Rajalingham, Rishi
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2019
Using Brain-Score to Evaluate and Build Neural Networks for Brain-Like Object Recognition
Abstract: Using Brain-Score to Evaluate and Build Neural Networks for Brain-Like Object RecognitionIn:Computational and Systems Neuroscience (COSYNE)
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2021
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2020
- Tremblay, Sebastien
- Acker, Leah
- Afraz, Arash
- Albaugh, Daniel L.
- Amita, Hidetoshi
- Andrei, Ariana R.
- Angelucci, Alessandra
- Aschner, Amir
- Balan, Puiu F.
- Basso, Michele A.
- Benvenuti, Giacomo
- Bohlen, Martin O.
- Caiola, Michael J.
- Calcedo, Roberto
- Cavanaugh, James
- Chen, Yuzhi
- Chen, Spencer
- Chernov, Mykyta M.
- Clark, Andrew M.
- Dai, Ji
- Debes, Samantha R.
- Deisseroth, Karl
- Desimone, Robert
- Dragoi, Valentin
- Egger, Seth W.
- Eldridge, Mark A.G.
- El-Nahal, Hala G.
- Fabbrini, Francesco
- Federer, Frederick
- Fetsch, Christopher R.
- Fortuna, Michal G.
- Friedman, Robert M.
- Fujii, Naotaka
- Gail, Alexander
- Galvan, Adriana
- Ghosh, Supriya
- Gieselmann, Marc Alwin
- Gulli, Roberto A.
- Hikosaka, Okihide
- Hosseini, Eghbal A.
- Hu, Xing
- üer, Janina
- Inoue, Ken-ichi
- Janz, Roger
- Jazayeri, Mehrdad
- Jiang, Rundong
- Ju, Niansheng
- Kar, Kohitij
- Klein, Carsten
- Kohn, Adam
- Komatsu, Misako
- Maeda, Kazutaka
- Martinez-Trujillo, Julio C.
- Matsumoto, Masayuki
- Maunsell, John H. R.
- Mendoza-Halliday, Diego
- Monosov, Ilya E.
- Muers, Ross S.
- Nurminen, Lauri
- Ortiz-Rios, Michael
- ’Shea, Daniel J.
- Palfi, éphane
- Petkov, Christopher I.
- Pojoga, Sorin
- Rajalingham, Rishi
- Ramakrishnan, Charu
- Remington, Evan D.
- Revsine, Cambria
- Roe, Anna W.
- Sabes, Philip N.
- Saunders, Richard C.
- Scherberger, örg
- Schmid, Michael C.
- Schultz, Wolfram
- Seidemann, Eyal
- Senova, Yann-Suhan
- Shadlen, Michael N.
- Sheinberg, David L.
- Siu, Caitlin
- Smith, Yoland
- Solomon, Selina S.
- Sommer, Marc A.
- Spudich, John L.
- Stauffer, William R.
- Takada, Masahiko
- Tang, Shiming
- Thiele, Alexander
- Treue, Stefan
- Vanduffel, Wim
- Vogels, Rufin
- Whitmire, Matthew P.
- Wichmann, Thomas
- Wurtz, Robert H.
- Xu, Haoran
- Yazdan-Shahmorad, Azadeh
- Shenoy, Krishna V.
- DiCarlo, James J.
- Platt, Michael L.
An Open Resource for Non-human Primate Optogenetics
Abstract: An Open Resource for Non-human Primate OptogeneticsIn:Neuron
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2020
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2020
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2018
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2018
Large-scale, high-resolution comparison of the core visual object recognition behavior of humans, monkeys, and state-of-the-art deep artificial neural networks
Abstract: Large-scale, high-resolution comparison of the core visual object recognition behavior of humans, monkeys, and state-of-the-art deep artificial neural networksIn:bioRxiv
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2018
Reversible inactivation of different millimeter-scale regions of primate IT results in different patterns of core object recognition deficits
Abstract: Reversible inactivation of different millimeter-scale regions of primate IT results in different patterns of core object recognition deficitsIn:bioRxiv
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2018
Large-Scale, High-Resolution Comparison of the Core Visual Object Recognition Behavior of Humans, Monkeys, and State-of-the-Art Deep Artificial Neural Networks
Abstract: Large-Scale, High-Resolution Comparison of the Core Visual Object Recognition Behavior of Humans, Monkeys, and State-of-the-Art Deep Artificial Neural NetworksIn:The Journal of NeuroscienceAvailable At:
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2019
Brain-Like Object Recognition with High-Performing Shallow Recurrent ANNs
Abstract: Brain-Like Object Recognition with High-Performing Shallow Recurrent ANNsIn:Neural Information Processing Systems