Recent Progress in Reinforcement Learning and Adaptive Dynamic Programming for Advanced Control Applications

Reinforcement learning(RL) has roots in dynamic programming and it is called adaptive/approximate dynamic programming(ADP) within the control community. This paper reviews recent developments in ADP along with RL and its applications to various advanced control fields. First, the background of the development of ADP is described, emphasizing the significance of regulation and tracking control problems. Some effective offline and online algorithms for ADP/adaptive critic control are displayed, where the main results towards discrete-time systems and continuous-time systems are surveyed, respectively.Then, the research progress on adaptive critic control based on the event-triggered framework and under uncertain environment is discussed, respectively, where event-based design, robust stabilization, and game design are reviewed. Moreover, the extensions of ADP for addressing control problems under complex environment attract enormous attention. The ADP architecture is revisited under the perspective of data-driven and RL frameworks,showing how they promote ADP formulation significantly.Finally, several typical control applications with respect to RL and ADP are summarized, particularly in the fields of wastewater treatment processes and power systems, followed by some general prospects for future research. Overall, the comprehensive survey on ADP and RL for advanced control applications has d emonstrated its remarkable potential within the artificial intelligence era. In addition, it also plays a vital role in promoting environmental protection and industrial intelligence.

Adaptive Optimal Discrete-Time Output-Feedback Using an Internal Model Principle and Adaptive Dynamic Programming

In order to address the output feedback issue for linear discrete-time systems, this work suggests a brand-new adaptive dynamic programming(ADP) technique based on the internal model principle(IMP). The proposed method, termed as IMP-ADP, does not require complete state feedback-merely the measurement of input and output data. More specifically, based on the IMP, the output control problem can first be converted into a stabilization problem. We then design an observer to reproduce the full state of the system by measuring the inputs and outputs. Moreover, this technique includes both a policy iteration algorithm and a value iteration algorithm to determine the optimal feedback gain without using a dynamic system model. It is important that with this concept one does not need to solve the regulator equation. Finally, this control method was tested on an inverter system of grid-connected LCLs to demonstrate that the proposed method provides the desired performance in terms of both tracking and disturbance rejection.

In vivo astrocyte reprogramming following spinal cord injury

Harmful and helpful roles of astrocytes in spinal cord injury(SCI):SCI induce gradable sensory,motor and autonomic impairments that correlate with the lesion severity and the rostro-caudal location of the injury site.The absence of spontaneous axonal regeneration after injury results from neuron-intrinsic and neuron-extrinsic parameters.Indeed,not only adult neurons display limited capability to regrow axons but also the injury environment contains inhibitors to axonal regeneration and a lack of growth-promoting factors.Amongst other cell populations that respond to the lesion,reactive astrocytes were first considered as only detrimental to spontaneous axonal regeneration.Indeed,astrocytes.

Transcriptional reprogramming during human osteoclast differentiation identifies regulators of osteoclast activity

