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272 results on '"Floreano, D."'

1. Memetic Viability Evolution for Constrained Optimization

Author

Maesani, A., Iacca, G., and Floreano, D.

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

The performance of evolutionary algorithms can be heavily undermined when constraints limit the feasible areas of the search space. For instance, while Covariance Matrix Adaptation Evolution Strategy is one of the most efficient algorithms for unconstrained optimization problems, it cannot be readily applied to constrained ones. Here, we used concepts from Memetic Computing, i.e. the harmonious combination of multiple units of algorithmic information, and Viability Evolution, an alternative abstraction of artificial evolution, to devise a novel approach for solving optimization problems with inequality constraints. Viability Evolution emphasizes elimination of solutions not satisfying viability criteria, defined as boundaries on objectives and constraints. These boundaries are adapted during the search to drive a population of local search units, based on Covariance Matrix Adaptation Evolution Strategy, towards feasible regions. These units can be recombined by means of Differential Evolution operators. Of crucial importance for the performance of our method, an adaptive scheduler toggles between exploitation and exploration by selecting to advance one of the local search units and/or recombine them. The proposed algorithm can outperform several state-of-the-art methods on a diverse set of benchmark and engineering problems, both for quality of solutions and computational resources needed.

Published
2018
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2. Bio-inspired Tensegrity Soft Modular Robots

Author

Zappetti, D., Mintchev, S., Shintake, J., and Floreano, D.

Subjects
Computer Science - Robotics
Abstract

In this paper, we introduce a design principle to develop novel soft modular robots based on tensegrity structures and inspired by the cytoskeleton of living cells. We describe a novel strategy to realize tensegrity structures using planar manufacturing techniques, such as 3D printing. We use this strategy to develop icosahedron tensegrity structures with programmable variable stiffness that can deform in a three-dimensional space. We also describe a tendon-driven contraction mechanism to actively control the deformation of the tensegrity mod-ules. Finally, we validate the approach in a modular locomotory worm as a proof of concept., Comment: 12 pages, 7 figures, submitted to Living Machine conference 2017

Published
2017

3. Dynamic Routing for Flying Ad Hoc Networks

Author

Rosati, S., Kruzelecki, K., Heitz, G., Floreano, D., and Rimoldi, B.

Subjects
Computer Science - Networking and Internet Architecture
Abstract

This paper reports experimental results on self-organizing wireless networks carried by small flying robots. Flying ad hoc networks (FANETs) composed of small unmanned aerial vehicles (UAVs) are flexible, inexpensive and fast to deploy. This makes them a very attractive technology for many civilian and military applications. Due to the high mobility of the nodes, maintaining a communication link between the UAVs is a challenging task. The topology of these networks is more dynamic than that of typical mobile ad hoc networks (MANETs) and of typical vehicle ad hoc networks (VANETs). As a consequence, the existing routing protocols designed for MANETs partly fail in tracking network topology changes. In this work, we compare two different routing algorithms for ad hoc networks: optimized link-state routing (OLSR), and predictive-OLSR (P-OLSR). The latter is an OLSR extension that we designed for FANETs; it takes advantage of the GPS information available on board. To the best of our knowledge, P-OLSR is currently the only FANET-specific routing technique that has an available Linux implementation. We present results obtained by both Media Access Control (MAC) layer emulations and real-world experiments. In the experiments, we used a testbed composed of two autonomous fixed-wing UAVs and a node on the ground. Our experiments evaluate the link performance and the communication range, as well as the routing performance. Our emulation and experimental results show that P-OLSR significantly outperforms OLSR in routing in the presence of frequent network topology changes., Comment: Submitted to the IEEE Transactions on Vehicular Technology

Published
2014
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11. Evolutionary Robotics

Author

Nolfi S., Bongard J., Husband P., and Floreano D.

