Difference between revisions of "Aleksandrov problem for isometric mappings"
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| + | Let $X$, $Y$ be two metric spaces, with respective distances $d_1$, $d _ { 2 }$ (cf. also [[Metric space|Metric space]]). A mapping $f : X \rightarrow Y$ is defined to be an isometry if $d_{2} ( f ( x ) , f ( y ) ) = d _ { 1 } ( x , y )$ for all $x , y \in X$. A mapping $f : X \rightarrow Y$ is said to preserve the distance $r$ if for all $x , y \in X$ with $d _ { 1 } ( x , y ) = r$ one has $d _ { 2 } ( f ( x ) , f ( y ) ) = r$. A.D. Aleksandrov has posed the problem whether the existence of a single preserved distance for some mapping $f$ implies that $f$ is an isometry (cf. [[#References|[a1]]]). | ||
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| + | Even if $X$, $Y$ are normed vector spaces, the above problem is not easy to answer (note that, in this case, taking $r = 1$ is no loss of generality). For example, the following question has not been solved yet (as of 2000): Is a mapping $f$ from $\mathbf{R} ^ { 2 }$ to $\mathbf{R} ^ { 3 }$ preserving unit distance necessarily an isometry (cf. [[#References|[a17]]])? | ||
The discussion of Aleksandrov's problem under certain additional conditions on the given mapping preserving unit distance has led to several interesting and new problems (cf. [[#References|[a14]]], [[#References|[a15]]], [[#References|[a16]]], [[#References|[a18]]], [[#References|[a17]]]). | The discussion of Aleksandrov's problem under certain additional conditions on the given mapping preserving unit distance has led to several interesting and new problems (cf. [[#References|[a14]]], [[#References|[a15]]], [[#References|[a16]]], [[#References|[a18]]], [[#References|[a17]]]). | ||
| − | The Aleksandrov problem has been solved for Euclidean spaces | + | The Aleksandrov problem has been solved for Euclidean spaces $X = Y = \mathbf{R} ^ { n }$: For $2 \leq n < \infty$, the answer is positive [[#References|[a2]]], while for $n = 1 , \infty$, the answer is negative [[#References|[a2]]], [[#References|[a5]]], [[#References|[a13]]]. In general normed vector spaces, the answer is positive for a mapping that is contractive, surjective and preserves the unit distance. The problem also has a positive solution when $X$ and $Y$ are strictly convex vector spaces, provided $f$ is a [[Homeomorphism|homeomorphism]] and the dimension of $X$ is greater than $2$ (cf. [[#References|[a12]]], [[#References|[a20]]]). |
| − | The Aleksandrov problem has also been solved in some special cases of mappings | + | The Aleksandrov problem has also been solved in some special cases of mappings $f : X \rightarrow Y$ which preserve two distances with an integer ratio greater than $1$, with $X$ and $Y$ strictly convex vector spaces and the dimension of $X$ greater than $1$ (cf. [[#References|[a3]]], [[#References|[a16]]], [[#References|[a17]]]). Furthermore, when $X$, $Y$ are Hilbert spaces and the dimension of $X$ is greater than $1$, a lot of work has been done (cf. [[#References|[a21]]], [[#References|[a22]]], [[#References|[a23]]]; for example, when $f$ preserves the two distances $1$ and $\sqrt { 3 }$; when $\operatorname{dim} X \geq 3$ and $f$ preserves $1$ and $\sqrt { 2 }$, then $f$ is an affine isometry, etc.). |