Enhanced osteoclastogenesis and osteoclast activity contribute to the development of osteoporosis,which is characterized by increased bone resorption and inadequate bone formation.As novel antiosteoporotic therapeutics are needed,understanding the genetic regulation of human osteoclastogenesis could help identify potential treatment targets.This study aimed to provide an overview of transcriptional reprogramming during human osteoclast differentiation.Osteoclasts were differentiated from CD14+monocytes from eight female donors.RNA sequencing during differentiation revealed 8980 differentially expressed genes grouped into eight temporal patterns conserved across donors.These patterns revealed distinct molecular functions associated with postmenopausal osteoporosis susceptibility genes based on RNA from iliac crest biopsies and bone mineral density SNPs.Network analyses revealed mutual dependencies between temporal expression patterns and provided insight into subtype-specific transcriptional networks.The donor-specific expression patterns revealed genes at the monocyte stage,such as filamin B(FLNB)and oxidized low-density lipoprotein receptor 1(OLR1,encoding LOX-1),that are predictive of the resorptive activity of mature osteoclasts.The expression of differentially expressed G-protein coupled receptors was strong during osteoclast differentiation,and these receptors are associated with bone mineral density SNPs,suggesting that they play a pivotal role in osteoclast differentiation and activity.The regulatory effects of three differentially expressed G-protein coupled receptors were exemplified by in vitro pharmacological modulation of complement 5 A receptor 1(C5AR1),somatostatin receptor 2(SSTR2),and free fatty acid receptor 4(FFAR4/GPR120).Activating C5AR1 enhanced osteoclast formation,while activating SSTR2 decreased the resorptive activity of mature osteoclasts,and activating FFAR4 decreased both the number and resorptive activity of mature osteoclasts.In conclusion,we report the occurrence of transcriptional reprogramming during human osteoclast differentiation and identified SSTR2 and FFAR4 as antiresorptive G-protein coupled receptors and FLNB and LOX-1 as potential molecular markers of osteoclast activity.These data can help future investigations identify molecular regulators of osteoclast differentiation and activity and provide the basis for novel antiosteoporotic targets.

Glia-to-neuron reprogramming to the rescue?

Over the last two decades,the dogma that cell fate is immutable has been increasingly challenged,with important implications for regenerative medicine.The brea kth rough discovery that induced pluripotent stem cells could be generated from adult mouse fibroblasts is powerful proof that cell fate can be changed.An exciting extension of the discovery of cell fate impermanence is the direct cellular reprogram ming hypothesis-that terminally differentiated cells can be reprogrammed into other adult cell fates without first passing through a stem cell state.

Neurocircuit regeneration by extracellular matrix reprogramming

The brain's extracellular matrix(ECM),which is comprised of protein and glycosaminoglycan(GAG)scaffolds,constitutes 20%-40% of the human brain and is considered one of the largest influencers on brain cell functioning(Soles et al.,2023).Synthesized by neural and glial cells,the brain's ECM regulates a myriad of homeostatic cellular processes,including neuronal plasticity and firing(Miyata et al.,2012),cation buffering(Moraws ki et al.,2015),and glia-neuron interactions(Anderson et al.,2016).Considering the diversity of functions,dynamic remodeling of the brain's ECM indicates that this understudied medium is an active participant in both normal physiology and neurological diseases.

Improved Unit Commitment with Accurate Dynamic Scenarios Clustering Based on Multi-Parametric Programming and Benders Decomposition

Stochastic unit commitment is one of the most powerful methods to address uncertainty. However, the existingscenario clustering technique for stochastic unit commitment cannot accurately select representative scenarios,which threatens the robustness of stochastic unit commitment and hinders its application. This paper providesa stochastic unit commitment with dynamic scenario clustering based on multi-parametric programming andBenders decomposition. The stochastic unit commitment is solved via the Benders decomposition, which decouplesthe primal problem into the master problem and two types of subproblems. In the master problem, the committedgenerator is determined, while the feasibility and optimality of generator output are checked in these twosubproblems. Scenarios are dynamically clustered during the subproblem solution process through the multiparametric programming with respect to the solution of the master problem. In other words, multiple scenariosare clustered into several representative scenarios after the subproblem is solved, and the Benders cut obtainedby the representative scenario is generated for the master problem. Different from the conventional stochasticunit commitment, the proposed approach integrates scenario clustering into the Benders decomposition solutionprocess. Such a clustering approach could accurately cluster representative scenarios that have impacts on theunit commitment. The proposed method is tested on a 6-bus system and the modified IEEE 118-bus system.Numerical results illustrate the effectiveness of the proposed method in clustering scenarios. Compared withthe conventional clustering method, the proposed method can accurately select representative scenarios whilemitigating computational burden, thus guaranteeing the robustness of unit commitment.

