Joint Subchannel Assignment and Power Allocation for OFDMA Femtocell Networks

In this paper, we propose a joint subchannel and power allocation algorithm for the downlink of an orthogonal frequency-division multiple access (OFDMA) mixed femtocell/macrocell network deployment. Specifically, the total throughput of all femtocell user equipments (FUEs) is maximized while the network capacity of an existing macrocell is always protected. Towards this end, we employ an iterative approach in which OFDM subchannels and transmit powers of base stations (BS) are alternatively assigned and optimized at every step. For a fixed power allocation, we prove that the optimal policy in each cell is to give each subchannel to the user with the highest signal-to-interference-plus-noise ratio (SINR) on that subchannel. For a given subchannel assignment, we adopt the successive convex approximation (SCA) approach and transform the highly nonconvex power allocation problem into a sequence of convex subproblems. In the arithmetic-geometric mean (AGM) approximation, we apply geometric programming to find optimal solutions after condensing a posynomial into a monomial. On the other hand, logarithmic and \underline{d}ifference-of-two-\underline{c}oncave-functions (D.C.) approximations lead us to solving a series of convex relaxation programs. With the three proposed SCA-based power optimization solutions, we show that the overall joint subchannel and power allocation algorithm converges to some local maximum of the original design problem. While a central processing unit is required to implement the AGM approximation-based solution, each BS locally computes the optimal subchannel and power allocation for its own servicing cell in the logarithmic and D.C. approximation-based solutions. Numerical examples confirm the merits of the proposed algorithm.

[1]  Tho Le-Ngoc,et al.  Distributed Interference Management in Two-Tier CDMA Femtocell Networks , 2012, IEEE Transactions on Wireless Communications.

[2]  Jeffrey G. Andrews,et al.  Femtocells: Past, Present, and Future , 2012, IEEE Journal on Selected Areas in Communications.

[3]  Sudarshan Guruacharya,et al.  Hierarchical Competition for Downlink Power Allocation in OFDMA Femtocell Networks , 2013, IEEE Transactions on Wireless Communications.

[4]  Tho Le-Ngoc,et al.  Distributed Subchannel and Power Allocation for OFDMA-Based Femtocell Networks , 2013, 2013 IEEE 77th Vehicular Technology Conference (VTC Spring).

[5]  Dong-Ho Cho,et al.  A Joint Power and Subchannel Allocation Scheme Maximizing System Capacity in Indoor Dense Mobile Communication Systems , 2010, IEEE Transactions on Vehicular Technology.

[6]  Jie Zhang,et al.  OFDMA femtocells: A roadmap on interference avoidance , 2009, IEEE Communications Magazine.

[7]  Tho Le-Ngoc,et al.  Distributed Pareto-Optimal Power Control for Utility Maximization in Femtocell Networks , 2012, IEEE Transactions on Wireless Communications.

[8]  Meixia Tao,et al.  Resource Allocation in Open Access OFDMA Femtocell Networks , 2012, IEEE Wireless Communications Letters.

[9]  Gordon P. Wright,et al.  Technical Note - A General Inner Approximation Algorithm for Nonconvex Mathematical Programs , 1978, Oper. Res..

[10]  Luc Vandendorpe,et al.  Iterative Resource Allocation for Maximizing Weighted Sum Min-Rate in Downlink Cellular OFDMA Systems , 2011, IEEE Trans. Signal Process..

[11]  Yung Yi,et al.  REFIM: A Practical Interference Management in Heterogeneous Wireless Access Networks , 2011, IEEE Journal on Selected Areas in Communications.

[12]  Sanjiv Nanda,et al.  Femtocells [Industry Perspectives] , 2010 .

[13]  Xiaodong Wang,et al.  Coordinated Scheduling and Power Allocation in Downlink Multicell OFDMA Networks , 2009, IEEE Transactions on Vehicular Technology.

[14]  Hoang Duong Tuan,et al.  DC optimization approach to robust controls: the optimal scaling value problem , 2000, IEEE Trans. Autom. Control..

[15]  Jeffrey G. Andrews,et al.  Femtocell networks: a survey , 2008, IEEE Communications Magazine.

[16]  Meixia Tao,et al.  Joint subchannel and power allocation in interference-limited OFDMA femtocells with heterogeneous QoS guarantee , 2012, 2012 IEEE Global Communications Conference (GLOBECOM).

[17]  Christian Ibars,et al.  Distributed interference control in OFDMA-based femtocells , 2010, 21st Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications.

[18]  Daniel Pérez Palomar,et al.  Power Control By Geometric Programming , 2007, IEEE Transactions on Wireless Communications.

[19]  Akhilesh Pokhariyal,et al.  Interference management and performance analysis of UMTS/HSPA+ femtocells , 2009, IEEE Communications Magazine.

[20]  Ha H. Nguyen,et al.  Fast Global Optimal Power Allocation in Wireless Networks by Local D.C. Programming , 2012, IEEE Transactions on Wireless Communications.

[21]  Jeffrey G. Andrews,et al.  Power control in two-tier femtocell networks , 2008, IEEE Transactions on Wireless Communications.

[22]  Kang G. Shin,et al.  Adaptive Interference Management of OFDMA Femtocells for Co-Channel Deployment , 2011, IEEE Journal on Selected Areas in Communications.

[23]  Jianwei Huang,et al.  MAPEL: Achieving global optimality for a non-convex wireless power control problem , 2008, IEEE Transactions on Wireless Communications.

[24]  Dong In Kim,et al.  Interference management in OFDMA femtocell networks: issues and approaches , 2012, IEEE Wireless Communications.

[25]  Edward W. Knightly,et al.  Opportunistic fair scheduling over multiple wireless channels , 2003, IEEE INFOCOM 2003. Twenty-second Annual Joint Conference of the IEEE Computer and Communications Societies (IEEE Cat. No.03CH37428).

[26]  Philip Wolfe,et al.  An algorithm for quadratic programming , 1956 .

[27]  Tony Q. S. Quek,et al.  Enhanced intercell interference coordination challenges in heterogeneous networks , 2011, IEEE Wireless Communications.

[28]  Wei Yu,et al.  Dual methods for nonconvex spectrum optimization of multicarrier systems , 2006, IEEE Transactions on Communications.

[29]  Jie Zhang,et al.  Access control mechanisms for femtocells , 2010, IEEE Communications Magazine.

[30]  Jamie S. Evans,et al.  SCALE: A Low-Complexity Distributed Protocol for Spectrum Balancing in Multiuser DSL Networks , 2009, IEEE Transactions on Information Theory.

[31]  Marc Moonen,et al.  Autonomous Spectrum Balancing for Digital Subscriber Lines , 2007, IEEE Transactions on Signal Processing.