Giuseppe Durisi
Dr. Giuseppe Durisi's research area is information theory, a mathematical discipline that deals with optimal methods for representing, communicating and storing digital information. His research activity covers a broad range of topics, both theoretic and applied, which include: i) the characterization of the trade-off between latency, reliability and throughput in the transmission of digital information over both wireless and optical fiber channels; ii) the design of 5G broadband cellular systems operating on the millimeter-wave part of the wireless spectrum, and relying on advanced massive multi-antenna solutions; iii) the development of next-generation low-latency ultra-reliable communication systems.
Dr. Durisi received the Laurea degree summa cum laude and the Doctor degree both from Politecnico di Torino, Italy, in 2001 and 2006, respectively. From 2002 to 2006, he was with Istituto Superiore Mario Boella, Torino, Italy. From 2006 to 2010 he was a postdoctoral researcher at ETH Zurich, Zurich, Switzerland. Since 2010, he has been with Chalmers University of Technology, Gothenburg, Sweden, where is now full professor with the Communication Systems Group. He is also guest researcher at Ericsson, Sweden, and co-director of Chalmers ICT Area of Advance.
Dr. Durisi is a senior member of the IEEE. He is the recipient of the 2013 IEEE ComSoc Best Young Researcher Award for the Europe, Middle East, and Africa Region, and is co-author of a paper that won a "student paper award" at the 2012 International Symposium on Information Theory, and of a paper that won the 2013 IEEE Sweden VT-COM-IT joint chapter best student conference paper award. He served as TPC member in several IEEE conferences. In 2015, he joined the editorial board of the IEEE Transactions on Communications as associate editor. From 2011 to 2014, he served as publications editor for the IEEE Transactions on Information Theory. His research interests are in the areas of communication and information theory.
Dr. Durisi is a contributor and a maintainer of SPECTRE—short packet communication toolbox, a collection of numerical routines for finite-blocklength analyses in information theory (http://tinyurl.com/cth-spectre).
Showing 114 publications
URLLC with Massive MIMO: Analysis and Design at Finite Blocklength
Short-packet Transmission via Variable-Length Codes in the Presence of Noisy Stop Feedback
Finite-alphabet MMSE equalization for all-digital massive MU-MIMO mmWave communications
Saddlepoint Approximations for Short-Packet Wireless Communications
Hardware-friendly two-stage spatial equalization for all-digital mm-wave massive MU-MIMO
Soft-Output Finite Alphabet Equalization for mmWave Massive MIMO
Hardware-Friendly Two-Stage Spatial Equalization for All-Digital mmWave Massive MU-MIMO
Distributed Massive MIMO via all-Digital Radio Over Fiber
Generalization Bounds via Information Density and Conditional Information Density
Generalization Error Bounds via mth Central Moments of the Information Density
On single-antenna Rayleigh block-fading channels at finite blocklength
Finite-Alphabet MMSE Equalization for All-Digital Massive MU-MIMO mmWave Communication
High-Bandwidth Spatial Equalization for mmWave Massive MU-MIMO with Processing-in-Memory
All-Digital Massive MIMO Uplink and Downlink Rates under a Fronthaul Constraint
Efficient error-correcting codes in the short blocklength regime
Low-latency Ultra-Reliable 5G Communications: Finite-blocklength bounds and coding schemes
Massive MU-MIMO-OFDM uplink with direct RF-sampling and 1-Bit ADCs
Timing and Frequency Synchronization for 1-bit Massive MU-MIMO-OFDM Downlink
Short-Packet Transmission over a Bidirectional Massive MIMO link
Low-Complexity Joint Channel Estimation and List Decoding of Short Codes
Linear Precoding With Low-Resolution DACs for Massive MU-MIMO-OFDM Downlink
Neural-Network Optimized 1-bit Precoding for Massive MU-MIMO
Saddlepoint Approximations for Noncoherent Single-Antenna Rayleigh Block-Fading Channels
Massive MU-MIMO-OFDM Uplink with Hardware Impairments: Modeling and Analysis
Peak-Age Violation Guarantees for the Transmission of Short Packets over Fading Channels
Short Packets over Block-Memoryless Fading Channels: Pilot-Assisted or Noncoherent Transmission?
How to Increase the Achievable Information Rate by Per-Channel Dispersion Compensation
Low-Latency Short-Packet Transmissions: Fixed Length or HARQ?