Subjects
Autonomous Robots, Evolutionary Computation, Adaptive Behavior
Abstract

Evolutionary Robotics is a method for automatically generating artificial brains and morphologies of autonomous robots. This approach is useful both for investigating the design space of robotic applications and for testing scientific hypotheses of biological mechanisms and processes. In this chapter we provide an overview of methods and results of Evolutionary Robotics with robots of different shapes, di- mensions, and operation features. We consider both simulated and physical robots with special consideration to the transfer between the two worlds.

Published
2016
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14. Experimental approaches toward a functional understanding of insect flight control

Author

Floreano, D, Zufferey, J C, Srinivasan, M V, Ellington, C, Floreano, D ( D ), Zufferey, J C ( J C ), Srinivasan, M V ( M V ), Ellington, C ( C ), Fry, S N, Floreano, D, Zufferey, J C, Srinivasan, M V, Ellington, C, Floreano, D ( D ), Zufferey, J C ( J C ), Srinivasan, M V ( M V ), Ellington, C ( C ), and Fry, S N

Abstract

This chapter describes experimental approaches exploring free-flight control in insects at various levels, in view of the biomimetic design principles they may offer for MAVs. Low-level flight control is addressed with recent studies of the aerodynamics of free-flight control in the fruit fly. The ability to measure instantaneous kinematics and aerodynamic forces in free-flying insects provides a basis for the design of flapping airfoil MAVs. Intermediate-level flight control is addressed by presenting a behavioral system identification approach. In this work, the motion processing and speed control pathways of the fruit fly were reverse engineered based on transient visual flight speed responses, providing a quantitative control model suited for biomimetic implementation. Finally, high-level flight control is addressed with the analysis of landmark-based goal navigation, for which bees combine and adapt basic visuomotor reflexes in a context-dependent way. Adaptive control strategies are also likely suited for MAVs that need to perform in complex and unpredictable environments. The integrative analysis of flight control mechanisms in free-flying insects promises to move beyond isolated emulations of biological subsystems toward a generalized and rigorous approach.

Published
2009

27. Synthesis of autonomous robots through evolution

Author

Nolfi S. and Floreano D.

Abstract

Evolutionary robotics is the attempt to develop robots through a self- organized process based on artificial evolution. This approach stresses the importance of the study of systems that: (1) have a body and are situated in a physical environment, and (2) autonomously develop their own skills in close interaction with the environment. In this article we will briefly illustrate the method and the main idea, we will review the most significant contribution in this area and finally, we will discuss some of the contributions that this research area is making to the foundational debate in cognitive science.

Published
2002

31. Revealing strengths and weaknesses of methods for gene network inference

Author

Marbach, D, Prill, R, Schaffter, T, Mattiussi, C, Floreano, D, Stolovitzky, G, Marbach, D, Prill, R, Schaffter, T, Mattiussi, C, Floreano, D, and Stolovitzky, G

Abstract

Numerous methods have been developed for inferring gene regulatory networks from expression data, however, both their absolute and comparative performance remain poorly understood. In this paper, we introduce a framework for critical performance assessment of methods for gene network inference. We present an in silico benchmark suite that we provided as a blinded, community-wide challenge within the context of the DREAM (Dialogue on Reverse Engineering Assessment and Methods) project. We assess the performance of 29 gene-network-inference methods, which have been applied independently by participating teams. Performance profiling reveals that current inference methods are affected, to various degrees, by different types of systematic prediction errors. In particular, all but the best-performing method failed to accurately infer multiple regulatory inputs (combinatorial regulation) of genes. The results of this community-wide experiment show that reliable network inference from gene expression data remains an unsolved problem, and they indicate potential ways of network reconstruction improvements.

Published
2010

32. Evolution of altruistic robots

Author

Zurada, J.M. (ed.), Yen, G.G. (ed.), Wang, J. (ed.), Floreano, D., Mitri, S., Perez-Uribe, A., Keller, L., Zurada, J.M. (ed.), Yen, G.G. (ed.), Wang, J. (ed.), Floreano, D., Mitri, S., Perez-Uribe, A., and Keller, L.

