Your search keyword '"G. E. Corazza"' showing total 5 results

1. Cross-Band Aided Code Acquisition in Dual-Band GNSS Receivers

Author

Francesco Bastia, Raffaella Perdone, Lina Deambrogio, Giovanni Emanuele Corazza, Claudio Palestini, M. Villanti, ENAC - Equipe télécommunications (TELECOM), Ecole Nationale de l'Aviation Civile (ENAC), Lan Systems, European GNSS Agency, meXage, Advanced Research Center on Electronic Systems for Information and Communication Technologies E. De Castro [Bologna] (ARCES), Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), L. Deambrogio, F. Bastia, C. Palestini, R. Pedone, M. Villanti, and G. E. Corazza

Subjects

dual-band receiver, Computer science, 0211 other engineering and technologies, Aerospace Engineering, Radio receiver, 050801 communication & media studies, 02 engineering and technology, Synchronization, law.invention, CODE ACQUISITION, symbols.namesake, 0508 media and communications, 0203 mechanical engineering, law, Electronic engineering, Code (cryptography), Galileo (satellite navigation), Electrical and Electronic Engineering, 021101 geological & geomatics engineering, 020301 aerospace & aeronautics, GNSS, business.industry, 05 social sciences, spread spectrum synchronization, GNSS applications, symbols, Satellite navigation, Multi-band device, business, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing, Computer hardware

Abstract

International audience; The problem of fast code acquisition in dual-band Galileo receivers is tackled. The proposed techniques exploit the Galileo E1 and E5 Open Service signals structure, implementing a cross-band aiding approach that yields mutual assistance in code synchronization adopting a master/slave configuration. The schemes are analyzed in terms of mean acquisition time (MAT) introducing the procedure flow-graph and overall mean acquisition time (OMAT). Numerical evaluation shows enhanced OMAT performance w.r.t. autonomous dual-band acquisition, guaranteeing complexity reduction.

Published

2013

2. Windowed Decoding of Protograph-Based LDPC Convolutional Codes Over Erasure Channels

Author

Giovanni Emanuele Corazza, Paul H. Siegel, Aravind R. Iyengar, Marco Papaleo, Alessandro Vanelli-Coralli, Jack K. Wolf, A. Iyengar, M. Papaleo, P. Siegel, J. K. Wolf, A. Vanelli-Coralli, and G. E. Corazza

Subjects

FOS: Computer and information sciences, LDPC, Ldpc convolutional codes, Computer science, Computer Science - Information Theory, 050801 communication & media studies, ERASURE CHANNELS, Data_CODINGANDINFORMATIONTHEORY, 02 engineering and technology, Library and Information Sciences, 0508 media and communications, BELIEF PROPAGATION, 0202 electrical engineering, electronic engineering, information engineering, Low-density parity-check code, ITERATIVE DECODING, FEC, Computer Science::Information Theory, Information Theory (cs.IT), 05 social sciences, 020206 networking & telecommunications, Binary erasure channel, Computer Science Applications, Convolutional code, Erasure, Algorithm, Decoding methods, Information Systems, Communication channel

Abstract

We consider a windowed decoding scheme for LDPC convolutional codes that is based on the belief-propagation (BP) algorithm. We discuss the advantages of this decoding scheme and identify certain characteristics of LDPC convolutional code ensembles that exhibit good performance with the windowed decoder. We will consider the performance of these ensembles and codes over erasure channels with and without memory. We show that the structure of LDPC convolutional code ensembles is suitable to obtain performance close to the theoretical limits over the memoryless erasure channel, both for the BP decoder and windowed decoding. However, the same structure imposes limitations on the performance over erasure channels with memory., 18 pages, 9 figures, accepted for publication in the IEEE Transactions on Information Theory

Published

2012

3. 1945–2010: 65 Years of Satellite History From Early Visions to Latest Missions

Author

E. A. Candreva, Paul Thompson, Alessandro Vanelli-Coralli, Giovanni Emanuele Corazza, Barry G. Evans, B. G. Evan, P. T. Thompson, G. E. Corazza, A. Vanelli-Coralli, and E. A. Candreva

