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74-721: [REDACTED] Look up Ans  or ANS in Wiktionary, the free dictionary. Ans or ANS or variation , may refer to: Places [ edit ] Ans, Belgium , a municipality in Belgium Ans, Denmark , a village in Denmark Angus, Scotland , UK; a council area by its Chapman code Ainsdale railway station , England, UK (by station code ANS ) Andahuaylas Airport , Peru (by IATA airport code ANS ) People [ edit ] Ans (given name) ,

148-411: A 1994 book, did not yet describe the algorithm ). In 1986, David E. Rumelhart et al. popularised backpropagation but did not cite the original work. Kunihiko Fukushima 's convolutional neural network (CNN) architecture of 1979 also introduced max pooling , a popular downsampling procedure for CNNs. CNNs have become an essential tool for computer vision . The time delay neural network (TDNN)

222-471: A CNN named DanNet by Dan Ciresan, Ueli Meier, Jonathan Masci, Luca Maria Gambardella , and Jürgen Schmidhuber achieved for the first time superhuman performance in a visual pattern recognition contest, outperforming traditional methods by a factor of 3. It then won more contests. They also showed how max-pooling CNNs on GPU improved performance significantly. In October 2012, AlexNet by Alex Krizhevsky , Ilya Sutskever , and Geoffrey Hinton won

296-411: A CNN was applied to medical image object segmentation and breast cancer detection in mammograms. LeNet -5 (1998), a 7-level CNN by Yann LeCun et al., that classifies digits, was applied by several banks to recognize hand-written numbers on checks digitized in 32×32 pixel images. From 1988 onward, the use of neural networks transformed the field of protein structure prediction , in particular when

370-504: A Dutch feminine given name Anna Nicole Smith , American model and actress Organizations [ edit ] Academy of Natural Sciences of Philadelphia , Pennsylvania, United States Astronomical Netherlands Satellite , a Dutch satellite American Name Society American Nuclear Society American Numismatic Society , formerly the American Numismatic and Archaeological Society ANS Group of Companies ,

444-733: A Dutch satellite American Name Society American Nuclear Society American Numismatic Society , formerly the American Numismatic and Archaeological Society ANS Group of Companies , a news organization in Azerbaijan Armée Nationale Sihanoukiste  [ ru ] , a Cambodian resistance group; see Coalition Government of Democratic Kampuchea Audubon Naturalist Society , an American environmental organization Chemistry and biology [ edit ] Adrenergic nervous system , adrenaline and noradrenaline neurotransmitters distribution in human body 8-Anilinonaphthalene-1-sulfonic acid ,

518-518: A Dutch student magazine Akademia Nauk Stosowanych , a vocational university in Nowy Targ, Poland See also [ edit ] [REDACTED] Search for "ans" on Misplaced Pages. All pages with titles containing ans All pages with titles beginning with Ans All pages with titles beginning with ANS AN (disambiguation) Answer (disambiguation) , for which "Ans." may be an abbreviation Topics referred to by

592-461: A Dutch student magazine Akademia Nauk Stosowanych , a vocational university in Nowy Targ, Poland See also [ edit ] [REDACTED] Search for "ans" on Misplaced Pages. All pages with titles containing ans All pages with titles beginning with Ans All pages with titles beginning with ANS AN (disambiguation) Answer (disambiguation) , for which "Ans." may be an abbreviation Topics referred to by

666-461: A constant and the cost C = E [ ( x − f ( x ) ) 2 ] {\displaystyle \textstyle C=E[(x-f(x))^{2}]} . Minimizing this cost produces a value of a {\displaystyle \textstyle a} that is equal to the mean of the data. The cost function can be much more complicated. Its form depends on the application: for example, in compression it could be related to

740-455: A council area by its Chapman code Ainsdale railway station , England, UK (by station code ANS ) Andahuaylas Airport , Peru (by IATA airport code ANS ) People [ edit ] Ans (given name) , a Dutch feminine given name Anna Nicole Smith , American model and actress Organizations [ edit ] Academy of Natural Sciences of Philadelphia , Pennsylvania, United States Astronomical Netherlands Satellite ,

814-444: A deep network with eight layers trained by this method, which is based on layer by layer training through regression analysis. Superfluous hidden units are pruned using a separate validation set. Since the activation functions of the nodes are Kolmogorov-Gabor polynomials, these were also the first deep networks with multiplicative units or "gates." The first deep learning multilayer perceptron trained by stochastic gradient descent

