"Foram horas de gravação que resultaram em um trabalho fantástico. Mais uma vez Dado Cruz ea Neural conseguiram mostrar que sabem o que querem eo que estão fazendo." (LB) Direção: Logan Bergamim loganbergamim.wordpress.com Local: (Piccoli Studio) 19 33687033 (Campinas SP) Musica: Dado Cruz Neural é: Dado Cruz: @dadoficial Leo portega: @leoportega Tih ho: @tih_ho Nt Avelino: @Nt_avelino Contato: 19 92844095 Msn: contato_neural@hotmail.com Twitter: @neuraloficial © Todos os Direitos reservados a Dado Cruz.. + Informações

Produção e Direção: Logan Bergamim Local: Piccoli Studio - Campinas, SP Autor: Sorocaba Interprete: Luan Santana Site Neural: www.neuraloficial.com.br Neural é Dado Cruz - @dadoficial (Vocalista) Leo Portega - @leoportega (Baixista) Tih ho - @tih_ho (Guitarrista) Nt Avelino - @Nt_avelino (Baterista) Contato: 19 92844095 MSN: dado_neural@hotmail.com Siga: @neuraloficial Patrocinadores da Neural: Logan Bergamim: loganbergamim.wordpress.com APC software: www.apcsoftware.com.br Riguetti Cinema: riguetti.com.br Thiago Consoli: thiagoconsoli.com.br Piccoli Studio: piccolistudio.com.br Lojas C&A: cea.com.br Entice: entice.com.br (Grato a todas as empresas envolvidas que incentivam e apóiam a cultura no Brasil). + Informações

Entrevista com Dado Cruz em Santos! Musica : Nesse Silêncio. Autoria : Dado Cruz Ouça Neural: myspace.com myspace.com ORKUT:. + Informações

Animação feita pelo médico e artista digital Hermes Prado Jr, do website www.artesmedicas.com e da USP, onde descreve sucintamente o que são defeitos do tubo neural e seus vários tipos. Estes defeitos ocorrem basicamente por falha na formação do arco ósseo posterior de uma ou mais vértebras. Em conseqüência, há herniação em vários graus do conteúdo espinal local. No grau mais leve, temos a espinha bífida oculta, em que o defeito muitas vezes só é sugerido por um tufo de pêlos ou cicatriz na pele imediatamente acima. Na meningocele, a herniação já é mais intensa, fazendo saliência nas costas. O conteúdo neural, no entanto, ainda está em seu lugar e preservado. Já na mielomeningocele, há herniação inclusive do conteúdo nervoso através do defeito ósseo, fazendo com que a maioria destas crianças sofra de déficit motor e sensitivo na região inferior do corpo. Muitas destas crianças também apresentarão hidrocefalia (aumento do líquido cerebral). Leia mais no meu website de temas médicos ilustrados em www.artesmedicas.com Espero ter contribuído para aumentar o conhecimento comunitário sobre esta importante patologia. Aproveito para lembrar as futuras mamães que este problema ocorre principalmente por falta de ácido fólico no corpo da mãe nas primeiras semanas de gestação. Portanto, a mulher deve preparae seu organismo para a gestação ANTES mesmo de ela começar, com suplementação vitamínica e alimentação saudável. E acompanhamento médico, claro. Dr. Hermes Prado Jr. + Informações

Clip Demo Da Musica Sem Você! Gravado Na Puc De Campinas SP 2008 Formação: Dado Cruz: Vocal & Guitarra Felipe Campos: Baixo Marcelo Sandes: Bateria PARTICIPAÇÃO ESPECIAL: Regis Sandes: (BANDA SONNI) Felipe Campos: Baixo (BANDA HORI) Myspace: http:www.myspace.com/neuraloficial Twitter: @neuraloficial Todos Os Direitos Autorais Pertencem a: Dado Cruz! Roteiro: Dado Cruz. + Informações

Esse trabalho consiste em definir dinamicamente os tempos dos semáforos , Dessa forma é possível dar prioridade a vias que tem mais carros, e além disso fechar ruas e liberar a passagem apenas para ruas que tem ambulâncias ou carros de bombeiros , por exemplo. Para a realização deste trabalho foi usada a rede neural não-supervisionada do tipo SOM para segmentar a imagem ea partir daí , ser possível contar os número de carros em cada via e dizer se existe ambulância ou não. Este trabalho foi realizado para a disciplina de Redes Neurais de Engenharia de Computação da Universidade Federal Do Rio Grande Do Norte(UFRN). Trabalho Realizado por : Heitor Uchoa,Demétrios Coutinho e Rafael Leandro.. + Informações