Published
2008

33. Hyper-flexible 1-D shape sensor

Author

Dobrzynski, M. K., primary, Vanderparre, H., additional, Pericet-Camara, R., additional, L'Eplattenier, G., additional, Lacour, S., additional, and Floreano, D., additional

Published
2013
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35. An Internal Teacher for Neural Computation

Author

Floreano, D. and Floreano, D.

Abstract

Contextual signals might supervise discovery of coherently varying information between cortical modules computing different functions of their receptive field input. This hypothesis is explored in two sets of computational experiments, one studying the effects on learning of long-range unidirectional contextual signals mediated by intervening processors, and the other showing contextually supervised discovery of a high-order variable in a multi-layer network.

Published
2006
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36. Evolution of Plastic Neurocontrollers for Situated Agents

Author

Floreano, D., Mondada, F., Maes, P., Mataric, M., Meyer, J.-A., Pollack, J., and Wilson, S.

Subjects
COGNITIVE NEUROLOGY, INTELLIGENCE, CONCENTRATION, ASSOCIATION, IMAGINATION, ATTENTION (NEUROLOGY), KOGNITIVE NEUROLOGIE, INTELLIGENZ, KONZENTRATION, ASSOZIATIONS- UND VORSTELLUNGSFÄHIGKEIT, AUFMERKSAMKEIT (NEUROLOGIE), SYNAPSEN + NERVENENDEN (NEUROHISTOLOGIE, NEUROCYTOLOGIE), ROBOTICS, SYNAPSES + NERVE ENDS (NEUROHISTOLOGY, NEUROCYTOLOGY), ONTOGENESIS OF THE NERVOUS SYSTEM (NEUROLOGY), ROBOTIK, ENTWICKLUNGSBIOLOGIE DES NERVENSYSTEMS (NEUROLOGIE), ComputingMethodologies_GENERAL, ddc:610, Evolutionary Robotics, Medical sciences, medicine
Abstract

In this paper we investigate a novel approach to the evolutionary development of autonomous situated agents based on the assumption that the neural mechanisms underlying ontogenetic learning are themselves developed and shaped by evolutionary process. A genetic algorithm is used to evolve neural structures that can be continuously modified during life according to the mechanisms specified in the genotype. The evolutionary process is carried out on a real mobile robot. The analysis of one of the best evolved individuals shows rapid development of stable behavior mediated by fast-changing synapses which are dynamically stable.

Published
1996

37. The SWARM-BOTS Project

Author

Dorigo, Marco, Tuci, Elio, Mondada, Francesco, Nolfi, S, Deneubourg, Jean-Louis, Floreano, D., Gambardella, Luca Maria, Dorigo, Marco, Tuci, Elio, Mondada, Francesco, Nolfi, S, Deneubourg, Jean-Louis, Floreano, D., and Gambardella, Luca Maria

Abstract

info:eu-repo/semantics/published

Published
2005

38. The cooperation of swarm-bots: Physical interactions in collective robotics

Author

Mondada, Francesco, Gambardella, Luca Maria, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, Dorigo, Marco, Mondada, Francesco, Gambardella, Luca Maria, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, and Dorigo, Marco

Abstract

SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2005

42. Evolving self-organizing behaviors for a swarm-bot

Author

Dorigo, Marco, Trianni, Vito, Sahin, E, Gross, Roderich, Labella, Thomas Halva, Baldassarre, Gianluca, Nolfi, S, Deneubourg, Jean-Louis, Mondada, Francesco, Floreano, D., Gambardella, Luca Maria, Dorigo, Marco, Trianni, Vito, Sahin, E, Gross, Roderich, Labella, Thomas Halva, Baldassarre, Gianluca, Nolfi, S, Deneubourg, Jean-Louis, Mondada, Francesco, Floreano, D., and Gambardella, Luca Maria

