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495 results on '"Shi, Xiaomin"'

1. Constrained stochastic linear quadratic control under regime switching with controlled jump size

Author

Shi, Xiaomin and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control, Mathematics - Probability
Abstract

In this paper, we examine a stochastic linear-quadratic control problem characterized by regime switching and Poisson jumps. All the coefficients in the problem are random processes adapted to the filtration generated by Brownian motion and the Poisson random measure for each given regime. The model incorporates two distinct types of controls: the first is a conventional control that appears in the continuous diffusion component, while the second is an unconventional control, dependent on the variable $z$, which influences the jump size in the jump diffusion component. Both controls are constrained within general closed cones. By employing the Meyer-It\^o formula in conjunction with a generalized squares completion technique, we rigorously and explicitly derive the optimal value and optimal feedback control. These depend on solutions to certain multi-dimensional fully coupled stochastic Riccati equations, which are essentially backward stochastic differential equations with jumps (BSDEJs). We establish the existence of a unique nonnegative solution to the BSDEJs. One of the major tools used in the proof is the newly established comparison theorems for multidimensional BSDEJs.

Published
2024

2. A System of BSDEs with Singular Terminal Values Arising in Optimal Liquidation with Regime Switching

Author

Fu, Guanxing, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control, Mathematics - Probability
Abstract

We study a stochastic control problem with regime switching arising in an optimal liquidation problem with dark pools and multiple regimes. The new feature of this model is that it introduces a system of BSDEs with jumps and with singular terminal values, which appears in literature for the first time. The existence result for this system is obtained. As a result, we solve the stochastic control problem with regime switching. More importantly, the uniqueness result of this system is also obtained, in contrast to merely minimal solutions established in most related literature., Comment: 19 pages

Published
2024

3. Constrained mean-variance investment-reinsurance under the Cram\'er-Lundberg model with random coefficients

Author

Shi, Xiaomin and Xu, Zuo Quan

Subjects
Quantitative Finance - Portfolio Management, Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance
Abstract

In this paper, we study an optimal mean-variance investment-reinsurance problem for an insurer (she) under a Cram\'er-Lundberg model with random coefficients. At any time, the insurer can purchase reinsurance or acquire new business and invest her surplus in a security market consisting of a risk-free asset and multiple risky assets, subject to a general convex cone investment constraint. We reduce the problem to a constrained stochastic linear-quadratic control problem with jumps whose solution is related to a system of partially coupled stochastic Riccati equations (SREs). Then we devote ourselves to establishing the existence and uniqueness of solutions to the SREs by pure backward stochastic differential equation (BSDE) techniques. We achieve this with the help of approximation procedure, comparison theorems for BSDEs with jumps, log transformation and BMO martingales. The efficient investment-reinsurance strategy and efficient mean-variance frontier are explicitly given through the solutions of the SREs, which are shown to be a linear feedback form of the wealth process and a half-line, respectively.

Published
2024

4. Mean-variance portfolio selection in jump-diffusion model under no-shorting constraint: A viscosity solution approach

Author

Shi, Xiaomin and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance, Quantitative Finance - Portfolio Management
Abstract

This paper concerns a continuous time mean-variance (MV) portfolio selection problem in a jump-diffusion financial model with no-shorting trading constraint. The problem is reduced to two subproblems: solving a stochastic linear-quadratic (LQ) control problem under control constraint, and finding a maximal point of a real function. Based on a two-dimensional fully coupled ordinary differential equation (ODE), we construct an explicit viscosity solution to the Hamilton-Jacobi-Bellman equation of the constrained LQ problem. Together with the Meyer-It\^o formula and a verification procedure, we obtain the optimal feedback controls of the constrained LQ problem and the original MV problem, which corrects the flawed results in some existing literatures. In addition, closed-form efficient portfolio and efficient frontier are derived. In the end, we present several examples where the two-dimensional ODE is decoupled.

