A citation-based method for searching scientific literature

Federico Corradi, Giacomo Indiveri. IEEE Trans Biomed Circuits Syst 2015
Times Cited: 15







List of co-cited articles
120 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


A reconfigurable on-line learning spiking neuromorphic processor comprising 256 neurons and 128K synapses.
Ning Qiao, Hesham Mostafa, Federico Corradi, Marc Osswald, Fabio Stefanini, Dora Sumislawska, Giacomo Indiveri. Front Neurosci 2015
93
66

Artificial brains. A million spiking-neuron integrated circuit with a scalable communication network and interface.
Paul A Merolla, John V Arthur, Rodrigo Alvarez-Icaza, Andrew S Cassidy, Jun Sawada, Filipp Akopyan, Bryan L Jackson, Nabil Imam, Chen Guo, Yutaka Nakamura,[...]. Science 2014
445
46

Learning real-world stimuli in a neural network with spike-driven synaptic dynamics.
Joseph M Brader, Walter Senn, Stefano Fusi. Neural Comput 2007
106
40

A Scalable Multicore Architecture With Heterogeneous Memory Structures for Dynamic Neuromorphic Asynchronous Processors (DYNAPs).
Saber Moradi, Ning Qiao, Fabio Stefanini, Giacomo Indiveri. IEEE Trans Biomed Circuits Syst 2018
35
40

Neuromorphic silicon neuron circuits.
Giacomo Indiveri, Bernabé Linares-Barranco, Tara Julia Hamilton, André van Schaik, Ralph Etienne-Cummings, Tobi Delbruck, Shih-Chii Liu, Piotr Dudek, Philipp Häfliger, Sylvie Renaud,[...]. Front Neurosci 2011
222
33

A neuromorphic network for generic multivariate data classification.
Michael Schmuker, Thomas Pfeil, Martin Paul Nawrot. Proc Natl Acad Sci U S A 2014
34
33

CAVIAR: a 45k neuron, 5M synapse, 12G connects/s AER hardware sensory-processing- learning-actuating system for high-speed visual object recognition and tracking.
Rafael Serrano-Gotarredona, Matthias Oster, Patrick Lichtsteiner, Alejandro Linares-Barranco, Rafael Paz-Vicente, Francisco Gomez-Rodriguez, Luis Camunas-Mesa, Raphael Berner, Manuel Rivas-Perez, Tobi Delbruck,[...]. IEEE Trans Neural Netw 2009
93
26

Real-Time Classification of Complex Patterns Using Spike-Based Learning in Neuromorphic VLSI.
S Mitra, S Fusi, G Indiveri. IEEE Trans Biomed Circuits Syst 2009
63
26

Nanoscale memristor device as synapse in neuromorphic systems.
Sung Hyun Jo, Ting Chang, Idongesit Ebong, Bhavitavya B Bhadviya, Pinaki Mazumder, Wei Lu. Nano Lett 2010
624
26

Which model to use for cortical spiking neurons?
Eugene M Izhikevich. IEEE Trans Neural Netw 2004
487
20

Neuro-inspired spike-based motion: from dynamic vision sensor to robot motor open-loop control through spike-VITE.
Fernando Perez-Peña, Arturo Morgado-Estevez, Alejandro Linares-Barranco, Angel Jimenez-Fernandez, Francisco Gomez-Rodriguez, Gabriel Jimenez-Moreno, Juan Lopez-Coronado. Sensors (Basel) 2013
11
27

Feedback inhibition controls spike transfer in hybrid thalamic circuits.
Gwendal Le Masson, Sylvie Renaud-Le Masson, Damien Debay, Thierry Bal. Nature 2002
116
20

Deep learning in neural networks: an overview.
Jürgen Schmidhuber. Neural Netw 2015
20

Simulation of networks of spiking neurons: a review of tools and strategies.
Romain Brette, Michelle Rudolph, Ted Carnevale, Michael Hines, David Beeman, James M Bower, Markus Diesmann, Abigail Morrison, Philip H Goodman, Frederick C Harris,[...]. J Comput Neurosci 2007
257
20

A silicon neuron.
M Mahowald, R Douglas. Nature 1991
124
20

A neuro-inspired model-based closed-loop neuroprosthesis for the substitution of a cerebellar learning function in anesthetized rats.
Roni Hogri, Simeon A Bamford, Aryeh H Taub, Ari Magal, Paolo Del Giudice, Matti Mintz. Sci Rep 2015
13
23

Restoring cortical control of functional movement in a human with quadriplegia.
Chad E Bouton, Ammar Shaikhouni, Nicholas V Annetta, Marcia A Bockbrader, David A Friedenberg, Dylan M Nielson, Gaurav Sharma, Per B Sederberg, Bradley C Glenn, W Jerry Mysiw,[...]. Nature 2016
278
20

Design and validation of a real-time spiking-neural-network decoder for brain-machine interfaces.
Julie Dethier, Paul Nuyujukian, Stephen I Ryu, Krishna V Shenoy, Kwabena Boahen. J Neural Eng 2013
15
20

PyNCS: a microkernel for high-level definition and configuration of neuromorphic electronic systems.
Fabio Stefanini, Emre O Neftci, Sadique Sheik, Giacomo Indiveri. Front Neuroinform 2014
8
37

Neuromorphic implementations of neurobiological learning algorithms for spiking neural networks.
Florian Walter, Florian Röhrbein, Alois Knoll. Neural Netw 2015
18
20

HFirst: A Temporal Approach to Object Recognition.
Garrick Orchard, Cedric Meyer, Ralph Etienne-Cummings, Christoph Posch, Nitish Thakor, Ryad Benosman. IEEE Trans Pattern Anal Mach Intell 2015
36
20

