The investigation of the dynamics of national disciplinary profiles is at the forefront in quantitative investigations of science. There is an increasing number of papers that analyses the disciplinary specialization at the country level. We contribute to this literature by proposing a new approach to investigate the complex interactions among scientific disciplinary profiles. The approach is based on recent pseudo-likelihood techniques introduced in the framework of machine learning and complex systems. We infer, in a Bayesian framework, the network topology and the related interdependencies among national disciplinary profiles. We provide an illustration on data extracted from the Scopus database which relate to the national scientific pr...
The purpose of this paper is to analyse and describe the topological properties of the institutional...
This paper examines the collaboration structures and dynamics of the co-authorship network of all Sl...
This paper analyzes, using Web of Science publications and two time periods (2004-2006 and 2014-2016...
The investigation of the dynamics of national disciplinary profiles is at the forefront in quantitat...
In this paper we propose a quantitative measure to compare the diversity of disciplinary profiles of...
Models for the production of knowledge and systems of innovation and science are key elements for ch...
The main goal of this paper is to show how the scientific production of advanced western countries i...
International audienceScientific collaboration networks are an important component of scientific out...
[Background] Models for the production of knowledge and systems of innovation and science are key...
Scientific collaboration networks are an important component of scientific output and contribute sig...
BACKGROUND: Models for the production of knowledge and systems of innovation and science are key ele...
In this paper, by modeling national and regional research systems as complex systems, we compare the...
INTRODUCTION:Research productivity has been linked to a country's intellectual and economic wealth. ...
This paper compares the national scientific profiles of 199 countries in 254 fields, tracked by two ...
The disciplinary profiles of the mean citation rates across 22 research areas were analyzed for 107 ...
The purpose of this paper is to analyse and describe the topological properties of the institutional...
This paper examines the collaboration structures and dynamics of the co-authorship network of all Sl...
This paper analyzes, using Web of Science publications and two time periods (2004-2006 and 2014-2016...
The investigation of the dynamics of national disciplinary profiles is at the forefront in quantitat...
In this paper we propose a quantitative measure to compare the diversity of disciplinary profiles of...
Models for the production of knowledge and systems of innovation and science are key elements for ch...
The main goal of this paper is to show how the scientific production of advanced western countries i...
International audienceScientific collaboration networks are an important component of scientific out...
[Background] Models for the production of knowledge and systems of innovation and science are key...
Scientific collaboration networks are an important component of scientific output and contribute sig...
BACKGROUND: Models for the production of knowledge and systems of innovation and science are key ele...
In this paper, by modeling national and regional research systems as complex systems, we compare the...
INTRODUCTION:Research productivity has been linked to a country's intellectual and economic wealth. ...
This paper compares the national scientific profiles of 199 countries in 254 fields, tracked by two ...
The disciplinary profiles of the mean citation rates across 22 research areas were analyzed for 107 ...
The purpose of this paper is to analyse and describe the topological properties of the institutional...
This paper examines the collaboration structures and dynamics of the co-authorship network of all Sl...
This paper analyzes, using Web of Science publications and two time periods (2004-2006 and 2014-2016...