Construction Method for Performance Management Curriculum Content System Based on Knowledge Graph

Performance Management is the core course of human resource management major,but its knowledge points lack multi-dimensional correlations.There are problems such as scattered content and unclear system,and it is urgent to reconstruct the content system of the course.Knowledge graph technology can integrate massive and scattered information into an organic structure through semantic correlation and reasoning.The application of knowledge graph to education and teaching can promote scientific and personalized teaching evaluation and better realize individualized teaching.This paper systematically combs the knowledge points of Performance Management course and forms a comprehensive knowledge graph.The knowledge point is associated with specific questions to form the problem map of the course,and then the knowledge point is further associated with the ability target to form the ability map of the course.Then,the knowledge point is associated with teaching materials,question bank and expansion resources to form a systematic teaching database,thereby giving the method of building the content system of Performance Management course based on the knowledge map.This research can be further extended to other core management courses to realize the deep integration of knowledge graph and teaching.

Adaptive battery thermal management systems in unsteady thermal application contexts

With the increasing attention paid to battery technology,the microscopic reaction mechanism and macroscopic heat transfer process of lithium-ion batteries have been further studied and understood from both academic and industrial perspectives.Temperature,as one of the key parameters in the physical fra mework of batteries,affects the performa nce of the multi-physical fields within the battery,a nd its effective control is crucial.Since the heat generation in the battery is determined by the real-time operating conditions,the battery temperature is essentially controlled by the real-time heat dissipation conditions provided by the battery thermal management system.Conventional battery thermal management systems have basic temperature control capabilities for most conventional application scenarios.However,with the current development of la rge-scale,integrated,and intelligent battery technology,the adva ncement of battery thermal management technology will pay more attention to the effective control of battery temperature under sophisticated situations,such as high power and widely varied operating conditions.In this context,this paper presents the latest advances and representative research related to battery thermal management system.Firstly,starting from battery thermal profile,the mechanism of battery heat generation is discussed in detail.Secondly,the static characteristics of the traditional battery thermal management system are summarized.Then,considering the dynamic requirements of battery heat dissipation under complex operating conditions,the concept of adaptive battery thermal management system is proposed based on specific research cases.Finally,the main challenges for battery thermal management system in practice are identified,and potential future developments to overcome these challenges are presented and discussed.

Endogenous Security-Aware Resource Management for Digital Twin and 6G Edge Intelligence Integrated Smart Park

The integration of digital twin(DT)and 6G edge intelligence provides accurate forecasting for distributed resources control in smart park.However,the adverse impact of model poisoning attacks on DT model training cannot be ignored.To address this issue,we firstly construct the models of DT model training and model poisoning attacks.An optimization problem is formulated to minimize the weighted sum of the DT loss function and DT model training delay.Then,the problem is transformed and solved by the proposed Multi-timescAle endogenouS securiTy-aware DQN-based rEsouRce management algorithm(MASTER)based on DT-assisted state information evaluation and attack detection.MASTER adopts multi-timescale deep Q-learning(DQN)networks to jointly schedule local training epochs and devices.It actively adjusts resource management strategies based on estimated attack probability to achieve endogenous security awareness.Simulation results demonstrate that MASTER has excellent performances in DT model training accuracy and delay.

Design and analysis of an advanced thermal management system for the solar close observations and proximity experiments spacecraft

In this paper,the mission and the thermal environment of the Solar Close Observations and Proximity Experiments(SCOPE)spacecraft are analyzed,and an advanced thermal management system(ATMS)is designed for it.The relationship and functions of the integrated database,the intelligent thermal control system and the efficient liquid cooling system in the ATMS are elaborated upon.For the complex thermal field regulation system and extreme space thermal environment,a modular simulation and thermal field planning method are proposed,and the feasibility of the planning algorithm is verified by numerical simulation.A solar array liquid cooling system is developed,and the system simulation results indicate that the temperatures of the solar arrays meet the requirements as the spacecraft flies by perihelion and aphelion.The advanced thermal management study supports the development of the SCOPE program and provides a reference for the thermal management in other deep-space exploration programs.