Combining reinforcement learning with mathematical programming:An approach for optimal design of heat exchanger networks

Heat integration is important for energy-saving in the process industry.It is linked to the persistently challenging task of optimal design of heat exchanger networks(HEN).Due to the inherent highly nonconvex nonlinear and combinatorial nature of the HEN problem,it is not easy to find solutions of high quality for large-scale problems.The reinforcement learning(RL)method,which learns strategies through ongoing exploration and exploitation,reveals advantages in such area.However,due to the complexity of the HEN design problem,the RL method for HEN should be dedicated and designed.A hybrid strategy combining RL with mathematical programming is proposed to take better advantage of both methods.An insightful state representation of the HEN structure as well as a customized reward function is introduced.A Q-learning algorithm is applied to update the HEN structure using theε-greedy strategy.Better results are obtained from three literature cases of different scales.

Uncertainty quantification of inverse analysis for geomaterials using probabilistic programming

Uncertainty is an essentially challenging for safe construction and long-term stability of geotechnical engineering.The inverse analysis is commonly utilized to determine the physico-mechanical parameters.However,conventional inverse analysis cannot deal with uncertainty in geotechnical and geological systems.In this study,a framework was developed to evaluate and quantify uncertainty in inverse analysis based on the reduced-order model(ROM)and probabilistic programming.The ROM was utilized to capture the mechanical and deformation properties of surrounding rock mass in geomechanical problems.Probabilistic programming was employed to evaluate uncertainty during construction in geotechnical engineering.A circular tunnel was then used to illustrate the proposed framework using analytical and numerical solution.The results show that the geomechanical parameters and associated uncertainty can be properly obtained and the proposed framework can capture the mechanical behaviors under uncertainty.Then,a slope case was employed to demonstrate the performance of the developed framework.The results prove that the proposed framework provides a scientific,feasible,and effective tool to characterize the properties and physical mechanism of geomaterials under uncertainty in geotechnical engineering problems.

Rapid Prototype Development Approach for Genetic Programming

Genetic Programming (GP) is an important approach to deal with complex problem analysis and modeling, and has been applied in a wide range of areas. The development of GP involves various aspects, including design of genetic operators, evolutionary controls and implementations of heuristic strategy, evaluations and other mechanisms. When designing genetic operators, it is necessary to consider the possible limitations of encoding methods of individuals. And when selecting evolutionary control strategies, it is also necessary to balance search efficiency and diversity based on representation characteristics as well as the problem itself. More importantly, all of these matters, among others, have to be implemented through tedious coding work. Therefore, GP development is both complex and time-consuming. To overcome some of these difficulties that hinder the enhancement of GP development efficiency, we explore the feasibility of mutual assistance among GP variants, and then propose a rapid GP prototyping development method based on πGrammatical Evolution (πGE). It is demonstrated through regression analysis experiments that not only is this method beneficial for the GP developers to get rid of some tedious implementations, but also enables them to concentrate on the essence of the referred problem, such as individual representation, decoding means and evaluation. Additionally, it provides new insights into the roles of individual delineations in phenotypes and semantic research of individuals.

A Dimensional Reduction Approach Based on Essential Constraints in Linear Programming

This paper presents a new dimension reduction strategy for medium and large-scale linear programming problems. The proposed method uses a subset of the original constraints and combines two algorithms: the weighted average and the cosine simplex algorithm. The first approach identifies binding constraints by using the weighted average of each constraint, whereas the second algorithm is based on the cosine similarity between the vector of the objective function and the constraints. These two approaches are complementary, and when used together, they locate the essential subset of initial constraints required for solving medium and large-scale linear programming problems. After reducing the dimension of the linear programming problem using the subset of the essential constraints, the solution method can be chosen from any suitable method for linear programming. The proposed approach was applied to a set of well-known benchmarks as well as more than 2000 random medium and large-scale linear programming problems. The results are promising, indicating that the new approach contributes to the reduction of both the size of the problems and the total number of iterations required. A tree-based classification model also confirmed the need for combining the two approaches. A detailed numerical example, the general numerical results, and the statistical analysis for the decision tree procedure are presented.