Problems connected with stability of isometries as well as non-linear perturbations of isometries have been extensively studied in [[#References|[a4]]], [[#References|[a5]]], [[#References|[a6]]], [[#References|[a7]]], [[#References|[a8]]], [[#References|[a9]]], [[#References|[a10]]], [[#References|[a11]]]. | Problems connected with stability of isometries as well as non-linear perturbations of isometries have been extensively studied in [[#References|[a4]]], [[#References|[a5]]], [[#References|[a6]]], [[#References|[a7]]], [[#References|[a8]]], [[#References|[a9]]], [[#References|[a10]]], [[#References|[a11]]]. | ||
====References==== | ====References==== | ||
| − | <table>< | + | <table><tr><td valign="top">[a1]</td> <td valign="top"> A.D. Aleksandrov, "Mapping of families of sets" ''Soviet Math. Dokl.'' , '''11''' (1970) pp. 116–120</td></tr><tr><td valign="top">[a2]</td> <td valign="top"> F.S. Beckman, D.A. Quarles, "On isometries of Euclidean spaces" ''Proc. Amer. Math. Soc.'' , '''4''' (1953) pp. 810–815</td></tr><tr><td valign="top">[a3]</td> <td valign="top"> W. Benz, H. Berens, "A contribution to a theorem of Ulam–Mazur" ''Aquat. Math.'' , '''34''' (1987) pp. 61–63</td></tr><tr><td valign="top">[a4]</td> <td valign="top"> D.G. Bourgain, "Approximate isometries" ''Bull. Amer. Math. Soc.'' , '''52''' (1946) pp. 704–714</td></tr><tr><td valign="top">[a5]</td> <td valign="top"> K. Ciesielski, Th.M. Rassias, "On some properties of isometric mappings" ''Facta Univ. Ser. Math. Inform.'' , '''7''' (1992) pp. 107–115</td></tr><tr><td valign="top">[a6]</td> <td valign="top"> G. Dolinar, "Generalized stability of isometries" ''J. Math. Anal. Appl.'' , '''202''' (2000) pp. 39–56</td></tr><tr><td valign="top">[a7]</td> <td valign="top"> J. Gevirtz, "Stability of isometries on Banach spaces" ''Proc. Amer. Math. Soc.'' , '''89''' (1983) pp. 633–636</td></tr><tr><td valign="top">[a8]</td> <td valign="top"> P.M. Gruber, "Stability of isometries" ''Trans. Amer. Math. Soc.'' , '''245''' (1978) pp. 263–277</td></tr><tr><td valign="top">[a9]</td> <td valign="top"> J. Lindenstrauss, A. Szankowski, "Non linear perturbations of isometries" ''Astérisque'' , '''131''' (1985) pp. 357–371</td></tr><tr><td valign="top">[a10]</td> <td valign="top"> D.H. Hyers, S.M. Mazur, "On approximate isometries" ''Bull. Amer. Math. Soc.'' , '''51''' (1945) pp. 288–292</td></tr><tr><td valign="top">[a11]</td> <td valign="top"> S.M. Mastir, S. Ulam, "Sur les transformations isométriques d'espaces vectoriels normés" ''C.R. Acad. Sci. Paris'' , '''194''' (1932) pp. 946–948</td></tr><tr><td valign="top">[a12]</td> <td valign="top"> B. Mielnik, Th.M. Rassias, "On the Aleksandrov problem of conservative distances" ''Proc. Amer. Math. Soc.'' , '''116''' (1992) pp. 1115–1118</td></tr><tr><td valign="top">[a13]</td> <td valign="top"> Th.M. Rassias, "Some remarks on isometric mappings" ''Facta Univ. Ser. Math. Inform.'' , '''2''' (1987) pp. 49–52</td></tr><tr><td valign="top">[a14]</td> <td valign="top"> Th.M. Rassias, "Is a distance one preserving maping between metric space always an isometry?" ''Amer. Math. Monthly'' , '''90''' (1983) pp. 200</td></tr><tr><td valign="top">[a15]</td> <td valign="top"> Th.M. Rassias, "The stability of linear mappings and some problems on isometries" , ''Proc. Internat. Conf. Math. Anal. Appl. Kuwait, 1985'' , Pergamon (1988) pp. 175–184</td></tr><tr><td valign="top">[a16]</td> <td valign="top"> Th.M. Rassias, "Mappings that preserve unit distance" ''Indian J. Math.'' , '''32''' (1990) pp. 275–278</td></tr><tr><td valign="top">[a17]</td> <td valign="top"> Th.M. Rassias, "Properties of isometries and approximate isometries" , ''Recent Progress in Inequalities'' , Kluwer Acad. Publ. (1998) pp. 325–345</td></tr><tr><td valign="top">[a18]</td> <td valign="top"> Th.M. Rassias, "Remarks and