UniSa - IRIS Institutional Research Information System

GIORNO, Virginia
 Distribuzione geografica
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Continente #
NA - Nord America 8.332
EU - Europa 2.555
AS - Asia 1.685
SA - Sud America 209
AF - Africa 22
OC - Oceania 13
Continente sconosciuto - Info sul continente non disponibili 9
Totale 12.825
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Nazione #
US - Stati Uniti d'America 8.200
IT - Italia 819
CN - Cina 677
SG - Singapore 572
UA - Ucraina 565
RU - Federazione Russa 326
DE - Germania 288
BR - Brasile 191
IE - Irlanda 181
FI - Finlandia 146
VN - Vietnam 124
CA - Canada 113
KR - Corea 108
TR - Turchia 98
SE - Svezia 95
GB - Regno Unito 49
IN - India 37
FR - Francia 29
HK - Hong Kong 19
ES - Italia 12
AU - Australia 10
CH - Svizzera 10
IL - Israele 10
MX - Messico 10
AR - Argentina 9
EU - Europa 9
JP - Giappone 8
NL - Olanda 7
ZA - Sudafrica 7
BD - Bangladesh 6
MA - Marocco 6
PL - Polonia 6
AT - Austria 5
GP - Guadalupe 5
JO - Giordania 4
AZ - Azerbaigian 3
BE - Belgio 3
EC - Ecuador 3
NZ - Nuova Zelanda 3
PK - Pakistan 3
RO - Romania 3
AO - Angola 2
BG - Bulgaria 2
BH - Bahrain 2
CM - Camerun 2
CO - Colombia 2
CZ - Repubblica Ceca 2
IR - Iran 2
LB - Libano 2
MD - Moldavia 2
NO - Norvegia 2
PE - Perù 2
PH - Filippine 2
QA - Qatar 2
TN - Tunisia 2
BO - Bolivia 1
BS - Bahamas 1
DZ - Algeria 1
EG - Egitto 1
GR - Grecia 1
IQ - Iraq 1
JM - Giamaica 1
KZ - Kazakistan 1
NI - Nicaragua 1
NP - Nepal 1
OM - Oman 1
PA - Panama 1
PT - Portogallo 1
PY - Paraguay 1
RS - Serbia 1
SA - Arabia Saudita 1
SN - Senegal 1
TH - Thailandia 1
Totale 12.825
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Città #
Ann Arbor 2.275
Wilmington 801
Houston 788
Woodbridge 781
Jacksonville 697
Chandler 590
Princeton 542
Salerno 240
Singapore 216
Ashburn 178
Dublin 174
Nanjing 157
Beijing 137
Andover 132
Dong Ket 123
Dearborn 106
Ottawa 103
Boardman 100
Pellezzano 97
Izmir 96
Moscow 65
Mestre 59
Fairfield 58
Changsha 51
Nanchang 50
Shenyang 44
Hebei 41
Düsseldorf 34
Redwood City 34
Jiaxing 32
Los Angeles 30
Norwalk 29
Nürnberg 27
Dallas 23
Munich 23
New York 22
Rome 21
Hong Kong 19
Naples 19
São Paulo 18
Columbus 17
Guangzhou 16
Helsinki 16
Prineville 15
San Francisco 15
The Dalles 15
Tianjin 15
Fort Worth 14
San Diego 14
Turku 13
Chennai 12
Napoli 12
Jinan 11
Santa Clara 11
London 10
Pune 10
Dormagen 9
Redmond 9
Washington 9
Atlanta 8
Cambridge 8
Council Bluffs 8
Seattle 8
Springfield 8
Belo Horizonte 7
Marano Di Napoli 7
Nuremberg 7
Turin 7
Zhengzhou 7
Basel 6
Brasília 6
Forlì 6
Haikou 6
Indiana 6
Mirabella Eclano 6
North Bergen 6
San Marzano sul Sarno 6
Chicago 5
Cuneo 5
Hefei 5
Milan 5
Morne-a-l'Eau 5
Shanghai 5
Spinea 5
Sydney 5
Tokyo 5
Warsaw 5
Amman 4
Andria 4
Cagliari 4
Fisciano 4
Johannesburg 4
Lappeenranta 4
Messina 4
Montreal 4
Ningbo 4
Nocera Inferiore 4
Phoenix 4
Taiyuan 4
Taizhou 4
Totale 9.500
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Nome #
Un primo corso in probabilità per scienze pure e applicate 252
A birth-and-death model for single neuron's activity 185
On the first exit time problem for a Gompertz-type tumor growth 180
A diffusion neuronal model and its parameters 164
A Stochastic Gompertz Model with Jumps for an Intermittent Treatment in Cancer Growth 163
An outline of theoretical and algorithmic approaches to first passage time problems with applications to biological modeling 143
A jump stochastic Gompertz model for an intermittent treatment in tumor growth 140
A Markov chain-based model for actomyosin dynamics 137
A biographical sketch of Professor Luigi M. Ricciardi 134
A continuous-time Ehrenfest model with catastrophes and its jump-diffusion approximation 134
Upcrossing First Passage Times for correlated Gaussian Processes 132
