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ORCIDUpamanyu Madhow
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- affiliation: University of California, Santa Barbara, USA
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2020 – today
- 2024
[j80]Bhagyashree Puranik
, Ozgur Guldogan, Upamanyu Madhow, Ramtin Pedarsani:
Long-Term Fairness in Sequential Multi-Agent Selection With Positive Reinforcement. IEEE J. Sel. Areas Inf. Theory 5: 424-441 (2024)- [c156]Bhagyashree Puranik, Ahmad Beirami, Yao Qin, Upamanyu Madhow:
Improving Robustness via Tilted Exponential Layer: A Communication-Theoretic Perspective. AISTATS 2024: 4510-4518 - [c155]Lalitha Giridhar, Upamanyu Madhow, Mark J. W. Rodwell:
Creating Spatial Degrees of Freedom for Long-Range LoS MIMO using Reflect-arrays. SPAWC 2024: 391-395 - [i32]Bhagyashree Puranik, Ozgur Guldogan, Upamanyu Madhow, Ramtin Pedarsani:
Long-Term Fairness in Sequential Multi-Agent Selection with Positive Reinforcement. CoRR abs/2407.07350 (2024) - 2023
- [c154]Canan Cebeci, Upamanyu Madhow:
A Fourier Analysis of Digital Beamforming with Severely Quantized mmWave Arrays. ACSSC 2023: 433-437 - [i31]Bhagyashree Puranik, Ahmad Beirami, Yao Qin, Upamanyu Madhow:
Improving Robustness via Tilted Exponential Layer: A Communication-Theoretic Perspective. CoRR abs/2311.01047 (2023) - 2022
- [j79]Metehan Cekic, Can Bakiskan, Upamanyu Madhow:
Towards robust, interpretable neural networks via Hebbian/anti-Hebbian learning: A software framework for training with feature-based costs. Softw. Impacts 13: 100347 (2022) - [j78]Bhagyashree Puranik, Upamanyu Madhow, Ramtin Pedarsani:
Generalized Likelihood Ratio Test for Adversarially Robust Hypothesis Testing. IEEE Trans. Signal Process. 70: 4124-4139 (2022) - [j77]Ahmet Dundar Sezer, Upamanyu Madhow:
All-Digital LoS MIMO With Low-Precision Analog-to-Digital Conversion. IEEE Trans. Wirel. Commun. 21(7): 5600-5613 (2022) - [j76]Yue Dai, Maryam Eslami Rasekh, Seyed Hadi Mirfarshbafan, Harrison Liew, Alexandra Gallyas-Sanhueza, James Dunn, Upamanyu Madhow, Christoph Studer, Borivoje Nikolic:
An Adaptable and Scalable Generator of Distributed Massive MIMO Baseband Processing Systems. J. Signal Process. Syst. 94(10): 989-1003 (2022) - [j75]Maryam Eslami Rasekh, Navid Hosseinzadeh, Upamanyu Madhow, Mark J. W. Rodwell:
Low-Resolution Architectures for Power-Efficient Scaling of mmWave Phased Array Receivers. J. Signal Process. Syst. 94(10): 1005-1014 (2022) - [c153]Maryam Eslami Rasekh, Upamanyu Madhow:
On the design of low-resolution sensing matrices for noncoherent compressive channel estimation. IEEECONF 2022: 543-547 - [c152]Bhagyashree Puranik, Upamanyu Madhow, Ramtin Pedarsani:
A Dynamic Decision-Making Framework Promoting Long-Term Fairness. AIES 2022: 547-556 - [c151]Metehan Cekic, Ruirui Li, Zeya Chen, Yuguang Yang, Andreas Stolcke, Upamanyu Madhow:
Self-Supervised Speaker Recognition Training using Human-Machine Dialogues. ICASSP 2022: 6132-6136 - [c150]Metehan Cekic, Can Bakiskan, Upamanyu Madhow:
Neuro-Inspired Deep Neural Networks with Sparse, Strong Activations. ICIP 2022: 3843-3847 - [c149]Ahmet Dundar Sezer, Upamanyu Madhow:
Spatially redundant, precision-constrained transmit precoding for mmWave LoS MIMO. SPAWC 2022: 1-5 - [c148]Maryam Eslami Rasekh, Bhagyashree Puranik, Upamanyu Madhow, Mark J. W. Rodwell:
In-the-Field Calibration of All-Digital MIMO Arrays. WCNC 2022: 1389-1394 - [c147]Lalitha Giridhar, Maryam Eslami Rasekh, Ahmet Dundar Sezer, Upamanyu Madhow:
Adaptive Space-Time Equalization with Spatial Oversampling for Misaligned LoS MIMO. WCNC 2022: 1569-1574 - [i30]Metehan Cekic, Ruirui Li, Zeya Chen, Yuguang Yang, Andreas Stolcke, Upamanyu Madhow:
Self-supervised Speaker Recognition Training Using Human-Machine Dialogues. CoRR abs/2202.03484 (2022) - [i29]Metehan Cekic, Can Bakiskan, Upamanyu Madhow:
Neuro-Inspired Deep Neural Networks with Sparse, Strong Activations. CoRR abs/2202.13074 (2022) - 2021
- [j74]Anant Gupta, Ahmet Dundar Sezer, Upamanyu Madhow:
Multi-Sensor Spatial Association Using Joint Range-Doppler Features. IEEE Trans. Signal Process. 69: 5756-5769 (2021) - [j73]Mohammed Abdelghany, Ali A. Farid, Maryam Eslami Rasekh, Upamanyu Madhow, Mark J. W. Rodwell:
A Design Framework for All-Digital mmWave Massive MIMO With per-Antenna Nonlinearities. IEEE Trans. Wirel. Commun. 20(9): 5689-5701 (2021) - [j72]Maryam Eslami Rasekh, Mohammed Abdelghany, Upamanyu Madhow, Mark J. W. Rodwell:
Phase Noise in Modular Millimeter Wave Massive MIMO. IEEE Trans. Wirel. Commun. 20(10): 6522-6535 (2021) - [c146]Maryam Eslami Rasekh, Upamanyu Madhow:
Scaling Massive MIMO Radar via Compressive Signal Processing. ACSCC 2021: 226-230 - [c145]Ahmet Dundar Sezer, Upamanyu Madhow, Mark J. W. Rodwell:
Spatial Oversampling for Quantized LoS MIMO. ACSCC 2021: 405-409 - [c144]Metehan Cekic, Soorya Gopalakrishnan, Upamanyu Madhow:
Wireless Fingerprinting via Deep Learning: The Impact of Confounding Factors. ACSCC 2021: 677-684 - [c143]Bhagyashree Puranik, Upamanyu Madhow, Ramtin Pedarsani:
Adversarially Robust Classification Based on GLRT. ICASSP 2021: 3785-3789 - [c142]Can Bakiskan, Metehan Cekic, Ahmet Dundar Sezer, Upamanyu Madhow:
A Neuro-Inspired Autoencoding Defense Against Adversarial Attacks. ICIP 2021: 3922-3926 - [c141]Ali A. Farid, Mohammed Abdelghany, Upamanyu Madhow, Mark J. W. Rodwell:
Dynamic Range Requirements of Digital vs. RF and Tiled Beamforming in mm-Wave Massive MIMO. RWS 2021: 46-48 - [c140]Yue Dai, Harrison Liew, Maryam Eslami Rasekh, Seyed Hadi Mirfarshbafan, Alexandra Gallyas-Sanhueza, James Dunn, Upamanyu Madhow, Christoph Studer, Borivoje Nikolic:
A Scalable Generator for Massive MIMO Baseband Processing Systems with Beamspace Channel Estimation. SiPS 2021: 182-187 - [c139]Maryam Eslami Rasekh, Navid Hosseinzadeh, Upamanyu Madhow, Mark J. W. Rodwell:
An on-off receiver array for low-power scaling of mmWave massive MIMO. SiPS 2021: 188-193 - [i28]Can Bakiskan, Metehan Cekic, Ahmet Dundar Sezer, Upamanyu Madhow:
Sparse Coding Frontend for Robust Neural Networks. CoRR abs/2104.05353 (2021) - [i27]Bhagyashree Puranik, Upamanyu Madhow, Ramtin Pedarsani:
