Separate-layer balanced waterflooding development technology for thick and complex carbonate reservoirs in the Middle East

Based on the waterflooding development in carbonate reservoirs in the Middle East,in order to solve the problem of the poor development effects caused by commingled injection and production,taking the thick bioclastic limestone reservoirs of Cretaceous in Iran-Iraq as an example,this paper proposes a balanced waterflooding development technology for thick and complex carbonate reservoirs.This technology includes the fine division of development units by concealed baffles and barriers,the combination of multi well type and multi well pattern,and the construction of balanced water injection and recovery system.Thick carbonate reservoirs in Iran-Iraq are characterized by extremely vertical heterogeneity,development of multi-genesis ultra-high permeability zones,and highly concealed baffles and barriers.Based on the technologies of identification,characterization,and sealing evaluation for concealed baffles and barriers,the balanced waterflooding development technology is proposed,and three types of balanced waterflooding development modes/techniques are formed,namely,conventional stratigraphic framework,fine stratigraphic framework,and deepened stratigraphic framework.Numerical simulations show that this technology is able to realize a fine and efficient waterflooding development to recover,in a balanced manner,the reserves of thick and complex carbonate reservoirs in Iran and Iraq.The proposed technology provides a reference for the development optimization of similar reservoirs.

Research on the Balanced Development of Urban and Rural Compulsory Education Through Education Resource Allocation

With the rapid development of our country’s economy,education has gradually become the focus of social attention.The problem of unbalanced distribution of urban and rural educational resources has become increasingly prominent,urban educational resources are relatively rich,while rural educational resources are relatively scarce,and the balanced development of urban and rural compulsory education has become an urgent task.This paper mainly investigates and studies the distribution of urban and rural educational resources,discusses the unbalanced distribution of urban and rural educational resources and analyzes the reasons,and puts forward a series of corresponding solutions to promote the balanced development of urban and rural compulsory education.

Incentive-compatible and budget balanced AGV mechanism for peer-to-peer energy trading in smart grids

Peer-to-peer(P2P)energy trading refers to a type of decentralized transaction,where the energy from distributed energy resources is directly traded between peers.A key challenge in peer-to-peer energy trading is designing a safe,efficient,and transparent trading model and operating mechanism.In this study,we consider a P2P trading environment based on blockchain technology,where prosumers can submit bids or offers without knowing the reports of others.We propose an Arrow-d’Aspremont-Gerard-Varet(AGV)-based mechanism to encourage prosumers to submit their real reserve price and determine the P2P transaction price.We demonstrate that the AGV mechanism can achieve Bayesian incentive compatibility and budget balance.Kernel density estimation(KDE)is used to derive the prior distribution from the historical bid/offer information of the agents.Case studies are carried out to analyze and evaluate the proposed mechanism.Simulation results verify the effectiveness of the proposed mechanism in guiding agents to report the true reserve price while maximizing social welfare.Moreover,we discuss the advantages of budget balance for decentralized trading by comparing the Vickrey-Clarke-Groves(VCG)and AGV mechanisms.

Adaptive delay-energy balanced partial offloading strategy in Mobile Edge Computing networks

Mobile Edge Computing(MEC)-based computation offloading is a promising application paradigm for serving large numbers of users with various delay and energy requirements.In this paper,we propose a flexible MECbased requirement-adaptive partial offloading model to accommodate each user's specific preference regarding delay and energy consumption.To address the dimensional differences between time and energy,we introduce two normalized parameters and then derive the computational overhead of processing tasks.Different from existing works,this paper considers practical variations in the user request patterns,and exploits a flexible partial offloading mode to minimize computation overheads subject to tolerable delay,task workload and power constraints.Since the resulting problem is non-convex,we decouple it into two convex subproblems and present an iterative algorithm to obtain a feasible offloading solution.Numerical experiments show that our proposed scheme achieves a significant improvement in computation overheads compared with existing schemes.