Optimizing Resource Management for IoT Devices in Constrained Environments

Embedded computing device implementation on the Internet of Things (IoT) requires careful assessment of their intrinsic resource limitations. These constraints are not limited to memory and processing capabilities but extend to the network interfaces, particularly due to the low-power radio standards that these devices typically employ. The IPv6 protocol is shown to be a strong option for guaranteeing interoperability in the IoT, mostly because of its large address space, the range of current IP-based protocols, and its intrinsic versatility. Considering these benefits, we investigate if current IP-based network management protocols can be implemented on devices with limited resources. We investigate the resource needs in particular for implementing Network Configuration Protocol (NETCONF) and Simple Network Management Protocol (SNMP) on an 8-bit AVR-based device. Our investigation reveals the specific memory and processing demands of these protocols, providing valuable insights into their practicality and efficiency in constrained IoT environments. This study underscores the potential and challenges of leveraging IPv6-based network management protocols to enhance the functionality and interoperability of IoT devices while operating within stringent resource limitations.

Ultra Dense Satellite-Enabled 6G Networks:Resource Optimization and Interference Management

With the evolution of the sixth generation(6G)mobile communication technology,ample attention has gone to the integrated terrestrial-satellite networks.This paper notes that four typical application scenarios of integrated terrestrial-satellite networks are integrated into ultra dense satellite-enabled 6G networks architecture.Then the subchannel and power allocation schemes for the downlink of the ultra dense satellite-enabled 6G heterogeneous networks are introduced.Satellite mobile edge computing(SMEC)with edge caching in three-layer heterogeneous networks serves to reduce the link traffic of networks.Furthermore,a scheme for interference management is presented,involving quality-of-service(QoS)and co-tier/cross-tier interference constraints.The simulation results show that the proposed schemes can significantly increase the total capacity of ultra dense satellite-enabled 6G heterogeneous networks.

4R危机管理理论在结缔组织病相关肺动脉高压患者6分钟步行试验中的应用效果

目的:评价4R危机管理理论在结缔组织病相关肺动脉高压患者进行6分钟步行试验中的效果。方法:便利选取120例2022年1月—12月在北京协和医院风湿免疫内科肺动脉高压专病门诊就诊的结缔组织病相关肺动脉高压行6分钟步行试验的患者,按时间先后进行分组,对照组给予常规管理流程,干预组应用4R危机管理理论更新的6分钟步行试验管理流程。针对6分钟步行试验后两组患者的血氧饱和度情况及不良事件发生情况进行分析。结果:干预组和对照组患者6分钟步行距离差异无统计学意义(P>0.05);干预组患者6分钟步行试验后及测试后3分钟血氧饱和度显著高于对照组(P<0.05);干预组患者6分钟步行试验期间低氧饱和度及不良事件发生情况显著少于对照组(P<0.05)。结论:结缔组织病相关肺动脉高压行6分钟步行试验患者经4R危机管理理论干预能够显著降低低氧饱和度发生率,降低患者不良反应发生率,该方案为结缔组织病相关肺动脉高压患者实施6分钟步行试验提供了安全保障。

镓硼共掺对6英寸VGF法锗单晶电阻率均匀性的影响

由于杂质分凝效应,镓掺杂垂直梯度凝固(VGF)法锗单晶的电阻率分布不均匀,理论上利用镓和硼分凝系数的差异,镓硼共掺工艺可以提升锗单晶电阻率均匀性。采用镓硼共掺工艺制备了6英寸(1英寸≈2.54 cm)VGF法锗单晶,对比分析了掺杂工艺对锗单晶电阻率均匀性的影响。当镓和硼杂质浓度分别为5.13×10^(18)cm^(-3)和0.67×10^(18)cm^(-3)时,在等径0~40 mm范围内轴向电阻率不均匀性为4.92%,等径0 mm和40 mm处径向电阻率不均匀性分别为1.63%和0.45%,与镓杂质浓度为5.13×10^(18)cm^(-3)的镓掺杂工艺相比,锗单晶头部的电阻率均匀性明显提升。当硼杂质浓度提高到1.89×10^(18)cm^(-3)时,镓硼共掺锗单晶头部电阻率均匀性变差。结果表明,适量硼掺杂的镓硼共掺工艺可以提升锗单晶头部电阻率均匀性。

