`a`
Journal of Industrial and Management Optimization (JIMO)
 

A new analytical model for optimized cognitive radio networks based on stochastic geometry
Pages: 1883 - 1899, Issue 4, October 2017

doi:10.3934/jimo.2017023      Abstract        References        Full text (440.8K)           Related Articles

Seunghee Lee - Department of Mathematical Sciences, Korea Advanced Institute of Science and Technology, Daejeon, South Korea (email)
Ganguk Hwang - Department of Mathematical Sciences, Korea Advanced Institute of Science and Technology, Daejeon 305-701, South Korea (email)

1 A. Babaei and B. Jabbari, Throughput Optimization in Cognitive Random Wireless Ad hoc Networks, Global Telecommunications Conference (GLOBECOM 2010), 2010 IEEE, (2010).
2 F. Baccelli, B. Blaszczyszyn and M. Karray, Up and downlink admission/congestion control and maximal load in large homogeneous CDMA networks, MONET, 9 (2004), 605-617.
3 F. Baccelli, B. Blaszczyszyn and F. Tournois, Downlink admission/congestion control and maximal load in CDMA networks, in Proc. IEEE INFOCOM, (2003).
4 A. Busson, B. Jabbari, A. Babaei and V. Vèque, Interference and throughput in spectrum sensing cognitive radio networks using point processes, Communications and Networks, Journal of, 16 (2014), 67-80.
5 C. C. Chan and S. V. Hanly, Calculating the outage probability in a CDMA network with spatial Poisson traffic, IEEE Trans. Veh. Technol., 50 (2001), 183-204.
6 V. Chandrasekhar and J. G. Andrews, Uplink capacity and interference avoidance for two-tier cellular networks, IEEE Trans. Wireless Commun., (2009).
7 O. Dousse, M. Franceschetti and P. Thiran, On the throughput scaling of wireless relay networks, IEEE Trans. Inform. Theory, 52 (2006), 2756-2761.       
8 Federal Communications Commission, Spectrum policy task force, Rep. ET Docket, 2 (2002).
9 Federal Communications Commission, Notice of proposed rule making and order, Rep. ET Docket, 2 (2003).
10 A. Ghasemi and E. Sousa, Interference aggregation in spectrumsensing cognitive wireless networks, IEEE J. Select. Topics Signal Processing, 2 (2008), 41-56.
11 A. Goldsmith, S. A. Jafar, I. Maric and S. Srinivasa, Breaking spectrum gridlock with cognitive radios: An information theoretic perspective, Proc. IEEE, 97 (2009), 894-914.
12 M. Haenggi, J. G. Andrews, F. Baccelli, O. Dousse and M. Franceschetti, Stochastic Geometry and Random Graphs for the Analysis and Design of Wireless Networks, IEEE J. Select. Areas Commun., 27 (2009).
13 J. Lee, J. G. Andrews and D. Hong, Spectrum-sharing transmission capacity, IEEE Trans. Wireless Commun., 10 (2011), 3053-3063.
14 C. Lee and M. Haenggi, Interference and outage in poisson cognitive networks, IEEE Trans. Wireless Commun., 11 (2012), 1392-1401.
15 D. Moltchanov, Distance distributions in random networks, Ad Hoc Networks, 10 (2012), 1146-1166.
16 T. V. Nguyen and F. Baccelli, A probabilistic model of carrier sensing based cognitive radio, New Frontiers in Dynamic Spectrum, 2010 IEEE Symposium on, (2010), 1-12.
17 T. V. Nguyen and F. Baccelli, A stochastic geometry model for cognitive radio networks, The Computer Journal, 55 (2012), 534-552.
18 P. Pinto, A. Giorgetti, M. Chiani and M. Win, A stochastic geometry approach to coexistence in heterogeneous wireless networks, IEEE J. Select. Areas Commun., 27 (2009).
19 W. Ren, Q. Zhao and A. Swami, Power control in cognitive radio networks: How to cross a multi-lane highway, IEEE J. Select. Areas Commun., 27 (2009).
20 X. Song, C. Yin, D. Liu and R. Zhang, Spatial Opportunity in Cognitive Radio Networks with Threshold-Based Opportunistic Spectrum Access, Communications (ICC), 2013 IEEE International Conference on, (2013), 2695-2700.
21 D. Stoyan, W. Kendall and J. Mecke, Stochastic Geometry and Its Applications, $2^{nd}$ edition, John Wiley and Sons, 1996.
22 R. Vaze, Transmission capacity of spectrum sharing ad hoc networks with multiple antennas, IEEE Trans. Wireless Commun., 10 (2011), 2334-2340.
23 X. Yang and A. Petropulu, Co-channel interference modelling and analysis in a Poisson field of interferers in wireless communications, IEEE Trans. Signal Processing, 51 (2003), 64-76.       
24 C. Yin, L. Gao and S. Cui, Scaling laws for overlaid wireless networks: A cognitive radio network vs. a primary network, Networking, IEEE/ACM Transactions on, 18 (2010), 1317-1329.
25 C. Yin, C. Chen, T. Liu and S. Cui, Generalized results of transmission capacities for overlaid wireless networks, in Proc. IEEE Int. Symp. Inf. Theory, Seoul, Korea, (2009), 1774-1778.
26 J. Zhang and J. G. Andrews, Distributed antenna systems with randomness, IEEE Trans. Wireless Commun., 7 (2008), 3636-3646.
27 Q. Zhao and B. Sadler, A survey of dynamic spectrum access, IEEE Signal Process. Mag., 24 (2007), 79-89.

Go to top