A novel energetic framework with the combination of 5,6-fused triazolo-triazine and nitropyrazole-tetrazole for energy-stability balanced explosive

In recent years,the introduction of fused rings own high density and low sensitivity has promoted the development of energetic materials.However,the development of energetic compounds containing fused and bridged rings by introducing multiple nitrogen heterocycles at different sites of fused rings is still difficult to progress,which seriously limits the emergence of advanced energetic compounds.In this study,a series of energetic materials choosing different nitrogen rich heterocycles at the vacancies of the fused ring,i.e.,neutral compound 5,6 and their ionic derivatives(compounds 7-12)were designed and synthesized.Compounds 5 and 6 were further confirmed by single crystal X-ray diffraction,while the crystal analysis and theoretical calculations were carried out to explore the relationship between crystal structure and physicochemical properties.All of the newly synthesized compounds(5-12)are insensitive to mechanical stimulation(IS>40 J;FS≥342 N)and they own the high detonation velocity(D:8322-9075 m/s).Notably,hydrazine salt 11 own the higher detonation velocity(9075 m/s)and powder density(1.83 g/cm^(3)),but exhibits lower sensitivity(IS>40 J)than the classical energetic compound RDX(8795 m/s,1.80 g/cm^(3),7.5 J).It is obvious that the combination of 5,6-fused triazolo-triazine and nitropyrazole-tetrazole may be a new energetic skeleton for synthesising the heterocyclic compounds with balanced energy-stability.

Improved Load-Balanced Clustering for Energy-Aware Routing(ILBC-EAR)in WSNs

Sensors are considered as important elements of electronic devices.In many applications and service,Wireless Sensor Networks(WSNs)are involved in significant data sharing that are delivered to the sink node in energy efficient man-ner using multi-hop communications.But,the major challenge in WSN is the nodes are having limited battery resources,it is important to monitor the consumption rate of energy is very much needed.However,reducing energy con-sumption can increase the network lifetime in effective manner.For that,clustering methods are widely used for optimizing the rate of energy consumption among the sensor nodes.In that concern,this paper involves in deriving a novel model called Improved Load-Balanced Clustering for Energy-Aware Routing(ILBC-EAR),which mainly concentrates on optimal energy utilization with load-balanced process among cluster heads and member nodes.For providing equal rate of energy consumption among nodes,the dimensions of framed clusters are measured.Moreover,the model develops a Finest Routing Scheme based on Load-Balanced Clustering to transmit the sensed information to the sink or base station.The evaluation results depict that the derived energy aware model attains higher rate of life time than other works and also achieves balanced energy rate among head node.Additionally,the model also provides higher throughput and minimal delay in delivering data packets.

Wireless Network Security Using Load Balanced Mobile Sink Technique

Real-time applications based on Wireless Sensor Network(WSN)tech-nologies are quickly increasing due to intelligent surroundings.Among the most significant resources in the WSN are battery power and security.Clustering stra-tegies improve the power factor and secure the WSN environment.It takes more electricity to forward data in a WSN.Though numerous clustering methods have been developed to provide energy consumption,there is indeed a risk of unequal load balancing,resulting in a decrease in the network’s lifetime due to network inequalities and less security.These possibilities arise due to the cluster head’s limited life span.These cluster heads(CH)are in charge of all activities and con-trol intra-cluster and inter-cluster interactions.The proposed method uses Lifetime centric load balancing mechanisms(LCLBM)and Cluster-based energy optimiza-tion using a mobile sink algorithm(CEOMS).LCLBM emphasizes the selection of CH,system architectures,and optimal distribution of CH.In addition,the LCLBM was added with an assistant cluster head(ACH)for load balancing.Power consumption,communications latency,the frequency of failing nodes,high security,and one-way delay are essential variables to consider while evaluating LCLBM.CEOMS will choose a cluster leader based on the influence of the fol-lowing parameters on the energy balance of WSNs.According to simulatedfind-ings,the suggested LCLBM-CEOMS method increases cluster head selection self-adaptability,improves the network’s lifetime,decreases data latency,and bal-ances network capacity.