Published
2024

5. Constrained monotone mean--variance investment-reinsurance under the Cram\'er--Lundberg model with random coefficients

Author

Shi, Xiaomin and Xu, Zuo Quan

Subjects
Quantitative Finance - Portfolio Management, Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance, 91B16. 93E20. 60H30. 91G10
Abstract

This paper studies an optimal investment-reinsurance problem for an insurer (she) under the Cram\'er--Lundberg model with monotone mean--variance (MMV) criterion. At any time, the insurer can purchase reinsurance (or acquire new business) and invest in a security market consisting of a risk-free asset and multiple risky assets whose excess return rate and volatility rate are allowed to be random. The trading strategy is subject to a general convex cone constraint, encompassing no-shorting constraint as a special case. The optimal investment-reinsurance strategy and optimal value for the MMV problem are deduced by solving certain backward stochastic differential equations with jumps. In the literature, it is known that models with MMV criterion and mean--variance criterion lead to the same optimal strategy and optimal value when the wealth process is continuous. Our result shows that the conclusion remains true even if the wealth process has compensated Poisson jumps and the market coefficients are random., Comment: arXiv admin note: text overlap with arXiv:2212.14188

Published
2024
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8. Comparison theorems for multi-dimensional BSDEs with jumps and applications to constrained stochastic linear-quadratic control

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Probability, Mathematics - Optimization and Control
Abstract

In this paper, we, for the first time, establish two comparison theorems for multi-dimensional backward stochastic differential equations with jumps. Our approach is novel and completely different from the existing results for one-dimensional case. Using these and other delicate tools, we then construct solutions to coupled two-dimensional stochastic Riccati equation with jumps in both standard and singular cases. In the end, these results are applied to solve a cone-constrained stochastic linear-quadratic and a mean-variance portfolio selection problem with jumps. Different from no jump problems, the optimal (relative) state processes may change their signs, which is of course due to the presence of jumps.

Published
2023

14. Constrained monotone mean-variance problem with random coefficients

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control
Abstract

This paper studies the monotone mean-variance (MMV) problem and the classical mean-variance (MV) problem with convex cone trading constraints in a market with random coefficients. We provide semiclosed optimal strategies and optimal values for both problems via certain backward stochastic differential equations (BSDEs). After noting the links between these BSDEs, we find that the two problems share the same optimal portfolio and optimal value. This generalizes the result of Shen and Zou $[$ SIAM J. Financial Math., 13 (2022), pp. SC99-SC112$]$ from deterministic coefficients to random ones.

Published
2022

15. Optimal consumption-investment with coupled constraints on consumption and investment strategies in a regime switching market with random coefficients

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Probability, Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance
Abstract

This paper studies finite-time optimal consumption-investment problems with power, logarithmic and exponential utilities, in a regime switching market with random coefficients, subject to coupled constraints on the consumption and investment strategies. We provide explicit optimal consumption-investment strategies and optimal values for the problems in terms of the solutions to some diagonally quadratic backward stochastic differential equation (BSDE) systems and linear BSDE systems with unbound coefficients. Some of these BSDEs are new in the literature and solving them is one of the main theoretical contributions of this paper. We accomplish the latter by applying the truncation, approximation technique to get some a priori uniformly lower and upper bounds for their solutions.

Published
2022

19. Stochastic linear-quadratic control with a jump and regime switching on a random horizon

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control
Abstract

In this paper, we study a stochastic linear-quadratic control problem with random coefficients and regime switching on a horizon $[0,T\wedge\tau]$, where $\tau$ is a given random jump time for the underlying state process and $T$ is a constant. We obtain an explicit optimal state feedback control and explicit optimal cost value by solving a system of stochastic Riccati equations (SREs) with jumps on $[0,T\wedge\tau]$. By the decomposition approach stemming from filtration enlargement theory, we express the solution of the system of SREs with jumps in terms of another system of SREs involving only Brownian filtration on the deterministic horizon $[0,T]$. Solving the latter system is the key theoretical contribution of this paper and we establish this for three different cases, one of which seems to be new in the literature. These results are then applied to study a mean-variance hedging problem with random parameters that depend on both Brownian motion and Markov chain. The optimal portfolio and optimal value are presented in closed forms with the aid of a system of linear backward stochastic differential equations with jumps and unbounded coefficients in addition to the SREs with jumps.

