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Online [[machine learning]] is a model of [[inductive reasoning|induction]] that learns one instance at a time.  The goal in on-line learning is to predict labels for instances. For example, the instances could describe the current conditions of the [[stock market]], and an online algorithm predicts tomorrow's value of a particular stock.  The key defining characteristic of on-line learning is that soon after the prediction is made, the true label of the instance is discovered.  This information can then be used to refine the prediction hypothesis used by the algorithm.  The goal of the algorithm is to make predictions that are close to the true labels.


More formally, an online algorithm proceeds in a sequence of trials. Each trial can be decomposed into three steps.  First the algorithm receives an instance.  Second the algorithm predicts the label of the instance.  Third the algorithm receives the true label of the instance.<ref>Littlestone, Nick; (1988) ''Learning Quickly When Irrelevant Attributes Abound: A New Linear-threshold Algorithm'', Machine Learning 285-318(2), Kluwer Academic Publishers</ref>  The third stage is the most crucial as the algorithm can use this label feedback to update its hypothesis for future trials. The goal of the algorithm is to minimize some performance criteria. For example, with stock market prediction the algorithm may attempt to minimize sum of the square distances between the predicted and true value of a stock.  Another popular performance criterion is to minimize the number of mistakes when dealing with classification problems. In addition to applications of a sequential nature, online learning algorithms are also relevant in applications with huge amounts of data such that traditional learning approaches that use the entire data set in aggregate are computationally infeasible.


Because on-line learning algorithms continually receive label feedback, the algorithms are able to adapt and learn in difficult situations. Many online algorithms can give strong guarantees on performance even when the instances are not generated by a distribution.  As long as a reasonably good classifier exists, the online algorithm will learn to predict correct labels.  This good classifier must come from a previously determined set that depends on the algorithm.  For example, two popular on-line algorithms [[perceptron]] and [[winnow (algorithm)|winnow]] can perform well when a [[hyperplane]] exists that splits the data into two categories. These algorithms can even be modified to do provably well even if the hyperplane is allowed to infrequently change during the on-line learning trials.
It depends on the quality of the Wordpress theme but even if it's not a professional one you will be able to average 50-60$ EACH link. Thus, it is important to keep pace with this highly advanced age and have a regular interaction with your audience to keep a strong hold in the business market. The effect is to promote older posts by moving them back onto the front page and into the rss feed. If you're using Wordpress and want to make your blog a "dofollow" blog, meaning that links from your blog pass on the benefits of Google pagerank, you can install one of the many dofollow plugins available. provided by Word - Press Automatic Upgrade, so whenever you need to update the new version does not, it automatically creates no webmaster. <br><br>As you know today Word - Press has turn out to be a tremendously popular open source publishing and blogging display place. You may either choose to link only to the top-level category pages or the ones that contain information about your products and services. It allows Word - Press users to easily use HTML5  the element enable native video playback within the browser. Furthermore, with the launch of Windows 7 Phone is the smart phone market nascent App. Once you've installed the program you can quickly begin by adding content and editing it with features such as bullet pointing, text alignment and effects without having to do all the coding yourself. <br><br>ve labored so hard to publish and put up on their website. The nominee in each category with the most votes was crowned the 2010 Parents Picks Awards WINNER and has been established as the best product, tip or place in that category. Are you considering getting your website redesigned. Storing write-ups in advance would have to be neccessary with the auto blogs. Have you heard about niche marketing and advertising. <br><br>It is the convenient service through which professionals either improve the position or keep the ranking intact. When you loved this informative article and you wish to receive details relating to [http://xd03.com/WordpressBackupPlugin911623/ backup plugin] generously visit our web site. This plugin allows a webmaster to create complex layouts without having to waste so much time with short codes. A higher percentage of women are marrying at older ages,many are delaying childbearing until their careers are established, the divorce rate is high and many couples remarry and desire their own children. If you choose a blog then people will be able to post articles on your site and people will be able to make comments on your posts (unless you turn comments off). If your blog employs the permalink function, This gives your SEO efforts a boost, and your visitors will know firsthand what's in the post when seeing the URL. <br><br>This advice is critical because you don't want to waste too expensive time establishing your Word - Press blog the exact method. It can run as plugin and you can still get to that whole database just in circumstance your webhost does not have a c - Panel area. Must being, it's beneficial because I don't know about you, but loading an old website on a mobile, having to scroll down, up, and sideways' I find links being clicked and bounced around like I'm on a freaking trampoline. with posts or testimonials updated as they are uploaded to a particular section of the website. Your topic is going to be the basis of your site's name.
 
Unfortunately, the main difficulty of on-line learning is also a result of the requirement for continual label feedback.  For many problems it is not possible to guarantee that accurate label feedback will be available in the near future. For example, when designing a system that learns how to do [[optical character recognition]], typically some expert must label previous instances to help train the algorithm.  In actual use of the OCR application, the expert is no longer available and no inexpensive outside source of accurate labels is available.  Fortunately, there is a large class of problems where label feedback is always available.  For any problem that consists of predicting the future, an on-line learning algorithm just needs to wait for the label to become available. This is true in our previous example of stock market prediction and many other problems.
 