BE-RPL:Balanced-load and Energy-efficient RPL

Internet of Things(IoT)empowers imaginative applications and permits new services when mobile nodes are included.For IoT-enabled low-power and lossy networks(LLN),the Routing Protocol for Low-power and Lossy Networks(RPL)has become an established standard routing protocol.Mobility under standard RPL remains a difficult issue as it causes continuous path disturbance,energy loss,and increases the end-to-end delay in the network.In this unique circumstance,a Balanced-load and Energy-efficient RPL(BE-RPL)is proposed.It is a routing technique that is both energy-efficient and mobility-aware.It responds quicker to link breakage through received signal strength-based mobility monitoring and selecting a new preferred parent reactively.The proposed system also implements load balancing among stationary nodes for leaf node allocation.Static nodes with more leaf nodes are restricted from participating in the election for a new preferred parent.The performance of BE-RPL is assessed using the COOJA simulator.It improves the energy use,network control overhead,frame acknowledgment ratio,and packet delivery ratio of the network.

高质量发展视域下的中国人口均衡发展

在人口形势发生重要转折性变化之际,高质量发展要求更加重视人口素质,以“提质”替代“增量”,以“人才”替代“人力”,充分发挥凝结在人口自身的素质要素的作用,使更多民众更好地享受高质量发展的成果,享受高品质生活。长期均衡发展是人口发展的主要目标,也是人口高质量发展的内在要求。人口均衡发展不仅体现在人口系统内部要素间的依存制约以及人口系统与社会经济系统之间的协调适应,还体现在代际间的传承永续。年龄结构失衡是当前人口非均衡发展的突出表现,应聚焦结构失衡,弥补制约人口均衡发展的短板;同时充分发挥作为人口结构中坚力量的劳动年龄人口的作用,通过与经济高质量发展相协调以及推动人口均衡分布,促进人口均衡发展,助力实现人口高质量发展。

新质生产力的时代内涵、战略价值与实现路径

加快形成新质生产力,是新时代背景下中国经济社会发展从传统要素驱动向创新驱动转型,提升生产效率和质量,促进经济增长持续健康发展,把握新工业革命浪潮,构筑新竞争优势、赢得发展主动权的题中应有之义。本文明确新质生产力的概念及内涵,揭示其理论逻辑、战略价值和实现路径。结合新质生产力的提出背景与相关论述,文章认为新质生产力必须具有“科技创新驱动”“产业高效低耗和环境可持续”“高品质生活和社会服务均等化”“数字赋能”和“国家治理能力现代化”等特征。解构改革开放以来中国新质生产力发展所积累的物质技术基础和政策环境保障,对比分析中国与全球主要国家数字经济发展水平与高科技产品的出口现状,以客观把握中国新质生产力的发展优势与不足。分析在内部面临产业升级滞后与创新能力不足、资源与环境约束、区域城乡发展不平衡、人口结构老龄化与劳动力成本上升、政府治理效率还需提升等“中等收入陷阱”的挑战,外部遭受贸易争端、技术封锁、人权和意识形态威胁、国家领土争端等“修昔底德陷阱”的压力下,新质生产力破解经济高质量发展难题的战略指导意义。进一步地,指出新质生产力的提升是实现国家安全的重要基础,为国家提供了强大的安全保障,有助于构建坚固的国家安全体系。在此基础上,国家安全稳定也是发展新质生产力的必要条件,两者相得益彰。最后,提出为发展新质生产力,尤其注重新质生产力的均衡布局;从内部加强自我建设,释放新质生产力的发展潜能,破除“中等收入陷阱”魔咒;打造安全稳定的外部环境,给新质生产力的发展提供基础保障,破除“修昔底德陷阱”魔咒,支撑构建强劲有力的“双循环”新发展格局。