problems" ''Aequat. Math.'' , '''39''' (1990) pp. 304</td></tr><tr><td valign="top">[a19]</td> <td valign="top"> Th.M. Rassias, "Remarks and problems" ''Aequat. Math.'' , '''56''' (1998) pp. 304–306</td></tr><tr><td valign="top">[a20]</td> <td valign="top"> Th.M. Rassias, P. Semrl, "On the Masur–Ulam theorem and the Aleksandrov probiem for unit distance preserving mapping" ''Proc. Amer. Math. Soc.'' , '''118''' (1993) pp. 919–925</td></tr><tr><td valign="top">[a21]</td> <td valign="top"> Th.M. Rassias, Shuhuang Xiang, "On mappings with conservative distance and the Mazur–Ulam theorem" ''Publ. EPT.'' , '''to appear''' (2000)</td></tr><tr><td valign="top">[a22]</td> <td valign="top"> Shuhuang Xiang, "Aleksandrov problem and mappings which preserves distances" , ''Funct. Equations and Inequalities'' , Kluwer Acad. Publ. (2000) pp. 297–323</td></tr><tr><td valign="top">[a23]</td> <td valign="top"> Shuhuang Xiang, "Mappings of conservative distances and the Mazur–Ulam theorem" ''J. Math. Anal. Appl.'' , '''254''' (2001) pp. 262–274</td></tr></table> |
Latest revision as of 16:46, 1 July 2020
Let $X$, $Y$ be two metric spaces, with respective distances $d_1$, $d _ { 2 }$ (cf. also Metric space). A mapping $f : X \rightarrow Y$ is defined to be an isometry if $d_{2} ( f ( x ) , f ( y ) ) = d _ { 1 } ( x , y )$ for all $x , y \in X$. A mapping $f : X \rightarrow Y$ is said to preserve the distance $r$ if for all $x , y \in X$ with $d _ { 1 } ( x , y ) = r$ one has $d _ { 2 } ( f ( x ) , f ( y ) ) = r$. A.D. Aleksandrov has posed the problem whether the existence of a single preserved distance for some mapping $f$ implies that $f$ is an isometry (cf. [a1]).
Even if $X$, $Y$ are normed vector spaces, the above problem is not easy to answer (note that, in this case, taking $r = 1$ is no loss of generality). For example, the following question has not been solved yet (as of 2000): Is a mapping $f$ from $\mathbf{R} ^ { 2 }$ to $\mathbf{R} ^ { 3 }$ preserving unit distance necessarily an isometry (cf. [a17])?
The discussion of Aleksandrov's problem under certain additional conditions on the given mapping preserving unit distance has led to several interesting and new problems (cf. [a14], [a15], [a16], [a18], [a17]).
The Aleksandrov problem has been solved for Euclidean spaces $X = Y = \mathbf{R} ^ { n }$: For $2 \leq n < \infty$, the answer is positive [a2], while for $n = 1 , \infty$, the answer is negative [a2], [a5], [a13]. In general normed vector spaces, the answer is positive for a mapping that is contractive, surjective and preserves the unit distance. The problem also has a positive solution when $X$ and $Y$ are strictly convex vector spaces, provided $f$ is a homeomorphism and the dimension of $X$ is greater than $2$ (cf. [a12], [a20]).
The Aleksandrov problem has also been solved in some special cases of mappings $f : X \rightarrow Y$ which preserve two distances with an integer ratio greater than $1$, with $X$ and $Y$ strictly convex vector spaces and the dimension of $X$ greater than $1$ (cf. [a3], [a16], [a17]). Furthermore, when $X$, $Y$ are Hilbert spaces and the dimension of $X$ is greater than $1$, a lot of work has been done (cf. [a21], [a22], [a23]; for example, when $f$ preserves the two distances $1$ and $\sqrt { 3 }$; when $\operatorname{dim} X \geq 3$ and $f$ preserves $1$ and $\sqrt { 2 }$, then $f$ is an affine isometry, etc.).
Problems connected with stability of isometries as well as non-linear perturbations of isometries have been extensively studied in [a4], [a5], [a6], [a7], [a8], [a9], [a10], [a11].
