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Bezout Inequality for Mixed volumes

Geometric functional analysis and applications November 13, 2017 - November 17, 2017

November 15, 2017 (09:30 AM PST - 10:30 AM PST)
Speaker(s): Artem Zvavitch (Kent State University)
Location: MSRI:
Tags/Keywords
  • Bezout Inequality

  • Mixed volume

  • Projections

  • Convex Body

Primary Mathematics Subject Classification
Secondary Mathematics Subject Classification No Secondary AMS MSC
Video

10-Zvavitch

Abstract

In this talk we will discuss the following analog of Bezout inequality for mixed volumes: $$ V(P_1,\dots,P_r,\Delta^{n-r})V_n(\Delta)^{r-1}\leq \prod_{i=1}^r V(P_i,\Delta^{n-1})\ \text{ for }2\leq r\leq n. $$ We will show that the above inequality is true when $\Delta$ is an $n$-dimensional simplex and $P_1, \dots, P_r$ are convex bodies in ${\mathbb R}^n$. We present a conjecture that if the above inequality is true for all convex bodies $P_1, \dots, P_r$, then $\Delta$ must be an $n$-dimensional simplex. We will show that the conjecture is true for many special cases, for example, in ${\mathbb R}^2$ or if we assume that $\Delta$ is a convex polytope. Next we will discuss an isomorphic version of the Bezout inequality: what is the best constant $c(n,r)>0$ such that $$ V(P_1,\dots,P_r,\Delta^{n-r})V_n(D)^{r-1}\leq c(n,r)\prod_{i=1}^r V(P_i,D^{n-1})\ \text{ for }2\leq r\leq n, $$ where $P_1, \dots, P_r, D$ are convex bodies in ${\mathbb R}^n.$ Finally, we will present a connection of the above inequality to inequalities on the volume of orthogonal projections of convex bodies as well as inequalities for zonoids.

Supplements
30097?type=thumb Zvavitch Notes 717 KB application/pdf Download
Video/Audio Files

10-Zvavitch

H.264 Video 10-Zvavitch.mp4 97 MB video/mp4 rtsp://videos.msri.org/data/000/029/996/original/10-Zvavitch.mp4 Download
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