Hybrid spectrum sensing architecture using LLCBC MAC for CR-WSN applications

Hybrid spectrum sensing architecture using LLCBC MAC for CR-WSN applications

A reconfigurable and hardware proficient hybrid VLSI architecture is greatly necessitated for spectrum sensing that is a combination of energy detection and time domain cyclostationary techniques for cognitive radio applications. One among the key features of Cognitive Radio is Spectrum Sensing whic...

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Bibliographic Details
Published in:Analog integrated circuits and signal processing Vol. 108; no. 3; pp. 657 - 669
Main Authors: Suguna, R., Rathinasabapathy, Vimalathithan
Format: Journal Article
Language:English
Published: New York Springer US 01-09-2021
Springer Nature B.V
Subjects:
Application specific integrated circuits
Architecture
Circuit design
Circuits and Systems
Cognitive radio
Electrical Engineering
Energy efficiency
Engineering
Frequencies
Integrated circuits
Reconfigurable hardware
Signal,Image and Speech Processing
Time domain analysis
Very large scale integration
ASIC
Spectrum sensing
VLSI
Cognitive radio (CR)
LLCBC MAC
Energy detection (ED)
Cyclostationary detection technique
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Summary:A reconfigurable and hardware proficient hybrid VLSI architecture is greatly necessitated for spectrum sensing that is a combination of energy detection and time domain cyclostationary techniques for cognitive radio applications. One among the key features of Cognitive Radio is Spectrum Sensing which is exploited for allocating unused frequency band efficiently. Various research works are being carried out to investigate the different spectrum sensing methods and analyze the advantages, disadvantage and applications. Here, the novel idea is to design a hybrid architecture by combining energy detection and time domain cyclostationary techniques by exploiting the advantages of those techniques and can be selected based on the applications. Also an energy efficient Low Latency Column Bit Compressed (LLCBC) MAC is greatly utilized in this hybrid architecture to design an Application Specific Integrated Circuit more efficiently. The Proposed method thus helps in achieving significant VLSI parameters such as area, power and delay when compared with the existing time domain cyclostationary technique. The proposed Cyclostationary-based Spectrum Sensing Architecture using LLCBC MAC also yields 4.3% Area reduction, 19.5% Power reduction and with no change in Delay when compared with existing Cyclostationary-based Spectrum Sensing Architecture. Also, in Hybrid Spectrum Sensing Architecture embedding LLCBC MAC unit, a significant reduction in Area and Power corresponding to 57%, and 32% are achieved respectively, besides Hybrid Architecture is 15.28% faster than the individual architectures.
ISSN:0925-1030
1573-1979
DOI:10.1007/s10470-021-01848-5