Google Tech Talks November, 29 2007 In the 1980's, new learning algorithms for neural networks promised to solve difficult classification tasks, like speech or object recognition, by learning many layers of non-linear features. The results were disappointing for two reasons: There was never enough labeled data to learn millions of complicated features and the learning was much too slow in deep neural networks with many layers of features. These problems can now be overcome by learning one layer of features at a time and by changing the goal of learning. Instead of trying to predict the labels, the learning algorithm tries to create a generative model that produces data which looks just like the unlabeled training data. These new neural networks outperform other machine learning methods when labeled data is scarce but unlabeled data is plentiful. An application to very fast document retrieval will be described. Speaker: Geoffrey Hinton Geoffrey Hinton received his BA in experimental psychology from Cambridge in 1970 and his PhD in Artificial Intelligence from Edinburgh in 1978. He did postdoctoral work at Sussex University and the University of California San Diego and spent five years as a faculty member in the Computer Science department at Carnegie-Mellon University. He then became a fellow of the Canadian Institute for Advanced Research and moved to the Department of Computer Science at the University of Toronto. He spent three years from 1998 until 2001 setting up the .... + Informações

Musica Nova da Neural (Nesse Silêncio) By: Dado Cruz! Produção e gravação: Ricardo Piccoli (Piccoli studio) campinas SP Neural é: Dado Cruz: Vocal e Guitarra Leo Portega - Baixo Nt Avelino - Bateria Boka - Guitarra e Produção Fotografia: Nomoto : www.flickr.com Myspace neural: www.myspace.com Contato: 19 92844095 Email: dado_neural@hotmail.com. + Informações

Versão da musica (nesse silêncio) autoria: Dado Cruz , no programa Banda Mix da Just tv! NEURAL É: VOCAL: @DADOFICIAL VIOLÃO: @TIH_HO BAIXO: @ LEOPORTEGA BATERA: @NT_AVELINO OUÇA E BAIXE AS MUSICAS NO: www.myspace.com SIGA A NEURAL NO TWITTER: twitter.com MSN FÃ CLUB 24h NO AR fanclub_neural01@hotmail.com CONTATO: 19 92844095 (Diego) contato_neural@hotmail.com. + Informações

Neural synapse. Acetlycoline youtube.com. + Informações

A nova modalidade, criada por Alfredo Galebe, mistura isometria e movimentos com repetições. - Desafio da noiva: - 10 kg em 3 meses com dieta e exercícios boaforma.abril.com.br - Malhação pré-altar: programa de exercícios boaforma.abril.com.br. + Informações

From treating depression and Alzheimer's to decoding how thinking and emotions work, Stanford researchers are starting to "crack the code" for how the nervous system creates our mental lives. Stanford University: www.stanford.edu The Stanford Challenge: thestanfordchallenge.stanford.edu Stanford University Channel on YouTube: www.youtube.com. + Informações

charles.underground.net This is a demonstration of a neural network imitator script. Impulses change which synapses become stronger and weaker, effectively making the system "learn". Complex loops can be created and snuffed out, creating an interesting simulation.. + Informações

A Google Tech Talk May 5, 2010 ABSTRACT Presented by Michael Goard, PhD, and Emily Jacobs, PhD. The majority of the human brain is comprised of a single structure, the neocortex, responsible for a range of cognitive functions, from sensory perception to abstract thought. However, despite this diversity of functions, the neocortex has a simple architecture it is comprised of numerous repeated motifs of a single stereotyped neural circuit. This talk will serve as an introduction to the structure and function of the neocortical circuit, particularly focusing on how it processes sensory input in order to generate cohesive perception of the external world. This will be followed by a description of recent experiments demonstrating how the neocortex can process sensory input in different ways depending on the behavioral state of the animal. Finally, there will be a discussion of how understanding neocortical function will lead to innovations in medicine, computing, and artificial intelligence. The study of neuroscience is devoted to understanding how the brain functions uniformly across members of a species, but a critical question centers on how cognitive processes differ between members of a species, or in an individual under varying environmental conditions. In short, why do some people excel where others falter? This talk introduces two factors that contribute to individual differences in cognition: genes and hormones. This concept is examined through recent experiments .... + Informações

