scholarly journals Average Contiguous Duration – A Novel Metric for Characterizing Wireless Fading Channels

2021 ◽  
Author(s):  
Junaid Nawaz Syed ◽  
Muhammad Adil ◽  
Shurjeel Wyne
Keyword(s):  
Fading Channels ◽  
Physical Layer Security ◽  
Practical Significance ◽  
Key Generation ◽  
Channel Fading ◽  
Secret Key ◽  
Time Duration ◽  
Secret Key Generation ◽  
Uniform Quantization ◽  
Special Case

Abstract – We define the average contiguous duration (ACD) of the received fading signal as the average time duration during which the signal envelope contiguously remains within a bounded amplitude interval. Also, the multi-interval ACD or K-ACD function is defined as the set of ACD values for K non-overlapping amplitude-intervals whose union spans the received envelope's amplitude range. We derive closed-form expressions of the ACD for Rayleigh, Rice, and Nakagami-m fading signals, which are widely analyzed in the literature. The derived expressions hold practical significance for several signal processing applications such as non-uniform quantization of channel samples for secret key generation (SKG) in physical layer security (PLS) techniques. The well-known channel fading metric of average fade duration (AFD) is shown as a special case of the proposed ACD metric and the proposed theoretical analysis is validated by simulations.

scholarly journals Average Contiguous Duration – A Novel Metric for Characterizing Wireless Fading Channels

2021 ◽  
Author(s):  
Junaid Nawaz Syed ◽  
Muhammad Adil ◽  
Shurjeel Wyne
Keyword(s):  
Fading Channels ◽  
Physical Layer Security ◽  
Practical Significance ◽  
Key Generation ◽  
Channel Fading ◽  
Secret Key ◽  
Time Duration ◽  
Secret Key Generation ◽  
Uniform Quantization ◽  
Special Case

Abstract – We define the average contiguous duration (ACD) of the received fading signal as the average time duration during which the signal envelope contiguously remains within a bounded amplitude interval. Also, the multi-interval ACD or K-ACD function is defined as the set of ACD values for K non-overlapping amplitude-intervals whose union spans the received envelope's amplitude range. We derive closed-form expressions of the ACD for Rayleigh, Rice, and Nakagami-m fading signals, which are widely analyzed in the literature. The derived expressions hold practical significance for several signal processing applications such as non-uniform quantization of channel samples for secret key generation (SKG) in physical layer security (PLS) techniques. The well-known channel fading metric of average fade duration (AFD) is shown as a special case of the proposed ACD metric and the proposed theoretical analysis is validated by simulations.

scholarly journals A Simple Secret Key Generation by Using a Combination of Pre-Processing Method with a Multilevel Quantization

Entropy ◽  
2019 ◽  
Vol 21 (2) ◽  
pp. 192 ◽  
Author(s):  
Mike Yuliana ◽  
Wirawan ◽  
Suwadi
Keyword(s):  
Physical Layer Security ◽  
Processing Method ◽  
Communication Security ◽  
Key Generation ◽  
Secret Key ◽  
Secret Key Generation ◽  
Information Reconciliation ◽  
Security Challenges ◽  
Iot Devices ◽  
Multilevel Quantization

Limitations of the computational and energy capabilities of IoT devices provide new challenges in securing communication between devices. Physical layer security (PHYSEC) is one of the solutions that can be used to solve the communication security challenges. In this paper, we conducted an investigation on PHYSEC which utilizes channel reciprocity in generating a secret key, commonly known as secret key generation (SKG) schemes. Our research focused on the efforts to get a simple SKG scheme by eliminating the information reconciliation stage so as to reduce the high computational and communication cost. We exploited the pre-processing method by proposing a modified Kalman (MK) and performing a combination of the method with a multilevel quantization, i.e., combined multilevel quantization (CMQ). Our approach produces a simple SKG scheme for its significant increase in reciprocity so that an identical secret key between two legitimate users can be obtained without going through the information reconciliation stage.

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