康复临床实践指南·脑卒中患者立位平衡障碍

脑卒中立位平衡障碍是指患者在站立时出现的平衡问题,难以在静止或运动状态下维持稳定,包括站立不稳、摇摆、容易摔倒等,严重影响患者步行及日常生活活动。物理治疗和传统中医治疗是提高脑卒中患者立位平衡功能的有效康复方法。为规范脑卒中立位平衡障碍康复的评定与治疗,提高其物理治疗和传统中医治疗的康复诊疗规范,专家组整理德尔菲法汇总后的趋同性意见形成脑卒中立位平衡障碍康复临床实践指南草案,采用共识会议法,编制本指南。本指南从技术范围、规范性引用文件、术语和定义(平衡、支撑面、质心、重心、稳定极限、本体感觉、前庭功能、视觉、前庭眼反射、立位平衡功能、立位平衡障碍、核心稳定、平衡策略)、康复评估(临床表现、临床评估、特殊评估、视觉功能评估、协调功能评估)、康复治疗(前庭功能训练、感觉功能训练、视觉功能训练、运动功能训练、协调功能训练、共济失调训练、心理治疗、运动治疗、双重任务训练、虚拟现实技术、非侵入性神经调控技术、康复机器人、水疗、视觉反馈平衡训练、传统康复治疗、医疗体操)和效果评价进行规范制定。本指南可为脑卒中立位平衡障碍康复治疗提供规范化诊治流程,并为临床实践提供可靠的证据参考,具有良好的临床适用性及可操作性。

移动边缘计算不确定性任务持续卸载及资源分配方法

移动边缘计算场景中任务的不确定性增加了任务卸载及资源分配的复杂性和难度.鉴于此,提出一种移动边缘计算不确定性任务持续卸载及资源分配方法.首先,构建一种移动边缘计算不确定性任务持续卸载模型,通过基于持续时间片划分的任务多批次处理技术应对任务的不确定性,并设计多设备计算资源协同机制提升对计算密集型任务的承载能力.其次,提出一种基于负载均衡的自适应策略选择算法,避免计算资源过度分配导致信道拥堵进而产生额外能耗.最后,基于泊松分布实现了对不确定任务场景模型的仿真,大量实验结果表明时间片长度减小能够降低系统总能耗.此外,所提算法能够更有效地实现任务卸载及资源分配,相较于对比算法,最大可降低能耗11.8%.

区域水平衡及失衡程度度量方法

区域水平衡量化及诊断是水网工程建设优化和水资源均衡调控的基础,对提升水安全保障能力、支撑经济社会稳定发展、实现人水和谐具有重要意义。本文从空间、时间、结构、过程、总量五个维度解构了区域人水系统的四大平衡,即反映水收入项和支出项定量关系的水收支平衡、体现经济社会供水量与需水量匹配关系的经济社会供需水平衡、结合经济社会-生态系统发展与用水定量关系的经济社会与生态用水平衡、表征人水系统发展状态的人水关系和谐平衡,并提出相应的水平衡度量方法。多角度解析了区域水平衡的失衡状态,提出四大平衡的失衡程度度量方法及区域水平衡的失衡程度综合度量方法。以沁河流域为实例应用和检验了上述方法,结果表明:提出的度量方法具有科学性和适用性,能够应用于区域水平衡研究实践;2019年沁河流域水平衡的失衡度为0.327,处于蓄水量减少、水资源短缺、生态端亏水、水系统受损的中度失衡状态,后续应注重人类涉水行为的管控。研究成果可为区域水平衡评估与调控提供理论支撑,服务国家或区域水平衡策略制定和水网工程规划。