Generalized Likelihood Ratio Test for Adversarially Robust Hypothesis Testing. CoRR abs/2112.02209 (2021) - 2020
- [j71]Maryam Eslami Rasekh, Dongning Guo, Upamanyu Madhow:
Joint Routing and Resource Allocation for Millimeter Wave Picocellular Backhaul. IEEE Trans. Wirel. Commun. 19(2): 783-794 (2020) - [c138]Can Bakiskan, Soorya Gopalakrishnan, Metehan Cekic, Upamanyu Madhow, Ramtin Pedarsani:
Polarizing Front Ends for Robust Cnns. ICASSP 2020: 4257-4261 - [c137]Arda Simsek, Seong-Kyun Kim, Mohammed Abdelghany, Ahmed S. H. Ahmed, Ali A. Farid, Upamanyu Madhow, Mark J. W. Rodwell:
A 146.7 GHz Transceiver with 5 GBaud Data Transmission using a Low-Cost Series-Fed Patch Antenna Array through Wirebonding Integration. RWS 2020: 68-71 - [c136]Mohammed Abdelghany, Maryam Eslami Rasekh, Upamanyu Madhow:
Scalable Nonlinear Multiuser Detection for mmWave Massive MIMO. SPAWC 2020: 1-5 - [i26]Can Bakiskan, Soorya Gopalakrishnan, Metehan Cekic, Upamanyu Madhow, Ramtin Pedarsani:
Polarizing Front Ends for Robust CNNs. CoRR abs/2002.09580 (2020) - [i25]Metehan Cekic, Soorya Gopalakrishnan, Upamanyu Madhow:
Robust Wireless Fingerprinting: Generalizing Across Space and Time. CoRR abs/2002.10791 (2020) - [i24]Bhagyashree Puranik, Upamanyu Madhow, Ramtin Pedarsani:
Adversarially Robust Classification based on GLRT. CoRR abs/2011.07835 (2020) - [i23]Can Bakiskan, Metehan Cekic, Ahmet Dundar Sezer, Upamanyu Madhow:
A Neuro-Inspired Autoencoding Defense Against Adversarial Perturbations. CoRR abs/2011.10867 (2020)
2010 – 2019
- 2019
- [j70]Zhinus Marzi, Upamanyu Madhow:
Interference Management and Capacity Analysis for mm-Wave Picocells in Urban Canyons. IEEE J. Sel. Areas Commun. 37(12): 2715-2726 (2019) - [j69]Babak Mamandipoor, Mojtaba Fallahpour, Amin Arbabian, Upamanyu Madhow:
Millimeter wave imaging using sparse arrays. Signal Process. 164: 301-312 (2019) - [j68]Anant Gupta, Upamanyu Madhow, Amin Arbabian, Ali Sadri:
Design of Large Effective Apertures for Millimeter Wave Systems Using a Sparse Array of Subarrays. IEEE Trans. Signal Process. 67(24): 6483-6497 (2019) - [c135]Jarkko Kaleva, Nitin Jonathan Myers, Antti Tölli, Robert W. Heath Jr., Upamanyu Madhow:
Short Range 3D MIMO mmWave Channel Reconstruction via Geometry-aided AoA Estimation. ACSSC 2019: 427-431 - [c134]Ahmet Dundar Sezer, Upamanyu Madhow:
Near-Optimal Quantization for LoS MIMO with QPSK Modulation. ACSSC 2019: 1015-1020 - [c133]Mohammed Abdelghany, Upamanyu Madhow, Antti Tölli:
Efficient Beamspace Downlink Precoding for mmWave Massive MIMO. ACSSC 2019: 1459-1464 - [c132]Maryam Eslami Rasekh, Mohammed Abdelghany, Upamanyu Madhow, Mark J. W. Rodwell:
Phase noise analysis for mmwave massive MIMO: a design framework for scaling via tiled architectures. CISS 2019: 1-6 - [c131]Mohammed Abdelghany, Upamanyu Madhow, Mark J. W. Rodwell:
An Efficient Digital Backend for Wideband Single-Carrier mmWave Massive MIMO. GLOBECOM 2019: 1-6 - [c130]Soorya Gopalakrishnan, Metehan Cekic, Upamanyu Madhow:
Robust Wireless Fingerprinting via Complex-Valued Neural Networks. GLOBECOM 2019: 1-6 - [c129]Mohammed Abdelghany, Upamanyu Madhow, Antti Tölli:
Beamspace Local LMMSE: An Efficient Digital Backend for mmWave Massive MIMO. SPAWC 2019: 1-5 - [i22]Soorya Gopalakrishnan, Metehan Cekic, Upamanyu Madhow:
Robust Wireless Fingerprinting via Complex-Valued Neural Networks. CoRR abs/1905.09388 (2019) - [i21]Mohammed Abdelghany, Ali A. Farid, Upamanyu Madhow, Mark J. W. Rodwell:
A design framework for all-digital mmWave massive MIMO with per-antenna nonlinearities. CoRR abs/1912.11643 (2019) - 2018
- [j67]Sairam Goguri, Dennis Ogbe, Soura Dasgupta, Raghuraman Mudumbai, D. Richard Brown, David J. Love, Upamanyu Madhow:
Optimal Precoder Design for Distributed Transmit Beamforming Over Frequency-Selective Channels. IEEE Trans. Wirel. Commun. 17(11): 7759-7773 (2018) - [c128]Maryam Eslami Rasekh, Upamanyu Madhow:
Noncoherent compressive channel estimation for mm-wave massive MIMO. ACSSC 2018: 889-894 - [c127]Mohammed Abdelghany, Ali A. Farid, Upamanyu Madhow, Mark J. W. Rodwell:
Towards All-digital mmWave Massive MIMO: Designing around Nonlinearities. ACSSC 2018: 1552-1557 - [c126]Soorya Gopalakrishnan, Zhinus Marzi, Upamanyu Madhow, Ramtin Pedarsani:
Combating Adversarial Attacks Using Sparse Representations. ICLR (Workshop) 2018 - [c125]Zhinus Marzi, Soorya Gopalakrishnan, Upamanyu Madhow, Ramtin Pedarsani:
Sparsity-based Defense Against Adversarial Attacks on Linear Classifiers. ISIT 2018: 31-35 - [c124]Zhinus Marzi, João Pedro Hespanha, Upamanyu Madhow:
On the Information in Spike Timing: Neural Codes Derived from Polychronous Groups. ITA 2018: 1-7 - [c123]Muhammed Faruk Gencel, Upamanyu Madhow, João Pedro Hespanha:
RF Source Seeking Using Frequency Measurements. SPAWC 2018: 1-5 - [c122]P. Raviteja, Upamanyu Madhow:
Spatially Oversampled Demultiplexing in mmWave LoS MIMO. SPAWC 2018: 1-5 - [i20]Zhinus Marzi, Soorya Gopalakrishnan, Upamanyu Madhow, Ramtin Pedarsani:
Sparsity-based Defense against Adversarial Attacks on Linear Classifiers. CoRR abs/1801.04695 (2018) - [i19]Muhammed Faruk Gencel, Maryam Eslami Rasekh, Upamanyu Madhow:
Distributed Base Station: A Concept System for Long-Range Broadband Wireless Access. CoRR abs/1803.02877 (2018) - [i18]Zhinus Marzi, João P. Hespanha, Upamanyu Madhow:
On the information in spike timing: neural codes derived from polychronous groups. CoRR abs/1803.03692 (2018) - [i17]Soorya Gopalakrishnan, Zhinus Marzi, Upamanyu Madhow, Ramtin Pedarsani:
Combating Adversarial Attacks Using Sparse Representations. CoRR abs/1803.03880 (2018) - [i16]Soorya Gopalakrishnan, Zhinus Marzi, Upamanyu Madhow, Ramtin Pedarsani:
Toward Robust Neural Networks via Sparsification. CoRR abs/1810.10625 (2018) - 2017
- [j66]Aseem Wadhwa, Upamanyu Madhow, Naresh R. Shanbhag:
Slicer Architectures for Analog-to-Information Conversion in Channel Equalizers. IEEE Trans. Commun. 65(3): 1234-1246 (2017) - [j65]Amy Kumar, Raghuraman Mudumbai, Soura Dasgupta, Upamanyu Madhow, D. Richard Brown:
Distributed MIMO Multicast With Protected Receivers: A Scalable Algorithm for Joint Beamforming and Nullforming. IEEE Trans. Wirel. Commun. 16(1): 512-525 (2017) - [c121]Anant Gupta, Upamanyu Madhow, Amin Arbabian, Ali Sadri:
On beam design for sparse arrays of subarrays using multi-objective optimization and estimation-theoretic criteria. ACSSC 2017: 1105-1109 - [c120]Soorya Gopalakrishnan, Tiffany Moy, Upamanyu Madhow, Naveen Verma:
Compressive information acquisition with hardware impairments and constraints: A case study. ICASSP 2017: 6075-6079 - [c119]Maryam Eslami Rasekh, Zhinus Marzi, Yanzi Zhu, Upamanyu Madhow, Haitao Zheng:
Noncoherent mmWave Path Tracking. HotMobile 2017: 13-18 - [i15]Babak Mamandipoor, Amin Arbabian, Upamanyu Madhow:
Geometry-constrained Degrees of Freedom Analysis for Imaging Systems: Monostatic and Multistatic. CoRR abs/1711.03585 (2017) - 2016
- [j64]Hossein Roufarshbaf, Upamanyu Madhow, Mark J. W. Rodwell, Sridhar Rajagopal:
Analog Multiband: Efficient Bandwidth Scaling for mm-Wave Communication. IEEE J. Sel. Top. Signal Process. 10(3): 470-484 (2016) - [j63]Zhinus Marzi, Dinesh Ramasamy, Upamanyu Madhow:
Compressive Channel Estimation and Tracking for Large Arrays in mm-Wave Picocells. IEEE J. Sel. Top. Signal Process. 10(3): 514-527 (2016) - [j62]Aseem Wadhwa, Upamanyu Madhow:
Near-Coherent QPSK Performance With Coarse Phase Quantization: A Feedback-Based Architecture for Joint Phase/Frequency Synchronization and Demodulation. IEEE Trans. Signal Process. 64(17): 4432-4443 (2016) - [j61]Babak Mamandipoor, Dinesh Ramasamy, Upamanyu Madhow:
Newtonized Orthogonal Matching Pursuit: Frequency Estimation Over the Continuum. IEEE Trans. Signal Process. 64(19): 5066-5081 (2016) - [j60]François Quitin, Andrew T. Irish, Upamanyu Madhow:
A Scalable Architecture for Distributed Receive Beamforming: Analysis and Experimental Demonstration. IEEE Trans. Wirel. Commun. 15(3): 2039-2053 (2016) - [c118]Anant Gupta, Upamanyu Madhow, Amin Arbabian:
Super-resolution in position and velocity estimation for short-range MM-wave radar. ACSSC 2016: 1144-1148 - [c117]Mahmoud Sawaby, Babak Mamandipoor, Upamanyu Madhow, Amin Arbabian:
Analog processing to enable scalable high-throughput mm-Wave wireless fiber systems. ACSSC 2016: 1658-1662 - [c116]Sairam Goguri, Raghuraman Mudumbai, D. Richard Brown III, Soura Dasgupta, Upamanyu Madhow:
Capacity maximization for distributed broadband beamforming. ICASSP 2016: 3441-3445 - [c115]Babak Mamandipoor, Amin Arbabian, Upamanyu Madhow:
New models and super-resolution techniques for short-range radar: Theory and experiments. ITA 2016: 1-7 - [i14]Aseem Wadhwa, Upamanyu Madhow:
Learning Sparse, Distributed Representations using the Hebbian Principle. CoRR abs/1611.04228 (2016) - 2015
- [j59]Amy Kumar, Raghuraman Mudumbai, Soura Dasgupta, Muhammad Mahboob Ur Rahman, D. Richard Brown III, Upamanyu Madhow, T. Patrick Bidigare:
A Scalable Feedback Mechanism for Distributed Nullforming With Phase-Only Adaptation. IEEE Trans. Signal Inf. Process. over Networks 1(1): 58-70 (2015) - [c114]T. Patrick Bidigare, Upamanyu Madhow, D. Richard Brown III, Raghuraman Mudumbai, A. Kumar, Benjamin Peiffer, Soura Dasgupta:
Wideband distributed transmit beamforming using channel reciprocity and relative calibration. ACSSC 2015: 271-275 - [c113]Muhammed Faruk Gencel, Maryam Eslami Rasekh, Upamanyu Madhow:
Noise-resilient scaling for wideband distributed beamforming. ACSSC 2015: 276-280 - [c112]Babak Mamandipoor, Mahmoud Sawaby, Amin Arbabian, Upamanyu Madhow:
Hardware-constrained signal processing for mm-Wave LoS MIMO. ACSSC 2015: 1427-1431 - [c111]Babak Mamandipoor, Dinesh Ramasamy, Upamanyu Madhow:
Frequency estimation for a mixture of sinusoids: A near-optimal sequential approach. GlobalSIP 2015: 205-209 - [c110]Zhinus Marzi, Upamanyu Madhow, Haitao Zheng:
Interference Analysis for mm-Wave Picocells. GLOBECOM 2015: 1-6 - [c109]Hossein Roufarshbaf, Upamanyu Madhow, Mark J. W. Rodwell, Sridhar Rajagopal:
Efficient analog multiband channelization for bandwidth scaling in mm-wave systems. ICC 2015: 1316-1321 - [c108]Muhammed Faruk Gencel, Maryam Eslami Rasekh, Upamanyu Madhow:
Scaling wideband distributed transmit beamforming via aggregate feedback. ICC 2015: 2356-2362 - [c107]Muhammed Faruk Gencel, Maryam Eslami Rasekh, Upamanyu Madhow:
Distributed transmit beamforming with one bit feedback revisited: How noise limits scaling. ISIT 2015: 2041-2045 - [c106]Dinesh Ramasamy, Upamanyu Madhow:
Compressive spectral embedding: sidestepping the SVD. NIPS 2015: 550-558 - [i13]François Quitin, Andrew T. Irish, Upamanyu Madhow:
A scalable architecture for distributed receive beamforming: analysis and experimental demonstration. CoRR abs/1501.05695 (2015) - [i12]Zhinus Marzi, Dinesh Ramasamy, Upamanyu Madhow:
Compressive channel estimation and tracking for large arrays in mm wave picocells. CoRR abs/1506.05367 (2015) - [i11]Babak Mamandipoor, Dinesh Ramasamy, Upamanyu Madhow:
Newtonized Orthogonal Matching Pursuit: Frequency Estimation over the Continuum. CoRR abs/1509.01942 (2015) - [i10]Dinesh Ramasamy, Upamanyu Madhow:
Compressive spectral embedding: sidestepping the SVD. CoRR abs/1509.08360 (2015) - 2014
- [j58]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Compressive Parameter Estimation in AWGN. IEEE Trans. Signal Process. 62(8): 2012-2027 (2014) - [j57]D. Richard Brown III, Upamanyu Madhow, Min Ni, Matthew Rebholz, Patrick Bidigare:
Distributed Reception with Hard Decision Exchanges. IEEE Trans. Wirel. Commun. 13(6): 3406-3418 (2014) - [c105]Maryam Eslami Rasekh, Upamanyu Madhow, Raghuraman Mudumbai:
Frequency tracking with intermittent wrapped phase measurement using the Rao-Blackwellized particle filter. ACSSC 2014: 247-251 - [c104]Babak Mamandipoor, Greg Malysa, Amin Arbabian, Upamanyu Madhow, Karam Noujeim:
60 GHz synthetic aperture radar for short-range imaging: Theory and experiments. ACSSC 2014: 553-558 - [c103]Emre Akbas, Aseem Wadhwa, Miguel P. Eckstein, Upamanyu Madhow:
A framework for machine vision based on neuro-mimetic front end processing and clustering. Allerton 2014: 311-318 - [c102]Jason T. Isaacs, Ceridwen Magee, Anantharaman Subbaraman, François Quitin, Kingsley Fregene, Andrew R. Teel, Upamanyu Madhow, João Pedro Hespanha:
GPS-optimal micro air vehicle navigation in degraded environments. ACC 2014: 1864-1871 - [c101]Hossein Roufarshbaf, Upamanyu Madhow, Sridhar Rajagopal:
OFDM-based analog multiband: A scalable design for indoor mm-wave wireless communication. GLOBECOM 2014: 3267-3272 - [c100]Andrew T. Irish, Jason T. Isaacs, François Quitin, João Pedro Hespanha, Upamanyu Madhow:
Probabilistic 3D mapping based on GNSS SNR measurements. ICASSP 2014: 2390-2394 - [c99]Aseem Wadhwa, Upamanyu Madhow, Naresh R. Shanbhag:
Space-time slicer architectures for analog-to-information conversion in channel equalizers. ICC 2014: 2124-2129 - [c98]Andrew T. Irish, Jason T. Isaacs, François Quitin, João Pedro Hespanha, Upamanyu Madhow:
Belief propagation based localization and mapping using sparsely sampled GNSS SNR measurements. ICRA 2014: 1977-1982 - [c97]Upamanyu Madhow, Donald Richard Brown, Soura Dasgupta, Raghuraman Mudumbai:
Distributed massive MIMO: Algorithms, architectures and concept systems. ITA 2014: 1-7 - [c96]Andrew T. Irish, Daniel Iland, Jason T. Isaacs, João Pedro Hespanha, Elizabeth M. Belding, Upamanyu Madhow:
Using crowdsourced satellite SNR measurements for 3D mapping and real-time GNSS positioning improvement. S3@MobiCom 2014: 5-8 - [c95]Yibo Zhu, Zengbin Zhang, Zhinus Marzi, Chris Nelson, Upamanyu Madhow, Ben Y. Zhao, Haitao Zheng:
Demystifying 60GHz outdoor picocells. MobiCom 2014: 5-16 - [c94]Andrew Irish, Jason T. Isaacs, Daniel Iland, João P. Hespanha, Elizabeth M. Belding, Upamanyu Madhow:
Demo: ShadowMaps, the urban phone tracking system. MobiCom 2014: 283-286 - [i9]Dinesh Ramasamy, Upamanyu Madhow:
Scalable and Efficient Geographic Routing in Mobile Ad Hoc Wireless Networks. CoRR abs/1407.4056 (2014) - 2013
- [j56]Jaspreet Singh, Upamanyu Madhow:
Phase-Quantized Block Noncoherent Communication. IEEE Trans. Commun. 61(7): 2828-2839 (2013) - [j55]Junil Choi, Zachary Chance, David J. Love, Upamanyu Madhow:
Noncoherent Trellis Coded Quantization: A Practical Limited Feedback Technique for Massive MIMO Systems. IEEE Trans. Commun. 61(12): 5016-5029 (2013) - [j54]Daniel J. Klein, Sriram Venkateswaran, Jason T. Isaacs, Jerry Burman, Tien Pham, João Pedro Hespanha, Upamanyu Madhow:
Localization with sparse acoustic sensor network using UAVs as information-seeking data mules. ACM Trans. Sens. Networks 9(3): 30:1-30:29 (2013) - [j53]François Quitin, Muhammad Mahboob Ur Rahman, Raghuraman Mudumbai, Upamanyu Madhow:
A Scalable Architecture for Distributed Transmit Beamforming with Commodity Radios: Design and Proof of Concept. IEEE Trans. Wirel. Commun. 12(3): 1418-1428 (2013) - [c93]Patrick Bidigare, Donald Richard Brown, Shawn Kraut, Upamanyu Madhow:
MIMO channel prediction results on outdoor collected data. ACSSC 2013: 592-596 - [c92]Rui Wang, D. Richard Brown III, Min Ni, Upamanyu Madhow, Patrick Bidigare:
Outage probability analysis of distributed reception with hard decision exchanges. ACSSC 2013: 597-601 - [c91]Andrew Irish, François Quitin, Upamanyu Madhow, Mark J. W. Rodwell:
Achieving multiple degrees of freedom in long-range mm-wave MIMO channels using randomly distributed relays. ACSSC 2013: 722-727 - [c90]Aseem Wadhwa, Upamanyu Madhow:
Blind phase/frequency synchronization with low-precision ADC: A Bayesian approach. Allerton 2013: 181-188 - [c89]Sriram Venkateswaran, Jason T. Isaacs, Kingsley Fregene, Richard Ratmansky, Brian M. Sadler, João Pedro Hespanha, Upamanyu Madhow:
RF source-seeking by a micro aerial vehicle using rotation-based angle of arrival estimates. ACC 2013: 2581-2587 - [c88]Junil Choi, David J. Love, Upamanyu Madhow:
Limited feedback in massive MIMO systems: Exploiting channel correlations via noncoherent trellis-coded quantization. CISS 2013: 1-6 - [c87]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Inferring user interests from tweet times. COSN 2013: 235-240 - [c86]Dinesh Ramasamy, Radha Krishna Ganti, Upamanyu Madhow:
On the capacity of picocellular networks. ISIT 2013: 241-245 - [c85]Junil Choi, Zachary Chance, David J. Love, Upamanyu Madhow:
Noncoherent trellis-coded quantization for massive MIMO limited feedback beamforming. ITA 2013: 1-6 - [c84]Andrew Irish, François Quitin, Upamanyu Madhow, Mark J. W. Rodwell:
Sidestepping the Rayleigh limit for LoS spatial multiplexing: A distributed architecture for long-range wireless fiber. ITA 2013: 1-6 - [c83]François Quitin, Andrew Irish, Upamanyu Madhow:
Distributed Receive Beamforming: A Scalable Architecture and Its Proof of Concept. VTC Spring 2013: 1-5 - [i8]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Compressive parameter estimation in AWGN. CoRR abs/1304.7539 (2013) - [i7]Junil Choi, Zachary Chance, David J. Love, Upamanyu Madhow:
Noncoherent Trellis Coded Quantization: A Practical Limited Feedback Technique for Massive MIMO Systems. CoRR abs/1305.4976 (2013) - 2012
- [j52]Sumit Singh, Upamanyu Madhow, Elizabeth M. Belding:
Shaping Throughput Profiles in Multihop Wireless Networks: A Resource-Biasing Approach. IEEE Trans. Mob. Comput. 11(3): 367-376 (2012) - [j51]Sriram Venkateswaran, Upamanyu Madhow:
Localizing Multiple Events Using Times of Arrival: a Parallelized, Hierarchical Approach to the Association Problem. IEEE Trans. Signal Process. 60(10): 5464-5477 (2012) - [c82]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Compressive estimation in AWGN: General observations and a case study. ACSCC 2012: 953-957 - [c81]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Compressive tracking with 1000-element arrays: A framework for multi-Gbps mm wave cellular downlinks. Allerton Conference 2012: 690-697 - [c80]Donald Richard Brown, Upamanyu Madhow, Patrick Bidigare, Soura Dasgupta:
Receiver-coordinated distributed transmit nullforming with channel state uncertainty. CISS 2012: 1-6 - [c79]Jason T. Isaacs, Sriram Venkateswaran, João Pedro Hespanha, Upamanyu Madhow, Jerry Burman, Tien Pham:
Multiple event localization in a sparse acoustic sensor network using UAVs as data mules. GLOBECOM Workshops 2012: 1562-1567 - [c78]Hong Zhang, Sriram Venkateswaran, Upamanyu Madhow:
Analog multitone with interference suppression: Relieving the ADC bottleneck for wideband 60 GHz systems. GLOBECOM 2012: 2305-2310 - [c77]François Quitin, Muhammad Mahboob Ur Rahman, Raghuraman Mudumbai, Upamanyu Madhow:
Distributed beamforming with software-defined radios: Frequency synchronization and digital feedback. GLOBECOM 2012: 4787-4792 - [c76]Donald Richard Brown, Patrick Bidigare, Upamanyu Madhow:
Receiver-coordinated distributed transmit beamforming with kinematic tracking. ICASSP 2012: 5209-5212 - [c75]Patrick Bidigare, Upamanyu Madhow, Raghuraman Mudumbai, Dzul Scherber:
Attaining fundamental bounds on timing synchronization. ICASSP 2012: 5229-5232 - [c74]Dinesh Ramasamy, Upamanyu Madhow:
Can geographic routing scale when nodes are mobile? ISIT 2012: 224-228 - [c73]Dinesh Ramasamy, Sriram Venkateswaran, Upamanyu Madhow:
Compressive adaptation of large steerable arrays. ITA 2012: 234-239 - [c72]D. Richard Brown III, Patrick Bidigare, Soura Dasgupta, Upamanyu Madhow:
Receiver-coordinated zero-forcing distributed transmit nullforming. SSP 2012: 269-272 - [c71]Patrick Bidigare, Scott Pruessing, David Raeman, Dzul Scherber, Upamanyu Madhow, Raghu Mudumbai:
Initial over-the-air performance assessment of ranging and clock synchronization using radio frequency signal exchange. SSP 2012: 273-276 - [c70]François Quitin, Upamanyu Madhow, Muhammad Mahboob Ur Rahman, Raghuraman Mudumbai:
Demonstrating distributed transmit beamforming with software-defined radios. WOWMOM 2012: 1-3 - [i6]Bharath Ananthasubramaniam, Upamanyu Madhow:
Cooperative localization using angle of arrival measurements: sequential algorithms and non-line-of-sight suppression. CoRR abs/1206.3988 (2012) - 2011
- [j50]Sumit Singh, Raghuraman Mudumbai, Upamanyu Madhow:
Interference Analysis for Highly Directional 60-GHz Mesh Networks: The Case for Rethinking Medium Access Control. IEEE/ACM Trans. Netw. 19(5): 1513-1527 (2011) - [j49]Jaspreet Singh, Rajesh Kumar, Upamanyu Madhow, Subhash Suri, Richard E. Cagley:
Multiple-Target Tracking With Binary Proximity Sensors. ACM Trans. Sens. Networks 8(1): 5:1-5:26 (2011) - [j48]Eric Torkildson, Upamanyu Madhow, Mark J. W. Rodwell:
Indoor Millimeter Wave MIMO: Feasibility and Performance. IEEE Trans. Wirel. Commun. 10(12): 4150-4160 (2011) - [c69]Raghuraman Mudumbai, Upamanyu Madhow, Rick Brown, Patrick Bidigare:
DSP-centric algorithms for distributed transmit beamforming. ACSCC 2011: 93-98 - [c68]Sandeep Ponnuru, Upamanyu Madhow:
On the convergence of joint channel and mismatch estimation for time-interleaved data converters. ACSCC 2011: 985-989 - [c67]Sriram Venkateswaran, Upamanyu Madhow:
Collaborative estimation in dispersive environments: A frequency domain approach. ACSCC 2011: 1659-1663 - [c66]Upamanyu Madhow:
Reaching out with wireless. ACWR 2011: 33 - [c65]Aseem Wadhwa, Upamanyu Madhow, João Pedro Hespanha, Brian M. Sadler:
Following an RF trail to its source. Allerton 2011: 580-587 - [c64]Sriram Venkateswaran, Upamanyu Madhow:
Space-time localization using times of arrival. Allerton 2011: 1544-1551 - [c63]Sriram Venkateswaran, Upamanyu Madhow:
Implicit network timing synchronization with phase-only updates. CISS 2011: 1-6 - [c62]Sriram Venkateswaran, Sumit Singh, Upamanyu Madhow, Raghuraman Mudumbai:
Distributed synchronization and medium access in wireless mesh networks. ITA 2011: 271-278 - [i5]Jaspreet Singh, Upamanyu Madhow:
Phase-Quantized Block Noncoherent Communication. CoRR abs/1112.4811 (2011) - 2010
- [j47]Sandeep Ponnuru, Munkyo Seo, Upamanyu Madhow, Mark J. W. Rodwell:
Joint Mismatch and Channel Compensation for High-Speed OFDM Receivers with Time-Interleaved ADCs. IEEE Trans. Commun. 58(8): 2391-2401 (2010) - [j46]Anindya Sarkar, Upamanyu Madhow, B. S. Manjunath:
Matrix embedding with pseudorandom coefficient selection and error correction for robust and secure steganography. IEEE Trans. Inf. Forensics Secur. 5(2): 225-239 (2010) - [j45]Raghuraman Mudumbai, João Pedro Hespanha, Upamanyu Madhow, Gwen Barriac:
Distributed transmit beamforming using feedback control. IEEE Trans. Inf. Theory 56(1): 411-426 (2010) - [c61]Sandeep Ponnuru, Upamanyu Madhow:
On the scalability of joint channel and mismatch estimation for time-interleaved analog-to-digital conversion in communication receivers. Allerton 2010: 1076-1082 - [c60]Upamanyu Madhow:
Networking at 60 GHz: The emergence of multiGigabit wireless. COMSNETS 2010: 1-6 - [c59]Feifei Sun, Jaspreet Singh, Upamanyu Madhow:
Automatic Gain Control for ADC-Limited Communication. GLOBECOM 2010: 1-5 - [c58]Onkar Dabeer, Upamanyu Madhow:
Channel Estimation with Low-Precision Analog-to-Digital Conversion. ICC 2010: 1-6 - [c57]Daniel J. Klein, João Pedro Hespanha, Upamanyu Madhow:
A Reaction-Diffusion Model for Epidemic Routing in Sparsely Connected MANETs. INFOCOM 2010: 884-892 - [c56]Sumit Singh, Raghuraman Mudumbai, Upamanyu Madhow:
Distributed Coordination with Deaf Neighbors: Efficient Medium Access for 60 GHz Mesh Networks. INFOCOM 2010: 1765-1773 - [c55]Eric Torkildson, Hong Zhang, Upamanyu Madhow:
Channel modeling for millimeter wave MIMO. ITA 2010: 300-307 - [c54]Sandeep Ponnuru, Upamanyu Madhow:
Scalable Mismatch Compensation for Time-Interleaved A/D Converters in OFDM Reception. WCNC 2010: 1-6 - [c53]Hong Zhang, Sriram Venkateswaran, Upamanyu Madhow:
Channel Modeling and MIMO Capacity for Outdoor Millimeter Wave Links. WCNC 2010: 1-6
2000 – 2009
- 2009
- [j44]Raghuraman Mudumbai, D. Richard Brown III, Upamanyu Madhow, H. Vincent Poor:
Distributed transmit beamforming: challenges and recent progress. IEEE Commun. Mag. 47(2): 102-110 (2009) - [j43]Sumit Singh, Federico Ziliotto, Upamanyu Madhow, Elizabeth M. Belding, Mark J. W. Rodwell:
Blockage and directivity in 60 GHz wireless personal area networks: from cross-layer model to multihop MAC design. IEEE J. Sel. Areas Commun. 27(8): 1400-1413 (2009) - [j42]Jaspreet Singh, Onkar Dabeer, Upamanyu Madhow:
On the limits of communication with low-precision analog-to-digital conversion at the receiver. IEEE Trans. Commun. 57(12): 3629-3639 (2009) - [j41]Nisheeth Shrivastava, Raghuraman Mudumbai, Upamanyu Madhow, Subhash Suri:
Target tracking with binary proximity sensors. ACM Trans. Sens. Networks 5(4): 30:1-30:33 (2009) - [c52]Omar Bakr, Mark Johnson, Raghuraman Mudumbai, Upamanyu Madhow:
Interference suppression in the presence of quantization errors. Allerton 2009: 1161-1168 - [c51]Jaspreet Singh, Ankur Saxena, Kenneth Rose, Upamanyu Madhow:
Optimization of Correlated Source Coding for Event-Based Monitoring in Sensor Networks. DCC 2009: 73-82 - [c50]Eric Torkildson, Colin Sheldon, Upamanyu Madhow, Mark J. W. Rodwell:
Nonuniform Array Design for Robust Millimeter-Wave MIMO Links. GLOBECOM 2009: 1-7 - [c49]Megha Manohara, Raghuraman Mudumbai, Jerry D. Gibson, Upamanyu Madhow:
Error correction scheme for uncompressed HD video over wireless. ICME 2009: 802-805 - [c48]Raghuraman Mudumbai, Sumit Singh, Upamanyu Madhow:
Medium Access Control for 60 GHz Outdoor Mesh Networks with Highly Directional Links. INFOCOM 2009: 2871-2875 - [c47]Jaspreet Singh, Upamanyu Madhow:
On block noncoherent communication with low-precision phase quantization at the receiver. ISIT 2009: 2199-2203 - [i4]Jaspreet Singh, Upamanyu Madhow:
On Block Noncoherent Communication with Low-Precision Phase Quantization at the Receiver. CoRR abs/0905.4303 (2009) - 2008
- [j40]Noah Jacobsen, Gwen Barriac, Upamanyu Madhow:
Noncoherent eigenbeamforming and interference suppression for outdoor OFDM systems. IEEE Trans. Commun. 56(6): 915-924 (2008) - [j39]Noah Jacobsen, Upamanyu Madhow:
Coded noncoherent communication with amplitude/phase modulation: from shannon theory to practical architectures. IEEE Trans. Commun. 56(12): 2040-2049 (2008) - [c46]P. Sandeep, Upamanyu Madhow, Munkyo Seo, Mark J. W. Rodwell:
Joint Channel and Mismatch Correction for OFDM Reception with Time-interleaved ADCs: Towards Mostly Digital MultiGigabit Transceiver Architectures. GLOBECOM 2008: 1162-1166 - [c45]Anindya Sarkar, Lakshmanan Nataraj, B. S. Manjunath, Upamanyu Madhow:
Estimation of optimum coding redundancy and frequency domain analysis of attacks for YASS - a randomized block based hiding scheme. ICIP 2008: 1292-1295 - [c44]Sumit Singh, Upamanyu Madhow, Elizabeth M. Belding:
Beyond Proportional Fairness: A Resource Biasing Framework for Shaping Throughput Profiles in Multihop Wireless Networks. INFOCOM 2008: 2396-2404 - [c43]Jaspreet Singh, Onkar Dabeer, Upamanyu Madhow:
Capacity of the discrete-time AWGN channel under output quantization. ISIT 2008: 1218-1222 - [c42]Sriram Venkateswaran, Upamanyu Madhow:
Distributed detection with a minimalistic signal model: A framework for exploiting correlated sensing. ISIT 2008: 1597-1601 - [c41]Raghuraman Mudumbai, Upamanyu Madhow:
Information theoretic bounds for sensor network localization. ISIT 2008: 1602-1606 - [c40]Bharath Ananthasubramaniam, Upamanyu Madhow:
Cooperative localization using angle of arrival measurements in non-line-of-sight environments. MELT 2008: 117-122 - [e1]Kaushal Solanki, Kenneth Sullivan, Upamanyu Madhow:
Information Hiding, 10th International Workshop, IH 2008, Santa Barbara, CA, USA, May 19-21, 2008, Revised Selected Papers. Lecture Notes in Computer Science 5284, Springer 2008, ISBN 978-3-540-88960-1 [contents] - [i3]Jaspreet Singh, Onkar Dabeer, Upamanyu Madhow:
Capacity of the Discrete-Time AWGN Channel Under Output Quantization. CoRR abs/0801.1185 (2008) - [i2]Jaspreet Singh, Onkar Dabeer, Upamanyu Madhow:
Transceiver Design with Low-Precision Analog-to-Digital Conversion : An Information-Theoretic Perspective. CoRR abs/0804.1172 (2008) - 2007
- [j38]Sumit Singh, Prashanth Aravinda Kumar Acharya, Upamanyu Madhow, Elizabeth M. Belding-Royer:
Sticky CSMA/CA: Implicit synchronization and real-time QoS in mesh networks. Ad Hoc Networks 5(6): 744-768 (2007) - [j37]Bharath Ananthasubramaniam, Upamanyu Madhow:
On Localization Performance in Imaging Sensor Nets. IEEE Trans. Signal Process. 55(10): 5044-5057 (2007) - [j36]Raghuraman Mudumbai, Gwen Barriac, Upamanyu Madhow:
On the Feasibility of Distributed Beamforming in Wireless Networks. IEEE Trans. Wirel. Commun. 6(5): 1754-1763 (2007) - [c39]Bharath Ananthasubramaniam, Upamanyu Madhow:
Collector Receiver Design for Data Collection and Localization in Sensor-driven Networks. CISS 2007: 591-596 - [c38]Anindya Sarkar, Kaushal Solanki, Upamanyu Madhow, Shivkumar Chandrasekaran, Bangalore S. Manjunath:
Secure Steganography: Statistical Restoration of the Second Order Dependencies for Improved Security. ICASSP (2) 2007: 277-280 - [c37]Munkyo Seo, Mark J. W. Rodwell, Upamanyu Madhow:
Generalized Blind Mismatch Correction for Two-Channel Time-Interleaved A-to-D Converters. ICASSP (3) 2007: 1505-1508 - [c36]Jaspreet Singh, Onkar Dabeer, Upamanyu Madhow:
Communication Limits with Low Precision Analog-to-Digital Conversion at the Receiver. ICC 2007: 6269-6274 - [c35]Sumit Singh, Federico Ziliotto, Upamanyu Madhow, Elizabeth M. Belding, Mark J. W. Rodwell:
Millimeter Wave WPAN: Cross-Layer Modeling and Multi-Hop Architecture. INFOCOM 2007: 2336-2340 - [c34]Jaspreet Singh, Upamanyu Madhow, Rajesh Kumar, Subhash Suri, Richard E. Cagley:
Tracking multiple targets using binary proximity sensors. IPSN 2007: 529-538 - [c33]Anindya Sarkar, Upamanyu Madhow, Shivkumar Chandrasekaran, Bangalore S. Manjunath:
Adaptive MPEG-2 video data hiding scheme. Security, Steganography, and Watermarking of Multimedia Contents 2007: 65051D - 2006
- [j35]Gwen Barriac, Upamanyu Madhow:
Space-time precoding for mean and covariance feedback: application to wideband OFDM. IEEE Trans. Commun. 54(1): 96-107 (2006) - [j34]Kenneth Sullivan, Upamanyu Madhow, Shivkumar Chandrasekaran, B. S. Manjunath:
Steganalysis for Markov cover data with applications to images. IEEE Trans. Inf. Forensics Secur. 1(2): 275-287 (2006) - [j33]Kaushal Solanki, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran, Ibrahim El-Khalil:
'Print and Scan' Resilient Data Hiding in Images. IEEE Trans. Inf. Forensics Secur. 1(4): 464-478 (2006) - [c32]Kenneth Sullivan, Kaushal Solanki, B. S. Manjunath, Upamanyu Madhow, Shivkumar Chandrasekaran:
Determining Achievable Rates for Secure, Zero Divergence, Steganography. ICIP 2006: 121-124 - [c31]Kaushal Solanki, Kenneth Sullivan, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
Provably Secure Steganography: Achieving Zero K-L Divergence using Statistical Restoration. ICIP 2006: 125-128 - [c30]Munkyo Seo, Mark J. W. Rodwell, Upamanyu Madhow:
Blind correction of gain and timing mismatches for a two-channel time-interleaved analog-to-digital converter: experimental verification. ISCAS 2006 - [c29]Nisheeth Shrivastava, Raghuraman Mudumbai, Upamanyu Madhow, Subhash Suri:
Target tracking with binary proximity sensors: fundamental limits, minimal descriptions, and algorithms. SenSys 2006: 251-264 - [i1]Raghuraman Mudumbai, João Pedro Hespanha, Upamanyu Madhow, Gwen Barriac:
Distributed Transmit Beamforming using Feedback Control. CoRR abs/cs/0603072 (2006) - 2005
- [j32]Jil Karen K. Nelson, Andrew C. Singer, Upamanyu Madhow, C. S. McGahey:
BAD: bidirectional arbitrated decision-feedback equalization. IEEE Trans. Commun. 53(2): 214-218 (2005) - [j31]Ibrahim C. Abou-Faycal, Muriel Médard, Upamanyu Madhow:
Binary adaptive coded pilot symbol assisted modulation over Rayleigh fading channels without feedback. IEEE Trans. Commun. 53(6): 1036-1046 (2005) - [j30]Upamanyu Madhow, Kristoffer Bruvold, Liping Julia Zhu:
Differential MMSE: A Framework for Robust Adaptive Interference Suppression for DS-CDMA Over Fading Channels. IEEE Trans. Commun. 53(8): 1377-1390 (2005) - [c28]Kristoffer Bruvold, Raghuraman Mudumbai, Upamanyu Madhow:
A QoS framework for stabilized collision channels with multiuser detection. ICC 2005: 250-254 - [c27]Kaushal Solanki, Kenneth Sullivan, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
Statistical restoration for robust and secure steganography. ICIP (2) 2005: 1118-1121 - [c26]Raghu Mudumbai, João P. Hespanha, Upamanyu Madhow, Gwen Barriac:
Scalable feedback control for distributed beamforming in sensor networks. ISIT 2005: 137-141 - [c25]Bharath Ananthasubramaniam, Upamanyu Madhow:
Detection and localization of events in imaging sensor nets. ISIT 2005: 825-829 - [c24]Kenneth Sullivan, Upamanyu Madhow, Shivkumar Chandrasekaran, B. S. Manjunath:
Steganalysis of spread spectrum data hiding exploiting cover memory. Security, Steganography, and Watermarking of Multimedia Contents 2005: 38-46 - [c23]Kaushal Solanki, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
Modeling the print-scan process for resilient data hiding. Security, Steganography, and Watermarking of Multimedia Contents 2005: 418-429 - 2004
- [j29]Gwen Barriac, Upamanyu Madhow:
Characterizing outage rates for space-time communication over wideband channels. IEEE Trans. Commun. 52(12): 2198-2208 (2004) - [j28]Kaushal Solanki, Noah Jacobsen, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
Robust image-adaptive data hiding using erasure and error correction. IEEE Trans. Image Process. 13(12): 1627-1639 (2004) - [j27]Gwen Barriac, Upamanyu Madhow:
Space-time communication for OFDM with implicit channel feedback. IEEE Trans. Inf. Theory 50(12): 3111-3129 (2004) - [j26]Rong-Rong Chen, Bruce E. Hajek, Ralf Koetter, Upamanyu Madhow:
On fixed input distributions for noncoherent communication over high-SNR Rayleigh-fading channels. IEEE Trans. Inf. Theory 50(12): 3390-3396 (2004) - [j25]Onkar Dabeer, Kenneth Sullivan, Upamanyu Madhow, Shivkumar Chandrasekaran, B. S. Manjunath:
Detection of hiding in the least significant bit. IEEE Trans. Signal Process. 52(10): 3046-3058 (2004) - [c22]Gwen Barriac, Upamanyu Madhow:
Antenna selection for space-time communication with covariance feedback. GLOBECOM 2004: 1234-1238 - [c21]Jill K. Nelson, Andrew C. Singer, Upamanyu Madhow:
Multi-directional decision feedback for 2D equalization. ICASSP (4) 2004: 921-924 - [c20]Kaushal Solanki, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
Estimating and undoing rotation for print-scan resilient data hiding. ICIP 2004: 39-42 - [c19]Kenneth Sullivan, Zhiqiang Bi, Upamanyu Madhow, Shivkumar Chandrasekaran, B. S. Manjunath:
Steganalysis of quantization index modulation data hiding. ICIP 2004: 1165-1168 - [c18]Gwen Barriac, Raghuraman Mudumbai, Upamanyu Madhow:
Distributed beamforming for information transfer in sensor networks. IPSN 2004: 81-88 - [c17]Bharath Ananthasubramaniam, Upamanyu Madhow:
Virtual radar imaging for sensor networks. IPSN 2004: 294-300 - [c16]Gwen Barriac, Upamanyu Madhow:
Space-time precoding with mean and covariance feedback: implications for wideband systems. ISIT 2004: 284 - [c15]Noah Jacobsen, Gwen Barriac, Upamanyu Madhow:
Noncoherent eigenbeamforming for a wideband cellular uplink. ISIT 2004: 381 - [c14]Bharath Ananthasubramaniam, Upamanyu Madhow:
Virtual radar approach to event localization in sensor networks. ISIT 2004: 517 - [c13]Raghuraman Mudumbai, Gwen Barriac, Upamanyu Madhow:
Optimizing medium access control for rapid handoffs in pseudocellular networks. VTC Fall (2) 2004: 1098-1102 - [c12]Chi-hsien Lin, Hui Dong, Upamanyu Madhow, Allen Gersho:
Supporting real-time speech on wireless ad hoc networks: inter-packet redundancy, path diversity, and multiple description coding. WMASH 2004: 11-20 - 2003
- [j24]Rong-Rong Chen, Ralf Koetter, Upamanyu Madhow, Dakshi Agrawal:
Joint noncoherent demodulation and decoding for the block fading channel: a practical framework for approaching Shannon capacity. IEEE Trans. Commun. 51(10): 1676-1689 (2003) - [j23]Hemant M. Chaskar, Upamanyu Madhow:
Fair scheduling with tunable latency: a round-robin approach. IEEE/ACM Trans. Netw. 11(4): 592-601 (2003) - [c11]Gwen Barriac, Upamanyu Madhow:
Space-time communication for OFDM with implicit channel feedback. GLOBECOM 2003: 1321-1325 - [c10]Kenneth Sullivan, Onkar Dabeer, Upamanyu Madhow, B. S. Manjunath, Shivkumar Chandrasekaran:
LLRT based detection of LSB hiding. ICIP (1) 2003: 497-500 - [c9]Kaushal Solanki, Onkar Dabeer, B. S. Manjunath, Upamanyu Madhow, Shivkumar Chandrasekaran:
Joint source-channel coding scheme for image-in-image data hiding. ICIP (2) 2003: 743-746 - [c8]Gwen Barriac, Upamanyu Madhow:
Wideband space-time communication with implicit channel feedback. ISSPA (1) 2003: 225-228 - 2002
- [j22]Dilip Warrier, Upamanyu Madhow:
Spectrally efficient noncoherent communication. IEEE Trans. Inf. Theory 48(3): 651-668 (2002) - [j21]Colin D. Frank, Eugene Visotsky, Upamanyu Madhow:
Adaptive Interference Suppression for the Downlink of a Direct Sequence CDMA System with Long Spreading Sequences. J. VLSI Signal Process. 30(1-3): 273-291 (2002) - [c7]Kaushal Solanki, Noah Jacobsen, Shivkumar Chandrasekaran, Upamanyu Madhow, B. S. Manjunath:
High-volume data hiding in images: Introducing perceptual criteria into quantization based embedding. ICASSP 2002: 3485-3488 - 2001
- [j20]Hemant M. Chaskar, Upamanyu Madhow:
Statistical multiplexing and QoS provisioning for real-time traffic on wireless downlinks. IEEE J. Sel. Areas Commun. 19(2): 347-354 (2001) - [j19]Eugene Visotsky, Upamanyu Madhow:
Noncoherent multiuser detection for CDMA systems with nonlinear modulation: A non-Bayesian approach. IEEE Trans. Inf. Theory 47(4): 1352-1367 (2001) - [j18]Eugene Visotsky, Upamanyu Madhow:
Space-Time transmit precoding with imperfect feedback. IEEE Trans. Inf. Theory 47(6): 2632-2629 (2001) - 2000
- [j17]T. V. Lakshman, Upamanyu Madhow, Bernhard Suter:
TCP/IP performance with random loss and bidirectional congestion. IEEE/ACM Trans. Netw. 8(5): 541-555 (2000)
1990 – 1999
- 1999
- [j16]Upamanyu Madhow, Michael L. Honig:
On the average near-far resistance for MMSE detection of direct sequence CDMA signals with random spreading. IEEE Trans. Inf. Theory 45(6): 2039-2045 (1999) - [j15]Hemant M. Chaskar, T. V. Lakshman, Upamanyu Madhow:
TCP over wireless with link level error control: analysis and design methodology. IEEE/ACM Trans. Netw. 7(5): 605-615 (1999) - 1998
- [j14]Upamanyu Madhow:
Blind adaptive interference suppression for direct-sequence CDMA. Proc. IEEE 86(9): 2049-2069 (1998) - [j13]Upamanyu Madhow:
MMSE interference suppression for timing acquisition and demodulation in direct-sequence CDMA systems. IEEE Trans. Commun. 46(8): 1065-1075 (1998) - [c6]Julian Francis Waldby, Upamanyu Madhow, T. V. Lakshman:
Total Acknowledgements: A Robust Feedback Mechanism for End-to-End Congestion Control (Extended Abstract). SIGMETRICS 1998: 274-275 - 1997
- [j12]T. V. Lakshman, Upamanyu Madhow:
The performance of TCP/IP for networks with high bandwidth-delay products and random loss. IEEE/ACM Trans. Netw. 5(3): 336-350 (1997) - [j11]Upamanyu Madhow:
Blind adaptive interference suppression for the near-far resistant acquisition and demodulation of direct-sequence CDMA signals. IEEE Trans. Signal Process. 45(1): 124-136 (1997) - [c5]T. V. Lakshman, Upamanyu Madhow, Bernhard Suter:
Window-Based Error Recovery and Flow Control with a Slow Acknowledgement Channel: A Study of TCP/IP Performance. INFOCOM 1997: 1199-1209 - 1996
- [c4]Upamanyu Madhow:
Signal processing for interference suppression in direct-sequence CDMA systems. ICASSP 1996: 1065-1068 - 1995
- [j10]Upamanyu Madhow, Michael B. Pursley:
Mathematical modeling and performance analysis for a two-stage acquisition scheme for direct-sequence spread-spectrum CDMA. IEEE Trans. Commun. 43(9): 2511-2520 (1995) - [j9]Michael L. Honig, Upamanyu Madhow, Sergio Verdú:
Blind adaptive multiuser detection. IEEE Trans. Inf. Theory 41(4): 944-960 (1995) - [j8]Upamanyu Madhow, Michael L. Honig, Kenneth Steiglitz:
Optimization of wireless resources for personal communications mobility tracking. IEEE/ACM Trans. Netw. 3(6): 698-707 (1995) - [c3]Teunis J. Ott, Robert Braden, T. V. Lakshman, Upamanyu Madhow, Christina Brazdziunas, A. Broscius, Arnold L. Neidhardt:
The Internet in Evolution, and TCP Over ATM (Panel). SIGMETRICS 1995: 261-262 - 1994
- [j7]Upamanyu Madhow, Michael B. Pursley:
Universal receivers with side information from the demodulators: an example for nonselective Rician fading channels. IEEE Trans. Commun. 42(7): 2395-2404 (1994) - [j6]Upamanyu Madhow, Michael B. Pursley:
On the design of universal receivers for nonselective Rician-fading channels. IEEE Trans. Commun. 42(9): 2703-2712 (1994) - [j5]Upamanyu Madhow, Michael L. Honig:
MMSE interference suppression for direct-sequence spread-spectrum CDMA. IEEE Trans. Commun. 42(12): 3178-3188 (1994) - [c2]T. V. Lakshman, Upamanyu Madhow:
Performance Analysis of Window-based Flow Control Using TCP/IP: Effect of High Bandwidth-Delay Products and Random Loss. HPN 1994: 135-149 - [c1]Upamanyu Madhow, Michael L. Honig, Kenneth Steiglitz:
Optimization of Wireless Resources for Personal Communications Mobility Tracking. INFOCOM 1994: 577-584 - 1993
- [j4]Upamanyu Madhow, Michael B. Pursley:
Acquisition in direct-sequence spread-spectrum communication networks: An asymptotic analysis. IEEE Trans. Inf. Theory 39(3): 903-912 (1993) - 1991
- [j3]Upamanyu Madhow, Michael B. Pursley:
A parallel systems approach to universal receivers. IEEE Trans. Inf. Theory 37(2): 291-306 (1991) - 1990
- [b1]Upamanyu Madhow:
A parallel systems approach to universal receivers. University of Illinois Urbana-Champaign, USA, 1990 - [j2]Upamanyu Madhow, Michael B. Pursley:
Limiting performance of frequency-hop random access. IEEE Trans. Inf. Theory 36(2): 322-333 (1990) - [j1]Upamanyu Madhow, Michael B. Pursley:
Correction to 'Limiting Performance of Frequency-Hop Random Access'. IEEE Trans. Inf. Theory 36(5): 1187- (1990)
Coauthor Index
Patrick Bidigare
aka: T. Patrick Bidigare
aka: T. Patrick Bidigare
B. S. Manjunath
aka: Bangalore S. Manjunath
aka: Bangalore S. Manjunath
Raghuraman Mudumbai
aka: Raghu Mudumbai
aka: Raghu Mudumbai
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Unpaywalled article links
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to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-30 20:33 CET by the dblp team
all metadata released as open data under CC0 1.0 license
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since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