水热反应温度对ZnIn_(2)S_(4)/Bi_(2)WO_(6)复合催化剂的影响研究

为解决传统半导体光催化剂可见光响应能力弱、光生电子空穴复合快、能带结构导致载流子氧化还原能力弱等问题,采用水热法制备ZnIn_(2)S_(4)/Bi_(2)WO_(6)(ZlS@BW)复合催化剂并系统研究水热反应温度对其结构性能的影响。当水热温度从80℃升高到160℃,ZlS@BW复合光催化剂结晶度提高,形貌转变为致密核壳结构,比表面积和光电性能先降低再升高,氟伐他汀去除率逐步上升。而当温度升高到200℃时,核壳结构遭到了破坏,比表面积和光电性能变差,氟伐他汀的降解效果降低,光催化性能下降。结果表明,水热温度为160℃时,制备的ZlS@BW复合光催化剂晶型结晶程度较高,且形貌致密,比表面积最大,产生的瞬态光电流最大,阻抗半径最小,具有最优光催化性能。对污染物氟伐他汀降的降解效率最高,可达到75.47%。

PDCA循环结合6S管理法应用于急救医疗设备管理作用探讨

目的探讨利用PDCA(计划、实施、检查和行动)循环和6S(整理、整顿、清扫、清洁、素养、安全)管理法降低医院急诊抢救室医疗设备的故障率与故障频次,优化急救医疗设备管理流程。方法临床工程处联合急诊抢救室成立管理小组,进行现状把握,统计急诊抢救室从2022年1月至6月的医疗设备的故障待机时间、使用时间与故障频次。组织全员进行头脑风暴,利用鱼骨图、柏拉图等工具,探究故障原因并制定实施对策。统计对策实施后2022年7月至12月的数据,比较故障率和故障频次变化,评价对策实施的效果。结果开发了设备管理软件MEIS,实现医疗设备的自助查询、报修、追溯功能。改善后的医疗设备使用时间为96946 h,故障待机时间为369 h。目标达标率为112.5%,进步率为62.38%。对策实施后较实施前急救医疗设备故障率(1.01%vs 0.38%)和故障频次(121次vs 51次)明显降低,差异具有统计学意义(P<0.05)。结论利用PDCA循环和6S管理法降低了急救医疗设备的故障率和故障频次,规范了急救医疗设备的维护保养、操作使用、故障管理、计量管理流程。有助于提高相关工作人员的职业素养能力和医院医疗服务质量,并为建立规范化的医疗设备管理模式提供了借鉴的思路。

Blockchain-enabled resource management and sharing for 6G communications

The sixth-generation(6G)network must provide better performance than previous generations to meet the requirements of emerging services and applications,such as multi-gigabit transmission rate,higher reliability,and sub-1 ms latency and ubiquitous connection for the Internet of Everything(IoE).However,with the scarcity of spectrum resources,efficient resource management and sharing are crucial to achieving all these ambitious requirements.One possible technology to achieve all this is the blockchain.Because of its inherent properties,the blockchain has recently gained an important position,which is of great significance to the 6G network and other networks.In particular,the integration of the blockchain in 6G will enable the network to monitor and manage resource utilization and sharing efficiently.Hence,in this paper,we discuss the potentials of the blockchain for resource management and sharing in 6G using multiple application scenarios,namely,Internet of things,deviceto-device communications,network slicing,and inter-domain blockchain ecosystems.

Analysis and management strategies for the low voltage problems of rural power grid based on the distribution network flow calculation method

For a long time, because of the lack of investment capital and enough attentions, the overall constructions of rural power grid were far behind than the urban power grid in Chongqing Jiangbei Power Company. The low voltage problems were highlighted in the rural power grid due to the characteristics of rural power grid. Using the distribution network flow calculation method, we evaluated the low voltage problems of the rural power grid which belongs to Chongqing Jiangbei Power Company. In addition, we collected the data of distribution transformers in electricity consumption peak period. Some practical management strategies were proposed by the analysis and evaluation of potential and appeared low voltage problems.

