Your search keyword '"05C85, 60J60, 90C35"' showing total 3 results

1. UTLDR: an agent-based framework for modeling infectious diseases and public interventions

Author

Rossetti, Giulio, Milli, Letizia, Citraro, Salvatore, and Morini, Virginia

Subjects

Computer Science - Social and Information Networks, Physics - Physics and Society, 05C85, 60J60, 90C35, G.2.2, F.2.1

Abstract

Nowadays, due to the SARS-CoV-2 pandemic, epidemic modelling is experiencing a constantly growing interest from researchers of heterogeneous fields of study. Indeed, the vast literature on computational epidemiology offers solid grounds for analytical studies and the definition of novel models aimed at both predictive and prescriptive scenario descriptions. To ease the access to diffusion modelling, several programming libraries and tools have been proposed during the last decade: however, to the best of our knowledge, none of them is explicitly designed to allow its users to integrate public interventions in their model. In this work, we introduce UTLDR, a framework that can simulate the effects of several public interventions (and their combinations) on the unfolding of epidemic processes. UTLDR enables the design of compartmental models incrementally and to simulate them over complex interaction network topologies. Moreover, it allows integrating external information on the analyzed population (e.g., age, gender, geographical allocation, and mobility patterns\dots) and to use it to stratify and refine the designed model. After introducing the framework, we provide a few case studies to underline its flexibility and expressive power.

Published

2020

2. NDlib: a Python Library to Model and Analyze Diffusion Processes Over Complex Networks

Author

Rossetti, Giulio, Milli, Letizia, Rinzivillo, Salvatore, Sirbu, Alina, Giannotti, Fosca, and Pedreschi, Dino

Subjects

Computer Science - Social and Information Networks, 05C85, 60J60, 90C35, G.2.2, F.2.1

Abstract

Nowadays the analysis of dynamics of and on networks represents a hot topic in the Social Network Analysis playground. To support students, teachers, developers and researchers in this work we introduce a novel framework, namely NDlib, an environment designed to describe diffusion simulations. NDlib is designed to be a multi-level ecosystem that can be fruitfully used by different user segments. For this reason, upon NDlib, we designed a simulation server that allows remote execution of experiments as well as an online visualization tool that abstracts its programmatic interface and makes available the simulation platform to non-technicians.

Published

2017

3. UTLDR: an agent-based framework for modeling infectious diseases and public interventions

Author

Letizia Milli, Salvatore Citraro, Giulio Rossetti, and Virginia Morini

Subjects

FOS: Computer and information sciences, Physics - Physics and Society, Computer Networks and Communications, Computer science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Psychological intervention, FOS: Physical sciences, Physics and Society (physics.soc-ph), G.2.2, 01 natural sciences, Article, 010305 fluids & plasmas, Artificial Intelligence, 0103 physical sciences, Pandemic, Leverage (statistics), Activity driven networks, Agent-based modelling, Compartmental models, Epidemics, 010306 general physics, Proxy (statistics), Simple (philosophy), Social and Information Networks (cs.SI), Scientific instrument, 05C85, 60J60, 90C35, Computer Science - Social and Information Networks, F.2.1, Work (electrical), Risk analysis (engineering), Hardware and Architecture, Software, Information Systems

Abstract

Nowadays, due to the SARS-CoV-2 pandemic, epidemic modelling is experiencing a constantly growing interest from researchers of heterogeneous fields of study. Indeed, the vast literature on computational epidemiology offers solid grounds for analytical studies and the definition of novel models aimed at both predictive and prescriptive scenario descriptions. To ease the access to diffusion modelling, several programming libraries and tools have been proposed during the last decade: however, to the best of our knowledge, none of them is explicitly designed to allow its users to integrate public interventions in their model. In this work, we introduce UTLDR, a framework that can simulate the effects of several public interventions (and their combinations) on the unfolding of epidemic processes. UTLDR enables the design of compartmental models incrementally and to simulate them over complex interaction network topologies. Moreover, it allows integrating external information on the analyzed population (e.g., age, gender, geographical allocation, and mobility patterns\dots) and to use it to stratify and refine the designed model. After introducing the framework, we provide a few case studies to underline its flexibility and expressive power.

Published

2021