Optimization Techniques for GPU-Based Parallel Programming Models in High-Performance

This study embarks on a comprehensive examination of optimization techniques within GPU-based parallel programming models,pivotal for advancing high-performance computing(HPC).Emphasizing the transition of GPUs from graphic-centric processors to versatile computing units,it delves into the nuanced optimization of memory access,thread management,algorithmic design,and data structures.These optimizations are critical for exploiting the parallel processing capabilities of GPUs,addressingboth the theoretical frameworks and practical implementations.By integrating advanced strategies such as memory coalescing,dynamic scheduling,and parallel algorithmic transformations,this research aims to significantly elevate computational efficiency and throughput.The findings underscore the potential of optimized GPU programming to revolutionize computational tasks across various domains,highlighting a pathway towards achieving unparalleled processing power and efficiency in HPC environments.The paper not only contributes to the academic discourse on GPU optimization but also provides actionable insights for developers,fostering advancements in computational sciences and technology.

Mo_(2)C-TiN_(0.3)复合材料的高温高压制备及性能

将Mo_(2)C和TiN_(0.3)粉体采用机械合金化和高温高压烧结相结合的方法进行分层烧结,并制备30%Mo_(2)C-70%TiN_(0.3)的烧结体复合材料,分析Mo_(2)C-TiN_(0.3)烧结体的物相组成、微观组织结构及力学性能。结果表明:Mo_(2)C和TiN_(0.3)间存在明显的相互扩散,且形成了2层不同的扩散层;随着烧结温度不断升高,Mo_(2)C-TiN_(0.3)烧结体的晶粒尺寸逐渐变大,会导致烧结体的机械性能变差;在烧结过程中有高硬高脆的MoC生成,能够维持Mo_(2)C-TiN_(0.3)烧结体的硬度在19.0~20.0 GPa,但会降低其断裂韧性。

大面积脑梗死患者血清Visfatin、TN-C、IL-17水平与神经功能缺损程度的相关性及对预后的预测价值

目的 探讨大面积脑梗死(LHI)患者血清内脂素(Visfatin)、肌腱蛋白C (TN-C)、白介素-17 (IL-17)水平与神经功能缺损程度的相关性及对患者预后的预测价值。方法 前瞻性选取2020年1月至2023年1月平顶山市第一人民医院收治的80例LHI患者作为LHI组,另选取同期80例非大面积急性脑梗死(ACI)患者作为非LHI组,同期80例健康志愿者作为对照组。比较三组研究对象入院(体检)时的血清Visfatin、TN-C、IL-17水平,并比较LHI组不同神经功能缺损程度患者的血清Visfatin、TN-C、IL-17水平,采用Spearman相关系数分析血清Visfatin、TN-C、IL-17水平与LHI神经功能缺损程度的相关性。比较LHI组不同预后患者入院时血清Visfatin、TN-C、IL-17水平,通过受试者工作特征曲线(ROC)分析血清Visfatin、TN-C、IL-17水平预测预后的价值,采用KM生存曲线分析不同血清Visfatin、TN-C、IL-17水平患者3个月存活情况。结果 LHI组患者入院时的血清Visfatin、TN-C、IL-17水平分别为(86.74±25.17)μg/L、(81.45±20.67)μg/L、(118.19±28.26) pg/mL,明显高于非LHI组的(51.63±16.24)μg/L、(61.29±15.16)μg/L、(76.70±15.49) pg/mL和对照组的(7.71±1.59)μg/L、(19.61±7.38)μg/L、(29.51±6.02) pg/mL,且非LHI组患者的血清Visfatin、TN-C、IL-17水平明显高于对照组,差异均具有统计学意义(P<0.05);LHI组神经功能缺损程度重度患者入院时的血清Visfatin、TN-C、IL-17水平分别为(98.71±18.25)μg/L、(95.38±16.84)μg/L、(135.71±26.03) pg/mL,明显高于中度患者的(79.17±15.61)μg/L、(72.64±14.10)μg/L、(107.11±22.49) pg/mL,差异均具有统计学意义(P<0.05);经Spearman相关分析法分析结果显示,入院时血清Visfatin、TN-C、IL-17水平与LHI患者神经功能缺损程度呈正相关(P<0.05);LHI组预后不良患者入院时的血清Visfatin、TN-C、IL-17水平分别为(101.25±19.17)μg/L、(98.74±17.43)μg/L、(140.71±28.01) pg/mL,明显高于预后良好患者的(78.49±16.20)μg/L、(71.62±15.76)μg/L、(105.38±24.26) pg/mL,差异均有统计学意义(P<0.05);经ROC分析结果显示,入院时血清Visfatin、TN-C、IL-17水平联合预测LHI预后不良的曲线下面积(AUC)为0.951 (95%CI:0.878~0.987),大于三项指标单独预测的AUC (P<0.05);LHI组入院时血清Visfatin、TN-C、IL-17高水平患者3个月后存活率分别为74.29%、76.32%、70.97%,明显低于血清Visfatin、TN-C、IL-17低水平患者的93.33%、92.86%、93.88%,差异均有统计学意义(P<0.05)。结论 LHI患者血清Visfatin、TN-C、IL-17水平明显升高,且与神经功能缺损程度呈正相关,联合检测各指标可为临床预测患者预后提供可靠依据。