Estimating and determining the effect of a therapy on tumor dynamics by means of a modified Gompertz diffusion process 131
An outline of theoretical and algorithmic approaches to first passage time problems for systems dynamics modelling 129
A Wiener-type neuronal model in the presence of exponential refractoriness 128
A Stochastic Model of Cancer Growth Subject to an Intermittent Treatment with Combined Effects: Reduction of Tumor Size and Raise of Growth Rate 123
A prey-predator model for immune response and drug resistence in tumor growth. 120
Inferring the effect of therapy on tumors showing stochastic Gompertzian growth 120
On the return process with refractoriness for non-homogeneous Ornstein-Uhlenbeck neuronal model 118
Towards Dead Time Inclusion in Neuronal Modeling 117
Prendiville Stochastic Growth Model in the Presence of Catastrophes 116
A prey-predator model for immune response and drug resistance in tumor growth (Extended Abstract) 114
On the asymptotics of first passage time densities 114
On some time non-homogeneous queueing systems with catastrophes 113
Some remarks on stochastic diffusion processes with jumps 113
Diffusion approximation and first–passage–time problem for a model neuron. III. A birth–and–death process approach 113
On some algorithmic and computational problems for neuronal diffusion models 111
Towards Modeling Refractoriness for Single Neuron's Activity 109
Modeling Neuronal Firing in the Presence of Refractoriness 109
On the instantaneous return process for neuronal diffusion models 109
On a bilateral linear birth and death process in the presence of catastrophes (Extended Abstract) 107
Foreword of Special Issue on BIOCOMP 2012 - In Memory of Luigi M. Ricciardi 107
A stochastic model of competing populations 106
On the first passage time problem for certain diffusion processes 106
Special Issue on BIOCOMP 2012 - In Memory of Luigi M. Ricciardi 106
A Double-ended Queue with Catastrophes and Repairs,and a Jump-diffusion Approximation 105
A Cancer Dynamics Model for an Intermittent Treatment Involving Reduction of Tumor Size and Rise of Growth Rate 105
Analysis of reflected diffusions via an exponential time-based transformation 105
A neuronal modeling paradigm in the presence of refractoriness 104
On the construction of densities for time non-homogeneous diffusion processes 104
On species diversity for a stochastic population model in the presence of competition 103
On the therapy effect for a stochastic growth Gompertz-type model 103
Some remarks on the Rayleigh process 103
A model of tumor dynamics subject to an intermittent treatment involving reduction of tumor size and rise of growth rate 103
A rumor spreading model with random denials 102
On the distribution of the range of an asymmetric random walk 102
A Wiener neuronal model in the presence of random refractoriness (Abstract) 101
On a Bilateral Linear Birth and Death Process in the Presence of Catastrophes 101
Some preliminary results on first crossing time densities for two-dimensional diffusion processes 100
Loss system in the presence of catastrophes 99
A note on the first exit time problem for a Gompertz-type diffusion process. 99
Constructing transient birth-death processes by means of suitable transformations 99
First-crossing time problems for diffusion processes in R^2 through particular closed curves 98
First-passage times and related moments for continuous-time birth-death chains 98
Diffusion Processes Subject to Catastrophes 97
Towards a two-compartment model in tumor growth 96
A Wiener neuronal model with refractoriness 96
On some diffusion approximations to queueing systems 95
A solvable model for a finite-capacity queueing system - A Reply to Iversen and Nielsen's Letter 95
Inference on exogenous factors in a modified Gompertz diffusion modeling tumor activity 94