==A prototypical online supervised learning algorithm==
In the setting of [[supervised learning]], or learning from examples, we are interested in learning a function <math> f : X \to Y</math>, where <math>X</math> is thought of as a space of inputs and <math>Y</math> as a space of outputs, that predicts well on instances that are drawn from a joint probability distribution <math>p(x,y)</math> on <math>X \times Y</math>. In this setting, we are given a [[loss function]] <math>V : Y \times Y \to \mathbb{R}</math>, such that <math> V(f(x), y)</math> measures the difference between the predicted value <math>f(x)</math> and the true value <math>y</math>. The ideal goal is to select a function <math>f \in \mathcal{H}</math>, where <math>\mathcal{H}</math> is a space of functions called a hypothesis space, so as to minimize the expected risk:
: <math>I[f] = \mathbb{E}[V(f(x), y)] = \int V(f(x), y)\,dp(x, y) \ .</math>
In reality, the learner never knows the true distribution <math>p(x,y)</math> over instances. Instead, the learner usually has access to a training set of examples <math>(x_1, y_1), \ldots, (x_n, y_n)</math> that are assumed to have been drawn [[i.i.d.]] from the true distribution <math>p(x,y)</math>. A common paradigm in this situation is to estimate a function <math>\hat{f}</math> through [[empirical risk minimization]] or regularized empirical risk minimization (usually [[Tikhonov regularization]]). The choice of loss function here gives rise to several well-known learning algorithms such as regularized [[least squares]] and [[support vector machines]].
 
The above paradigm is not well-suited to the online learning setting though, as it requires complete a priori knowledge of the entire training set. In the pure online learning approach, the learning algorithm should update a sequence of functions <math>f_1, f_2, \ldots</math> in a way such that the function <math>f_{t+1}</math> depends only on the previous function <math>f_t</math> and the next data point <math>(x_t, y_t)</math>. This approach has low memory requirements in the sense that it only requires storage of a representation of the current function <math>f_t</math> and the next data point <math>(x_t, y_t)</math>. A related approach that has larger memory requirements allows <math>f_{t+1}</math> to depend on <math>f_t</math> and all previous data points <math>(x_1, y_1), \ldots, (x_t, y_t)</math>. We focus solely on the former approach here, and we consider both the case where the data is coming from an infinite stream <math>(x_1, y_1), (x_2, y_2), \ldots</math> and the case where the data is coming from a finite training set <math>(x_1, y_1), \ldots, (x_n, y_n)</math>, in which case the online learning algorithm may make multiple passes through the data.
 
===The algorithm and its interpretations===
 
Here we outline a prototypical online learning algorithm in the supervised learning setting and we discuss several interpretations of this algorithm. For simplicity, consider the case where <math>X = \mathbb{R}^d</math>, <math>Y \subseteq \mathbb{R}</math>, and <math>\mathcal{H} = \{\langle w, \cdot\rangle : w \in \mathbb{R}^d\}</math> is the set of all linear functionals from <math>X</math> into <math>\mathbb{R}</math>, i.e. we are working with a linear kernel and functions <math> f \in \mathcal{H}</math> can be identified with vectors <math>w \in \mathbb{R}^d</math>. Furthermore, assume that <math>V(\cdot, \cdot)</math> is a convex, differentiable loss function. An online learning algorithm satisfying the low memory property discussed above consists of the following iteration:
: <math>w_{t+1} \gets w_t - \gamma_t\nabla V(\langle w_t, x_t \rangle, y_t) \ , </math>
where <math>w_1 \gets 0</math> , <math>\nabla V(\langle w_t, x_t \rangle, y_t)</math> is the gradient of the loss for the next data point <math>(x_t, y_t)</math> evaluated at the current linear functional <math>w_t</math>, and <math>\gamma_t > 0</math> is a step-size parameter. In the case of an infinite stream of data, one can run this iteration, in principle, forever, and in the case of a finite but large set of data, one can consider a single pass or multiple passes (epochs) through the data.
 
Interestingly enough, the above simple iterative online learning algorithm has three distinct interpretations, each of which has distinct implications about the predictive quality of the sequence of functions <math>w_1, w_2, \ldots</math>. The first interpretation considers the above iteration as an instance of the [[stochastic gradient descent]] method applied to the problem of minimizing the expected risk <math>I[w]</math> defined above. <ref>{{Cite book
    |last=Bottou
    |first=Léon
    |authorlink=Léon Bottou
    |contribution=Online Algorithms and Stochastic Approximations
    |year=1998
    |title=Online Learning and Neural Networks
    |publisher=Cambridge University Press
    |url=http://leon.bottou.org/papers/bottou-98x
    |isbn=978-0-521-65263-6
    |postscript=<!-- Bot inserted parameter. Either remove it; or change its value to "." for the cite to end in a ".", as necessary. -->{{inconsistent citations}}
}}</ref> Indeed, in the case of an infinite stream of data, since the examples <math>(x_1, y_1), (x_2, y_2), \ldots </math> are assumed to be drawn i.i.d. from the distribution <math>p(x,y)</math>, the sequence of gradients of <math>V(\cdot, \cdot)</math> in the above iteration are an i.i.d. sample of stochastic estimates of the gradient of the expected risk <math>I[w]</math> and therefore one can apply complexity results for the stochastic gradient descent method to bound the deviation <math>I[w_t] - I[w^\ast]</math>, where <math>w^\ast</math> is the minimizer of <math>I[w]</math>. <ref name="kushneryin">''Stochastic Approximation Algorithms and Applications'', Harold J. Kushner and G. George Yin, New York: Springer-Verlag, 1997. ISBN 0-387-94916-X; 2nd ed., titled ''Stochastic Approximation and Recursive Algorithms and Applications'', 2003, ISBN 0-387-00894-2.</ref> This interpretation is also valid in the case of a finite training set; although with multiple passes through the data the gradients are no longer independent, still complexity results can be obtained in special cases.
 
