算子摄动与谱值映射的连续性

讨论 Hibert空间上有界线性算子摄动和谱值映射的连续性问题 .得到 σk(.)一类子集上半连续的充要条件和 H∞∞ (.)连续的充要条件 ,推广了文 [7]主要结果 .     

End spaces of graphs are normal

We show that the topological space of any infinite graph and its ends is normal. In particular, end spaces themselves are normal.     

Continuous benchmark selections

The existence of benchmark selections that are continuous both in production factors and technology is examined. If the class of technologies display non-convexities, continuous selections do not exist in general. For probabilistic benchmarks, i.e., lotteries over efficient productions, existence of continuous selections holds only under additional conditions of well-behavedness.     

Choice principles for special subsets of the real line

We study the role the axiom of choice plays in the existence of some special subsets of ? and its power set ?(?).     

Amarts: A class of asymptotic martingales B. Continuous parameter

A continuous-parameter ascending amart is a stochastic process (X_t)_{t +} such that E[X_τn] converges for every ascending sequence (τ_n) of optional times taking finitely many values. A descending amart is a process (X_t)_{t +} such that E[X_τn] converges for every descending sequence (τ_n), and an amart is a process which is both an ascending amart and a descending amart. Amarts include martingales and quasimartingales. The theory of continuous-parameter amarts parallels the theory of continuous-parameter martingales. For example, an amart has a modification every trajectory of which has right and left limits (in the ascending case, if it satisfies a mild boundedness condition). If an amart is right continuous in probability, then it has a modification every trajectory of which is right continuous. The Riesz and Doob-Meyer decomposition theorems are proved by applying the corresponding discrete-parameter decompositions. The Doob-Meyer decomposition theorem applies to general processes and generalizes the known Doob decompositions for continuous-parameter quasimartingales, submartingales, and supermartingales. A hyperamart is a process (X_t) such that E[X_τn] converges for any monotone sequence (τ_n) of bounded optional times, possibly not having finitely many values. Stronger limit theorems are available for hyperamarts. For example: A hyperamart (which satisfies mild regularity and boundedness conditions) is indistinguishable from a process all of whose trajectories have right and left limits.     

Complexity properties of recursively enumerable sets andbsQ-completeness

The notions of boundedly strongly effectively speedable set and boundedly effectively speedable set are introduced. It is proved that the notions of boundedly strongly effectively speedable set, boundedly effectively speedable set, creative set, andbsQ-complete recursively enumerable set are equivalent. Translated fromMatematicheskie Zametki, Vol. 68, No. 4, pp. 554–559, October, 2000.     

On the stability of the solution mapping for parametric traffic network problems

In this paper, we introduce the parametric traffic network problems. Afterward, a key hypothesis is introduced by virtue of a parametric gap function to considered problems, and we prove that this hypothesis is not only sufficient but also necessary for the Hausdorff lower semicontinuity and Hausdorff continuity of the solution mapping for parametric traffic network problems.     

Comparison of exponential‐logarithmic and logarithmic‐exponential series

We explain how the field of logarithmic‐exponential series constructed in 20 and 21 embeds as an exponential field in any field of exponential‐logarithmic series constructed in 9 , 6 , and 13 . On the other hand, we explain why no field of exponential‐logarithmic series embeds in the field of logarithmic‐exponential series. This clarifies why the two constructions are intrinsically different, in the sense that they produce non‐isomorphic models of Th$(\mathbb {R}_{\mbox{an, exp}})$; the elementary theory of the ordered field of real numbers, with the exponential function and restricted analytic functions.