Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ian C. Wong and Brian L. Evans ICASSP 2007 Honolulu, Hawaii

Published byOswin Bishop Modified over 5 years ago

Similar presentations

Presentation on theme: "Ian C. Wong and Brian L. Evans ICASSP 2007 Honolulu, Hawaii"— Presentation transcript:

1 Ian C. Wong and Brian L. Evans ICASSP 2007 Honolulu, Hawaii
Optimal Downlink OFDMA Subcarrier, Rate, and Power Allocation for Ergodic Rate Maximization with Imperfect Channel Knowledge Ian C. Wong and Brian L. Evans ICASSP 2007 Honolulu, Hawaii

2 Orthogonal Frequency Division Multiple Access (OFDMA)
Adopted by IEEE a/d/e and 3GPP-LTE Multiple users assigned different subcarriers Inherits advantages of OFDM Granular exploitation of diversity among users through channel state information (CSI) feedback User 1 frequency Base Station (Subcarrier and power allocation) . . . User M

3 Summary of Contributions
Previous Research Our Contributions Solution Constraint-relaxation One large constrained convex optimization problem Resort to sub-optimal heuristics (O(MK2) complexity) Dual optimization Multiple small optimization problems w/closed-form solutions 99.999% optimal with O(MK) complexity Previous Research Our Contributions Solution Constraint-relaxation One large constrained convex optimization problem Resort to sub-optimal heuristics (O(MK2) complexity) Dual optimization Multiple small optimization problems w/closed-form solutions 99.999% optimal with O(MK) complexity Assumption Perfect channel knowledge Unrealistic due to channel estimation errors and delay Imperfect channel knowledge Allocate based on statistics of channel estimation/prediction errors

4 OFDMA Signal Model Downlink OFDMA with K subcarriers and M users
Perfect time and frequency synchronization Delay spread less than guard interval Received K-length vector for mth user at nth symbol Diagonal gain matrix Diagonal channel matrix Noise vector

5 Partial Channel State Information Model
Stationary and ergodic channel gains MMSE channel prediction MMSE Channel Prediction Ehat Conditional PDF of channel-to-noise ratio (CNR) – Non-central Chi-squared CNR: Normalized error variance:

6 Discrete Rate Function
Uncoded BER = 10-3 Average rate function given partial CSI:

7 BER, Power, and Rate Functions
Impractical to impose instantaneous BER constraint when only partial CSI is available Find power allocation function that fulfills the average BER constraint for each discrete rate level Given the power allocation function for each rate level, the average rate can be computed Derived closed-form expressions for average BER, power, and average rate functions

8 Weighted-Sum Rate Maximization with Partial CSI
Nonlinear integer program Rate levels: Average rate: Feasible set: Power: User weights:

9 Dual Optimization Method
“Dualize” the power constraint Multiple small optimization problems with simple solutions Continuous and convex (may not be continuously differentiable) Find optimal multiplier using derivative-free line search Bottleneck: computing rate and power functions Rate and power functions independent of multiplier Can be computed and stored before running search

10 Optimal Subcarrier, Rate, and Power Allocation
Optimal rate level selection: Optimal user selection: Optimal power allocation: Optimal rate allocation:

11 Simulation Parameters (3GPP-LTE)
Channel Snapshot

12 Power Allocation Functions
Optimal Power Allocation: Multilevel Fading Inversion (MFI): Predicted CNR:

13 Two User Capacity Region
No. of line search iterations (I) 5 dB 21.33 10 dB 21.12 15 dB 21.15 Relative Gap (x10-4) 71.48 7.707 5.662 Complexity O(MK(I+L)) M – No. of users K – No. of subcarriers; I – No. of line search iterations L – No. of discrete rate levels

14 Average BER Comparison
Per-subcarrier Average BER Per-subcarrier Prediction Error Variance Subcarrier Index

15 Conclusion Derived downlink OFDMA resource allocation algorithms assuming partial CSI Maximizes ergodic weighted-sum rates conditioned on partial CSI Requires linear complexity Achieves negligible optimality gaps (99.999% optimal) Ignoring CSI errors causes average BER degradation Level of degradation depends on CSI error variance

16 Further reading: continuous rate and perfect CSI cases
MAHALO! Further reading: continuous rate and perfect CSI cases [1] I.C. Wong and B. L. Evans, "Optimal OFDMA resource allocation with linear complexity to maximize ergodic weighted-sum capacity," Proc. IEEE Int. Conf. on Acoustics, Speech and Signal Proc., April 16-20, 2007, Honolulu, HI USA [Poster Session: Fri, 9:30-11:30am, Poster Area 2]. [2] I. C. Wong and B. L. Evans, "Optimal Resource Allocation in OFDMA Systems with Imperfect Channel Knowledge,“ IEEE Trans. on Communications., submitted. [3] I. C. Wong and B. L. Evans, "Optimal OFDMA Resource Allocation with Linear Complexity to Maximize Ergodic Rates," IEEE Trans. on Wireless Communications, submitted.

Download ppt "Ian C. Wong and Brian L. Evans ICASSP 2007 Honolulu, Hawaii"

Similar presentations

2. System Setup MIMO systems: Limited feedback systems: Perfect Channel State Information (CSI) at the receiver. Partial CSI at the transmitter characterized.

2. System Setup MIMO systems: Limited feedback systems: Perfect Channel State Information (CSI) at the receiver. Partial CSI at the transmitter characterized.
Underwater Acoustic MIMO Channel Capacity

Underwater Acoustic MIMO Channel Capacity
VSMC MIMO: A Spectral Efficient Scheme for Cooperative Relay in Cognitive Radio Networks 1.

