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  • If youve been ignoring neural nets cuz you think theyre too hard to understand

  • or you think you don’t need themboy do I have a treat for you!

  • In this video youll learn about neural nets without any of the math or code

  • just an intro to what they are and how they work.

  • My hope is that youll get an idea for why theyre such an important tool.

  • Let’s get started.

  • The first thing you need to know is that deep learning is about neural networks.

  • The structure of a neural network is like any other kind of network;

  • there is an interconnected web of nodes, which are called neurons,

  • and the edges that join them together.

  • A neural network's main function is to receive a set of inputs,

  • perform progressively complex calculations,

  • and then use the output to solve a problem.

  • Neural networks are used for lots of different applications,

  • but in this series we will focus on classification.

  • If you wanna learn about neural nets in a bit more detail, including the math,

  • my two favourite resources are Michael Nielsen's book, and Andrew Ng's class.

  • Before we talk more about neural networks, I’m gonna give you a quick overview of the problem of classification.

  • Classification is the process of categorizing a group of objects,

  • while only using some basic data features that describe them.

  • There are lots of classifiers available today -

  • like Logistic Regression, Support Vector Machines, Naive Bayes, and of course, neural networks.

  • The firing of a classifier, or activation as its commonly called, produces a score.

  • For example, say you needed to predict if a patient is sick or healthy,

  • and all you have are their height, weight, and body temperature.

  • The classifier would receive this data about the patient, process it, and fire out a confidence score.

  • A high score would mean a high confidence that the patient is sick, and a low score would suggest that they are healthy.

  • Neural nets are used for classification tasks where an object can fall

  • into one of at least two different categories.

  • Unlike other networks like a social network,

  • a neural network is highly structured and comes in layers.

  • The first layer is the input layer,

  • the final layer is the output layer,

  • and all layers in between are referred to as hidden layers.

  • A neural net can be viewed as the result of spinning classifiers together in a layered web.

  • This is because each node in the hidden and output layers has its own classifier.

  • Take that node for example -

  • it gets its inputs from the input layer, and activates.

  • Its score is then passed on as input to the next hidden layer for further activation.

  • So,

  • let’s see how this plays out end to end across the entire network.

  • A set of inputs is passed to the first hidden layer,

  • the activations from that layer are passed to the next layer and so on,

  • until you reach the output layer,

  • where the results of the classification are determined by the scores at each node.

  • This happens for each set of inputs.

  • Here's another one...

  • like so.

  • This series of events starting from the input where each activation is sent to the next layer,

  • and then the next, all the way to the output,

  • is known as forward propagation, or forward prop.

  • Forward prop is a neural net's way of classifying a set of inputs.

  • Have you wanted to learn more about neural nets?

  • Please comment and let me know your thoughts?

  • The first neural nets were born out of the need to address the inaccuracy of an early classifier, the perceptron.

  • It was shown that by using a layered web of perceptrons,

  • the accuracy of predictions could be improved.

  • As a result, this new breed of neural nets was called a Multi-Layer Perceptron or MLP.

  • Since then, the nodes inside neural nets have replaced perceptrons with more powerful classifiers,

  • but the name MLP has stuck.

  • Here's forward prop again.

  • Each node has the same classifier, and none of them fire randomly;

  • if you repeat an input, you get the same output.

  • So if every node in the hidden layer received the same input,

  • why didn’t they all fire out the same value?

  • The reason is that each set of inputs is modified by unique weights and biases.

  • For example, for that node,

  • the first input is modified by a weight of 10,

  • the second by 5, the third by 6 and then a bias of 9 is added on top.

  • Each edge has a unique weight, and each node has a unique bias.

  • This means that the combination used for each activation is also unique,

  • which explains why the nodes fire differently.

  • You may have guessed that the prediction accuracy of a neural net depends on its weights and biases.

  • We want that accuracy to be high,

  • meaning we want the neural net to predict a value that is as close to the actual output as possible,

  • every single time.

  • The process of improving a neural net’s accuracy is called training,

  • just like with other machine learning methods.

  • Here's that forward prop again -

  • to train the net, the output from forward prop is compared to the output that is known to be correct,

  • and the cost is the difference of the two.

  • The point of training is to make that cost as small as possible, across millions of training examples.

  • To do this, the net tweaks the weights and biases step by step

  • until the prediction closely matches the correct output.

  • Once trained well, a neural net has the potential to make accurate predictions each time.

  • This is a neural net in a nutshell.

  • At this point you might be wondering;

  • why create and train a web of classifiers for a task like classification,

  • when an individual classifier can do the job quite well?

  • The answer involves the problem of pattern complexity, which we will see in the next video.

If youve been ignoring neural nets cuz you think theyre too hard to understand

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ニューラルネットワークとは何か-第2話(ディープラーニングSIMPLIFIED (What is a Neural Network - Ep. 2 (Deep Learning SIMPLIFIED))

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    alex に公開 2021 年 01 月 14 日
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