miR-200c/ZEB1/E-cadherin轴在胆管癌转移侵袭中的作用及对胆管癌预后评估的价值

目的:探讨微小RNA-200c(miR-200c)/锌指转录因子(ZEB1)/E-钙黏蛋白(E-cadherin)在胆管癌(HCCA)转移、侵袭中的作用及对HCCA预后评估的临床价值。方法:选取2020年08月至2022年12月间我院收治的胆管癌患者36例为研究对象,同时选取胆管良性疾病患者(胆总管结石或胆管良性狭窄)20例作为对照。采用原位杂交、实时荧光定量PCR检测miR-200c在HCCA患者组织及血清中的表达;生存曲线分析miR-200c表达与总生存期的相关性;Transwell实验检测细胞的迁移及侵袭能力;免疫印迹检测ZEB1及E-cadherin蛋白的表达。体内研究构建裸鼠成瘤实验,采用免疫组化检测ZEB1及E-cadherin蛋白的表达;Tunel技术检测组织中的凋亡情况。受试者工作特征(ROC)曲线评估生物标志物对胆管癌预后的诊断效能。结果:miR-200c低表达于HCCA组织及血清中;生存曲线分析显示,miR-200c表达与患者的总生存期呈正相关性,TNM分期与患者的总生存期呈负相关性;miR-200c mimics抑制了胆管癌细胞的迁移和侵袭能力,并降低ZEB1表达而诱导E-cadherin表达;转染ZEB1逆转miR-200c的作用效应,促进胆管癌细胞的迁移和侵袭特性,抑制胆管癌细胞的凋亡。CA199、CEA和miR-200c联合检测诊断胆管癌预后的ROC曲线下面积为0.892,灵敏度0.8611,特异度0.8000。结论:miR-200c/ZEB1/Ecadherin轴参与胆管癌的转移侵袭;CA199、CEA和miR-200c联合检测对胆管癌预后的诊断效能良好,对临床胆管癌的治疗策略具有重要指导价值。