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888-418: A defined loss function . This method allows the network to generalize to unseen data. Today's deep neural networks are based on early work in statistics over 200 years ago. The simplest kind of feedforward neural network (FNN) is a linear network, which consists of a single layer of output nodes with linear activation functions; the inputs are fed directly to the outputs via a series of weights. The sum of

962-508: A fluorescent chemical compound used as a molecular probe Anthocyanidin synthase , an enzyme in the leucocyanidin biosynthesis pathway Approximate number system , a hypothesized physiological basis for the sense of number Autonomic nervous system , part of the peripheral nervous system in the body L -Aspartate-nitro-succinate pathway for production of nitrite Technology [ edit ] .ans , an unofficial file extension for ANSI art Advanced Network and Services ,

1036-508: A fluorescent chemical compound used as a molecular probe Anthocyanidin synthase , an enzyme in the leucocyanidin biosynthesis pathway Approximate number system , a hypothesized physiological basis for the sense of number Autonomic nervous system , part of the peripheral nervous system in the body L -Aspartate-nitro-succinate pathway for production of nitrite Technology [ edit ] .ans , an unofficial file extension for ANSI art Advanced Network and Services ,

1110-562: A late 1990's AIX based server machine from Apple Inc. Music [ edit ] ANS (album) , a box set from the British band Coil ANS synthesizer , a Russian photoelectric musical instrument Other uses [ edit ] Al Ansar FC , a Lebanese association football club Amman National School , in Amman, Jordan Ansvarlig selskap , a Norwegian personal responsibility company model Algemeen Nijmeegs Studentenblad ,

1184-455: A late 1990's AIX based server machine from Apple Inc. Music [ edit ] ANS (album) , a box set from the British band Coil ANS synthesizer , a Russian photoelectric musical instrument Other uses [ edit ] Al Ansar FC , a Lebanese association football club Amman National School , in Amman, Jordan Ansvarlig selskap , a Norwegian personal responsibility company model Algemeen Nijmeegs Studentenblad ,

1258-590: A neural network model of cognition-emotion relation. It was an example of a debate where an AI system, a recurrent neural network, contributed to an issue in the same time addressed by cognitive psychology. Two early influential works were the Jordan network (1986) and the Elman network (1990), which applied RNN to study cognitive psychology . In the 1980s, backpropagation did not work well for deep RNNs. To overcome this problem, in 1991, Jürgen Schmidhuber proposed

1332-438: A news organization in Azerbaijan Armée Nationale Sihanoukiste  [ ru ] , a Cambodian resistance group; see Coalition Government of Democratic Kampuchea Audubon Naturalist Society , an American environmental organization Chemistry and biology [ edit ] Adrenergic nervous system , adrenaline and noradrenaline neurotransmitters distribution in human body 8-Anilinonaphthalene-1-sulfonic acid ,

1406-419: A non-learning computational model for neural networks. This model paved the way for research to split into two approaches. One approach focused on biological processes while the other focused on the application of neural networks to artificial intelligence . In the late 1940s, D. O. Hebb proposed a learning hypothesis based on the mechanism of neural plasticity that became known as Hebbian learning . It

1480-678: A non-profit network service provider in the 1990s American National Standards, defined by the American National Standards Institute ans , a variable in calculators referring to the most recent answer ANS carriage control characters (or ASA control characters), for computer line printers Asymmetric numeral systems , coding in data compression Authoritative name server , a DNS server Artificial neural system, or Artificial neural network Air Navigation Services, as delivered by an Air Navigation Service Provider (ANSP) Apple Network Server ,

1554-584: A non-profit network service provider in the 1990s American National Standards, defined by the American National Standards Institute ans , a variable in calculators referring to the most recent answer ANS carriage control characters (or ASA control characters), for computer line printers Asymmetric numeral systems , coding in data compression Authoritative name server , a DNS server Artificial neural system, or Artificial neural network Air Navigation Services, as delivered by an Air Navigation Service Provider (ANSP) Apple Network Server ,

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1628-572: A particular learning task. Supervised learning uses a set of paired inputs and desired outputs. The learning task is to produce the desired output for each input. In this case, the cost function is related to eliminating incorrect deductions. A commonly used cost is the mean-squared error , which tries to minimize the average squared error between the network's output and the desired output. Tasks suited for supervised learning are pattern recognition (also known as classification) and regression (also known as function approximation). Supervised learning

