontrol on European aviation, the growth of air traffic will be limited by the available spectrum resources. As one of the means to provide air/ground (A/G) broadband communication, the L-band digital aeronautical communication system (LDACS) is becoming the preferred model for final deployment and has received continuous attention. Based on various spectrum measurement studies, the international civil aviation organization (ICAO) has identified multiple 1 MHz vacant bands between adjacent distance measuring equipment (DME) signals for LDACS. In order to improve spectrum efficiency, the concept of dynamic spectrum access (DSA) can be applied to the LDACS, which requires the use of spectrum sensing methods to detect the spectrum holes of DME users. In this paper, an adaptive threshold energy detection spectrum sensing method is proposed based on the characteristics of DME pulse signals. Firstly, the energy of the received signal is estimated to construct the detection statistics, and the equations of detection probability and false alarm probability are established. Secondly, the adaptive threshold is calculated using the maximum likelihood decision criterion under the assumption of a constant probability of false alarm. Thirdly, the detection statistic is compared to the adaptive threshold to determine the spectrum occupancy state in the decision-making stage. Finally, the result is transmitted back to the transmitter for the best spectrum resource allocation. According to the simulation analysis, the adaptive threshold energy detection-based sensing method outperforms the energy-difference detection method under low signal-to-noise ratio (SNR) conditions. Meanwhile, it has superior adaptability since the adaptive threshold can be adaptively changed according to the channel.

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Outage Performance for Aeronautical Satellite OFDM-IM System

Boud

Rao

Rahman

2022

2022 IEEE 5th International Conference on Electronics and Communication Engineering (ICECE)

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Cognitive Radio Techniques for Utilizing the Primary L-Band Distance Measuring Equipment for Aeronautical Communications

Cited by 4 publications

References 38 publications

An Overview of Cognitive Radio Technology and Its Applications in Civil Aviation

An Overview of Cognitive Radio Technology and Its Applications in Civil Aviation

Adaptive Threshold Energy Detection Spectrum Sensing Method for L-Band Digital Aeronautical Communication System

Outage Performance for Aeronautical Satellite OFDM-IM System

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