The second interpretation applies to the case of a finite training set and considers the above recursion as an instance of the incremental gradient descent method<ref>Bertsekas, D. P. (2011). Incremental gradient, subgradient, and proximal methods for convex optimization: a survey. Optimization for Machine Learning, 85.</ref> to minimize the empirical risk:
: <math>I_n[w] = \frac{1}{n}\sum_{i = 1}^nV(\langle w,x_i \rangle, y_i) \ .</math>
Since the gradients of <math>V(\cdot, \cdot)</math> in the above iteration are also stochastic estimates of the gradient of <math>I_n[w]</math>, this interpretation is also related to the stochastic gradient descent method, but applied to minimize the empirical risk as opposed to the expected risk. Since this interpretation concerns the empirical risk and not the expected risk, multiple passes through the data are readily allowed and actually lead to tighter bounds on the deviations <math>I_n[w_t] - I_n[w^\ast_n]</math>, where <math>w^\ast_n</math> is the minimizer of <math>I_n[w]</math>.
 
The third interpretation of the above recursion is distinctly different from the first two and concerns the case of sequential trials discussed above, where the data are potentially not i.i.d. and can perhaps be selected in an adversarial manner. At each step of this process, the learner is given an input <math>x_t</math> and makes a prediction based on the current linear function <math>w_t</math>. Only after making this prediction does the learner see the true label <math>y_t</math>, at which point the learner is allowed to update <math>w_t</math> to <math>w_{t+1}</math>. Since we are not making any distributional assumptions about the data, the goal here is to perform as well as if we could view the entire sequence of examples ahead of time; that is, we would like the sequence of functions <math>w_1, w_2, \ldots</math> to have low regret relative to any vector <math>w^\ast</math>:
: <math>R_T(w^\ast) = \sum_{t = 1}^TV(\langle w_t, x_t \rangle, y_t) - \sum_{t = 1}^TV(\langle w^\ast, x_t \rangle, y_t) \ .</math>
In this setting, the above recursion can be considered as an instance of the online gradient descent method for which there are complexity bounds that guarantee <math>O(\sqrt{T})</math> regret.<ref>Shalev-Shwartz, S. (2011). Online learning and online convex optimization. Foundations and Trends in Machine Learning, 4(2), 107-194.</ref>
 
It should be noted that although the three interpretations of this algorithm yield complexity bounds in three distinct settings, each bound depends on the choice of step-size sequence <math>\{\gamma_t\}</math> in a different way, and thus we cannot simultaneously apply the consequences of all three interpretations; we must instead select the step-size sequence in a way that is tailored for the interpretation that is most relevant. Furthermore, the above algorithm and these interpretations can be extended to the case of a nonlinear kernel by simply considering <math>X</math> to be the feature space associated with the kernel. Although in this case the memory requirements at each iteration are no longer <math>O(d)</math>, but are rather on the order of the number of data points considered so far.
 
==Books with substantial treatment of online machine learning==
* ''Algorithmic Learning in a Random World'' by Vladimir Vovk, Alex Gammerman, and Glenn Shafer.  Published by Springer Science+Business Media, Inc. 2005 ISBN 0-387-00152-2
 
* ''Prediction, learning, and games'' by [[Nicolò Cesa-Bianchi]] and Gábor Lugosi. Cambridge University Press, 2006 ISBN 0-521-84108-9
 
==See also==
* [[k-nearest neighbor algorithm]]
* [[Lazy learning]]
* [[Learning Vector Quantization]]
* [[Offline learning]], the opposite model
* [[Online algorithm]]
* [[Perceptron]]
* [[Stochastic gradient descent]]
* [[Supervised learning]]
 
==References==
<references />
 
==External links==
* http://onlineprediction.net/, Wiki for On-Line Prediction.
 
[[Category:Machine learning algorithms]]

Latest revision as of 13:29, 21 July 2014


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ve labored so hard to publish and put up on their website. The nominee in each category with the most votes was crowned the 2010 Parents Picks Awards WINNER and has been established as the best product, tip or place in that category. Are you considering getting your website redesigned. Storing write-ups in advance would have to be neccessary with the auto blogs. Have you heard about niche marketing and advertising.

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