Simulation-based methods for blind maximum-likelihood filter identification
Cappé, O
Doucet, A
Lavielle, M
Moulines, E
Signal Processing
volume 73
issue 1-2
3-25
(Jan 1999)
Bayesian estimation of the variance of a jitter using MCMC
Andrieu, C
Doucet, A
Duvant, P
24-27
(01 Jan 1996)
Instantaneous frequency estimation: Bayesian approaches versus reassignment-application to gravitational waves
Duvaut, P
Doucet, A
Veaux, C
Flandrin, P
2013 IEEE International Conference on Acoustics, Speech and Signal Processing
volume 5
2968-2971 vol. 5
(01 Jan 1996)
Markov chain Monte Carlo methods for tracking a maneuvering target in clutter
Logothetis, A
Doucet, A
Proceedings of the 48h IEEE Conference on Decision and Control (CDC) held jointly with 2009 28th Chinese Control Conference
volume 1
754-759 vol.1
(01 Jan 1998)
Sequential Monte Carlo for maneuvering target tracking in clutter
Gordon, N
Doucet, A
Proceedings of SPIE--the International Society for Optical Engineering
volume 3809
493-500
(04 Oct 1999)
Improved Auxiliary Particle Filtering: Applications to Time-Varying Spectral Analysis
Andrieu, C
Davy, M
Doucet, A
309-312
(01 Jan 2001)
Bayesian estimation of filtered point processes using Markov chain Monte Carlo methods
Andrieu, C
Doucet, A
Duvaut, P
2011 Conference Record of the Forty Fifth Asilomar Conference on Signals, Systems and Computers (ASILOMAR)
volume 2
1097-1100 vol.2
(01 Jan 1997)
Radial Basis Function Regression Using Trans-Dimensional Sequential Monte Carlo
Vermaak, J
Godsill, S
Doucet, A
545-548
(01 Jan 2003)
Thu, 14 Jun 2018
16:00 -
17:30
L3
Flagellar motility and metaboly in Euglena gracilis: lessons on locomotion and shape control from a unicellular protist
Antonio Desimone
(SISSA)
Abstract
Locomotion strategies employed by unicellular organism are a rich source of inspiration for studying mechanisms for shape control. They are particularly interesting because they are invisible to the naked eye, and offer surprising new solutions to the question of how shape can be controlled.
In recent years, we have studied locomotion and shape control in Euglena gracilis. This unicellular protist is particularly intriguing because it can adopt different motility strategies: swimming by flagellar propulsion, or crawling thanks to large amplitude shape changes of the whole body (a behavior known as metaboly). We will survey our most recent findings within this stream of research.