Published
2022

20. Non-homogeneous stochastic LQ control with regime switching and random coefficients

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance
Abstract

This paper is concerned with a general non-homogeneous stochastic linear quadratic (LQ) control problem with regime switching and random coefficients. We obtain the explicit optimal state feedback control and optimal value for this problem in terms of two systems of backward stochastic differential equations (BSDEs): one is the famous stochastic Riccati equation and the other one is a new linear multi-dimensional BSDE with all coefficients being unbounded. The existence and uniqueness of the solutions to these two systems of BSDEs are proved by means of BMO martingales and contraction mapping method. At last, the theory is applied to study an asset-liability management problem under the mean-variance criteria., Comment: arXiv admin note: text overlap with arXiv:2004.11832

Published
2022

21. Continuous-time Markowitz's mean-variance model under different borrowing and saving rates

Author

Guan, Chonghu, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Analysis of PDEs, Mathematics - Optimization and Control, Quantitative Finance - Portfolio Management, 35R35, 35Q93, 91G10, 91G30, 93E20
Abstract

We study Markowitz's mean-variance portfolio selection problem in a continuous-time Black-Scholes market with different borrowing and saving rates. The associated Hamilton-Jacobi-Bellman equation is fully nonlinear. Using a delicate partial differential equation and verification argument, the value function is proven to be $C^{3,2}$ smooth. It is also shown that there are a borrowing boundary and a saving barrier which divide the entire trading area into a borrowing-money region, an all-in-stock region, and a saving-money region in ascending order. The optimal trading strategy is a mixture of continuous-time strategy (as suggested by most continuous-time models) and discontinuous-time strategy (as suggested by models with transaction costs): one should put all her wealth in the stock in the middle all-in-stock region, and continuously trade it in the other two regions in a feedback form of wealth and time. It is never optimal to short sale the stock. Numerical examples are also presented to verify the theoretical results and to give more financial insights beyond them.

Published
2022

24. Constrained stochastic LQ control on infinite time horizon with regime switching

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control
Abstract

This paper is concerned with a stochastic linear-quadratic (LQ) optimal control problem on infinite time horizon, with regime switching, random coefficients, and cone control constraint. To tackle the problem, two new extended stochastic Riccati equations (ESREs) on infinite time horizon are introduced. The existence of the nonnegative solutions, in both standard and singular cases, is proved through a sequence of ESREs on finite time horizon. Based on this result and some approximation techniques, we obtain the optimal state feedback control and optimal value for the stochastic LQ problem explicitly. Finally, we apply these results to solve a lifetime portfolio selection problem of tracking a given wealth level with regime switching and portfolio constraint., Comment: arXiv admin note: text overlap with arXiv:2004.11832

Published
2021
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27. Constrained stochastic LQ control with regime switching and application to portfolio selection

Author

Hu, Ying, Shi, Xiaomin, and Xu, Zuo Quan

Subjects
Mathematics - Optimization and Control, Mathematics - Probability
Abstract

This paper is concerned with a stochastic linear-quadratic optimal control problem with regime switching, random coefficients, and cone control constraint. The randomness of the coefficients comes from two aspects: the Brownian motion and the Markov chain. Using It\^{o}'s lemma for Markov chain, we obtain the optimal state feedback control and optimal cost value explicitly via two new systems of extended stochastic Riccati equations (ESREs). We prove the existence and uniqueness of the two ESREs using tools including multidimensional comparison theorem, truncation function technique, log transformation and the John-Nirenberg inequality. These results are then applied to study mean-variance portfolio selection problems with and without short-selling prohibition with random parameters depending on both the Brownian motion and the Markov chain. Finally, the efficient portfolios and efficient frontiers are presented in closed forms.

Published
2020

41. Hepatotoxicity of statins: a real-world study based on the US Food and Drug Administration Adverse Event Reporting System database.

Author

Wang, Bojing, Huang, Shu, Li, Shiqi, Deng, Yaqi, Li, Ziyan, Wang, Yizhou, Shi, Xiaomin, Zhang, Wei, Shi, Lei, Wang, Xiaohong, and Tang, Xiaowei

Subjects
DRUG side effects, AUTOIMMUNE hepatitis, STATINS (Cardiovascular agents), ATORVASTATIN, FLUVASTATIN, MEDICATION safety
Abstract