平衡火罐在改善寒湿痹阻型腰痛患者中的应用效果研究

目的观察平衡火罐在改善寒湿痹阻所致腰痛患者护理中的应用效果。方法将符合入组标准的96例寒湿痹阻型腰痛患者作为研究对象,以常规单纯拔火罐法及平衡火罐法(具体包括:闪罐法、走罐法、揉罐法、抖罐法及留罐法)两种方式分为治疗组和对照组各48例,均以治疗前,治疗后立刻,治疗后3、7及14 d为结点,采用腰痛病中医疗效评定标准及(VAS)视觉模拟评分法比较两组护理疗效。结果观察组患者总的有效率为91.67%,高于对照组的66.67%,差异具有统计学意义(P<0.05);治疗7 d后观察组压痛(1.76±1.82)及腰部疼痛(0.75±0.29)评分较对照组压痛(3.41±1.73)及腰部疼痛(1.06±0.13)明显降低(P<0.05)。结论平衡火罐较单纯拔火罐更能够有效缓解寒湿痹阻所致腰痛患者的症状,提高患者的生活质量。

互动式头针对脑卒中恢复期患者平衡功能障碍的临床研究

目的探讨互动式头针对脑卒中恢复期患者平衡功能障碍的临床疗效。方法采用随机对照研究方法,收集2020年9月—2021年10月期间在该院就诊的97例患者,互动式头针组采用头针同时+平衡功能康复训练,传统头针组采用头针后+平衡功能康复训练。分析治疗前后的NIHSS、Berg平衡、Barthel评分的变化。结果治疗4周后,互动式头针组、传统头针组的NIHSS、Berg平衡、Barthel评分均较治疗前改善(均P<0.05),且互动式头针组改善NIHSS、Berg平衡、Barthel评分幅度优于传统头针组(均P<0.05)。结论互动式头针治疗脑卒中后平衡功能障碍较头针后平衡功能训练更有利于患者平衡功能的恢复及日常生活能力的提高,值得临床应用。

论行政复议的适当性审查

合法性审查、适当性审查是行政复议机关审查被申请行政行为的两个审查标准。适当性审查与行政诉讼合理性审查表述不同但内容一致。合法性审查是形式合法性审查,适当性审查是实质合法性审查,因此,适当性审查与合法性审查构成了一种从“从形式违法到实质违法”的双阶审查方法。在形式合法性已经确认的前提下,针对被申请行政行为的内容,行政复议机关可以从合目的性、结果可接受性和利益权衡三个面向作适当性审查。

平衡生物反馈训练对脑卒中足内翻患者足底压力和平衡功能的影响

目的探讨平衡生物反馈训练对脑卒中足内翻患者的足底压力和平衡功能的作用。方法选择60例脑卒中足内翻患者,其中男性35例,女性25例;年龄50~58岁,平均年龄54.79岁;病程79~92 d,平均病程87.76 d;偏瘫左侧33例,右侧27例;脑梗死31例,脑出血29例。随机选择30例作为对照组,另外30例为试验组。对照组和试验组都进行综合训练,试验组在此基础上进行平衡生物反馈训练。两组连续训练8周,每周5 d,每天2次,每次共60 min。选用美国Tekscan公司的Footscan三维动态足底压力步态分析系统。在治疗前和治疗后8周,对患者的足底压力和平衡运动学参数进行对比。结果在足底压力方面,治疗前,两组患者内外侧压力和接触面积差异无统计学意义(P>0.05);治疗后,两组患者内侧压力增大(P<0.05),外侧压力减小(P<0.05)[试验组治疗前后内侧压力(150.18±96.30)N vs(175.70±99.95)N,外侧压力(184.14±85.72)N vs(166.46±112.01)N;对照组治疗前后内侧压力(147.11±74.22)N vs(165.97±71.93)N,外侧压力(230.13±93.73)N vs(223.57±114.75)N]。两组患者内侧接触面积增大(P<0.05),外侧接触面积减小(P<0.05)[试验组治疗前后内侧接触面积(26.75±12.07)cm^(2)vs(34.97±9.17)cm^(2),外侧接触面积(45.79±21.57)cm^(2)vs(37.86±21.99)cm^(2);对照组治疗前后内侧接触面积(39.28±22.25)cm^(2)vs(42.44±14.76)cm^(2),外侧接触面积(45.74±22.66)cm^(2)vs(41.73±20.54)cm^(2)],且与对照组相比,试验组内外侧压力和接触面积变化更为显著(P<0.05)。在平衡运动学参数方面,治疗前两组患者运动学参数差异无统计学意义(P>0.05);治疗后两组患者的X、Y轴上的轨迹长度、均方差、最大动摇径、总轨迹、偏移长度和包络面积均显著降低(P<0.05),速度、单位面积轨迹长度均显著升高(P<0.05),试验组平衡运动学参数改善更为显著(P<0.05)。结论平衡生物反馈训练可显著提高脑卒中足内翻患者的足底压力和平衡功能。