Bi_(2)WO_(6)/g-C_(3)N_(4)复合光催化剂的制备及其光催化性能研究

以尿素、硝酸铋、钨酸钠等为主要原料,在热缩聚法制备g-C_(3)N_(4)的基础上,通过水热法制备Bi_(2)WO_(6)/g-C_(3)N_(4)复合光催化剂。在模拟太阳光照射下,研究Bi_(2)WO_(6)/g-C_(3)N_(4)复合光催化剂对甲基橙的光催化降解性能。结果表明,复合光催化剂相比于单体光催化剂的性能有显著提高。在Bi_(2)WO_(6)与g-C_(3)N_(4)质量比为2∶1、水热温度为180℃、水热时间为12 h条件下,复合光催化剂的性能最好。光照时间210 min时,甲基橙降解率达到了98.15%,相比于单体Bi_(2)WO_(6)和g-C_(3)N_(4)光催化剂的效率分别提高了25.1%和37.7%,且光催化降解过程符合一级动力学方程。复合光催化剂具有优异的稳定性,经过4次重复性实验,甲基橙降解率仍达到95.17%。

Pain Management in Pediatric Nursing

Children often experience pain in different stage of life. After birth, newborns are exposed to many painful attempts and their anxiety levels increase with it. These painful attempts lead to metabolic or physiological problems in newborns. Excessive protein expenditure when exposed to pain for a long time, electrolyte inhalation, weakening of the immune system. Even repetitive painful procedures increase mortality and morbidity. Children experience pain due to acute onset diseases such as otitis media or pharyngitis and also in different medical interventions such vaccination, blood transfusion, vascular access, dressing change, lumber punching, or sickle cell anemia. Appropriate assessment scales should be used to treat pain effectively and adequately. Pharmacological treatment as well as non-pharmacological treatment methods has been found to be effective in the treatment of pain. Non-pharmacological methods allow your body to release natural endorphins and help to lift the pain to a minimum level or completely. In this study, current approaches and studies about pain in children will be presented. Non-pharmacological methods will be examined in more detail. Every child has right to live a painless life. It is one of the main purposes of nursing care to relieve children’s pain and improve their life quality.

A three-level mobility management scheme for hierarchical mobile IPv6 networks

Performance evaluation shows that Hierarchical Mobile IPv6 (HMIPv6) cannot outperform standard Mobile IPv6 (MIPv6) in all scenarios. Thus, adaptive protocol selection under certain circumstances is desired. Moreover, it is necessary to balance the load among different Mobility Anchor Points (MAPs). This paper proposes an efficient three-level hierarchical ar- chitecture for mobility management in HMIPv6 networks, in which a mobile node (MN) may register with either a higher/lower MAP or its home agent according to its speed and the number of connecting correspondent nodes (CNs). An admission control algorithm and a replacement algorithm are introduced to achieve load balancing between two MAP levels and among different MAPs within the same MAP level. Admission control is based on the number of CNs but not MNs that an MAP serves. In case there is no capacity for an MN, the MAP chooses an existing MN to be replaced. The replaced MN uses the MAP selection al- gorithm again to choose another mobility agent. Simulation results showed that the proposed scheme achieves better performance not only in reducing the signaling overhead, but also in load balancing among different MAPs.

用于C_(3)H_(6)/N_(2)分离的PDA@PEBA2533膜的制备

为回收聚丙烯制备尾气中的丙烯,采用本实验室独创的浸渍-旋转法在聚醚嵌段共聚酰胺(PEBA2533)膜表面沉积聚多巴胺(PDA)膜层制备出对C3H6具有更强亲和性的PDA@PEBA2533膜。利用扫描电子显微镜(SEM)和X射线衍射(XRD)对PDA颗粒和膜进行表征。考察了PDA沉积时间对膜形貌、结构以及分离性能的影响,也考察了温度和压力等操作条件对膜分离性能的影响。探索了PDA@PEBA2533膜对不同C3H6浓度的C_(3)H_(6)/N_(2)混合气的分离效果以及膜的长时间分离稳定性。结果表明,沉积PDA于PEBA2533膜表面有效提高了膜的分离性能。当沉积时间不小于24h时,可得到连续的PDA膜层,随沉积时间的增加,膜层逐渐增厚,气体渗透速率先增大后减小,选择性持续上升,沉积24h所制备的膜分离性能最佳。增大操作温度和压力,膜对C3H6和N2的渗透速率均增大,C_(3)H_(6)/N_(2)选择性则降低。增大混合气中C3H6浓度,膜对C3H6的渗透速率和选择性均呈现先上升后下降的趋势。在所制备的分离性能最好的PDA@PEBA2533膜上,0.2MPa时,对C3H6体积分数为20%的混合气,温度从0℃提高到50℃,C3H6渗透速率从8.25GPU增加到71.42GPU,C_(3)H_(6)/N_(2)选择性从22.92降低至10.14。在130h的气体分离实验中,该膜表现出良好的稳定性。该膜与其他分离C_(3)H_(6)/N_(2)混合气膜相比具有一定的优势。

