Add to ORKGIn my Ph.D. thesis, I focus on the design and mathemat-ical modeling of collective decision-making mechanisms for swarm of autonomous robots. In particular, most of the attention of my studies concerns collective decision-making problems that are characterized by a discrete and finite num-ber of possible alternatives (e.g., the best-of-n decision prob-lem discussed in Section 2). The aim of my studies is to de-velop mathematical models that enable designers to study collective decision-making mechanisms across different levels of abstraction: from mean field approximations that permit the study of asymptotic properties, to stochastic mathemat-ical models that account for finite-size effects, and therefore, allow designer to predict the perf...
We study a self-organized collective decision-making strategy to solve a site-selection problem usin...
Abstract. In this paper, we review methods used for macroscopic modeling and analyzing collective be...
The best-of-n problem [Valentini G, Ferrante E, Dorigo M. The best-of-n problem in robot swarms: for...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
This book focuses on the design and analysis of collective decision-making strategies for the best-o...
We study a self-organized collective decision-making strategy to solve the best-of-n decision proble...
In swarm robotics, large groups of relatively simple robots cooperate so that they can perform tasks...
We present a unified approach to describing certain types of collective decision making in swarm rob...
We study a collective decision-making mechanism for a swarm of robots. Swarm robotics [9] is a novel...
In swarm robotics, large groups of relatively simple robots cooperate so that they can perform tasks...
In this paper, we propose a collective decision-making method for swarms of robots. The method enabl...
In this paper, we propose a collective decision-making method for swarms of robots. The method enabl...
Autonomous decision-making is a fundamental requirement for the intelligent behavior of individual a...
Autonomous decision-making is a fundamental requirement for the intelligent behavior of individual a...
The ability to collectively choose the best among a finite set of alternatives is a fundamental cogn...
We study a self-organized collective decision-making strategy to solve a site-selection problem usin...
Abstract. In this paper, we review methods used for macroscopic modeling and analyzing collective be...
The best-of-n problem [Valentini G, Ferrante E, Dorigo M. The best-of-n problem in robot swarms: for...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
This book focuses on the design and analysis of collective decision-making strategies for the best-o...
We study a self-organized collective decision-making strategy to solve the best-of-n decision proble...
In swarm robotics, large groups of relatively simple robots cooperate so that they can perform tasks...
We present a unified approach to describing certain types of collective decision making in swarm rob...
We study a collective decision-making mechanism for a swarm of robots. Swarm robotics [9] is a novel...
In swarm robotics, large groups of relatively simple robots cooperate so that they can perform tasks...
In this paper, we propose a collective decision-making method for swarms of robots. The method enabl...
In this paper, we propose a collective decision-making method for swarms of robots. The method enabl...
Autonomous decision-making is a fundamental requirement for the intelligent behavior of individual a...
Autonomous decision-making is a fundamental requirement for the intelligent behavior of individual a...
The ability to collectively choose the best among a finite set of alternatives is a fundamental cogn...
We study a self-organized collective decision-making strategy to solve a site-selection problem usin...
Abstract. In this paper, we review methods used for macroscopic modeling and analyzing collective be...
The best-of-n problem [Valentini G, Ferrante E, Dorigo M. The best-of-n problem in robot swarms: for...