Background: Statins, as an important class of lipid-lowering drugs, play a key role in the prevention and treatment of cardiovascular diseases. However, with their widespread use in clinical practice, some adverse events have gradually emerged. In particular, the hepatotoxicity associated with statins use has become one of the clinical concerns that require sufficient attention. Methods: In this study, we conducted a comprehensive and detailed analysis of the hepatotoxicity of statins based on the data of the US Food and Drug Administration Adverse Event Reporting System database from the first quarter (Q1) of 2004 to the Q1 of 2024 and used Reporting Odds Ratios and Empirical Bayes Geometric Mean to mine the signal of adverse events. Results: In this study, hepatic disorder related seven statins all exhibited positive signals. Through signal mining, we identified a total of 14,511 cases of adverse events associated with hepatic disorder caused by these statin drugs, with atorvastatin, simvastatin, and rosuvastatin occurring at a higher rate. A total of 148 positive signals related to adverse events of hepatic disorder were captured. Autoimmune hepatitis and drug-induced liver injury both presented positive signals across multiple statin drugs. Notably, atorvastatin had the most significant signal strength in cholestatic pruritus and bilirubin conjugation abnormal. Fluvastatin also showed notable signal strength in autoimmune hepatitis, while simvastatin had a relatively weaker signal strength for hepatic enzyme increased. Conclusion: This study discovered specific adverse event signal values, revealing potential hepatotoxic risks associated with the use of statin drugs. The results provide an important reference for the safe clinical use of drugs, help to improve the understanding of the safety of statins, and also provide a scientific basis for clinicians to make more accurate and safe decisions when making treatment plans. [ABSTRACT FROM AUTHOR]

Published
2025
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42. Integrated singlecell and bulk RNA-seq analysis identifies a prognostic signature related to inflammation in colorectal cancer.

Author

Yin, Wen, Ao, Yanting, Jia, Qian, Zhang, Chao, Yuan, Liping, Liu, Sha, Xiao, Wanmeng, Luo, Gang, Shi, Xiaomin, Xin, Chen, Chen, Maolin, Lü, Muhan, and Yu, Zehui

Subjects
DISEASE risk factors, GENETIC load, MEDICAL sciences, GENE expression, IMMUNE checkpoint proteins
Abstract

Inflammation can influence the development of CRC as well as immunotherapy and plays a key role in CRC. Therefore, this study aimed to investigate the potential of inflammation-related genes in CRC risk prediction. Inflammation gene models were constructed and validated by combining transcriptomic and single-cell data from TCGA and GEO databases, and the expression of inflammation-related genes was verified by RT-qPCR. We identified two molecular subtypes and three genetic subtypes, two risk subgroups according to median risk values, constructed a prognostic model including thirteen genes (TIMP1, GDF15, UCN, KRT4, POU4F1, NXPH1, SIX2, NPC1L1, KLK12, IGFL1, FOXD1, ASPG, and CYP4F8), and validated the performance of each aspect of the model in an external database. Patients in the high-risk group had worse survival with reduced immune cell infiltration and a greater tumor mutational load. The risk score correlated strongly with the immune checkpoints PD1, PDL1, PDL2, and CTLA4, and it is possible that high-risk patients are more sensitive to treatment involving immune checkpoints. In the single-cell data, GDF15 was most significantly expressed in cancer cell populations. Therefore, we further validated their expression in cells and tissues using qPCR. In summary, we developed a prognostic marker associated with inflammatory genes to provide new directions for subsequent studies and to help clinicians assess the prognosis of CRC patients as well as to develop personalized treatment strategies. [ABSTRACT FROM AUTHOR]

Published
2025
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43. Mean-variance portfolio selection with nonlinear wealth dynamics and random coefficients

Author

Ji, Shaolin, Jin, Hanqing, and Shi, Xiaomin

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control
Abstract

This paper studies the continuous time mean-variance portfolio selection problem with one kind of non-linear wealth dynamics. To deal the expectation constraint, an auxiliary stochastic control problem is firstly solved by two new generalized stochastic Riccati equations from which a candidate portfolio in feedback form is constructed, and the corresponding wealth process will never cross the vertex of the parabola. In order to verify the optimality of the candidate portfolio, the convex duality (requires the monotonicity of the cost function) is established to give another more direct expression of the terminal wealth level. The variance-optimal martingale measure and the link between the non-linear financial market and the classical linear market are also provided. Finally, we obtain the efficient frontier in closed form. From our results, people are more likely to invest their money in riskless asset compared with the classical linear market.

