MIGLIOZZI, Massimo
 Distribuzione geografica
Continente #
NA - Nord America 9.045
EU - Europa 2.466
AS - Asia 1.909
SA - Sud America 248
AF - Africa 19
Continente sconosciuto - Info sul continente non disponibili 5
OC - Oceania 5
Totale 13.697
Nazione #
US - Stati Uniti d'America 9.020
IT - Italia 810
CN - Cina 680
SG - Singapore 608
UA - Ucraina 571
RU - Federazione Russa 293
IE - Irlanda 238
BR - Brasile 228
DE - Germania 207
VN - Vietnam 206
TR - Turchia 148
FI - Finlandia 128
KR - Corea 126
SE - Svezia 86
HK - Hong Kong 58
IN - India 35
CZ - Repubblica Ceca 29
GB - Regno Unito 22
FR - Francia 14
CA - Canada 13
NL - Olanda 12
PL - Polonia 9
AT - Austria 8
PK - Pakistan 8
BD - Bangladesh 7
EC - Ecuador 7
ES - Italia 7
RO - Romania 7
ZA - Sudafrica 7
IQ - Iraq 6
JP - Giappone 6
AR - Argentina 5
EU - Europa 5
MA - Marocco 5
MX - Messico 5
RS - Serbia 5
VE - Venezuela 5
AU - Australia 4
BG - Bulgaria 4
LU - Lussemburgo 4
AE - Emirati Arabi Uniti 3
KE - Kenya 3
BE - Belgio 2
BY - Bielorussia 2
CH - Svizzera 2
CO - Colombia 2
EG - Egitto 2
JM - Giamaica 2
JO - Giordania 2
MN - Mongolia 2
NP - Nepal 2
PH - Filippine 2
UZ - Uzbekistan 2
AM - Armenia 1
AZ - Azerbaigian 1
BB - Barbados 1
CR - Costa Rica 1
DK - Danimarca 1
DO - Repubblica Dominicana 1
GR - Grecia 1
HR - Croazia 1
IR - Iran 1
KG - Kirghizistan 1
LB - Libano 1
LK - Sri Lanka 1
LT - Lituania 1
MD - Moldavia 1
NG - Nigeria 1
NZ - Nuova Zelanda 1
OM - Oman 1
PA - Panama 1
PE - Perù 1
PR - Porto Rico 1
PT - Portogallo 1
SA - Arabia Saudita 1
TN - Tunisia 1
Totale 13.697
Città #
Ann Arbor 2.446
Woodbridge 1.051
Wilmington 771
Jacksonville 735
Houston 711
Princeton 640
Chandler 635
Salerno 487
Ashburn 253
Dublin 234
Dong Ket 205
Singapore 202
Dearborn 154
Beijing 147
Andover 146
Izmir 132
Nanjing 125
Boardman 94
Pellezzano 94
Moscow 91
Hong Kong 58
The Dalles 55
Fairfield 49
Council Bluffs 46
Munich 45
Hebei 44
Nanchang 43
Shenyang 41
Jiaxing 40
Düsseldorf 37
Mestre 31
New York 30
Santa Clara 30
Guangzhou 29
Changsha 28
Brno 27
San Diego 27
Norwalk 26
Columbus 25
Napoli 25
Dallas 22
Los Angeles 21
Naples 21
Pune 21
Washington 21
São Paulo 20
Tianjin 20
Redwood City 15
Poggiomarino 14
Fisciano 13
Brooklyn 12
Amsterdam 11
Cambridge 11
Indiana 11
Seattle 11
Turku 11
Belo Horizonte 10
Warsaw 9
Istanbul 8
Rio de Janeiro 8
San Francisco 8
Hefei 7
London 7
Nuremberg 7
Atlanta 6
Domicella 6
Falls Church 6
Lappeenranta 6
Rome 6
Curinga 5
Edinburgh 5
Jinan 5
Kunming 5
Shanghai 5
Shenzhen 5
Baghdad 4
Boston 4
Capellen 4
Chicago 4
Curitiba 4
Ningbo 4
Nola 4
Orange 4
Salvador 4
Santo André 4
Vienna 4
Ankara 3
Brasília 3
Chennai 3
Dubai 3
Hangzhou 3
Johannesburg 3
Karachi 3
Lishui 3
Madrid 3
Mugnano di Napoli 3
New Delhi 3
Ottawa 3
Paris 3
Phoenix 3
Totale 10.554
Nome #
A numerical-analytical solution for continuous flow microwave heating of liquids in laminar motion 155
A nonredundant spherical NF-FF transformation using a fast spiral scanning: experimental testing @ UNISA antenna characterization lab 142
A nonredundant near-field to far-field transformation with spherical spiral scanning for nonspherical antennas 140
A NF/FF transformation with spherical scan for a noncentred quasi-planar antenna using a minimum number of data 137
An effective NF–FF transformation with helicoidal scan tailored for elongated antennas: an experimental validation 134
An Experimental Validation of the Near-Field - Far-Field Transformation with Spherical Spiral Scan 129
Probe position errors corrected near-field-far-field transformation with spherical scanning 127
An efficient cylindrical NF – FF transformation using a very simple and practical antenna modelling 125
An Innovative Direct NF-FF Transformation Technique with Helicoidal Scanning 125
A model for predicting the scattering by a junction of three dielectric slabs 124
A singular value decomposition based approach for far-field reconstruction from irregularly spaced planar wide-mesh scanning data 124
A UAPO solution for the field diffracted by a lossy dielectric half-plane 124
Far field reconstruction from positioning error affected near-field data acquired via a nonredundant spherical scanning 121
An iterative technique to compensate for probe positioning errors in the helicoidal scanning 120
An Efficient Transformation Technique for the Direct Recovering of the Antenna Far-Field Pattern from Near-Field Measurements Collected along a Helix 120
Probe conpensated near-field to far-field transformation with helicoidal scanning for elongated antennas 119
A nonredundant spherical NF-FF transformation: Experimental tests @ UNISA antenna characterization lab 119
Experimental Testing of Nonredundant Near-Field to Far-Field Transformations with Spherical Scanning Using Flexible Modellings for Nonvolumetric Antennas 118
