Chiara Bartolozzi is Researcher at the Italian Institute of Technology. She earned a degree in Engineering at University of Genova (Italy) and a Ph.D. in Neuroinformatics at ETH Zurich, developing analog subthreshold circuits for emulating biophysical neuronal properties onto silicon and modelling selective attention on hierarchical multi-chip systems.
She is currently leading the Neuromorphic Systems and Interfaces group, with the aim of applying the "neuromorphic" engineering approach to the design of robotic platforms as enabling technology towards the design of autonomous machines.
This goal is pursued by inducing a paradigm shift in robotics, based on the emerging concept of Event-Driven (ED) sensing and processing. Similarly to their biological counterpart, and differently from traditional robotic sensors, ED sensory systems sample their input signal at fixed (and relative) amplitude changes, intrinsically adapting to the dynamics of the sensory signal: temporal resolution is extremely high for fast transitory signals and decreases for slower inputs.
This approach naturally leads to better robots that acquire, transmit and process information only when needed, optimising the use of resources, leading to real-time, low-cost, operation.
EcoMode: Event-Driven Compressive Vision for Multimodal Interaction with Mobile Devices (H2020-ICT-RIA-644096, 2015-2018)
eMorph: Event–Driven Morphological Computation for Embodied Systems (STREP-ICT-FET-231467, 2008-2012)
S. Caviglia, L. Pinna, M. Valle, and C. Bartolozzi. Spike-based readout of posfet tactile sensors. IEEE Transactions on Circuits and Systems I – Regular papers, PP(99):1–11, 2016. PrePrint Available
V. Vasco, A. Glover, Y. Tirupachuri, F. Solari, M. Chessa, and Bartolozzi C. Vergence control with a neuromorphic iCub. In IEEE-RAS International Conference on Humanoid Robots (Humanoids 2016), November 2016. in press.
Indiveri G. Qiao N., Bartolozzi C. Automatic gain control of ultra-low leakage synaptic scaling homeostatic plasticity circuits. In IEEE 2016 Biomedical Circuits and Systems Conference (BioCAS2016), October 2016. in press.
Glover A. and Bartolozzi C. Event-driven ball detection and gaze fixation in clutter. In IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2016), pages 2203–2208, October 2016.
Vasco V., Glover A., and Bartolozzi C. Fast event-based harris corner detection exploiting the advantages of event-driven cameras. In IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2016), pages 4144–4149, October 2016.
S. Caviglia, L. Pinna, M. Valle, and C. Bartolozzi. An event-driven posfet taxel for sustained and transient sensing. In Circuits and Systems (ISCAS), 2016 IEEE International Symposium on, pages 349–352, May 2016.
A.D. Rast, A.B. Stokes, S. Davies, S.V. Adams, H. Akolkar, D.R. Lester, C. Bartolozzi, A. Cangelosi, and S. Furber. Transport-independent protocols for universal aer communications. In Sabri Arik, Tingwen Huang, Kin Weng Lai, and Qingshan Liu, editors, Neural Information Pro- cessing: 22nd International Conference, ICONIP 2015, November 9-12, 2015, Proceedings, Part IV, pages 675–684, Cham, 2015. Springer International Publishing
C.G. Mayr, S. Sheik, C. Bartolozzi, E. Chicca. Editorial: Synaptic plasticity for neuromorphic systems. Frontiers in Neuroscience, 10:214, 2016.
F. Boi, T. Moraitis, V. De Feo, F. Diotalevi, C. Bartolozzi, G. Indiveri, and A. Vato. A bidirectional brain-machine interface featuring a neuromorphic hardware decoder. Frontiers in Neuroscience, 10:563, 2016.
C. Bartolozzi, L. Natale, F. Nori, and G. Metta. Robots with a sense of touch. Nature Materials, 15(9):921–925, 09 2016.
H. Akolkar, C. Meyer, O. Marre, C. Bartolozzi, S. Panzeri, X. Clady, and R.B. Benosman. What can neuromorphic event-driven precise timing add to spike-based pattern recognition? Neural Computation, 27(3):561 – 593, May 2015.
E. Chicca, F. Stefanini, C. Bartolozzi, and G. Indiveri. Neuromorphic electronic circuits for building autonomous cognitive systems. Proceedings of the IEEE, 102(9):1367–1388, Sept 2014.