Efficient dendritic learning as an alternative to synaptic plasticity hypothesis

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@neuralreckoning @jeffrey_bowers @b_d_evans Check out this paper. I think you might find it interesting. https://t.co/TrP9yx3ebp

RT @SilencePossum: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/2NvZjPRTF2 #ANNs #MachineL…

RT @SilencePossum: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/2NvZjPRTF2 #ANNs #MachineL…

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/2NvZjPRTF2 #ANNs #MachineLearning

New brain learning mechanism calls for revision of long-held neuroscience hypothesis https://t.co/ykk5YRazqI https://t.co/vFU53M3ENq https://t.co/aWzmIHSnK7 https://t.co/n2pFDvnx3E

RT @SciReports: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis #Biophysics https://t.co/7J0MhkLqOk

Our dendrites is full of neurons which has a sensing ability, or dendritic cells/responsive cells. synaptic plasticity hypothesis, a synapse or sudden combining ability to recreate/respond. In other words a stimuli. #stimulus

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis #Biophysics https://t.co/7J0MhkLqOk

You can find Professor Kantor's full report below. https://t.co/znBW0uOzqr

Dear @PhilCorlett1 can you tell me what you think? https://t.co/d4H0IWXSI9

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis | Scientific Reports https://t.co/0XSexTJy7j

RT @SciReports: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis #Biophysics https://t.co/7J0MhkLqOk

RT @SciReports: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis #Biophysics https://t.co/7J0MhkLqOk

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis #Biophysics https://t.co/7J0MhkLqOk

RT @NeuroscienceNew: “Efficient dendritic learning as an alternative to synaptic plasticity hypothesis” by Shiri Hodassman et al. Scientifi…

RT @ebrupecel: Uzun ve karmaşık olan Sinaptik plastisite ile öğrenme hipotezine alternatif daha etkili ve hızlı dendritik öğrenme Araştır…

RT @ebrupecel: Uzun ve karmaşık olan Sinaptik plastisite ile öğrenme hipotezine alternatif daha etkili ve hızlı dendritik öğrenme Araştır…

Uzun ve karmaşık olan Sinaptik plastisite ile öğrenme hipotezine alternatif daha etkili ve hızlı dendritik öğrenme Araştırma;Tek bir dendrit veya nöron tarafından bile derin öğrenmenin gerçekleştiğini gösteriyor https://t.co/oPTMRkZAK7

The computational power of ONE neuron: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis | Scientific Reports https://t.co/Y5VHDXZHVj

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

https://t.co/3uKM7aI26u

RT @adamoprogresso: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis | Scientific Reports https://t.co/EGIk…

RT @rlebron_bioinfo: Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/aUCX3lrmYB

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis | Scientific Reports https://t.co/EGIkRdZga0

A new article suggests "dendritic amplification practically generates an exponential number of input crosses, higher-order interactions." Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/nlBVyl19SO

Deneysel gözlemler, daha önce inanıldığı gibi, yalnızca sinapsların gücü yoluyla değiştirmenin aksine, öğrenmenin esas olarak nöral dendrit ağaçları tarafından gerçekleştirildiği sonucuna varıyor. #nöron #beyin #öğrenme https://t.co/eJXqQ9T1W5 https://t.co

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/N8n6asXQPT

RT @adamatzky: Very cool!

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/x7mOmulUPD #science #neuroscience #efficient #learning #alternative #plasticity

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @NeuroscienceNew: “Efficient dendritic learning as an alternative to synaptic plasticity hypothesis” by Shiri Hodassman et al. Scientifi…

#neuroscience https://t.co/qAu4Of4THZ

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Fascinating

RT @NeuroscienceNew: “Efficient dendritic learning as an alternative to synaptic plasticity hypothesis” by Shiri Hodassman et al. Scientifi…

“Efficient dendritic learning as an alternative to synaptic plasticity hypothesis” by Shiri Hodassman et al. Scientific Reports https://t.co/WW9AR57er3

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @jcss_wakate: 単一のニューロンでも，深層学習が実現されることを示した研究。樹状突起上でbackpropとHebb学習が行われている証拠が得られたということで，数千のニューロンが接続した複雑なネットワークにより学習が行われるという見方を覆す可能性があります。

You know the fact that I can't open this MEANS I'M ENOUGH OF A DANGER FOR THEM TO STILL SCREW WITH ME-LIKE BESIDES THE DOGGY RAPE SHIT AND MERCILESS TORTURE DETAILS I AM GETTING THE TECHNICAL DETAILS RIGHT! I just wish i could open this...that is ok..I'm o

RT @neurovium: Dendritic computation will certainly transform neuro-inspired AI. So much in this area to explore & advance. Is not funny t…

RT @neurovium: Dendritic computation will certainly transform neuro-inspired AI. So much in this area to explore & advance. Is not funny t…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis | Scientific Reports https://t.co/6TIbJ0Ktc4

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Dendritic computation will certainly transform neuro-inspired AI. So much in this area to explore & advance. Is not funny that Eccles (Novel prize w Hodgkin/Huxley) vehemently opposed Willfrid Ralls' work on dendritic & compartmental modeling 🔙 h

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Efficient dendritic learning as an alternative to synaptic plasticity hypothesis https://t.co/aUCX3lrmYB

RT @jcss_wakate: 単一のニューロンでも，深層学習が実現されることを示した研究。樹状突起上でbackpropとHebb学習が行われている証拠が得られたということで，数千のニューロンが接続した複雑なネットワークにより学習が行われるという見方を覆す可能性があります。

RT @jcss_wakate: 単一のニューロンでも，深層学習が実現されることを示した研究。樹状突起上でbackpropとHebb学習が行われている証拠が得られたということで，数千のニューロンが接続した複雑なネットワークにより学習が行われるという見方を覆す可能性があります。

Very cool!

単一のニューロンでも，深層学習が実現されることを示した研究。樹状突起上でbackpropとHebb学習が行われている証拠が得られたということで，数千のニューロンが接続した複雑なネットワークにより学習が行われるという見方を覆す可能性があります。

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

RT @ubarilan: Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousand…

Just a single neuron can realize deep learning algorithms which previously required an artificial complex network of thousands of connected neurons and synapses, a new discovery expected to have important implications on future AI hardware architecture. ht