References
| [a1] | A.D. Aleksandrov, "Mapping of families of sets" Soviet Math. Dokl. , 11 (1970) pp. 116–120 |
| [a2] | F.S. Beckman, D.A. Quarles, "On isometries of Euclidean spaces" Proc. Amer. Math. Soc. , 4 (1953) pp. 810–815 |
| [a3] | W. Benz, H. Berens, "A contribution to a theorem of Ulam–Mazur" Aquat. Math. , 34 (1987) pp. 61–63 |
| [a4] | D.G. Bourgain, "Approximate isometries" Bull. Amer. Math. Soc. , 52 (1946) pp. 704–714 |
| [a5] | K. Ciesielski, Th.M. Rassias, "On some properties of isometric mappings" Facta Univ. Ser. Math. Inform. , 7 (1992) pp. 107–115 |
| [a6] | G. Dolinar, "Generalized stability of isometries" J. Math. Anal. Appl. , 202 (2000) pp. 39–56 |
| [a7] | J. Gevirtz, "Stability of isometries on Banach spaces" Proc. Amer. Math. Soc. , 89 (1983) pp. 633–636 |
| [a8] | P.M. Gruber, "Stability of isometries" Trans. Amer. Math. Soc. , 245 (1978) pp. 263–277 |
| [a9] | J. Lindenstrauss, A. Szankowski, "Non linear perturbations of isometries" Astérisque , 131 (1985) pp. 357–371 |
| [a10] | D.H. Hyers, S.M. Mazur, "On approximate isometries" Bull. Amer. Math. Soc. , 51 (1945) pp. 288–292 |
| [a11] | S.M. Mastir, S. Ulam, "Sur les transformations isométriques d'espaces vectoriels normés" C.R. Acad. Sci. Paris , 194 (1932) pp. 946–948 |
| [a12] | B. Mielnik, Th.M. Rassias, "On the Aleksandrov problem of conservative distances" Proc. Amer. Math. Soc. , 116 (1992) pp. 1115–1118 |
| [a13] | Th.M. Rassias, "Some remarks on isometric mappings" Facta Univ. Ser. Math. Inform. , 2 (1987) pp. 49–52 |
| [a14] | Th.M. Rassias, "Is a distance one preserving maping between metric space always an isometry?" Amer. Math. Monthly , 90 (1983) pp. 200 |
| [a15] | Th.M. Rassias, "The stability of linear mappings and some problems on isometries" , Proc. Internat. Conf. Math. Anal. Appl. Kuwait, 1985 , Pergamon (1988) pp. 175–184 |
| [a16] | Th.M. Rassias, "Mappings that preserve unit distance" Indian J. Math. , 32 (1990) pp. 275–278 |
| [a17] | Th.M. Rassias, "Properties of isometries and approximate isometries" , Recent Progress in Inequalities , Kluwer Acad. Publ. (1998) pp. 325–345 |
| [a18] | Th.M. Rassias, "Remarks and problems" Aequat. Math. , 39 (1990) pp. 304 |
| [a19] | Th.M. Rassias, "Remarks and problems" Aequat. Math. , 56 (1998) pp. 304–306 |
| [a20] | Th.M. Rassias, P. Semrl, "On the Masur–Ulam theorem and the Aleksandrov probiem for unit distance preserving mapping" Proc. Amer. Math. Soc. , 118 (1993) pp. 919–925 |
| [a21] | Th.M. Rassias, Shuhuang Xiang, "On mappings with conservative distance and the Mazur–Ulam theorem" Publ. EPT. , to appear (2000) |
| [a22] | Shuhuang Xiang, "Aleksandrov problem and mappings which preserves distances" , Funct. Equations and Inequalities , Kluwer Acad. Publ. (2000) pp. 297–323 |
| [a23] | Shuhuang Xiang, "Mappings of conservative distances and the Mazur–Ulam theorem" J. Math. Anal. Appl. , 254 (2001) pp. 262–274 |
How to Cite This Entry:
Aleksandrov problem for isometric mappings. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Aleksandrov_problem_for_isometric_mappings&oldid=17029
Aleksandrov problem for isometric mappings. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Aleksandrov_problem_for_isometric_mappings&oldid=17029
This article was adapted from an original article by Shuhuang Xiang (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article