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ORCIDMahesh K. Varanasi
Mahesh Kumar Varanasi
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- affiliation: University of Colorado, USA
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2020 – today
- 2024
[c90]Youjian Eugene Liu, Mahesh K. Varanasi, Ibrahim Khalife, Ali Abbasi:
MIMO/RIS Communication via Beam Networks: Three Case Studies. ICC 2024: 575-580- 2023
- [j97]Mohamed Salman
, Mahesh K. Varanasi:
The -User DM Broadcast Channel With Two Groupcast Messages: Achievable Rate Regions and the Combination Network as a Case Study. IEEE Trans. Inf. Theory 69(1): 194-222 (2023) - [j96]Mohamed Salman, Mahesh K. Varanasi:
Diamond Message Set Groupcasting: From an Inner Bound for the DM Broadcast Channel to the Capacity Region of the Combination Network. IEEE Trans. Inf. Theory 69(1): 223-237 (2023) - 2022
- [c89]Aniruddha Phatak, Mahesh K. Varanasi:
An improved coded caching scheme for partially cooperative D2D networks. ISIT 2022: 1121-1126 - [c88]Aniruddha Phatak, Mahesh K. Varanasi:
An improved lower bound for device-to-device coded caching. ISIT 2022: 1127-1132 - 2020
- [j95]Mohamed Salman, Mahesh K. Varanasi:
Capacity Results for Classes of Partially Ordered K-User Broadcast Channels With Two Nested Multicast Messages. IEEE Trans. Inf. Theory 66(1): 65-81 (2020) - [j94]Yimin Pang, Mahesh K. Varanasi:
Constant-Gap-to-Capacity and Generalized Degrees of Freedom Regions of the MIMO MAC-IC-MAC. IEEE Trans. Inf. Theory 66(4): 2198-2218 (2020) - [c87]Mohamed Salman, Mahesh K. Varanasi:
On the Capacity Region of the Three-Receiver Broadcast Channel With Receiver Message Cognition. ISIT 2020: 1486-1491 - [c86]Mohamed Salman, Mahesh K. Varanasi:
Diamond Message Set Groupcasting: From an Achievable Rate Region for the DM Broadcast Channel to the Capacity of the Combination Network. ISIT 2020: 1498-1503 - [c85]Mohamed Salman, Mahesh K. Varanasi:
On the Broadcast Channel with Non-Distinct Message Demands and Symmetric Side Information. ISIT 2020: 1510-1515 - [c84]Aniruddha Phatak, Mahesh K. Varanasi:
Eliminating Pairing Loss for Coded Caching with Three Erasure-Coded Servers. ISIT 2020: 1681-1686 - [c83]Mohamed Salman, Mahesh K. Varanasi:
An Upper Bound on the Capacity-Memory Tradeoff of Interleavable Discrete Memoryless Broadcast Channels with Uncoded Prefetching. ISIT 2020: 1687-1692 - [i32]Henry P. Romero, Mahesh K. Varanasi:
Rate Splitting, Superposition Coding and Binning for Groupcasting over the Broadcast Channel: A General Framework. CoRR abs/2011.04745 (2020) - [i31]Mohamed Salman, Mahesh K. Varanasi:
Diamond Message Set Groupcasting: From an Inner Bound for the DM Broadcast Channel to the Capacity Region of the Combination Network. CoRR abs/2011.04760 (2020)
2010 – 2019
- 2019
- [j93]Yimin Pang, Mahesh K. Varanasi:
A Unified Theory of Multiple-Access and Interference Channels via Approximate Capacity Regions for the MAC-IC-MAC. IEEE Trans. Inf. Theory 65(3): 1898-1920 (2019) - [j92]Kaniska Mohanty, Mahesh K. Varanasi:
On the Generalized Degrees of Freedom of the MIMO Interference Channel With Delayed CSIT. IEEE Trans. Inf. Theory 65(5): 3261-3277 (2019) - [c82]Mohamed Salman, Mahesh K. Varanasi:
The Exact Capacity-Memory Tradeoff for Caching with Uncoded Prefetching in the Two-Receiver Gaussian Broadcast Channel. ISIT 2019: 1222-1226 - [c81]Mohamed Salman, Mahesh K. Varanasi:
Capacity Results via Message Merging and Superposition Coding in the K-Receiver Broadcast Channel with General Message Sets. ISIT 2019: 1642-1646 - [c80]Mohamed Salman, Mahesh K. Varanasi:
The Symmetric Capacity of the K-Receiver Interleaved Broadcast Channel with Symmetric Side Information. ISIT 2019: 3097-3101 - 2018
- [j91]Kaniska Mohanty, Mahesh K. Varanasi:
The Generalized Degrees of Freedom Region of the MIMO Z-Interference Channel With Delayed CSIT. IEEE Trans. Inf. Theory 64(1): 531-546 (2018) - [j90]Henry P. Romero, Mahesh K. Varanasi:
Hierarchical Successive Group Decoding Achieves Capacity in the Multiple Access Channel With General Message Sets. IEEE Trans. Inf. Theory 64(6): 4562-4580 (2018) - [c79]Mohamed Salman, Mahesh K. Varanasi:
An Achievable Rate Region for the K-Receiver Two Nested Groupcast DM Broadcast Channel and a Capacity Result for the Combination Network. ISIT 2018: 1415-1419 - [c78]Mohamed Salman, Mahesh K. Varanasi:
The Capacity Region of the Three-Receiver Less Noisy Broadcast Channel with Message Cognition. ISIT 2018: 1420-1424 - [c77]Yao Wang, Mahesh K. Varanasi:
A New Approach to Linear Degrees of Freedom: the MIMO Broadcast Channel with Hybrid CSIT. ISIT 2018: 1535-1539 - [c76]Yimin Pang, Mahesh K. Varanasi:
Bounds on the Capacity Region of the Three-User One-to-Three MIMO Interference Channel. ISIT 2018: 1779-1783 - [c75]Yi Jiang, Yimeng Feng, Mahesh K. Varanasi:
Hybrid Beamforming for Massive MIMO: A Unified Solution for Both Phase Shifter and Switch Networks. WCSP 2018: 1-5 - [i30]Mohamed Salman, Mahesh K. Varanasi:
Capacity Results for the K-User Broadcast Channel with Two Nested Multicast Messages. CoRR abs/1812.10520 (2018) - [i29]Mohamed Salman, Mahesh K. Varanasi:
An Achievable Rate Region for Two Groupcast Messages over the K-User Broadcast Channel and Capacity Results for the Combination Network. CoRR abs/1812.10525 (2018) - 2017
- [j89]Henry P. Romero, Mahesh K. Varanasi:
A Unifying Order-Theoretic Framework for Superposition Coding: Polymatroidal Structure and Optimality in the Multiple-Access Channel With General Message Sets. IEEE Trans. Inf. Theory 63(1): 21-37 (2017) - [j88]Yao Wang, Mahesh K. Varanasi:
Degrees of Freedom Region of the MIMO 2 × 2 Interference Network With General Message Sets. IEEE Trans. Inf. Theory 63(5): 3259-3276 (2017) - [j87]Henry P. Romero, Mahesh K. Varanasi:
The K-User Vector Gaussian Multiple-Access Channel With General Messages Sets: Capacity, Polymatroidal Structure, and Efficient Computation. IEEE Trans. Inf. Theory 63(6): 3875-3893 (2017) - [j86]Yao Wang, Mahesh K. Varanasi:
Degrees of Freedom of the Two-User MIMO Broadcast Channel With Private and Common Messages Under Hybrid CSIT Models. IEEE Trans. Inf. Theory 63(9): 6004-6019 (2017) - [j85]David Grant, Mahesh K. Varanasi:
Feasibility of Single-Beam Interference Alignment in Multi-Carrier Interference Channels. IEEE Trans. Inf. Theory 63(11): 7352-7357 (2017) - [j84]Kaniska Mohanty, Mahesh K. Varanasi:
The Degrees of Freedom of the K-User MIMO Cyclic Z-Interference Channel Under Perfect and Delayed CSIT Assumptions. IEEE Trans. Wirel. Commun. 16(1): 17-25 (2017) - [c74]Mohamed Salman, Mahesh K. Varanasi:
On the capacity region of the K-user discrete memoryless broadcast channel with two degraded messages. ISIT 2017: 1048-1052 - [c73]Henry P. Romero, Mahesh K. Varanasi:
Rate splitting and superposition coding for concurrent groupcasting over the broadcast channel: A general framework. ISIT 2017: 1888-1892 - 2016
- [j83]Kaniska Mohanty, Mahesh K. Varanasi:
Degrees of Freedom Region of the MIMO Z-Interference Channel With Mixed CSIT. IEEE Commun. Lett. 20(12): 2422-2425 (2016) - [c72]Henry P. Romero, Mahesh Kumar Varanasi:
Superposition coding in the combination network. ISIT 2016: 2149-2153 - [i28]Yao Wang, Mahesh K. Varanasi:
Degrees of Freedom of the MIMO 2x2 Interference Network with General Message Sets. CoRR abs/1603.01651 (2016) - [i27]Yao Wang, Mahesh K. Varanasi:
Degrees of Freedom of the Two-User MIMO Broadcast Channel with Private and Common Messages Under Hybrid CSIT Models. CoRR abs/1603.06910 (2016) - [i26]Yimin Pang, Mahesh K. Varanasi:
Approximate Capacity Region of the MAC-IC-MAC. CoRR abs/1604.02234 (2016) - [i25]Kaniska Mohanty, Mahesh K. Varanasi:
The Generalized Degrees of Freedom Region of the MIMO Z-Interference Channel with Delayed CSIT. CoRR abs/1605.00693 (2016) - 2015
- [j82]Kaniska Mohanty, Mahesh K. Varanasi:
Degrees of Freedom of the MIMO Z-Interference Channel With Delayed CSIT. IEEE Commun. Lett. 19(12): 2282-2285 (2015) - [j81]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom of Two-Unicast Layered MIMO Interference Networks With Feedback. IEEE Trans. Inf. Theory 61(6): 3316-3325 (2015) - [j80]Sanjay Karmakar, Mahesh K. Varanasi:
The Generalized Diversity-Multiplexing Tradeoff of the MIMO Z Interference Channel. IEEE Trans. Inf. Theory 61(6): 3427-3445 (2015) - [j79]Kaniska Mohanty, Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region of the MIMO Interference Channel With Hybrid CSIT. IEEE Trans. Wirel. Commun. 14(4): 1837-1848 (2015) - [c71]Kaniska Mohanty, Mahesh K. Varanasi:
The degrees of freedom region of the 3-User MIMO cyclic Z-interference channel with perfect and delayed CSIT. ISIT 2015: 879-883 - [c70]Yao Wang, Mahesh K. Varanasi:
Degrees of freedom region of the MIMO two-transmit, two-receive network with General message sets. ISIT 2015: 1064-1068 - [c69]Henry P. Romero, Mahesh K. Varanasi:
Polymatroidal structure in the multiple access channel with general message sets. ISIT 2015: 2658-2662 - 2014
- [j78]Steve Limburg, David Grant, Mahesh K. Varanasi:
Higher genus universally decodable matrices (UDMG). Adv. Math. Commun. 8(3): 257-270 (2014) - [j77]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom of MIMO Networks With Full-Duplex Receiver Cooperation but no CSIT. IEEE Trans. Inf. Theory 60(9): 5587-5596 (2014) - [j76]Chinmay S. Vaze, Mahesh K. Varanasi:
Independent Signaling Achieves the Capacity Region of the Gaussian Interference Channel With Common Information to Within One Bit. IEEE Trans. Inf. Theory 60(10): 6070-6079 (2014) - [j75]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region of the 2 × 2 × 2 MIMO Interference Network. IEEE Trans. Inf. Theory 60(12): 7751-7759 (2014) - [j74]Rajesh T. Krishnamachari, Mahesh K. Varanasi, Kaniska Mohanty:
MIMO Systems With Quantized Covariance Feedback. IEEE Trans. Signal Process. 62(2): 485-495 (2014) - [c68]Sanjay Karmakar, Mahesh K. Varanasi:
Capacity region of a class of strong MIMO IC. CISS 2014: 1-6 - [c67]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity multiplexing tradeoff of the half-duplex relay network. ITW 2014: 661-665 - 2013
- [j73]Sanjay Karmakar, Mahesh K. Varanasi:
The Capacity Region of the MIMO Interference Channel and Its Reciprocity to Within a Constant Gap. IEEE Trans. Inf. Theory 59(8): 4781-4797 (2013) - [j72]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees-of-Freedom Region of the MIMO Interference Channel With Shannon Feedback. IEEE Trans. Inf. Theory 59(8): 4798-4810 (2013) - [j71]Henry P. Romero, Mahesh K. Varanasi:
Bounds on the Capacity Region for a Class of Interference Channels With Common Information. IEEE Trans. Inf. Theory 59(8): 4811-4818 (2013) - [j70]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
Interference Alignment Under Limited Feedback for MIMO Interference Channels. IEEE Trans. Signal Process. 61(15): 3908-3917 (2013) - [j69]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
On the Geometry and Quantization of Manifolds of Positive Semi-Definite Matrices. IEEE Trans. Signal Process. 61(18): 4587-4599 (2013) - [c66]Henry P. Romero, Mahesh K. Varanasi:
Approximate capacity of the K-user fading MIMO MAC with common information. Allerton 2013: 315-319 - [c65]Yimin Pang, Mahesh K. Varanasi:
Bounds on the capacity region of a class of multiple access interference channels. Allerton 2013: 599-606 - [c64]Henry P. Romero, Mahesh K. Varanasi:
Capacity of the K-user discrete memoryless multiple access channel with common information and with or without state. Allerton 2013: 615-620 - [i24]Steve Limburg, David Grant, Mahesh K. Varanasi:
Higher genus universally decodable matrices (UDMG). CoRR abs/1301.6117 (2013) - [i23]Kaniska Mohanty, Mahesh K. Varanasi:
On the DoF Region of the K-user MISO Broadcast Channel with Hybrid CSIT. CoRR abs/1312.1309 (2013) - 2012
- [j68]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region and Interference Alignment for the MIMO Interference Channel With Delayed CSIT. IEEE Trans. Inf. Theory 58(7): 4396-4417 (2012) - [j67]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degree-of-Freedom Regions of MIMO Broadcast, Interference, and Cognitive Radio Channels With No CSIT. IEEE Trans. Inf. Theory 58(8): 5354-5374 (2012) - [j66]Chinmay S. Vaze, Mahesh K. Varanasi:
A New Outer Bound via Interference Localization and the Degrees of Freedom Regions of MIMO Interference Networks With No CSIT. IEEE Trans. Inf. Theory 58(11): 6853-6869 (2012) - [j65]Sanjay Karmakar, Mahesh K. Varanasi:
The Diversity-Multiplexing Tradeoff of the MIMO Half-Duplex Relay Channel. IEEE Trans. Inf. Theory 58(12): 7168-7187 (2012) - [j64]Sanjay Karmakar, Mahesh K. Varanasi:
The Generalized Degrees of Freedom Region of the MIMO Interference Channel and Its Achievability. IEEE Trans. Inf. Theory 58(12): 7188-7203 (2012) - [c63]Chinmay S. Vaze, Mahesh K. Varanasi:
Retro-cooperative interference alignment and the DoF region of the (M, N)3 interference network with limited Shannon feedback. CISS 2012: 1-5 - [c62]Sanjay Karmakar, Mahesh K. Varanasi:
The generalized multiplexing gain region of the slow fading MIMO interference channel and its achievability with limited feedback. ISIT 2012: 3135-3139 - [c61]Chinmay S. Vaze, Mahesh K. Varanasi:
Beamforming and aligned interference neutralization achieve the degrees of freedom region of the 2×2×2 MIMO interference network. ITA 2012: 199-203 - [i22]Chinmay S. Vaze, Mahesh K. Varanasi:
Independent signaling achieves the capacity region of the Gaussian interference channel with common information to within one bit. CoRR abs/1202.6658 (2012) - [i21]Kaniska Mohanty, Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region for the MIMO Interference Channel with Hybrid CSIT. CoRR abs/1209.0047 (2012) - [i20]Chinmay S. Vaze, Mahesh K. Varanasi:
The degrees of freedom of MIMO networks with full-duplex receiver cooperation but no CSIT. CoRR abs/1209.1291 (2012) - 2011
- [j63]Yi Jiang, Mahesh K. Varanasi, Jian Li:
Performance Analysis of ZF and MMSE Equalizers for MIMO Systems: An In-Depth Study of the High SNR Regime. IEEE Trans. Inf. Theory 57(4): 2008-2026 (2011) - [j62]Sanjay Karmakar, Mahesh K. Varanasi:
The Diversity-Multiplexing Tradeoff of the Dynamic Decode-and-Forward Protocol on a MIMO Half-Duplex Relay Channel. IEEE Trans. Inf. Theory 57(10): 6569-6590 (2011) - [c60]Chinmay S. Vaze, Mahesh K. Varanasi:
Can feedback increase the degrees of freedom of a wireless network with delayed CSIT? Allerton 2011: 76-83 - [c59]Chinmay S. Vaze, Mahesh K. Varanasi:
The degrees of freedom of the 2×2×2 interference network with delayed CSIT and with limited Shannon feedback. Allerton 2011: 824-831 - [c58]Chinmay S. Vaze, Mahesh K. Varanasi:
The degrees of freedom region of the two-user MIMO broadcast channel with delayed CSIT. ISIT 2011: 199-203 - [c57]Chinmay S. Vaze, Mahesh K. Varanasi:
On completing the degrees of freedom characterization of MIMO interference networks with No CSIT. ISIT 2011: 440-444 - [c56]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
MIMO performance under covariance matrix feedback. ISIT 2011: 543-547 - [c55]Chinmay S. Vaze, Sanjay Karmakar, Mahesh K. Varanasi:
On the generalized degrees of freedom region of the MIMO interference channel with no CSIT. ISIT 2011: 757-761 - [c54]Chinmay S. Vaze, Mahesh K. Varanasi:
The capacity region of the symmetric Gaussian interference channel with common information to within a constant gap. ISIT 2011: 1181-1185 - [c53]Sanjay Karmakar, Mahesh K. Varanasi:
Capacity of the MIMO interference channel to within a constant gap. ISIT 2011: 2193-2197 - [c52]Sanjay Karmakar, Mahesh K. Varanasi:
The generalized degrees of freedom of the MIMO interference channel. ISIT 2011: 2198-2202 - [c51]Chinmay S. Vaze, Mahesh K. Varanasi:
The degrees of freedom region of the MIMO interference channel with delayed CSIT. ISIT 2011: 2203-2207 - [i19]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region of the Two-User MIMO Broadcast Channel with Delayed CSI. CoRR abs/1101.0306 (2011) - [i18]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region and Interference Alignment for the MIMO Interference Channel with Delayed CSI. CoRR abs/1101.5809 (2011) - [i17]Sanjay Karmakar, Mahesh K. Varanasi:
Capacity of the MIMO Interference Channel to Within a Constant Gap. CoRR abs/1102.0267 (2011) - [i16]Sanjay Karmakar, Mahesh K. Varanasi:
The Generalized Degrees of Freedom of the MIMO Interference Channel. CoRR abs/1103.1672 (2011) - [i15]Sanjay Karmakar, Mahesh K. Varanasi:
The Generalized Degrees of Freedom Region of the MIMO Interference Channel. CoRR abs/1103.2560 (2011) - [i14]Chinmay S. Vaze, Mahesh K. Varanasi:
A New Outer-Bound via Interference Localization and the Degrees of Freedom Regions of MIMO Interference Networks with no CSIT. CoRR abs/1105.6033 (2011) - [i13]Sanjay Karmakar, Mahesh K. Varanasi:
The Diversity Multiplexing Tradeoff of the MIMO Half-Duplex Relay Channel. CoRR abs/1106.6323 (2011) - [i12]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom Region of the MIMO Interference Channel with Shannon Feedback. CoRR abs/1109.5779 (2011) - [i11]Chinmay S. Vaze, Mahesh K. Varanasi:
The Degrees of Freedom of the 2-Hop, 2-User Interference Channel with Feedback. CoRR abs/1109.5790 (2011) - 2010
- [j61]Narayan Prasad, Mahesh K. Varanasi:
High performance static and dynamic cooperative communication protocols for the half duplex fading relay channel. IEEE Trans. Wirel. Commun. 9(1): 328-337 (2010) - [c50]Chinmay S. Vaze, Mahesh K. Varanasi:
A large-system analysis of the imperfect-CSIT Gaussian broadcast channel with a DPC-based transmission strategy. CISS 2010: 1-5 - [c49]Chinmay S. Vaze, Mahesh K. Varanasi:
The degrees of freedom region of the MIMO cognitive interference channel with no CSIT. ISIT 2010: 440-444 - [c48]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
Interference alignment under limited feedback for MIMO interference channels. ISIT 2010: 619-623 - [c47]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity-multiplexing tradeoff of the symmetric MIMO half-duplex relay channel. ISIT 2010: 2178-2182 - [c46]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity-multiplexing tradeoff of the MIMO Z interference channel. ISIT 2010: 2188-2192 - [c45]Manav Garg, Mahesh K. Varanasi:
Diversity-multiplexing-tradeoff-optimal 2-user scheduling in an M-user Gaussian multiple-access channel. ISIT 2010: 2198-2202 - [c44]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity-multiplexing tradeoff of the symmetric MIMO 2-user interference channel. ISIT 2010: 2213-2217 - [c43]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
Finite-rate feedback of input covariance matrices in MIMO systems. ISIT 2010: 2343-2347 - [c42]Chinmay S. Vaze, Mahesh K. Varanasi:
CSI feedback scaling rate vs multiplexing gain tradeoff for DPC-based transmission in the Gaussian MIMO broadcast channel. ISIT 2010: 2353-2357 - [i10]Chinmay S. Vaze, Mahesh K. Varanasi:
A Large-System Analysis of the Imperfect-CSIT Gaussian Broadcast Channel with a DPC-based Transmission Strategy. CoRR abs/1002.1531 (2010) - [i9]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity-multiplexing tradeoff of the MIMO Z interference channel. CoRR abs/1006.0496 (2010) - [i8]Sanjay Karmakar, Mahesh K. Varanasi:
The diversity-multiplexing tradeoff of the symmetric MIMO 2-user interference channel. CoRR abs/1006.1149 (2010) - [i7]Sanjay Karmakar, Mahesh K. Varanasi:
The Diversity-Multiplexing Tradeoff of the Dynamic Decode-and-Forward Protocol on a MIMO Half-Duplex Relay Channel. CoRR abs/1008.1455 (2010)
2000 – 2009
- 2009
- [j60]Shivratna Giri Srinivasan, Mahesh K. Varanasi:
Optimal Constellations for the Low-SNR Noncoherent MIMO Block Rayleigh-Fading Channel. IEEE Trans. Inf. Theory 55(2): 776-796 (2009) - [j59]Yi Jiang, Mahesh K. Varanasi:
The RF-chain limited mimo system- part I: optimum diversity-multiplexing tradeoff. IEEE Trans. Wirel. Commun. 8(10): 5238-5247 (2009) - [c41]Manav Garg, Mahesh K. Varanasi:
On the diversity-multiplexing tradeoff of the Gaussian MIMO brcadcast Channel. CISS 2009: 98-102 - [c40]Chinmay S. Vaze, Mahesh K. Varanasi:
On the achievable rate of the fading dirty paper channel with imperfect CSIT. CISS 2009: 346-351 - [c39]Rajesh T. Krishnamachari, Mahesh K. Varanasi:
Distortion-rate tradeoff of a source uniformly distributed over the Composite PF(N) and the composite stiefel manifolds. ISIT 2009: 522-526 - [c38]Sanjay Karmakar, Mahesh K. Varanasi:
Diversity-multiplexing tradeoff of the dynamic decode and forward protocol on a MIMO half-duplex relay channel. ISIT 2009: 1443-1447 - [c37]Chinmay S. Vaze, Mahesh K. Varanasi:
Dirty Paper Coding for the MIMO cognitive radio channel with imperfect CSIT. ISIT 2009: 2532-2536 - [i6]Chinmay S. Vaze, Mahesh K. Varanasi:
Dirty Paper Coding for Fading Channels with Partial Transmitter Side Information. CoRR abs/0901.2764 (2009) - [i5]Chinmay S. Vaze, Mahesh K. Varanasi:
On the Achievable Rate of the Fading Dirty Paper Channel with Imperfect CSIT. CoRR abs/0903.4526 (2009) - [i4]Chinmay S. Vaze, Mahesh K. Varanasi:
Dirty Paper Coding for the MIMO Cognitive Radio Channel with Imperfect CSIT. CoRR abs/0906.2252 (2009) - [i3]