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    Claudio Palestini

    Papers
    Robust Code Acquisition in the Presence of BOC Modulation for Future Galileo Receiversmore
    by Claudio Palestini and Marco Villanti
    Publication Date: 2007
    Publication Name: 2007 IEEE International Conference on Communications
    Research Interests:
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    Galileo Primary Code Acquisition Based on Multi-hypothesis Secondary Code Ambiguity Eliminationmore
    by Claudio Palestini
    BIOGRAPHY Giovanni E. Corazza is a Full Professor at DEIS, Univer- sity of Bologna, and leads Wireless Communications inside the Advanced Research Centre for Electronic Systems ARCES. He was Chairman of the School for Telecommunications... more
    BIOGRAPHY Giovanni E. Corazza is a Full Professor at DEIS, Univer- sity of Bologna, and leads Wireless Communications inside the Advanced Research Centre for Electronic Systems ARCES. He was Chairman of the School for Telecommunications in the years 2000-2003. He is the Chairman of the Advanced Satellite Mobile Systems Task Force ASMS TF and of the Integral Satcom Initiative ISI,
    Publication Date: 2000
    Research Interests:
    Staggered Time and Frequency Search to Aid Frame Synchronizationmore
    by Claudio Palestini and Marco Villanti
    Publication Date: 2008
    Publication Name: 2008 IEEE 10th International Symposium on Spread Spectrum Techniques and Applications
    Research Interests:
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    Code Acquisition for Next Generation Mobile Broadband Satellite Servicesmore
    by Claudio Palestini and Marco Villanti
    Publication Date: 2008
    Publication Name: 2008 IEEE International Conference on Communications
    Research Interests:
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    An insider view on tracking loops: A novel ultra-tight GNSS/INS hybridization approachmore
    by Claudio Palestini
    This paper tackles the issue of increasing GNSS receivers reliability by presenting a novel ultra-tight integration scheme identified as Gaussian AUtocorrelation Scaled Sum (GAUSS). This hybridization approach is based on the concept that... more
    This paper tackles the issue of increasing GNSS receivers reliability by presenting a novel ultra-tight integration scheme identified as Gaussian AUtocorrelation Scaled Sum (GAUSS). This hybridization approach is based on the concept that a completely artificial autocorrelation peak, generated starting from the information provided by the inertial sensors can be fused non-coherently into the received signal autocorrelation function to enhance
    Publication Date: 2010
    Publication Name: IEEE/ION Position, Location and Navigation Symposium
    Research Interests:
    A performance and complexity optimization of joint code and frame synchronization for DVB-S2/RCS mobilemore
    by Claudio Palestini
    Publication Date: 2010
    Publication Name: 2010 5th Advanced Satellite Multimedia Systems Conference and the 11th Signal Processing for Space Communications Workshop
    Research Interests:
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    LTE Adaptation for Mobile Broadband Satellite Networksmore
    by Claudio Palestini, Massimo Neri, Marco Papaleo, and Stefano Rosati
    Publication Date: 2009
    Publication Name: EURASIP Journal on Wireless Communications and Networking
    Research Interests:
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    The Single Frequency Satellite Network Concept: Multiple Beams for Unified Coveragemore
    by Claudio Palestini
    Publication Date: 2009
    Publication Name: GLOBECOM 2009 - 2009 IEEE Global Telecommunications Conference
    Research Interests:
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    Direct sequence spectrum spreading techniques for next generation mobile broadband satellite servicesmore
    by Claudio Palestini and Marco Papaleo
    Publication Date: 2010
    Publication Name: International Journal of Satellite Communications and Networking
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    Cross-Band Aided Code Acquisition in Dual-Band GNSS Receiversmore
    by Claudio Palestini and Marco Villanti
    ABSTRACT 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... more
    ABSTRACT 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.
    Publication Date: 2000
    Publication Name: IEEE Transactions on Aerospace and Electronic Systems
    Research Interests:
    Impact of high-end receivers in a peer-to-peer cooperative localization systemmore
    by Jaron Samson and Claudio Palestini
    Publication Date: 2010
    Publication Name: 2010 Ubiquitous Positioning Indoor Navigation and Location Based Service
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