Published
2017

45. Recursive utility optimization with concave coefficients

Author

Ji, Shaolin and Shi, Xiaomin

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control
Abstract

This paper concerns the recursive utility maximization problem. We assume that the coefficients of the wealth equation and the recursive utility are concave. Then some interesting and important cases with nonlinear and nonsmooth coefficients satisfy our assumption. After given an equivalent backward formulation of our problem, we employ the Fenchel-Legendre transform and derive the corresponding variational formulation. By the convex duality method, the primal "sup-inf" problem is translated to a dual minimization problem and the saddle point of our problem is derived. Finally, we obtain the optimal terminal wealth. To illustrate our results, three cases for investors with ambiguity aversion are explicitly worked out under some special assumptions.

Published
2016

46. Explicit solutions for continuous time mean-variance portfolio selection with nonlinear wealth equations

Author

Ji, Shaolin and Shi, Xiaomin

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control, Mathematics - Probability, Quantitative Finance - Portfolio Management
Abstract

This paper concerns the continuous time mean-variance portfolio selection problem with a special nonlinear wealth equation. This nonlinear wealth equation has a nonsmooth coefficient and the dual method developed in [6] does not work. We invoke the HJB equation of this problem and give an explicit viscosity solution of the HJB equation. Furthermore, via this explicit viscosity solution, we obtain explicitly the efficient portfolio strategy and efficient frontier for this problem. Finally, we show that our nonlinear wealth equation can cover three important cases.

Published
2016

47. Recursive utility maximization under partial information

Author

Ji, Shaolin and Shi, Xiaomin

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Optimization and Control, Mathematics - Probability, 93E20, 91A30, 90C46
Abstract

This paper concerns the recursive utility maximization problem under partial information. We first transform our problem under partial information into the one under full information. When the generator of the recursive utility is concave, we adopt the variational formulation of the recursive utility which leads to a stochastic game problem and a characterization of the saddle point of the game is obtained. Then, we study the K-ignorance case and explicit saddle points of several examples are obtained. At last, when the generator of the recursive utility is smooth, we employ the terminal perturbation method to characterize the optimal terminal wealth., Comment: 20 pages

Published
2016

48. Ablation of Transcription Factor IRF4 Promotes Transplant Acceptance by Driving Allogenic CD4+ T Cell Dysfunction

Author

Wu, Jie, Zhang, Hedong, Shi, Xiaomin, Xiao, Xiang, Fan, Yihui, Minze, Laurie J, Wang, Jin, Ghobrial, Rafik M, Xia, Jiahong, Sciammas, Roger, Li, Xian C, and Chen, Wenhao

Subjects
Transplantation, Organ Transplantation, 2.1 Biological and endogenous factors, Aetiology, Animals, CD4-Positive T-Lymphocytes, CD8-Positive T-Lymphocytes, Cell Differentiation, Cell Movement, DNA-Binding Proteins, Gene Expression Profiling, Gene Expression Regulation, Graft Rejection, Graft Survival, Granzymes, Heart Transplantation, Interferon Regulatory Factors, Interferon-gamma, Interleukin-17, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Pore Forming Cytotoxic Proteins, Programmed Cell Death 1 Receptor, Signal Transduction, Survival Analysis, Transcription Factors, Transplantation, Homologous, T cell dysfunction, interferon regulatory factor 4, programmed cell death protein 1, transcriptional regulation, transplant acceptance, Immunology
Abstract

CD4+ T cells orchestrate immune responses and destruction of allogeneic organ transplants, but how this process is regulated on a transcriptional level remains unclear. Here, we demonstrated that interferon regulatory factor 4 (IRF4) was a key transcriptional determinant controlling T cell responses during transplantation. IRF4 deletion in mice resulted in progressive establishment of CD4+ T cell dysfunction and long-term allograft survival. Mechanistically, IRF4 repressed PD-1, Helios, and other molecules associated with T cell dysfunction. In the absence of IRF4, chromatin accessibility and binding of Helios at PD-1 cis-regulatory elements were increased, resulting in enhanced PD-1 expression and CD4+ T cell dysfunction. The dysfunctional state of Irf4-deficient T cells was initially reversible by PD-1 ligand blockade, but it progressively developed into an irreversible state. Hence, IRF4 controls a core regulatory circuit of CD4+ T cell dysfunction, and targeting IRF4 represents a potential therapeutic strategy for achieving transplant acceptance.

Published
2017

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