Experimental verification of a nonredundant NF-FF transformation with spherical scanning for elongated antennas 118
Experimental tests on an effective near-field to far-field transformation with spherical scan from irregularly spaced data 117
A planar NF–FF transformation for quasi-spherical antennas using the innovative spiral scanning 117
Scattering by truncated lossy layers: a UAPO based approach 115
Positioning errors compensation in the NF - FF transformation with helicoidal scanning for long antennas: experimental tests 113
Spherical near-field - far-field transformation for quasi-planar antennas from irregularly spaced data 113
Laboratory tests on the direct cylindrical NF – FF transformation using an effective modelling for long AUTs 109
Field representation over an ellipsoid from samples acquired through a spiral scanning 108
Experimental proofs on a new helicoidal NF scanning for long antennas @ UNISA Antenna Characterization Lab”, Atti della Fondazione “Giorgio Ronchi 108
Near-field – far-field transformation with a planar wide-mesh scanning: experimental testing 108
An effective NF-FF transformation technique with planar spiral scanning tailored for quasi-planar antennas 107
TD optimal sampling interpolation over a plane from NF data collected through a nonconventional plane-rectangular scanning 106
An experimental validation of a nonredundant NF–FF transformation technique with cylindrical scanning 105
Experimental Tests on a Near-Field to Far-Field Transformation Technique Using a Nonconventional Plane-Rectangular Scanning 104
Non-Redundant Spherical NF - FF Transformations Using Ellipsoidal Antenna Modeling: Experimental Assessments 104
An effective near-field-far-field transformation technique for elongated antennas using a fast helicoidal scan 104
Optimal sampling interpolation over a plane from transient bi-polar near-field data 103
Near-field-far-field transformation with helicoidal scan: an experimental validation 102
Probe positioning errors compensation in the NF–FF transformation with cylindrical scanning for long antennas: experimental tests 102
On the Direct Non-Redundant Near-Field-to-Far-Field Transformation in a Cylindrical Scanning Geometry 102
Laboratory tests on the near-field - far-field transformation with spherical spiral scan optimized for long antennas 102
Laboratory tests on the direct near-field - far-field transformation with helicoidal scanning for long antennas 101
Experimental Assessment of an Effective Near-Field–Far-Field Transformation With Spherical Spiral Scanning for Quasi-Planar Antennas 101
An efficient NF-FF transformation technique with plane-polar scanning: experimental assessments 101
Laboratory proofs on the NF-FF transformation with spherical spiral scanning optimized for quasi-planar antennas 98
Far-Field Pattern Reconstruction from Near-Field Data Collected via a Nonconventional Plane-Rectangular Scanning: Experimental Testing 97
Two efficient procedures to correct the positioning errors in the plane-polar scanning 97
Compensation of the probe positioning errors in the spherical NF – FF transformation for elongated antennas 97
Experimental Proofs on an Effective Near-Field to Far-Field Transformation Technique with Spherical Spiral Scan Suitable for Long Antennas 96
Reconstruction of the Antenna Far-Field Pattern through a Fast Plane-Polar Scanning 96
Effective antenna modellings for NF – FF transformations with spherical scanning using the minimum number of data 96
Experimental validation of the NF–FF transformation with helicoidal scanning suitable for elongated antennas 95
Near-field – far-field transformation techniques with spiral scannings 95
An iterative technique to compensate for positioning errors in the NF - FF transformation with helicoidal scanning for long antennas 95
Near-Field to Far-Field Transformation Techniques with Spiral Scannings: A Comprehensive Review 95
Optimal near-field interpolation in the time domain from data acquired via a nonconventional plane-rectangular scanning 95
Laboratory measurements of super-resolving Toraldo pupils for radio astronomical applications 95
Trasformazione campo vicino - campo lontano con scansione elicoidale per antenne lunghe 94
Efficient far-field reconstruction of quasi-planar antennas from spherical spiral near-field data 93
Nonredundant near field - far field transformation with spherical spiral scanning for elongated antennas 92
Laboratory tests on a near-field - far-field transformation with spherical scan using a very flexible antenna modelling 92
Laboratory tests on a nonredundant near-field to far-field transformation with spherical scanning for long antennas 92