1702-418: A single output which can be sent to multiple other neurons. The inputs can be the feature values of a sample of external data, such as images or documents, or they can be the outputs of other neurons. The outputs of the final output neurons of the neural net accomplish the task, such as recognizing an object in an image. To find the output of the neuron we take the weighted sum of all the inputs, weighted by

1776-569: A working learning algorithm for hidden units, i.e., deep learning . Fundamental research was conducted on ANNs in the 1960s and 1970s. The first working deep learning algorithm was the Group method of data handling , a method to train arbitrarily deep neural networks, published by Alexey Ivakhnenko and Lapa in Ukraine (1965). They regarded it as a form of polynomial regression, or a generalization of Rosenblatt's perceptron. A 1971 paper described

1850-409: Is a constant parameter whose value is set before the learning process begins. The values of parameters are derived via learning. Examples of hyperparameters include learning rate , the number of hidden layers and batch size. The values of some hyperparameters can be dependent on those of other hyperparameters. For example, the size of some layers can depend on the overall number of layers. Learning

1924-427: Is also applicable to sequential data (e.g., for handwriting, speech and gesture recognition ). This can be thought of as learning with a "teacher", in the form of a function that provides continuous feedback on the quality of solutions obtained thus far. In unsupervised learning , input data is given along with the cost function, some function of the data x {\displaystyle \textstyle x} and

1998-415: Is based on the idea of optimizing the network's parameters to minimize the difference, or empirical risk, between the predicted output and the actual target values in a given dataset. Gradient-based methods such as backpropagation are usually used to estimate the parameters of the network. During the training phase, ANNs learn from labeled training data by iteratively updating their parameters to minimize

2072-433: Is different from Wikidata All article disambiguation pages All disambiguation pages Ans [REDACTED] Look up Ans  or ANS in Wiktionary, the free dictionary. Ans or ANS or variation , may refer to: Places [ edit ] Ans, Belgium , a municipality in Belgium Ans, Denmark , a village in Denmark Angus, Scotland , UK;

2146-457: Is different from Wikidata All article disambiguation pages All disambiguation pages Artificial neural network In machine learning , a neural network (also artificial neural network or neural net , abbreviated ANN or NN ) is a model inspired by the structure and function of biological neural networks in animal brains . An ANN consists of connected units or nodes called artificial neurons , which loosely model

2220-444: Is the adaptation of the network to better handle a task by considering sample observations. Learning involves adjusting the weights (and optional thresholds) of the network to improve the accuracy of the result. This is done by minimizing the observed errors. Learning is complete when examining additional observations does not usefully reduce the error rate. Even after learning, the error rate typically does not reach 0. If after learning,

2294-451: Is typically called a deep neural network if it has at least two hidden layers. Artificial neural networks are used for various tasks, including predictive modeling , adaptive control , and solving problems in artificial intelligence . They can learn from experience, and can derive conclusions from a complex and seemingly unrelated set of information. Neural networks are typically trained through empirical risk minimization . This method

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2368-455: The Boltzmann machine , restricted Boltzmann machine , Helmholtz machine , and the wake-sleep algorithm . These were designed for unsupervised learning of deep generative models. Between 2009 and 2012, ANNs began winning prizes in image recognition contests, approaching human level performance on various tasks, initially in pattern recognition and handwriting recognition . In 2011,

2442-574: The ReLU (rectified linear unit) activation function . The rectifier has become the most popular activation function for deep learning. Nevertheless, research stagnated in the United States following the work of Minsky and Papert (1969), who emphasized that basic perceptrons were incapable of processing the exclusive-or circuit. This insight was irrelevant for the deep networks of Ivakhnenko (1965) and Amari (1967). In 1976 transfer learning

2516-410: The mutual information between x {\displaystyle \textstyle x} and f ( x ) {\displaystyle \textstyle f(x)} , whereas in statistical modeling, it could be related to the posterior probability of the model given the data (note that in both of those examples, those quantities would be maximized rather than minimized). Tasks that fall within

2590-412: The neurons in the brain. These are connected by edges , which model the synapses in the brain. Each artificial neuron receives signals from connected neurons, then processes them and sends a signal to other connected neurons. The "signal" is a real number , and the output of each neuron is computed by some non-linear function of the sum of its inputs, called the activation function . The strength of

2664-554: The vanishing gradient problem and proposed recurrent residual connections to solve it. He and Schmidhuber introduced long short-term memory (LSTM), which set accuracy records in multiple applications domains. This was not yet the modern version of LSTM, which required the forget gate, which was introduced in 1999. It became the default choice for RNN architecture. During 1985–1995, inspired by statistical mechanics, several architectures and methods were developed by Terry Sejnowski , Peter Dayan , Geoffrey Hinton , etc., including

