Monotonic Optimization for Power Assignment in Two-Way Cognitive Radio Networks with Shared-Band Amplify-and-Forward Relays
Citations Over Time
Abstract
In this work, we consider a cognitive radio network comprising a pair of sources and multiple relays exercising the amplify-and-forward cooperation in a shared frequency band. For such a network, we consider the problem of determining transmit powers of the sources and relays so that the lesser of the achievable error-free data rates from the two sources is maximized. The formulated problem is a non-convex optimization problem and does not have a structure to guarantee the quality of a solution. We present the transformation of this problem to an equivalent optimization problem for which the monotonic optimization methods can be applied. We establish that the polyblock outer approximation algorithm for this monotonic optimization terminates with an ε-optimal solution after a finite number of iterations.
Related Papers
- → UAV-Enabled Secure Communications: Joint Trajectory and Transmit Power Optimization(2019)274 cited
- → Sensing and Power Allocation for Cognitive Radio with Multiple Primary Transmit Powers(2013)34 cited
- → Spectrum sensing interval optimization and power control for energy efficient cognitive radio networks(2017)6 cited
- → Joint optimization of subchannel selection and spectrum sensing time for multiband cognitive radio networks(2010)4 cited
- → Differentially Private Convex Optimization with Feasibility Guarantees(2020)4 cited