VSMC MIMO: A Spectral Efficient Scheme for Cooperative Relay in Cognitive Radio Networks 1.
Comparison of different MIMO-OFDM signal detectors for LTE

Comparison of different MIMO-OFDM signal detectors for LTE
HKUST - 1 - Robust Optimal Cross Layer Designs for TDD- OFDMA Systems with Imperfect CSIT and Unknown Interference — State-Space Approach based on 1-bit.

HKUST Robust Optimal Cross Layer Designs for TDD- OFDMA Systems with Imperfect CSIT and Unknown Interference — State-Space Approach based on 1-bit.
M. Stemick, S. Olonbayar, H. Rohling Hamburg University of Technology Institute of Telecommunications PHY-Mode Selection and Multi User Diversity in OFDM.

M. Stemick, S. Olonbayar, H. Rohling Hamburg University of Technology Institute of Telecommunications PHY-Mode Selection and Multi User Diversity in OFDM.
Multiuser OFDM with Adaptive Subcarrier, Bit, and Power Allocation Wong, et al, JSAC, Oct. 1999.

Multiuser OFDM with Adaptive Subcarrier, Bit, and Power Allocation Wong, et al, JSAC, Oct
Submission doc.: IEEE 802.11-14/1452r0 November 2014 Leif Wilhelmsson, EricssonSlide 1 Frequency selective scheduling in OFDMA Date: 2014-11-03 Authors:

Submission doc.: IEEE /1452r0 November 2014 Leif Wilhelmsson, EricssonSlide 1 Frequency selective scheduling in OFDMA Date: Authors:
Receiver Performance for Downlink OFDM with Training Koushik Sil ECE 463: Adaptive Filter Project Presentation.

Receiver Performance for Downlink OFDM with Training Koushik Sil ECE 463: Adaptive Filter Project Presentation.
Muhammad Imadur Rahman1, Klaus Witrisal2,

Muhammad Imadur Rahman1, Klaus Witrisal2,
Sparsity-Aware Adaptive Algorithms Based on Alternating Optimization and Shrinkage Rodrigo C. de Lamare* + and Raimundo Sampaio-Neto * + Communications.

Sparsity-Aware Adaptive Algorithms Based on Alternating Optimization and Shrinkage Rodrigo C. de Lamare* + and Raimundo Sampaio-Neto * + Communications.
Seyed Mohamad Alavi, Chi Zhou, Yu Cheng Department of Electrical and Computer Engineering Illinois Institute of Technology, Chicago, IL, USA ICC 2009.

Seyed Mohamad Alavi, Chi Zhou, Yu Cheng Department of Electrical and Computer Engineering Illinois Institute of Technology, Chicago, IL, USA ICC 2009.
MAXIMIZING SPECTRUM UTILIZATION OF COGNITIVE RADIO NETWORKS USING CHANNEL ALLOCATION AND POWER CONTROL Anh Tuan Hoang and Ying-Chang Liang Vehicular Technology.

MAXIMIZING SPECTRUM UTILIZATION OF COGNITIVE RADIO NETWORKS USING CHANNEL ALLOCATION AND POWER CONTROL Anh Tuan Hoang and Ying-Chang Liang Vehicular Technology.
-1- ICA Based Blind Adaptive MAI Suppression in DS-CDMA Systems Malay Gupta and Balu Santhanam SPCOM Laboratory Department of E.C.E. The University of.

-1- ICA Based Blind Adaptive MAI Suppression in DS-CDMA Systems Malay Gupta and Balu Santhanam SPCOM Laboratory Department of E.C.E. The University of.
Orthogonal Frequency Division Multiple Access (OFDMA)

Orthogonal Frequency Division Multiple Access (OFDMA)
1 11 Subcarrier Allocation and Bit Loading Algorithms for OFDMA-Based Wireless Networks Gautam Kulkarni, Sachin Adlakha, Mani Srivastava UCLA IEEE Transactions.

1 11 Subcarrier Allocation and Bit Loading Algorithms for OFDMA-Based Wireless Networks Gautam Kulkarni, Sachin Adlakha, Mani Srivastava UCLA IEEE Transactions.
Performance evaluation of adaptive sub-carrier allocation scheme for OFDMA Thesis presentation16th Jan 2007 Author:Li Xiao Supervisor: Professor Riku Jäntti.

Performance evaluation of adaptive sub-carrier allocation scheme for OFDMA Thesis presentation16th Jan 2007 Author:Li Xiao Supervisor: Professor Riku Jäntti.
Ali Al-Saihati ID# Ghassan Linjawi

Ali Al-Saihati ID# Ghassan Linjawi
NTUEE Confidential Toward MIMO MC-CDMA Speaker : Pei-Yun Tsai Advisor : Tzi-Dar Chiueh 2004/10/25.

NTUEE Confidential Toward MIMO MC-CDMA Speaker : Pei-Yun Tsai Advisor : Tzi-Dar Chiueh 2004/10/25.
EE 6332, Spring, 2014 Wireless Communication Zhu Han Department of Electrical and Computer Engineering Class 11 Feb. 19 th, 2014.

EE 6332, Spring, 2014 Wireless Communication Zhu Han Department of Electrical and Computer Engineering Class 11 Feb. 19 th, 2014.

Similar presentations

Ads by Google