Your search keyword '"Indiveri, Giacomo"' showing total 18 results

1. Automatic Detection of High-Frequency Oscillations With Neuromorphic Spiking Neural Networks

Author

Burelo, Karla, Sharifshazileh, Mohammadali, Indiveri, Giacomo, Sarnthein, Johannes, and University of Zurich

Subjects

10180 Clinic for Neurosurgery, epileptogenic tissue, neuromorphic system, spiking neural networks, electroencephalography, epilepsy, system-on-a-chip, General Neuroscience, 610 Medicine & health

Abstract

Interictal high-frequency oscillations (HFO) detected in electroencephalography recordings have been proposed as biomarkers of epileptogenesis, seizure propensity, disease severity, and treatment response. Automatic HFO detectors typically analyze the data offline using complex time-consuming algorithms, which limits their clinical application. Neuromorphic circuits offer the possibility of building compact and low-power processing systems that can analyze data on-line and in real time. In this review, we describe a fully automated detection pipeline for HFO that uses, for the first time, spiking neural networks and neuromorphic technology. We demonstrated that our HFO detection pipeline can be applied to recordings from different modalities (intracranial electroencephalography, electrocorticography, and scalp electroencephalography) and validated its operation in a custom-designed neuromorphic processor. Our HFO detection approach resulted in high accuracy and specificity in the prediction of seizure outcome in patients implanted with intracranial electroencephalography and electrocorticography, and in the prediction of epilepsy severity in patients recorded with scalp electroencephalography. Our research provides a further step toward the real-time detection of HFO using compact and low-power neuromorphic devices. The real-time detection of HFO in the operation room may improve the seizure outcome of epilepsy surgery, while the use of our neuromorphic processor for non-invasive therapy monitoring might allow for more effective medication strategies to achieve seizure control. Therefore, this work has the potential to improve the quality of life in patients with epilepsy by improving epilepsy diagnostics and treatment., Frontiers in Neuroscience, 16, ISSN:1662-453X, ISSN:1662-4548

Published

2022

2. A Spike-Based Neuromorphic Architecture of Stereo Vision

Author

Risi, Nicoletta, Aimar, Alessandro, Donati, Elisa, Solinas, Sergio, Indiveri, Giacomo, University of Zurich, and Risi, Nicoletta

Subjects

ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Biomedical Engineering, event-based sensing, 2204 Biomedical Engineering, 1702 Artificial Intelligence, neuromorphic, stereo vision, event-based processing, lcsh:RC321-571, Artificial Intelligence, asynchronous computation, 570 Life sciences, biology, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Neuroscience, Original Research, 10194 Institute of Neuroinformatics

Abstract

The problem of finding stereo correspondences in binocular vision is solved effortlessly in nature and yet it is still a critical bottleneck for artificial machine vision systems. As temporal information is a crucial feature in this process, the advent of event-based vision sensors and dedicated event-based processors promises to offer an effective approach to solving the stereo matching problem. Indeed, event-based neuromorphic hardware provides an optimal substrate for fast, asynchronous computation, that can make explicit use of precise temporal coincidences. However, although several biologically-inspired solutions have already been proposed, the performance benefits of combining event-based sensing with asynchronous and parallel computation are yet to be explored. Here we present a hardware spike-based stereo-vision system that leverages the advantages of brain-inspired neuromorphic computing by interfacing two event-based vision sensors to an event-based mixed-signal analog/digital neuromorphic processor. We describe a prototype interface designed to enable the emulation of a stereo-vision system on neuromorphic hardware and we quantify the stereo matching performance with two datasets. Our results provide a path toward the realization of low-latency, end-to-end event-based, neuromorphic architectures for stereo vision., Frontiers in Neurorobotics, 14, ISSN:1011-5218

Published

2020

3. Event-Based Computation for Touch Localization Based on Precise Spike Timing

Author

Haessig, Germain, primary, Milde, Moritz B., additional, Aceituno, Pau Vilimelis, additional, Oubari, Omar, additional, Knight, James C., additional, van Schaik, André, additional, Benosman, Ryad B., additional, and Indiveri, Giacomo, additional

Published

2020

4. Large-Scale Neuromorphic Spiking Array Processors: A Quest to Mimic the Brain (vol 12, 891, 2018)

Author

Thakur, Chetan Singh, Molin, Jamal Lottier, Cauwenberghs, Gert, Indiveri, Giacomo, Kumar, Kundan, Qiao, Ning, Schemmel, Johannes, Wang, Runchun, Chicca, Elisabetta, Hasler, Jennifer Olson, Seo, Jae-sun, Yu, Shimeng, Cao, Yu, van Schaik, Andre, and Etienne-Cummings, Ralph

Subjects

Electronic Systems Engineering (Formerly Centre for Electronic Design & Technology)

Published

2019

5. Corrigendum: Large-Scale Neuromorphic Spiking Array Processors: A Quest to Mimic the Brain

Author

Thakur, Chetan Singh, primary, Molin, Jamal Lottier, additional, Cauwenberghs, Gert, additional, Indiveri, Giacomo, additional, Kumar, Kundan, additional, Qiao, Ning, additional, Schemmel, Johannes, additional, Wang, Runchun, additional, Chicca, Elisabetta, additional, Hasler, Jennifer Olson, additional, Seo, Jae-sun, additional, Yu, Shimeng, additional, Cao, Yu, additional, van Schaik, André, additional, and Etienne-Cummings, Ralph, additional