Abstract

SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2004

43. Swarm-bot: A new distributed robotic concept

Author

Mondada, Francesco, Pettinaro, Giovanni Cosimo, Guignard, A., Kwee, Ivo W., Floreano, D., Deneubourg, Jean-Louis, Nolfi, S, Gambardella, Luca Maria, Dorigo, Marco, Mondada, Francesco, Pettinaro, Giovanni Cosimo, Guignard, A., Kwee, Ivo W., Floreano, D., Deneubourg, Jean-Louis, Nolfi, S, Gambardella, Luca Maria, and Dorigo, Marco

Abstract

SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2004

44. Fitness clouds and problem hardness in genetic programming

Author

Deb, K, Poli, R, Banzhaf, W, Beyer, HG, Burke, E, Darwen, P, Dasgupta, D, Floreano, D, Foster, O, Harman, M, Holland, O, Lanzi, PL, Spector, L, Tettamanzi, A, Thierens, D, Tyrrell, A, Vanneschi, L, Clergue, M, Collard, R, Tomassini, M, Verel, S, Deb, K, Poli, R, Banzhaf, W, Beyer, HG, Burke, E, Darwen, P, Dasgupta, D, Floreano, D, Foster, O, Harman, M, Holland, O, Lanzi, PL, Spector, L, Tettamanzi, A, Thierens, D, Tyrrell, A, Vanneschi, L, Clergue, M, Collard, R, Tomassini, M, and Verel, S

Abstract

This paper presents an investigation of genetic programming fitness landscapes. We propose a new indicator of problem hardness for tree-based genetic programming, called negative slope coefficient, based on the concept of fitness cloud. The negative slope coefficient is a predictive measure, i.e. it can be calculated without prior knowledge of the global optima. The fitness cloud is generated via a sampling of individuals obtained with the Metropolis-Hastings method. The reliability of the negative slope coefficient is tested on a set of well known and representative genetic programming benchmarks, comprising the binomial-3 problem, the even parity problem and the artificial ant on the Santa Fe trail

Published
2004

47. How to Evolve Autonomous Robots: Different Approaches in Evolutionary Robotics

Author

Nolfi, S., Floreano, D., Miglino, O., Mondada, F., Brooks, R. A., and Maes, P.

Subjects
Electric engineering, ddc:621.3, MASCHINELLES LERNEN (KÜNSTLICHE INTELLIGENZ), MACHINE LEARNING (ARTIFICIAL INTELLIGENCE), ARTIFICIAL LIFE (KÜNSTLICHE INTELLIGENZ), ARTIFICIAL LIFE (ARTIFICIAL INTELLIGENCE), AUTONOME ROBOTER, AUTONOMOUS ROBOTS, Data processing, computer science, Evolutionary Robotics, ddc:004
Abstract

Artificial life IV : proceedings of the Fourth International Workshop on the Synthesis and Simulation of Living Systems, ISBN:978-0262521901

Published
1994
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49. SWARM-BOT: A Swarm of Autonomous Mobile Robots with Self-Assembling Capabilities

Author

Mondada, Francesco, Pettinaro, Giovanni Cosimo, Kwee, Ivo W., Guignard, Andre A., Gambardella, Luca Maria, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, Dorigo, Marco, Mondada, Francesco, Pettinaro, Giovanni Cosimo, Kwee, Ivo W., Guignard, Andre A., Gambardella, Luca Maria, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, and Dorigo, Marco

Abstract

info:eu-repo/semantics/published

Published
2002

50. Swarm Robotics: A Different Approach to Service Robotics

Author

Pettinaro, Giovanni Cosimo, Kwee, Ivo W., Gambardella, Luca Maria, Mondada, Francesco, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, Dorigo, Marco, Pettinaro, Giovanni Cosimo, Kwee, Ivo W., Gambardella, Luca Maria, Mondada, Francesco, Floreano, D., Nolfi, S, Deneubourg, Jean-Louis, and Dorigo, Marco

Abstract

info:eu-repo/semantics/published

Published
2002

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