On the nonasymptotic performance of variable-length codes with noisy stop feedback
List Decoding of Short Codes for Communication over Unknown Fading Channels
Accuracy Assessment of Nondispersive Optical Perturbative Models through Capacity Analysis
Finite-Alphabet Wiener Filter Precoding for mmWave Massive MU-MIMO Systems
Delay and Peak-Age Violation Probability in Short-Packet Transmissions
Pilot-Assisted Short-Packet Transmission over Multiantenna Fading Channels: A 5G Case Study
Common-message broadcast channels with feedback in the nonasymptotic regime: Full feedback
Demodulation and Detection Schemes for a Memoryless Optical WDM Channel
Pilot-Assisted Short Packet Transmission over Memoryless Block-Fading Channels
All-digital massive MIMO with a fronthaul constraint
MSE-Optimal 1-Bit Precoding for Multiuser MIMO Via Branch and Bound
Common-message broadcast channels with feedback in the nonasymptotic regime: Stop feedback
Age-Optimal Channel Coding Blocklength for an M/G/1 Queue with HARQ
5G wireless network slicing for eMBB, URLLC, and mMTC: A communication-theoretic view
On Out-of-Band Emissions of Quantized Precoding in Massive MU-MIMO-OFDM
Nonlinear Precoding for Phase-Quantized Constant-Envelope Massive MU-MIMO-OFDM
5G physical layer: Principles, models and technology components
Massive MU-MIMO-OFDM Downlink with One-Bit DACs and Linear Precoding
VLSI design for a 3-bit constant-modulus precoder for massive MU-MIMO
Massive multiuser MIMO downlink with low- resolution converters
Normal Approximations for Fading Channels
Beta-beta bounds: Finite-blocklength analog of the golden formula
Quantized Precoding for Massive MU-MIMO
A High-SNR Normal Approximation for Single-Antenna Rayleigh Block-Fading Channels
A Tighter Upper Bound on the Capacity of the Nondispersive Optical Fiber Channel
1-bit Massive MU-MIMO Precoding in VLSI
Feedback Halves the Dispersion for Some Two-User Broadcast Channels with Common Message
Short Codes with Mismatched Channel State Information: A Case Study
Throughput Analysis of Massive MIMO Uplink With Low-Resolution ADCs
The dispersion of nearest-neighbor decoding for additive non-Gaussian channels
Nonlinear 1-bit precoding for massive MU-MIMO with higher-order modulation
Initial multi-node and antenna transmitter and receiver architectures and schemes; Deliverable D5.1
Quantized Massive MU-MIMO-OFDM Uplink
Variable-Length Coding with Stop-Feedback for the Common-Message Broadcast Channel
The Dispersion of Nearest-Neighbor Decoding for Additive Non-Gaussian Channels
Short-Packet Communications over Multiple-Antenna Rayleigh-Fading Channels
Minimum Energy to Send k Bits Over Multiple-Antenna Fading Channels
Towards Massive, Ultra-Reliable, and Low-Latency Wireless Communication with Short Packets
A Beta-Beta Achievability Bound with Applications
Toward Massive, Ultrareliable, and Low-Latency Wireless Communication With Short Packets
Nonasymptotic coding-rate bounds for binary erasure channels with feedback
Information-theory-friendly models for fiber-optic channels: A primer
Capacity of SIMO and MISO Phase-Noise Channels with Common/Separate Oscillators
One-Bit Massive MIMO: Channel Estimation and High-Order Modulations
Analysis of Massive MIMO with hardware impairments and different channel models
Optimum Power Control at Finite Blocklength
Minimum Energy to Send k Bits over Rayleigh-Fading Channels
High-SNR Capacity of Multiple-Antenna Phase-Noise Channels with Common/Separate RF Oscillators
Broadcasting a Common Message with Variable-Length Stop-Feedback Codes
Capacity bounds for MIMO microwave backhaul links affected by phase noise
On the Impact of Hardware Impairments on Massive MIMO
Capacity of a nonlinear optical channel with finite memory
Diversity versus multiplexing at finite blocklength
Finite-Blocklength Channel Coding Rate Under a Long-Term Power Constraint
Dispersion of Quasi-Static MIMO Fading Channels via Stokes’ Theorem
Oversampling increases the pre-log of noncoherent Rayleigh fading channels
Quasi-Static Multiple-Antenna Fading Channels at Finite Blocklength
Degrees of Freedom of Generic Block-Fading MIMO Channels Without a Priori Channel State Information
Finite-blocklength analysis of the ARQ-protocol throughput over the Gaussian collision channel
On the multiplexing gain of MIMO Microwave backhaul links affected by Phase Noise
On the capacity of MIMO Wiener phase-noise channels
Generic correlation increases noncoherent MIMO capacity
Block-fading channels at finite blocklength
Quasi-Static SIMO Fading Channels at Finite Blocklength
Capacity Pre-Log of Noncoherent SIMO Channels via Hironaka’s Theorem
On the Capacity of Large-MIMO Block-Fading Channels
How costly is it to learn fading channels?
LTE MIMO multiplexing performance measured in reverberation chamber and accurate simple theory
On the capacity of the block-memoryless phase-noise channel
Uncertainty Relations and Sparse Signal Recovery for Pairs of General Signal Sets
On the Sensitivity of Continuous-Time Noncoherent Fading Channel Capacity
A robust {RFPI}-based 1-bit compressive sensing reconstruction algorithm
Unitary isotropically distributed inputs are not capacity-achieving for large-MIMO fading channels
Diversity versus Channel Knowledge at Finite Block-Length
Modeling system throughput of single and multi-port wireless LTE devices
Noncoherent SIMO Pre-Log via Resolution of Singularities
Information Theory of underspread WSSUS channels
Real-Time Principal Component Pursuit
High-SNR Capacity of Wireless Communication Channels in the Noncoherent Setting: A Primer
Capacity Pre-Log of SIMO Correlated Block-Fading Channels
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Showing 13 research projects
Towards a greater understanding of deep neural networks (IT-DNN)
Distributed massive MIMO with low-precision components
Distribuerad massiv MIMO med lågprecisions-komponenter
INNER: information theory of deep neural networks
Låglatent slumpartad åtkomst för uppkoppling till IoT
SWIFT : short-packet wireless information theory
Massive MIMO systems with low-resolution converters
Multipath test environments for future communication systems
Optical Fiber Interference is Not Noise
Massive MIMO systems and nonlinear hardware impairments
Fundamental limits of user coordination in wireless networks