Estimating the Effect of a Therapy in a Gompertz-type Diffusion Process 94
On the moments of firing numbers in diffusion neuronal models with refractoriness 93
Diffusion processes subject to catastrophes (Extended Abstract) 93
Computational Problems in Biological Modeling (Extended Abstract) 93
On the reduction to one dimensional of first–passage–time problems for diffusion processes 93
A new approach to the construction of first-passage-time densities 93
Instantaneous return process and neuronal firings 93
Asymptotic average of the local time for one-dimensional diffusion processes 93
A random tandem network with queues modeled as Markov birth-death processes (Extended Abstract) 93
On first-passage-time and transition densities for strongly symmetric diffusion processes 92
On some probability densities and symmetry properties of two dimensional diffusion processes 92
On some first-crossing-time probabilities for a two-dimensional random walk with correlated components 91
On Neuronal Firing Modeling via Specially Confined Diffusion Processes 90
A Stochastic model in Tumor Growth 90
A note on birth-death processes with catastrophes 90
A symmetry–based constructive approach to probability densities for one dimensional diffusion processes 90
On the two boundary first–crossing–time problem for diffusion processes 90
Inference on the effect of a time-dependent therapy in tumor growth 90
On some time non homogeneous diffusion approximations to queueing systems 89
Stochastic roots of growth phenomena 89
Inference on Exogenous Factor in a Modified Gompertz Diffusion Modeling Tumor Activity 88
Stochastic population models with interacting species 87
Wiener-type neuronal model with refractoriness (Extended Abstract) 87
On asymptotic behaviors of stochastic models for single neuron's activity 87
Towards Dead Time Inclusion in Neuronal Modeling (Abstract) 86
Remarks on survival for a stochastic model of competing populations 86
Modeling Environmental Influences in the Psyllaephagus bliteus (Hymenoptera: Encyrtidae)–Glycaspis brimblecombei (Hemiptera: Aphalaridae) Parasitoid–Host System 86
On the M/M/1 queue with catastrophes and its continuous approximation 84
On the densities of certain bounded diffusion processes 84
On the effect of a therapy able to modify both the growth rates in a Gompertz stochastic model 84
On the first passage time moments for a class of specially confined diffusion processes 83
On time non-homogeneous stochastic processes with catastrophes 83
A solvable model for a finite capacity queueing system 83
On some special classes of refractoriness densities in neuronal modeling 82
On the asymptotic behaviour of first–passage–time densities for one–dimensional diffusion processes and varying boundaries 82
Single neuron's activity: on certain problems of modeling and interpretation 82
Modeling Refractoriness for Stochastically Driven Single Neuron Activity (Abstract) 82
On the construction of densities for time non-homogeneous diffusion processes (Extended Abstract) 81
A note on diffusion processes with jumps and applications 80
FPT densities constructions from Ornstein-Uhlenbeck process. 79
Inference on a stochastic two-compartment model in tumor growth 79
Totale 10.496
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Categoria #
all - tutte 42.648
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 42.648
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/20211.092 70 111 127 6 137 51 145 7 126 27 132 153
2021/20221.031 7 10 12 23 15 26 24 40 157 127 161 429
2022/20231.455 162 81 14 188 216 313 3 133 220 3 81 41
2023/2024737 63 82 42 28 57 63 60 69 31 36 39 167
2024/20251.584 80 48 83 116 97 189 233 132 195 75 174 162
2025/202626 26 0 0 0 0 0 0 0 0 0 0 0
Totale 13.339