In mathematics, a product metric is a metric on the Cartesian product of finitely many metric spaces which metrizes the product topology. The most prominent product metrics are the pproduct metrics for a fixed : It is defined as the p norm of the n-vector of the distances measured in n subspaces:
For this metric is also called the sup metric:
Choice of normedit
For Euclidean spaces, using the L2 norm gives rise to the Euclidean metric in the product space; however, any other choice of p will lead to a topologically equivalent metric space. In the category of metric spaces (with Lipschitz maps having Lipschitz constant 1), the product (in the category theory sense) uses the sup metric.
product, metric, mathematics, product, metric, metric, cartesian, product, finitely, many, metric, spaces, displaystyle, ldots, which, metrizes, product, topology, most, prominent, product, metrics, product, metrics, fixed, displaystyle, infty, defined, norm, . In mathematics a product metric is a metric on the Cartesian product of finitely many metric spaces X1 dX1 Xn dXn displaystyle X 1 d X 1 ldots X n d X n which metrizes the product topology The most prominent product metrics are the p product metrics for a fixed p 1 displaystyle p in 1 infty It is defined as the p norm of the n vector of the distances measured in n subspaces dp x1 xn y1 yn dX1 x1 y1 dXn xn yn p displaystyle d p x 1 ldots x n y 1 ldots y n left d X 1 x 1 y 1 ldots d X n x n y n right p For p displaystyle p infty this metric is also called the sup metric d x1 xn y1 yn max dX1 x1 y1 dXn xn yn displaystyle d infty x 1 ldots x n y 1 ldots y n max left d X 1 x 1 y 1 ldots d X n x n y n right Choice of norm editFor Euclidean spaces using the L2 norm gives rise to the Euclidean metric in the product space however any other choice of p will lead to a topologically equivalent metric space In the category of metric spaces with Lipschitz maps having Lipschitz constant 1 the product in the category theory sense uses the sup metric The case of Riemannian manifolds editFor Riemannian manifolds M1 g1 displaystyle M 1 g 1 nbsp and M2 g2 displaystyle M 2 g 2 nbsp the product metric g g1 g2 displaystyle g g 1 oplus g 2 nbsp on M1 M2 displaystyle M 1 times M 2 nbsp is defined by g X1 X2 Y1 Y2 g1 X1 Y1 g2 X2 Y2 displaystyle g X 1 X 2 Y 1 Y 2 g 1 X 1 Y 1 g 2 X 2 Y 2 nbsp for Xi Yi TpiMi displaystyle X i Y i in T p i M i nbsp under the natural identification T p1 p2 M1 M2 Tp1M1 Tp2M2 displaystyle T p 1 p 2 M 1 times M 2 T p 1 M 1 oplus T p 2 M 2 nbsp References editDeza Michel Marie Deza Elena 2009 Encyclopedia of Distances Springer Verlag p 83 Lee John 1997 Riemannian manifolds Springer Verlag ISBN 978 0 387 98322 6 Retrieved from https en wikipedia org w index php title Product metric amp oldid 1084814147, wikipedia, wiki, book, books, library,