Published

2019

6. Large-Scale Neuromorphic Spiking Array Processors: A Quest to Mimic the Brain

Author

Thakur, Chetan Singh, primary, Molin, Jamal Lottier, additional, Cauwenberghs, Gert, additional, Indiveri, Giacomo, additional, Kumar, Kundan, additional, Qiao, Ning, additional, Schemmel, Johannes, additional, Wang, Runchun, additional, Chicca, Elisabetta, additional, Olson Hasler, Jennifer, additional, Seo, Jae-sun, additional, Yu, Shimeng, additional, Cao, Yu, additional, van Schaik, André, additional, and Etienne-Cummings, Ralph, additional

Published

2018

7. Organizing Sequential Memory in a Neuromorphic Device Using Dynamic Neural Fields

Author

Kreiser, Raphaela, primary, Aathmani, Dora, additional, Qiao, Ning, additional, Indiveri, Giacomo, additional, and Sandamirskaya, Yulia, additional

Published

2018

8. Obstacle Avoidance and Target Acquisition for Robot Navigation Using a Mixed Signal Analog/Digital Neuromorphic Processing System

Author

Milde, Moritz B., primary, Blum, Hermann, additional, Dietmüller, Alexander, additional, Sumislawska, Dora, additional, Conradt, Jörg, additional, Indiveri, Giacomo, additional, and Sandamirskaya, Yulia, additional

Published

2017

9. A Bidirectional Brain-Machine Interface Featuring a Neuromorphic Hardware Decoder

Author

Boi, Fabio, primary, Moraitis, Timoleon, additional, De Feo, Vito, additional, Diotalevi, Francesco, additional, Bartolozzi, Chiara, additional, Indiveri, Giacomo, additional, and Vato, Alessandro, additional

Published

2016

10. Implementation of a spike-based perceptron learning rule using TiO2−x memristors

Author

Mostafa, Hesham, primary, Khiat, Ali, additional, Serb, Alexander, additional, Mayr, Christian G., additional, Indiveri, Giacomo, additional, and Prodromakis, Themis, additional

Published

2015

11. A reconfigurable on-line learning spiking neuromorphic processor comprising 256 neurons and 128K synapses

Author

Qiao, Ning, primary, Mostafa, Hesham, additional, Corradi, Federico, additional, Osswald, Marc, additional, Stefanini, Fabio, additional, Sumislawska, Dora, additional, and Indiveri, Giacomo, additional

Published

2015

12. Neuromorphic log-domain silicon synapse circuits obey bernoulli dynamics: a unifying tutorial analysis

Author

Papadimitriou, Konstantinos I., primary, Liu, Shih-Chii, additional, Indiveri, Giacomo, additional, and Drakakis, Emmanuel M., additional

Published

2015

13. PyNCS: a microkernel for high-level definition and configuration of neuromorphic electronic systems

Author

Stefanini, Fabio, primary, Neftci, Emre O., additional, Sheik, Sadique, additional, and Indiveri, Giacomo, additional

Published

2014

14. Learning and stabilization of winner-take-all dynamics through interacting excitatory and inhibitory plasticity

Author

Binas, Jonathan, primary, Rutishauser, Ueli, additional, Indiveri, Giacomo, additional, and Pfeiffer, Michael, additional

Published

2014

15. A robust sound perception model suitable for neuromorphic implementation

Author

Coath, Martin, primary, Sheik, Sadique, additional, Chicca, Elisabetta, additional, Indiveri, Giacomo, additional, Denham, Susan L., additional, and Wennekers, Thomas, additional

Published

2014

16. Emergent Auditory Feature Tuning in a Real-Time Neuromorphic VLSI System

Author

Sheik, Sadique, primary, Coath, Martin, additional, Indiveri, Giacomo, additional, Denham, Susan L., additional, Wennekers, Thomas, additional, and Chicca, Elisabetta, additional

Published

2012

17. Frontiers in Neuromorphic Engineering

Author

Indiveri, Giacomo, primary and Horiuchi, Timothy K., additional

Published

2011

18. Neuromorphic Silicon Neuron Circuits

Author

Indiveri, Giacomo, primary, Linares-Barranco, Bernabé, primary, Hamilton, Tara Julia, primary, Schaik, André van, primary, Etienne-Cummings, Ralph, primary, Delbruck, Tobi, primary, Liu, Shih-Chii, primary, Dudek, Piotr, primary, Häfliger, Philipp, primary, Renaud, Sylvie, primary, Schemmel, Johannes, primary, Cauwenberghs, Gert, primary, Arthur, John, primary, Hynna, Kai, primary, Folowosele, Fopefolu, primary, Saighi, Sylvain, primary, Serrano-Gotarredona, Teresa, primary, Wijekoon, Jayawan, primary, Wang, Yingxue, primary, and Boahen, Kwabena, primary

Published

2011