Synaptic dynamics in analog VLSI.
Chiara Bartolozzi, Giacomo Indiveri. Neural Comput 2007
71
20

Six networks on a universal neuromorphic computing substrate.
Thomas Pfeil, Andreas Grübl, Sebastian Jeltsch, Eric Müller, Paul Müller, Mihai A Petrovici, Michael Schmuker, Daniel Brüderle, Johannes Schemmel, Karlheinz Meier. Front Neurosci 2013
38
20


Event-based 3D reconstruction from neuromorphic retinas.
João Carneiro, Sio-Hoi Ieng, Christoph Posch, Ryad Benosman. Neural Netw 2013
12
25

Dynamic evolving spiking neural networks for on-line spatio- and spectro-temporal pattern recognition.
Nikola Kasabov, Kshitij Dhoble, Nuttapod Nuntalid, Giacomo Indiveri. Neural Netw 2013
58
20

HOTS: A Hierarchy of Event-Based Time-Surfaces for Pattern Recognition.
Xavier Lagorce, Garrick Orchard, Francesco Galluppi, Bertram E Shi, Ryad B Benosman. IEEE Trans Pattern Anal Mach Intell 2017
28
20

Large-Scale Neuromorphic Spiking Array Processors: A Quest to Mimic the Brain.
Chetan Singh Thakur, Jamal Lottier Molin, Gert Cauwenberghs, Giacomo Indiveri, Kundan Kumar, Ning Qiao, Johannes Schemmel, Runchun Wang, Elisabetta Chicca, Jennifer Olson Hasler,[...]. Front Neurosci 2018
22
20


Deep learning.
Yann LeCun, Yoshua Bengio, Geoffrey Hinton. Nature 2015
20

A 0.086-mm 2 12.7-pJ/SOP 64k-Synapse 256-Neuron Online-Learning Digital Spiking Neuromorphic Processor in 28-nm CMOS.
Charlotte Frenkel, Martin Lefebvre, Jean-Didier Legat, David Bol. IEEE Trans Biomed Circuits Syst 2019
20
20

Discrimination of EMG Signals Using a Neuromorphic Implementation of a Spiking Neural Network.
Elisa Donati, Melika Payvand, Nicoletta Risi, Renate Krause, Giacomo Indiveri. IEEE Trans Biomed Circuits Syst 2019
5
60

The brian simulator.
Dan F M Goodman, Romain Brette. Front Neurosci 2009
178
20

Brain computer interfaces, a review.
Luis Fernando Nicolas-Alonso, Jaime Gomez-Gil. Sensors (Basel) 2012
336
13

Finding a roadmap to achieve large neuromorphic hardware systems.
Jennifer Hasler, Bo Marr. Front Neurosci 2013
60
13


A silicon central pattern generator controls locomotion in vivo.
R J Vogelstein, F Tenore, L Guevremont, R Etienne-Cummings, V K Mushahwar. IEEE Trans Biomed Circuits Syst 2008
21
13

Neuromorphic analogue VLSI.
R Douglas, M Mahowald, C Mead. Annu Rev Neurosci 1995
56
13


PAX: A mixed hardware/software simulation platform for spiking neural networks.
S Renaud, J Tomas, N Lewis, Y Bornat, A Daouzli, M Rudolph, A Destexhe, S Saïghi. Neural Netw 2010
8
25

A large-scale model of the functioning brain.
Chris Eliasmith, Terrence C Stewart, Xuan Choo, Trevor Bekolay, Travis DeWolf, Yichuan Tang, Daniel Rasmussen. Science 2012
226
13

Analog VLSI Biophysical Neurons and Synapses With Programmable Membrane Channel Kinetics.
Theodore Yu, Gert Cauwenberghs. IEEE Trans Biomed Circuits Syst 2010
23
13

Brain-machine interfaces: past, present and future.
Mikhail A Lebedev, Miguel A L Nicolelis. Trends Neurosci 2006
542
13

Using a hybrid neural system to reveal regulation of neuronal network activity by an intrinsic current.
Michael Sorensen, Stephen DeWeerth, Gennady Cymbalyuk, Ronald L Calabrese. J Neurosci 2004
49
13

A silicon cochlea with active coupling.
Bo Wen, K Boahen. IEEE Trans Biomed Circuits Syst 2009
23
13

Restoring lost cognitive function.
Theodore W Berger, Ashish Ahuja, Spiros H Courellis, Samuel A Deadwyler, Gopal Erinjippurath, Gregory A Gerhardt, Ghassan Gholmieh, John J Granacki, Robert Hampson, Min Chi Hsaio,[...]. IEEE Eng Med Biol Mag 2005
49
13

Memristors with diffusive dynamics as synaptic emulators for neuromorphic computing.
Zhongrui Wang, Saumil Joshi, Sergey E Savel'ev, Hao Jiang, Rivu Midya, Peng Lin, Miao Hu, Ning Ge, John Paul Strachan, Zhiyong Li,[...]. Nat Mater 2017
323
13

Generation of Locomotor-Like Activity in the Isolated Rat Spinal Cord Using Intraspinal Electrical Microstimulation Driven by a Digital Neuromorphic CPG.
Sébastien Joucla, Matthieu Ambroise, Timothée Levi, Thierry Lafon, Philippe Chauvet, Sylvain Saïghi, Yannick Bornat, Noëlle Lewis, Sylvie Renaud, Blaise Yvert. Front Neurosci 2016
13
15


Spatiotemporal features for asynchronous event-based data.
Xavier Lagorce, Sio-Hoi Ieng, Xavier Clady, Michael Pfeiffer, Ryad B Benosman. Front Neurosci 2015
12
16


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.