The simulation is based on a neural network to guide the car around the track and a genetic algorithm used to pick and breed the most succesful cars of each generation. If you want the source code for this demo, send me a PM. For the people who are interested in how it works: The car uses its 5 feelers to gauge a normalised intersection depth with the track's edges and then feeds this 5 values as inputs to the neural network. The inputs are then passed through a hidden layer of 8 neurons and then finally to an output layer of 2 neurons: a left and right steering force. These forces are then used to drive the car forward and turn the car. Each car represents a different genome in a generation (or a unique set weights for the neural net) which are evaluated and potentially carried through to the next generation by a fitness score. The fitness score is based on the distance along the track achieved as well as bonus points for hitting checkpoints (this encourages the network to navigate around tricky sections of the track). In the video, the neural network / genetic algorithm finds a solution at about 2.25. FRAPs interfered a little by clamping the framerate, so it took a bit longer than usual for it to find a solution. Legend: The green dots are the intersection points of the feelers. The blue lines are the feelers The orange highlighted track geometry is track sections that are being considered for collision. The blue circle is the radius used to search for track nearby .... + Informações

neural communication. + Informações

My final project for my Intro to Artificial Intelligence class was to describe as best as I can one concept from Artificial Intelligence. I chose Neural Networks because they are one of the better known AI concepts, but are still very poorly understood by most people. Leave me a comment if you like, or email me a question directly at jesussuarez@tamu.edu. Thanks. For the middle school students reviewing these projects, the survey link is: www.surveymonkey.com. + Informações

Minimal Techno. + Informações

3D animation of a neuron and an action potential. Ion channels in the soma open and allow an increase in the intracellular voltage. Once the voltage reaches a threshold, an action potential is generated, which travels the length of the axon and passes into the terminals. The voltage in the terminals stimulate the release of neurotransmitters which cross the synapse, opening ion channels in dendrites of the post-synaptic neuron and increasing the voltage of the second neuron. By Stephen Hicks, 2006. www.metope.org. + Informações

Lecture Series on Artificial Intelligence by Prof. P. Dasgupta, Department of Computer Science & Engineering, IIT Kharagpur. For more Courses visit nptel.iitm.ac.in. + Informações

This brief newsclip describes one form of brain computer interface with implanted electrodes and a trial of its use with a paraplegic man.. + Informações

Lecture Series on Neural Networks and Applications by Prof.S. Sengupta, Department of Electronics and Electrical Communication Engineering, IIT Kharagpur. For more details on NPTEL visit nptel.iitm.ac.in. + Informações

The beobot has used a neural network to learn the frequency spectra of the path it will follow. It does so very well even when an unexpected pedestrian passes by. see: TN Mundhenk, C Ackerman, D Chung, N Dhavale, B Hudson, R Hirata, E Pichon, Z Shi, A Tsui, L Itti (2003) Low-cost high-performance mobile robot design utilizing off-the-shelf parts and the Beowulf concept: the Beobot project, Proc. SPIE Conference on Intelligent Robots and Computer Vision XXI: Algorithms, Techniques, and Active Vision, 5267:293-303.. + Informações

I play pong. With my brain!. + Informações

Google Tech Talks November 21, 2008 ABSTRACT Personal Growth Series: Cracking the Neural Code: Speaking the Language of the Brain with Optics The technological seeds of a Manhattan project-style scientific enterprise, the optical reverse-engineering of brain circuits to crack the neural code, have recently been planted at Stanford. The brain is a high-speed dynamical system consisting of different players that are intertwined and that cannot be separately controlled using conventional methods. For this reason, until recently we have not been able to speak the language of the brain (with millisecond timescale and cell-specific resolution), and in 1979 Francis Crick called for a technology by which all neurons of just one type could be controlled, "leaving the others more or less unaltered". Tools from the Deisseroth laboratory at Stanford over the past four years have responded to this challenge. These include optical technologies for controlling neural circuits, using precisely-targeted delivery of light energy of different colors that is captured by neurons using nanoscale protein-based antennae, resulting in controlled activity of just the targeted cell types with millisecond precision. Light is delivered by fiberoptics; while light encounters all cell types, only the desired cell type is light-sensitive and responds. Using different optogenetic probes, cells can be turned on or off with millisecond precision and in different combinations. These tools have now been used .... + Informações