Application of TOPSIS Method in Support of Decisions Made in Staff Management Issues

Evaluation model was proposed which refers to fuzzy formalism of the personnel management issues taking account their specific characteristics. Application of TOPSIS （technique for order Performance by similarity to ideal solution） method for evaluation and regulation of alternatives based on hierarchically structured criteria of qualitative character by multiple experts to intellectually support decisions made in staff management issues is reviewed in the article. Candidate selection experiment based on criteria system formed using TOPSIS method for evaluation of candidates during solution of hiring problems reviewed and obtained results were compared with results obtained using Matlab program package.

{P_(4)Mo_(6)}基多金属氧酸盐构筑的镍配合物作为一种电化学传感器用于检测Cr^(Ⅵ)和Fe^(Ⅲ)离子

以钼酸钠、硫酸镍和3-氨甲基吡啶为原料,通过水热法合成了一个{P_(4)Mo_(6)}基多金属氧酸盐构筑的镍配合物,其化学式为[H_(2)(3-AP)]_(6){Ni[Mo_(6)O_(12)(OH)_(3)(PO_(4))_(2)(HPO_(4))_(2)]_(2)}(化合物1),3-AP为3-氨甲基吡啶.该化合物为三维超分子结构,其由{Ni[P_(4)Mo_(6)^(Ⅴ)O_(31)]_(2)}^(22-)记为{Ni(P_(4)Mo_(6))_(2)}和质子化的3-AP通过氢键相互作用连接而成.研究了该配合物修饰的碳糊电极(1-CPE)对Cr^(Ⅵ)和Fe^(Ⅲ)离子的电化学检测,检出限(LODs)分别为2.3和4.6μmol/L.同时1-CPE在各种金属离子的存在下对Cr^(Ⅵ)和Fe^(Ⅲ)表现出良好的选择性和较强的抗干扰能力.

CuCoCe-LDH催化剂的C_(3)H_(6)-SCR脱硝特性

采用水热法一步合成一系列的Cu_((x))Co_((y))Ce_((z))-LDH前驱体,煅烧后形成Cu_((x))Co_((y))Ce_((z))O混合金属氧化物催化剂,在固定床微反应器上实验研究了其C3H6选择性催化还原NO的性能(C_(3)H_(6)-SCR)。得益于Cu、Co、Ce之间强大的协同作用,Cu((0.21))Co((0.48))Ce((0.31))O在225℃时达到95%的NO转化率和90%的N_(2)选择性。此外,运用ICP、XRD、TEM、XPS、H_(2)-TPR等表征来研究其物理化学性质和催化还原能力之间的关系。XRD结果表明,Cu、Co、Ce之间形成了固溶体,促进了活性金属的分散。XPS和H_(2)-TPR进一步证明Cu和Co之间发生了氧化还原反应,促进氧空位的形成,从而提升其催化还原性能。

Energy-efficient resource management for CCFD massive MIMO systems in 6G networks

This paper presents a co-time co-frequency fullduplex(CCFD)massive multiple-input multiple-output(MIMO)system to meet high spectrum efficiency requirements for beyond the fifth-generation(5G)and the forthcoming the sixth-generation(6G)networks.To achieve equilibrium of energy consumption,system resource utilization,and overall transmission capacity,an energy-efficient resource management strategy concerning power allocation and antenna selection is designed.A continuous quantum-inspired termite colony optimization(CQTCO)algorithm is proposed as a solution to the resource management considering the communication reliability while promoting energy conservation for the CCFD massive MIMO system.The effectiveness of CQTCO compared with other algorithms is evaluated through simulations.The results reveal that the proposed resource management scheme under CQTCO can obtain a superior performance in different communication scenarios,which can be considered as an eco-friendly solution for promoting reliable and efficient communication in future wireless networks.