非肿瘤疾病中SERPINA3/Serpina3c介导的细胞信号轴的研究进展

SERPINA3/Serpina3c是一种丝氨酸(或半胱氨酸)肽酶抑制剂,可抑制组织蛋白酶G活性,发挥抗炎作用。目前对SERPINA3/Serpina3c功能的了解大多数来自于癌变背景下的研究,认为它参与基因表达、细胞周期、凋亡、信号转导和癌变等多种细胞生物学过程。近年来,SERPINA3/Serpina3c在非肿瘤疾病中的研究也越来越多。本文系统分析了SERPINA3/Serpina3c的研究热点和趋势,综述了SERPINA3/Serpina3c在非肿瘤疾病对细胞信号轴的调控机制,为SERPINA3/Serpina3c在非肿瘤疾病中的分子机制研究提供思路。

妊娠期糖尿病患者血清Xenin-25、CTRP12水平及对妊娠结局的影响

目的分析妊娠期糖尿病(GDM)患者血清神经降压素相关肽(Xenin-25)、C1q肿瘤坏死因子相关蛋白12(CTRP12)与妊娠结局的关系。方法选取2021年2月—2022年2月川北医学院附属医院生殖医学科诊治的GDM患者92例为GDM组,再根据是否发生不良妊娠结局,分为预后不良亚组(n=34)和预后良好亚组(n=58)。以同期健康妊娠妇女50例为正常妊娠组。采用酶联免疫吸附法检测血清Xenin-25、CTRP12水平;Pearson相关性分析血清Xenin-25、CTRP12与糖代谢指标的相关性;多因素Logistic回归分析影响GDM患者不良妊娠结局的因素;受试者工作特征曲线评价血清Xenin-25、CTRP12对妊娠结局的预测价值。结果GDM组血清Xenin-25、CTRP12低于正常妊娠组,而空腹血糖(FPG)、糖化血红蛋白(HbA_(1c))、空腹胰岛素(FINS)及稳态模型评估的胰岛素抵抗指数(HOMA-IR)水平均高于正常妊娠组(t/P=16.046/<0.001,22.114/<0.001,11.510/<0.001,13.666/<0.001,12.101/<0.001,14.413/<0.001);GDM组血清Xenin-25、CTRP12表达与FPG、FINS、HbA_(1c)及HOMA-IR呈显著负相关(Xenin-25:r/P=-0.665/<0.001,-0.598/<0.001,-0.567/<0.001,-0.702/<0.001;CTRP12:r/P=-0.579/<0.001,-0.622/<0.001,-0.667/<0.001,-0.725/<0.001);预后不良亚组血清Xenin-25、CTRP12低于预后良好亚组,HOMA-IR高于预后良好亚组(t/P=6.783/<0.001,17.997/<0.001,15.146/<0.001);血清CTRP12升高、Xenin-25升高是影响GDM患者不良妊娠结局的独立保护因素[OR(95%CI)=0.646(0.499~0.837),0.619(0.465~0.824)],HOMA-IR升高是危险因素[OR(95%CI)=1.353(1.110~1.649)]。血清Xenin-25、CTRP12及二者联合预测GDM患者不良妊娠结局的AUC分别为0.828、0.815、0.870,二者联合优于各自单独预测效能(Z=4.113、4.327,P=0.003、0.001)。结论GDM孕妇血清Xenin-25、CTRP12水平降低,均参与GDM的疾病过程,二者联合对GDM患者不良妊娠结局具有较高的评估价值。

基于Stacking融合模型的PHEV复合储能系统实时能量分配策略

为了解决插电式混合动力汽车单一电池低比功率、无法响应暂态功率需求的问题,设计了电池和超级电容并联式复合储能系统。同时针对采用动态规划法优化负载电流分配时缺乏实时性的问题,利用不同驱动工况下动态规划优化的结果构成训练集进行训练,并综合GRU网络以及XGBoost算法,提出了一种Stacking集成学习框架下多模型融合的能量分配策略。仿真结果表明,与仅使用单一电池的储能系统相比,基于Stacking融合模型的实时能量分配系统在UDDS和US06两种循环工况下,电池峰值电流分别降低了48.7%和50.8%,有效削弱了电池的峰值电流,提升了电池的整体性能。

