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math6
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hi :) if someone have any idea ?
what is the difference between a convex norm and strong convex norme ?
what is the difference between a convex norm and strong convex norme ?
A convex norm is a mathematical function that satisfies two properties: homogeneity and subadditivity. Homogeneity means that the norm of a scalar multiple of a vector is equal to the absolute value of the scalar multiplied by the norm of the vector. Subadditivity means that the norm of the sum of two vectors is less than or equal to the sum of their individual norms.
A strong convex norm is a convex norm that also satisfies an additional property called strong convexity. Strong convexity means that the norm of a vector is strictly greater than the norm of any non-zero vector that is not parallel to it. In other words, a strong convex norm penalizes large deviations from the origin more than a regular convex norm.
Convex norms and strong convex norms are used as regularizers in optimization problems. They add a penalty term to the objective function that encourages the solution to be close to the origin. This helps to prevent overfitting and improve the generalization ability of the model.
Yes, a convex norm can be both regular and strong. Some common examples of such norms include the L1 norm, L2 norm, and max norm. These norms are used in various optimization problems, such as linear regression and support vector machines.
The use of convex norms and strong convex norms in optimization has several advantages. They promote sparsity in the solution, making it easier to interpret and more computationally efficient. They also help to avoid local minima and saddle points in the optimization process. Moreover, the use of these norms leads to faster convergence and better performance in high-dimensional problems.