Non-extreme-Points Approach to Extreme Points of Integral Families of Analytic Functions

Q4 Mathematics New Zealand Journal of Mathematics Pub Date : 2021-08-12 DOI:10.53733/87
Keiko Dow
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Abstract

Non extreme points of compact, convex integral families of analytic functions are investigated. Knowledge about extreme points provides a valuable tool in the optimization of linear extremal problems. The functions studied are determined by a 2-parameter collection of kernel functions integrated against measures on the torus. Families from classical geometric function theory such as the closed convex hull of the derivatives of normalized close-to-convex functions, the ratio of starlike functions of different orders, as well as many others are included. However for these families of analytic functions, identifying “all” the extreme points remains a difficult challenge except in some special cases. Aharonov and Friedland [1] identified a band of points on the unit circle which corresponds to the set of extreme points for these 2-parameter collections of kernel functions. Later this band of extreme points was further extended by introducing a new technique by Dow and Wilken [3]. On the other hand, a technique to identify a non extreme point was not investigated much in the past probably because identifying non extreme points does not directly help solving the optimization of linear extremal problems. So far only one point on the unit circle has beenidentified which corresponds to a non extreme point for a 2-parameter collections of kernel functions. This leaves a big gap between the band of extreme points and one non extreme point. The author believes it is worth developing some techniques, and identifying non extreme points will shed a new light in the exact determination of the extreme points. The ultimate goal is to identify the point on the unit circle that separates the band of extreme points from non extreme points. The main result introduces a new class of non extreme points.
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解析函数积分族极值点的非极值点逼近
研究了解析函数的紧凸积分族的非极值点。关于极值点的知识为线性极值问题的优化提供了一个有价值的工具。所研究的函数是由核函数的2参数集合对环面上的测度进行积分确定的。经典几何函数理论中的族,如归一化近凸函数导数的闭合凸包,不同阶星形函数的比值,以及许多其他的都包括在内。然而,对于这些解析函数族,除了在一些特殊情况下,识别“所有”极值点仍然是一个困难的挑战。Aharonov和Friedland[1]在单位圆上确定了一个点带,对应于这些2参数核函数集合的极值点集。后来,这个极值点的范围被Dow和Wilken引入的一种新技术进一步扩展。另一方面,非极值点的识别技术在过去研究较少,这可能是因为非极值点的识别并不能直接帮助求解线性极值问题的优化。到目前为止,单位圆上只有一个点被确定,它对应于一个2参数核函数集合的非极值点。这在极值点带和一个非极值点带之间留下了很大的间隙。作者认为,开发一些技术是值得的,而非极值点的识别将为极值点的精确确定提供新的思路。最终目标是在单位圆上找出将极值点带与非极值点带分开的点。主要结果引入了一类新的非极值点。
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来源期刊
New Zealand Journal of Mathematics
New Zealand Journal of Mathematics Mathematics-Algebra and Number Theory
CiteScore
1.10
自引率
0.00%
发文量
11
审稿时长
50 weeks
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note on weak w-projective modules Robin inequality for n/phi(n) Bent-half space model problem for Lame equation with surface tension $k$-rational homotopy fixed points, $k\in \Bbb N$ note on the regularity criterion for the micropolar fluid equations in homogeneous Besov spaces
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