Far-field reconstruction from near-field data collected through a planar spiral scan: experimental evidences 92
Antenna pattern reconstruction directly from nonredundant near-field measurements collected by a cylindrical facility 90
Far-field reconstruction from a minimum number of spherical spiral data using effective antenna modellings 90
Laboratory results on the compensation of probe positioning errors in the NF – FF transformation with helicoidal scan 89
Two Techniques for Compensating the Probe Positioning Errors in the Spherical NF–FF Transformation for Elongated Antennas 89
Far-field pattern reconstruction directly from a minimum number of helicoidal near-field data 89
An innovative spiral scanning over an oblate ellipsoid for NF–FF transformation 88
Ellipsoidal spiral scanning for elongated antennas 88
On the compensation of probe positioning errors when using a nonredundant cylindrical NF–FF transformation 88
Far-field reconstruction from near-field data acquired via a fast spherical spiral scan: experimental evidences 88
Efficient reconstruction of the pattern radiated by a long antenna from data acquired via a spherical-spiral-scanning near-field facility 88
Experimental Testing on an Effective Technique to Reconstruct the Far- Field Pattern of a Long Antenna from Near-Field Measurements Acquired via Spherical Spiral Scan 88
Experimental testing on a near-field to far-field tranformation with planar spiral scanning for quasi-planar antennas 88
A SVD Algorithm to Compensate the Probe Positioning Errors in the Spherical NF - FF Transformation for Quasi-planar Antennas 87
Experimental Validation of the Direct NF-FF Transformation with Cylindrical Scanning for Long Antennas 87
Laboratory tests assessing a nonredundant NF-FF transformation technique with plane-polar scanning 86
Two Effective Approaches to Correct the Positioning Errors in a Spherical Near-Field-Far-Field Transformation 86
Nonredundant NF-FF transformation with spherical scan accounting for an offset mounting of a long AUT 86
Antenna directivity evaluation from cylindrical near-field data 85
Experimental validation of the NF–FF transformation with helicoidal scanning suitable for elongated antennas 85
Far-field reconstruction from nonredundant spherical near-field data for quasi-planar sources 85
The unified theory of near–field – far–field transformations with spiral scannings for nonspherical antennas 84
An effective NF–FF transformation with spherical scanning using the “rounded cylinder” antenna modelling 83
Laboratory testing on a nonredundant NF-FF transformation with plane-polar scanning optimized for quasi-planar antennas 83
Fast and Accurate Antenna Pattern Evaluation from Near-Field Data Acquired via Planar Spiral Scanning 83
An efficient iterative procedure to correct the positioning errors in the plane-polar scanning 82
Evaluation of the far field radiated by long antennas directly from data acquired through a fast helicoidal scanning 82
Positioning errors compensation in a nonredundant spherical NF-FF transformation: experimental evidences 81
Optimal sampling interpolation over a plane from transient bi-polar near-field data 81
An iterative approach to compensate the probe positioning errors in a nonredundant spherical NF-FF transformation 81
Far-field evaluation directly from helicoidal near-field data 80
An experimental validation of the near-field - far-field transformation with spherical spiral scan 79
Far field reconstruction from positioning errors affected plane-polar measurements: A SVD approach 79
Trasformazione campo vicino - campo lontano con scansione elicoidale per antenne lunghe 78
Near-field-far-field transformation technique with helicoidal scanning for elongated antennas 77
Far-field reconstruction from plane polar near-field data affected by probe position errors 77
Nonredundant near-to far-field transformation with spherical scanning suitable for an offset mounted quasi-planar antenna 77
Far-field pattern reconstruction from positioning errors affected near-field data acquired via helicoidal scanning 76
NF – FF transformation with helicoidal scan for long antennas: positioning errors compensation 76
Spherical near-field to far-field transformation for quasi-planar antennas: an experimental validation 75
Totale 9.939
Categoria #
all - tutte 51.399
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 51.399


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/20211.052 3 106 130 7 131 35 139 4 109 16 138 234
2021/20221.126 6 2 7 8 10 34 11 72 150 150 154 522
2022/20231.678 197 81 35 180 204 365 12 183 284 7 81 49
2023/2024795 80 102 52 27 39 88 74 97 3 36 37 160
2024/20251.887 92 67 33 99 100 279 205 240 292 116 216 148
2025/202626 26 0 0 0 0 0 0 0 0 0 0 0
Totale 14.108