2738-557: The weights of the connections from the inputs to the neuron. We add a bias term to this sum. This weighted sum is sometimes called the activation . This weighted sum is then passed through a (usually nonlinear) activation function to produce the output. The initial inputs are external data, such as images and documents. The ultimate outputs accomplish the task, such as recognizing an object in an image. The neurons are typically organized into multiple layers, especially in deep learning . Neurons of one layer connect only to neurons of

2812-478: The "neural sequence chunker" or "neural history compressor" which introduced the important concepts of self-supervised pre-training (the "P" in ChatGPT ) and neural knowledge distillation . In 1993, a neural history compressor system solved a "Very Deep Learning" task that required more than 1000 subsequent layers in an RNN unfolded in time. In 1991, Sepp Hochreiter 's diploma thesis identified and analyzed

2886-518: The 2010s, the seq2seq model was developed, and attention mechanisms were added. It led to the modern Transformer architecture in 2017 in Attention Is All You Need . It requires computation time that is quadratic in the size of the context window. Jürgen Schmidhuber 's fast weight controller (1992) scales linearly and was later shown to be equivalent to the unnormalized linear Transformer. Transformers have increasingly become

2960-751: The United States Office of Naval Research . R. D. Joseph (1960) mentions an even earlier perceptron-like device by Farley and Clark: "Farley and Clark of MIT Lincoln Laboratory actually preceded Rosenblatt in the development of a perceptron-like device." However, "they dropped the subject." The perceptron raised public excitement for research in Artificial Neural Networks, causing the US government to drastically increase funding. This contributed to "the Golden Age of AI" fueled by

3034-428: The ability to learn and model non-linearities and complex relationships. This is achieved by neurons being connected in various patterns, allowing the output of some neurons to become the input of others. The network forms a directed , weighted graph . An artificial neural network consists of simulated neurons. Each neuron is connected to other nodes via links like a biological axon-synapse-dendrite connection. All

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3108-466: The art in generative modeling during 2014–2018 period. The GAN principle was originally published in 1991 by Jürgen Schmidhuber who called it "artificial curiosity": two neural networks contest with each other in the form of a zero-sum game , where one network's gain is the other network's loss. The first network is a generative model that models a probability distribution over output patterns. The second network learns by gradient descent to predict

3182-433: The balance between the gradient and the previous change to be weighted such that the weight adjustment depends to some degree on the previous change. A momentum close to 0 emphasizes the gradient, while a value close to 1 emphasizes the last change. While it is possible to define a cost function ad hoc , frequently the choice is determined by the function's desirable properties (such as convexity ) or because it arises from

3256-405: The error rate is too high, the network typically must be redesigned. Practically this is done by defining a cost function that is evaluated periodically during learning. As long as its output continues to decline, learning continues. The cost is frequently defined as a statistic whose value can only be approximated. The outputs are actually numbers, so when the error is low, the difference between

3330-488: The first cascading networks were trained on profiles (matrices) produced by multiple sequence alignments . One origin of RNN was statistical mechanics . In 1972, Shun'ichi Amari proposed to modify the weights of an Ising model by Hebbian learning rule as a model of associative memory, adding in the component of learning. This was popularized as the Hopfield network by John Hopfield (1982). Another origin of RNN

3404-442: The immediately preceding and immediately following layers. The layer that receives external data is the input layer . The layer that produces the ultimate result is the output layer . In between them are zero or more hidden layers . Single layer and unlayered networks are also used. Between two layers, multiple connection patterns are possible. They can be 'fully connected', with every neuron in one layer connecting to every neuron in

3478-538: The large-scale ImageNet competition by a significant margin over shallow machine learning methods. Further incremental improvements included the VGG-16 network by Karen Simonyan and Andrew Zisserman and Google's Inceptionv3 . In 2012, Ng and Dean created a network that learned to recognize higher-level concepts, such as cats, only from watching unlabeled images. Unsupervised pre-training and increased computing power from GPUs and distributed computing allowed

3552-427: The model (e.g. in a probabilistic model the model's posterior probability can be used as an inverse cost). Backpropagation is a method used to adjust the connection weights to compensate for each error found during learning. The error amount is effectively divided among the connections. Technically, backprop calculates the gradient (the derivative) of the cost function associated with a given state with respect to

