A low-latency zone-based cooperative spectrum sensing

G C, Deepak and Navaie, Keivan (2016) A low-latency zone-based cooperative spectrum sensing. IEEE Sensors Journal, 16 (15). pp. 6028-6042. ISSN 1530-437X

[img]
Preview
PDF (IEEE_S_J_Final)
IEEE_S_J_Final.pdf - Accepted Version

Download (571kB)

Abstract

In this paper we propose a spectrum sensing scheme for wireless systems with low latency requirement such as machine-to-machine communications. In such systems with high spatial density of the base stations and users/objects, spectrum sharing enables spectrum reuse across very small regions. This however needs efficient incorporation of sensors’ location information into spectrum sensing. We propose a multi-channel cooperative spectrum sensing technique in which an independent network of sensors, namely monitoring network, detects the spectrum availability. The monitoring network divides the coverage area into overlapped but independent zones. This enables exploiting high spatial distribution without incorporating exact sensors’ location. Corresponding to each zone, a zone aggregator (ZA) is introduced which processes the sensors’ output. The aggregated decision in each zone associated with the ZA’s location is then passed to a decision fusion center (DFC). The secondary base station (SBS) accordingly allocates the available channels to maximize the spectral efficiency. We formulate the function of the DFC as an optimization problem with the objective of maximizing the spectral efficiency. For energy detector sensors, we further obtain optimal detection threshold for different cases with various spatial densities of ZAs and SBSs. This provides extra degrees of freedom in designing the spectrum monitoring network and provides quantitative insight on network design. We further devise an efficient protocol for the proposed technique with very low signaling complexity and show that the proposed method reduces the spectrum sensing latency and results in a higher spectrum efficiency. Extensive simulations confirm our analytical results and indicate a significant improvement in sensing latency and accuracy.

Item Type:
Journal Article
Journal or Publication Title:
IEEE Sensors Journal
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2200/2208
Subjects:
ID Code:
79815
Deposited By:
Deposited On:
02 Jun 2016 08:06
Refereed?:
Yes
Published?:
Published
Last Modified:
30 May 2020 04:33