What is Regularization: Definition and 70 Discussions

In mathematics, statistics, finance, computer science, particularly in machine learning and inverse problems, regularization is the process of adding information in order to solve an ill-posed problem or to prevent overfitting.Regularization can be applied to objective functions in ill-posed optimization problems. The regularization term, or penalty, imposes a cost on the optimization function to make the optimal solution unique.
Independent of the problem or model, there is always a data term, that corresponds to a likelihood of the measurement and a regularization term that corresponds to a prior. By combining both using Bayesian statistics, one can compute a posterior, that includes both information sources and therefore stabilizes the estimation process. By trading off both objectives, one choses to be more addictive to the data or to enforce generalization (to prevent overfitting). There is a whole research branch dealing with all possible regularizations. The work flow usually is, that one tries a specific regularization and then figures out the probability density that corresponds to that regularization to justify the choice. It can also be physically motivated by common sense or intuition, which is more difficult.
In machine learning, the data term corresponds to the training data and the regularization is either the choice of the model or modifications to the algorithm. It is always intended to reduce the generalization error, i.e. the error score with the trained model on the evaluation set and not the training data.One of the earliest uses of regularization is related to the method of least squares. The figured out probability density is the gaussian distribution, which is now known under the name "Tikhonov regularization".

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  1. M

    Wilsonian EFTs and regularization

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  2. Z

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    can zeta regularization provide FINITENESS to quantum field theory ?? recently i came across (google) these papers http://vixra.org/abs/1003.0235 http://vixra.org/abs/1001.0042 http://vixra.org/abs/1001.0039 using the zeta regularization algorithm plus analytic continuation he...
  3. Z

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    why does dimensional regularization need counterterms ?? if all the integrals in 'dimensional regularization' are FINITE why do we need counterterms ?? in fact all the poles of the Gamma function are simple hence the only divergent quantity is the limit as d tends to 4 of 1/(d-4) which is...
  4. Z

    Pauli-Villars regularization

    how does this regularization work ?, suppose we have three kinds of divergencies \Lambda ,.. log \Lambda and \Lambda^{2} then according to Pauli-Villars regularization should we add 3 different and ficticious 'Fields' with Masses A,B,C tending to infinity ??
  5. T

    Dimensional Regularization Problem

    Hi guys, this is my first post. I recently realized that there is something odd going on with dimensional regularization so I figured I could ask here. So let's take equation (A.44) in Peskin's book. Now if we set n=1 and d=3-e, this integral is obviously ultraviolet diverging(in fact...
  6. Z

    Zeta regularization for UV divergences ?

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  7. Z

    WHY dimensional regularization does not work for Gravity ?

    i have been reading several introductory papers to 'dimensional regularization' they tell how it can be applied to QED and so on, but the problem is why this dimensional regularization technique can not be applied to get finite answer in Quantum Gravity ??
  8. Z

    Is Zeta regularization real?

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  9. N

    Tikhonov regularization

    What is the best automated way to select the regularization parameter in a Tikhonov regularization? Can you point me toward some code for this purpose? Thank you,
  10. M

    Is There a Way to Regularize Euler Products on Primes?

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  11. M

    How Does Dimensional Regularization Simplify Integrals in Quantum Field Theory?

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  12. A

    How to make sense of the sum: 1+2+3+ =-1/12 using regularization?

    I read that for the divergent series: 1+2+3+...=-\frac{1}{12} It was said that is obtained by using the so called regularization technique (zeta function regularization?). I would like to see an explicit proof for that. Can anybody suggest a suitable source where this can be found?
  13. S

    Does least squares regularization have to be iterative?

    Does a http://en.wikipedia.org/wiki/Tikhonov_regularization" solution for least squares have to be iteratively solved? Or is there a way to perform regularization via linear algebra, the way linear regression can be done by solving the (XTX)B=XTy normal equations?
  14. D

    Learn about Dimensional Regularization

    Hi guys, I want to learn about Dimensional Regularization for the electron self energy. Can you help by providing me the best book or notes for this purpose”it's a self study”? Thanks for you help.
  15. S

    Dimensional Regularization of an Integral

    Hi! I want to renormalize the following UV-divergent integral using Dimensional Regularization: \int_{- \infty}^{\infty} \frac{d^4 p}{\left(2 \pi \right)^4} \frac{1}{a p_0^2 +\left(a p_x^2+a p_y^2+a p_z^2 +M^2\right)^2} a>0 I can only find literature which deals with integrands...
  16. M

    Strange definition of regularization of Operators

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  17. R

    Calculating Integrals using Dimensional Regularization

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  18. R

    How Do I Derive the Zeta Function Using Zeta Function Regularization?

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  19. I

    Dimensional regularization

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  20. PerennialII

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