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    • 徐茂中,唐矛宁,孟庆欣.一类由Lévy过程驱动的正倒向随机微分方程及在LQ问题中的应用[J].数学年刊A辑,2025,46(4):403~434
    一类由Lévy过程驱动的正倒向随机微分方程及在LQ问题中的应用
    A Class of Forward-Backward Stochastic Differential Equations Driven by L'évy Processes and Application to LQ Problems
    Received:April 11, 2025  Revised:October 31, 2025
    DOI:10.16205/j.cnki.cama.2025.0026
    中文关键词:  时滞  正倒向随机微分方程  Lévy过程  参数延拓法  控制单调性条件  随机LQ问题
    英文关键词:Delay  Forward-backward stochastic differential equation  Lévy processes  Method of continuation  Domination-monotonicity condition  Stochastic linear-quadratic problem
    基金项目:国家自然科学基金(No. 12271158, No. 11871121);浙江省自然科学基金(No. Z22A013952)
    Author NameAffiliation
    XU Maozhong School of Mathematical Sciences, Zhejiang Normal University, Jinhua 321004, Zhejiang, China 
    TANG Maoning School of Science, Huzhou University, Huzhou 313000, Zhejiang, China 
    MENG Qingxin School of Science, Huzhou University, Huzhou 313000, Zhejiang, China 
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    中文摘要:
          作者重点研究一类含时滞与超前项、由Lévy过程驱动的非线性完全耦合正倒向随机微分方程 . 结合含时滞与Lévy过程的线性二次 (LQ) 最优控制问题实例, 针对该类FBSDELDAs采用一组控制单调性条件, 运用参数延拓法, 得到其解的唯一存在性及解对生成元的连续依赖性结果. 这些结果对一系列LQ问题具有重要意义, 其中的随机哈密顿系统恰好是满足控制单调性条件的FBSDELDAs, 因此可利用相应随机哈密顿系统的解, 建立唯一最优控制的显式对偶表达式.
    英文摘要:
          The authors’ focus lies in the thorough investigation of a specific category of nonlinear fully coupled forward-backward stochastic differential equations involving time delays and advancements with the incorporation of L'évy processes, which shall be abbreviated as FBSDELDAs. Drawing inspiration from diverse examples of linear-quadratic (LQ for short) optimal control problems featuring delays and L'évy processes, the authors proceed to employ a set of domination-monotonicity conditions tailored to this class of FBSDELDAs. Through the application of the continuation method, the authors achieve the pivotal results of unique solvability and the derivation of a pair of estimates for the solutions of these FBSDELDAs. These findings, in turn, carry significant implications for a range of LQ problems. Specifically, they are relevant when stochastic Hamiltonian systems perfectly align with the FBSDELDAs that fulfill the domination-monotonicity conditions. Consequently, the authors are able to establish explicit expressions for the unique optimal controls by utilizing the solutions of the corresponding stochastic Hamiltonian systems.
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