Subjects

Quasi-Zenith Satellite System, Vision, DIGITAL TRANSMISSION, business.industry, Broadcast law, SATELLITE COMMUNICATIONS, Space exploration, Geography, Direct-broadcast satellite television, Communications satellite, Satellite navigation, Satellite Internet access, Electrical and Electronic Engineering, Telecommunications, business

Abstract

This paper takes a broad view on the history and the present status of satellite communications and broadcasting. The necessary starting point of this overview is the visionary papers produced by Sir Arthur C. Clarke and John Pierce. This was the real dawn of the satellite communication era. This paper attempts to explain the “fil rouge” of the evolution of satellite technologies across six decades, analyzing successes and failures of past satellite missions, and concluding with a picture of future satellite communications.

Published

2011

4. Frame synchronization in frequency uncertainty

Author

Alessandro Vanelli-Coralli, M. Villanti, Giovanni Emanuele Corazza, R. Pedone, P.T. Mathiopoulos, R. Pedone, M. Villanti, A. Vanelli-Coralli, G. E. Corazza, and P. Takis Mathiopoulos

Subjects

FREQUENCY ERROR, POST DETECTION INTEGRATION, Burst transmission, Computer science, Detector, Time division multiple access, TIME DIVISION MULTIPLE ACCESS, Frame synchronization, Frame rate, FRAME SYNCHRONIZATION, Synchronization, Packet switching, Burst switching, Time-division multiplexing, Robustness (computer science), Electronic engineering, Electrical and Electronic Engineering, Algorithm

Abstract

This paper addresses the problem of robust frame synchronization for TDM/TDMA systems in the presence of frequency errors, accomplished through data-aided recognition of the Unique Word (UW) preamble in the transmission flow. Robust detection design is performed applying, through approximations, the Maximum Likelihood (ML) criterion coupled to Post Detection Integration (PDI), to obtain a novel detector identified as Balanced-GPDI (B-GPDI). This new approach considerably outperforms other schemes available in the literature, at the cost of a moderate complexity increase. This is possible thanks to an optimized use of coherent accumulation, which enhances the correlation term in the decision variable, along with highly accurate modeling of the energy correction factor. To limit complexity increase and memory requirements, several approximations of the exact B-GPDI are proposed and discussed in the paper, to provide the designer with practical solutions that are still able to outperform other approaches in specific application scenarios. In particular, approximations for low and high Signal-to-Noise Ratio (SNR) are presented. Different application scenarios are considered in the paper for numerical analysis. In particular, the cases of forward link Continuous Transmission (CTX) and return link Burst Transmission (BTX) are addressed.

Published

2010

5. DS-CDMA Code Acquisition in the Presence of Correlated Fading—Part I: Theoretical Aspects

Author

Alessandro Vanelli-Coralli, Andreas Polydoros, Giovanni Emanuele Corazza, Carlo Caini, G. E. CORAZZA, C. CAINI, A. VANELLI-CORALLI, and A. POLYDOROS

Subjects

Channel code, Coherence time, Computer science, Code division multiple access, Process (computing), Probability density function, Variance (accounting), IMT-2000, IS-95, Spread spectrum, CODE ACQUISITION, CODE-DIVISION MULTIPLE ACCESS (CDMA), Terminal (electronics), Electronic engineering, Fading, Electrical and Electronic Engineering, FADING, Algorithm

Abstract

This paper deals with the analysis of the code-acquisition process performed by a mobile terminal in a code-division multiple-access cellular system. The fundamental contribution is the setting of a theoretical framework for code-acquisition analysis, accounting for the presence of fading and shadowing with specified coherence time. A multidwell architecture is considered, accounting for different verification strategies. The MAX/TC detection criterion is used, and the acquisition performance is analyzed, following both the direct and flow-graph approaches. Expressions for the acquisition time probability density function under different assumptions are given, as well as closed-form expressions for the mean and variance of the acquisition time. Practical applications and numerical results are reported in the Part II companion paper.

Published

2004