3626-433: The model of choice for natural language processing . Many modern large language models such as ChatGPT , GPT-4 , and BERT use this architecture. ANNs began as an attempt to exploit the architecture of the human brain to perform tasks that conventional algorithms had little success with. They soon reoriented towards improving empirical results, abandoning attempts to remain true to their biological precursors. ANNs have

3700-442: The most positive (lowest cost) responses. In reinforcement learning , the aim is to weight the network (devise a policy) to perform actions that minimize long-term (expected cumulative) cost. At each point in time the agent performs an action and the environment generates an observation and an instantaneous cost, according to some (usually unknown) rules. The rules and the long-term cost usually only can be estimated. At any juncture,

3774-401: The network's output. The cost function is dependent on the task (the model domain) and any a priori assumptions (the implicit properties of the model, its parameters and the observed variables). As a trivial example, consider the model f ( x ) = a {\displaystyle \textstyle f(x)=a} where a {\displaystyle \textstyle a} is

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3848-441: The next layer. They can be pooling , where a group of neurons in one layer connects to a single neuron in the next layer, thereby reducing the number of neurons in that layer. Neurons with only such connections form a directed acyclic graph and are known as feedforward networks . Alternatively, networks that allow connections between neurons in the same or previous layers are known as recurrent networks . A hyperparameter

3922-401: The nodes connected by links take in some data and use it to perform specific operations and tasks on the data. Each link has a weight, determining the strength of one node's influence on another, allowing weights to choose the signal between neurons. ANNs are composed of artificial neurons which are conceptually derived from biological neurons . Each artificial neuron has inputs and produces

3996-428: The optimistic claims made by computer scientists regarding the ability of perceptrons to emulate human intelligence. The first perceptrons did not have adaptive hidden units. However, Joseph (1960) also discussed multilayer perceptrons with an adaptive hidden layer. Rosenblatt (1962) cited and adopted these ideas, also crediting work by H. D. Block and B. W. Knight. Unfortunately, these early efforts did not lead to

4070-436: The output (almost certainly a cat) and the correct answer (cat) is small. Learning attempts to reduce the total of the differences across the observations. Most learning models can be viewed as a straightforward application of optimization theory and statistical estimation . The learning rate defines the size of the corrective steps that the model takes to adjust for errors in each observation. A high learning rate shortens

4144-401: The paradigm of unsupervised learning are in general estimation problems; the applications include clustering , the estimation of statistical distributions , compression and filtering . In applications such as playing video games, an actor takes a string of actions, receiving a generally unpredictable response from the environment after each one. The goal is to win the game, i.e., generate

4218-427: The past. In 1982 a recurrent neural network, with an array architecture (rather than a multilayer perceptron architecture), named Crossbar Adaptive Array used direct recurrent connections from the output to the supervisor (teaching ) inputs. In addition of computing actions (decisions), it computed internal state evaluations (emotions) of the consequence situations. Eliminating the external supervisor, it introduced

4292-523: The prediction of planetary movement. Historically, digital computers such as the von Neumann model operate via the execution of explicit instructions with access to memory by a number of processors. Some neural networks, on the other hand, originated from efforts to model information processing in biological systems through the framework of connectionism . Unlike the von Neumann model, connectionist computing does not separate memory and processing. Warren McCulloch and Walter Pitts (1943) considered

4366-444: The products of the weights and the inputs is calculated at each node. The mean squared errors between these calculated outputs and the given target values are minimized by creating an adjustment to the weights. This technique has been known for over two centuries as the method of least squares or linear regression . It was used as a means of finding a good rough linear fit to a set of points by Legendre (1805) and Gauss (1795) for

4440-625: The reactions of the environment to these patterns. Excellent image quality is achieved by Nvidia 's StyleGAN (2018) based on the Progressive GAN by Tero Karras et al. Here, the GAN generator is grown from small to large scale in a pyramidal fashion. Image generation by GAN reached popular success, and provoked discussions concerning deepfakes . Diffusion models (2015) eclipsed GANs in generative modeling since then, with systems such as DALL·E 2 (2022) and Stable Diffusion (2022). In 2014,

4514-442: The same term [REDACTED] This disambiguation page lists articles associated with the title Ans . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Ans&oldid=1249823766 " Categories : Disambiguation pages Place name disambiguation pages Hidden categories: Short description

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4588-442: The same term [REDACTED] This disambiguation page lists articles associated with the title Ans . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Ans&oldid=1249823766 " Categories : Disambiguation pages Place name disambiguation pages Hidden categories: Short description

