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May 7, 2014, Florence, Italy http://ict-tropic.eu http://spcom.upc.edu Retrospective Interference Alignment for the 3-user MIMO Interference Channel with Delayed CSIT M. Torrellas, A. Agustin and J. Vidal Universitat Politècnica Catalunya (UPC) marc.torrellas.socastro@upc.edu
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Motivation 2 Many works have shown that use of linear beamforming at transmitters and receivers can be used to manage interference in wireless networks. In the context of the interference channel (IC), Interference Alignment (IA) concepts provide each user half the cake but... at the cost of assuming perfect and instantaneous channel state information at the transmitter side (CSIT) What about feedback errors? And feedback delay? Maddah-Ali et al. (MAT) proposed the delayed CSIT framework in [MAT12], where completely outdated CSIT can be exploited for IA in the BC. This type of IA was subsequently denoted as Retrospective IA (RIA) and extended to the SISO IC. We extend those ideas to the MIMO IC case, and get insight into how additional antennas at each side impact the total degrees of freedom (DoF) of a network with delayed CSIT.
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Summary 3 1.System model 2.Review of RIA for SISO 3.RIA for MIMO 4.Results 5.Conclusions
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4 System Model Each transmitter delivers b symbols to its pair We consider two phases ( W = W 1 + W 2 ) Interfering Sensing (IS) phase RIA phase All terminals are active during all phases Output at the j- th receiver, phase p, slot s : IS RIA
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5 System Model Let consider the signals received at user 1 along the first phase: We can group these signals as follows with desired interference
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6 IA constraints and DoF This is written in general as
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7 System Model – CSIT definition Assuming full CSIR, each receiver does the following operation at the end of the IS phase: : ZF filter preserving interference from tx i at rx j : interference caused by tx i at rx j, with CSIT to be reported to tx i after the first phase:
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8 Review of RIA for SISO [Maleki12] IS phase: all users transmit simultaneously with random i.i.d entries CSI report: acquisition of RIA phase: each user aims to align the transmitted signals at both rxs This way the transmitted signals provide linear combinations of desired signals, while maintaining the rank of received interference
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9 RIA for MIMO - Constraints Constraints that make the scheme reliable for any given antenna setting: 1. First phase ZF filters 2. Intersection subspace: 3. Receiver Space-Time dimensions: 4. Rank of desired signals after zero-forcing:
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10 RIA for MIMO – Problem statement Overall, the problem is written as
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11 RIA for MIMO – Solution For the range the optimal values are found to be with
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12Results A: Many rx antennas, no need of CSIT C: [Abdoli13] Scaled SISO IC scheme D: [Vaze12] 2-user IC schemes The achievable DoF as a function of
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13Results A: Many rx antennas, no need of CSIT B: RIA for MIMO. Useful for N > M C: [Abdoli13] Scaled SISO IC scheme D: [Vaze12] 2-user IC schemes [TAV14] presented at ICASSP14 The achievable DoF as a function of
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Conclusions 14 We extend the RIA scheme of Maleki et al. for the MIMO case Our approach is based on formulating a maximization problem, valid for any antenna setting ( M,N ) New DoF inner bounds are provided as a function of the ratio among tx/rx antennas and compared with other approaches Future work: MIMO or K -user extension for other schemes using similar tools, improve outer bounds for the MIMO IC with delayed CSIT
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May 7, 2014, Florence, Italy http://ict-tropic.eu http://spcom.upc.edu Thanks for your attention M. Torrellas, A. Agustin and J. Vidal Universitat Politècnica Catalunya (UPC) marc.torrellas.socastro@upc.edu
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May 7, 2014, Florence, Italy http://ict-tropic.eu http://spcom.upc.edu Backup slides
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