血清Ephrin-A1、CTRP9对糖尿病性视网膜病变的诊断价值及与机体氧化应激的相关性分析

目的分析血清肝配蛋白A1(Ephrin-A1)、C1q肿瘤坏死因子相关蛋白9(CTRP9)对糖尿病性视网膜病变的诊断价值及与机体氧化应激的相关性。方法回顾性选择自2021年1月至2023年1月新疆维吾尔自治区人民医院接诊的80例糖尿病性视网膜病变患者作为观察组,另选同期的80例单纯2型糖尿病患者作为对照组。检测两组患者血清Ephrin-A1、CTRP9及氧化应激指标[超氧化物歧化酶(SOD)、还原型谷胱甘肽(GSH)、丙二醛],分析不同分期的糖尿病性视网膜病变患者血清Ephrin-A1、CTRP9水平的差异性,使用受试者工作特征(ROC)曲线分析血清Ephrin-A1、CTRP9对糖尿病性视网膜病变的诊断效能,Pearson相关性分析糖尿病性视网膜病变患者血清Ephrin-A1、CTRP9水平与机体氧化应激指标的相关性。结果观察组血清Ephrin-A1水平为(7.81±2.34)ng/mL,高于对照组[(2.25±0.76)ng/mL],CTRP9水平为(98.17±10.13)pg/mL,低于对照组[(156.42±15.89)pg/mL],差异均有统计学意义(P<0.05)。观察组血清SOD、GSH水平分别为(50.14±5.63)U/L、(142.34±13.98)mg/L,均低于对照组[(73.52±8.52)U/L、(189.71±23.56)mg/L],丙二醛水平为(6.89±3.07)μmol/L,高于对照组[(3.56±1.02)μmol/L],差异均有统计学意义(P<0.05)。增生型糖尿病性视网膜病变患者血清Ephrin-A1为(15.42±4.80)ng/mL,高于非增生型糖尿病性视网膜病变患者[(6.09±2.11)ng/mL],CTRP9水平为(75.25±6.73)pg/mL,低于非增生型糖尿病性视网膜病变患者[(119.46±13.08)pg/mL],差异均有统计学意义(P<0.05)。经ROC曲线分析,血清Ephrin-A1联合CTRP9诊断糖尿病性视网膜病变的敏感度为92.68%、特异度为53.69%、AUC为0.931。经Pearson相关性分析,糖尿病性视网膜病变患者血清Ephrin-A1与SOD、GSH呈负相关,与丙二醛呈正相关(P<0.05);CTRP9水平与SOD、GSH呈正相关,与丙二醛呈负相关(P<0.05)。结论血清Ephrin-A1联合CTRP9可提高对糖尿病性视网膜病变的诊断效能,其中机体氧化应激与Ephrin-A1呈正性关联,与CTRP9呈负性关联,值得进一步研究应用。

基于C#语言与ArcGIS Engine 的开采沉陷预计系统开发

为了预计煤层开采引发的地表移动变形,基于极坐标系的概率积分法,借助C#语言和ArcGIS Engine组件工具库设计开发了矿区开采沉陷预计系统。开采沉陷预计系统适用于不规则形状的开采工作面,能够对开采区域地表各点不同开采时间后的下沉、水平移动、水平变形、倾斜、曲率进行预计,并对预计结果进行后处理,绘制地表移动变形云图。以陕西省某矿308工作面开采为例,根据工作面的开采条件、地层岩性等特征选取概率积分参数并代入本系统进行地表移动变形预计,将结果与实测地表移动变形进行对比分析。结果表明:使用该系统预计的地表下沉值与实测下沉值的相对误差小于10%,且下沉盆地形态与实际基本吻合,该系统的预计结果较为可靠,对矿区的开采沉陷预计具有一定的适用性。