4662-490: The self-learning method in neural networks. In cognitive psychology, the journal American Psychologist in early 1980's carried out a debate on relation between cognition and emotion. Zajonc in 1980 stated that emotion is computed first and is independent from cognition, while Lazarus in 1982 stated that cognition is computed first and is inseparable from emotion. In 1982 the Crossbar Adaptive Array gave

4736-405: The signal at each connection is determined by a weight , which adjusts during the learning process. Typically, neurons are aggregated into layers. Different layers may perform different transformations on their inputs. Signals travel from the first layer (the input layer ) to the last layer (the output layer ), possibly passing through multiple intermediate layers ( hidden layers ). A network

4810-538: The state of the art was training "very deep neural network" with 20 to 30 layers. Stacking too many layers led to a steep reduction in training accuracy, known as the "degradation" problem. In 2015, two techniques were developed to train very deep networks: the highway network was published in May 2015, and the residual neural network (ResNet) in December 2015. ResNet behaves like an open-gated Highway Net. During

4884-540: The training time, but with lower ultimate accuracy, while a lower learning rate takes longer, but with the potential for greater accuracy. Optimizations such as Quickprop are primarily aimed at speeding up error minimization, while other improvements mainly try to increase reliability. In order to avoid oscillation inside the network such as alternating connection weights, and to improve the rate of convergence, refinements use an adaptive learning rate that increases or decreases as appropriate. The concept of momentum allows

4958-435: The use of larger networks, particularly in image and visual recognition problems, which became known as "deep learning". Radial basis function and wavelet networks were introduced in 2013. These can be shown to offer best approximation properties and have been applied in nonlinear system identification and classification applications. Generative adversarial network (GAN) ( Ian Goodfellow et al., 2014) became state of

5032-432: The weights. The weight updates can be done via stochastic gradient descent or other methods, such as extreme learning machines , "no-prop" networks, training without backtracking, "weightless" networks, and non-connectionist neural networks . Machine learning is commonly separated into three main learning paradigms, supervised learning , unsupervised learning and reinforcement learning . Each corresponds to

5106-465: Was actually introduced in 1962 by Rosenblatt, but he did not know how to implement this, although Henry J. Kelley had a continuous precursor of backpropagation in 1960 in the context of control theory . In 1970, Seppo Linnainmaa published the modern form of backpropagation in his master thesis (1970). G.M. Ostrovski et al. republished it in 1971. Paul Werbos applied backpropagation to neural networks in 1982 (his 1974 PhD thesis, reprinted in

5180-434: Was introduced in 1987 by Alex Waibel to apply CNN to phoneme recognition. It used convolutions, weight sharing, and backpropagation. In 1988, Wei Zhang applied a backpropagation-trained CNN to alphabet recognition. In 1989, Yann LeCun et al. created a CNN called LeNet for recognizing handwritten ZIP codes on mail. Training required 3 days. In 1990, Wei Zhang implemented a CNN on optical computing hardware. In 1991,

5254-564: Was introduced in neural networks learning. Deep learning architectures for convolutional neural networks (CNNs) with convolutional layers and downsampling layers and weight replication began with the Neocognitron introduced by Kunihiko Fukushima in 1979, though not trained by backpropagation. Backpropagation is an efficient application of the chain rule derived by Gottfried Wilhelm Leibniz in 1673 to networks of differentiable nodes. The terminology "back-propagating errors"

5328-441: Was neuroscience. The word "recurrent" is used to describe loop-like structures in anatomy. In 1901, Cajal observed "recurrent semicircles" in the cerebellar cortex . Hebb considered "reverberating circuit" as an explanation for short-term memory. The McCulloch and Pitts paper (1943) considered neural networks that contains cycles, and noted that the current activity of such networks can be affected by activity indefinitely far in

5402-437: Was published in 1967 by Shun'ichi Amari . In computer experiments conducted by Amari's student Saito, a five layer MLP with two modifiable layers learned internal representations to classify non-linearily separable pattern classes. Subsequent developments in hardware and hyperparameter tunings have made end-to-end stochastic gradient descent the currently dominant training technique. In 1969, Kunihiko Fukushima introduced

5476-434: Was used in many early neural networks, such as Rosenblatt's perceptron and the Hopfield network . Farley and Clark (1954) used computational machines to simulate a Hebbian network. Other neural network computational machines were created by Rochester , Holland, Habit and Duda (1956). In 1958, psychologist Frank Rosenblatt described the perceptron, one of the first implemented artificial neural networks, funded by

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