基于互信息和融合加权的并行深度森林算法

针对大数据环境下并行深度森林算法中存在不相关及冗余特征过多、多粒度扫描不平衡、分类性能不足以及并行化效率低等问题,提出了基于互信息和融合加权的并行深度森林算法(parallel deep forest algorithm based on mutual information and mixed weighting,PDF-MIMW)。首先,在特征降维阶段提出了基于互信息的特征提取策略(feature extraction strategy based on mutual information,FE-MI),结合特征重要性、交互性和冗余性度量过滤原始特征,剔除过多的不相关和冗余特征;接着,在多粒度扫描阶段提出了基于填充的改进多粒度扫描策略(improved multi-granularity scanning strategy based on padding,IMGS-P),对精简后的特征进行填充并对窗口扫描后的子序列进行随机采样,保证多粒度扫描的平衡;其次,在级联森林构建阶段提出了并行子森林构建策略(sub-forest construction strategy based on mixed weighting,SFC-MW),结合Spark框架并行构建加权子森林,提升模型的分类性能;最后,在类向量合并阶段提出基于混合粒子群算法的负载均衡策略(load balancing strategy based on hybrid particle swarm optimization algorithm,LB-HPSO),优化Spark框架中任务节点的负载分配,降低类向量合并时的等待时长,提高模型的并行化效率。实验表明,PDF-MIMW算法的分类效果更佳,同时在大数据环境下的训练效率更高。

一种三相线电压级联单位功率因数整流器负载不均衡特性分析及电压均衡控制策略

该文对一种由三个三相单开关整流器线电压级联构成的三相单位功率因数整流器的负载不均衡特性和输出电压均衡控制策略进行分析和研究,首先详细阐述此类整流器在三个直流侧负载不均衡时,交流输入端电流能自动保持均衡的独特特性及相应工作机理;然后研究系统整体分层控制策略。在传统的基于电压外环PI控制、电流内环PR控制的上层控制基础上,针对各整流模块参数不一致及负载功率不一致引起的各模块输出电压不均衡问题,通过加入偏差因子调制波补偿的底层控制,实现了对每个模块输出功率的独立调节,进而实现了各整流模块输出电压的均衡控制。仿真和实验结果验证了所研究拓扑结构的优越性和控制策略的可行性。

平衡计分卡在公共部门预算绩效管理中的应用分析——基于学习与成长视角的考察

作为平衡计分卡的基础,学习与成长视角不仅是平衡计分卡价值创造的动力和源泉,而且融入了预算绩效管理的各个环节。但是在具体应用中,平衡计分卡仍然面临着学习反馈与人才培养机制有待完善、预算绩效信息质量急需提高等一系列挑战。在未来的改革中,应不断优化预算绩效管理中的学习反馈机制,将奖惩激励措施有机融入人才培养机制,通过多元化数据来源和建立平衡计分卡专项数据库等手段,持续提升预算绩效信息管理的技术水平。