UFMC系统中基于阈值的改进DFT信道估计算法

针对通用滤波多载波(Universal Filtered Multi-Carrier,UFMC)系统中传统的基于离散傅里叶变换(Discrete Fourier Transform,DFT)的信道估计算法存在噪声区间不连续、信道长度内噪声消除不彻底、信号经DFT运算后频谱泄露高等问题,提出一种基于阈值的改进DFT信道估计算法。算法在频域通过加窗以降低信道冲激响应(Channel Impulse Response,CIR)能量泄露,在时域通过设置阈值和指数平滑可最大限度滤除样本内噪声。理论分析与仿真结果表明,与传统的DFT估计算法相比,所提算法误比特率(Bit Error Ratio,BER)更低,在高信噪比下有1.5 dB左右的性能提升,能够进一步减少噪声对系统性能的影响,可有效提高信道估计的准确度。

SO_(2)对K2CO_(3)吸附CO_(2)性能影响的实验及DFT机理研究

电站锅炉的尾气在脱硫后含有微量的SO_(2),导致CO_(2)吸附剂性能变差。根据电厂烟气的组分,采用模拟烟气在实验室条件下对K2CO_(3)吸附剂的CO_(2)吸附性能及SO_(2)对CO_(2)吸附的影响进行实验研究。结合XRD分析,利用密度泛函理论(density functional theory,DFT)对SO_(2)在K2CO_(3)吸附剂上的影响及CO_(2)吸附机理进行理论研究。结果表明,受SO_(2)分子S原子活跃的s轨道影响,S的p轨道及O原子活性均增强,与K2CO_(3)表面O原子价带顶能带简并,SO_(2)被优先吸附在K2CO_(3)表面的O顶位,并将CO_(2)推离吸附剂表面,导致吸附剂活性位点虽有空余却无法吸附CO_(2)。在实验中表现为:模拟烟气中CO_(2)体积浓度为10%时,气氛中体积浓度为0.007%的SO_(2)会使吸附剂的吸附量由1.65 mmol/g降低至1.01 mmol/g。提出CO_(2)与H2O在K2CO_(3)(001)表面的吸附机理,理论计算的反应活化能为40.7 kJ/mol,反应热为-54.9 kJ/mol。

LiODFP在锂离子电池正极氧化分解的DFT研究

使用密度泛函理论(DFT),研究锂盐二氟二草酸磷酸锂(LiODFP)作为成膜添加剂在锂离子电池正极的作用机理。各研究体系的氧化电势理论计算值的排列顺序为:碳酸酯(包括EC、PC、EMC和DMC)>ODFP^(-)(单分子)≈碳酸酯-ODFP^(-)配合物。ODFP^(-)优先于碳酸酯发生氧化反应,ODFP^(-)结构分解的路径比EC分子分解的路径更容易进行。EC+ODFP^(-)-e体系可能发生的分解反应路径是ODFP^(-)结构开环,生成CO、CO_(2)和自由基R1。R1可能进一步发生自由基终止反应,生成含有氟代磷酸盐单体的低聚物,从而抑制碳酸酯溶剂分子的氧化分解。

基于DFT+U理论的SF_(6)分子与TiO_(2)(001)表面吸附研究

SF_(6)气体具有极强的温室效应,针对SF_(6)废气降解和转化的研究对环境保护具有重要意义。为此基于DFT+U理论,研究了SF_(6)分子在TiO_(2)(001)缺陷表面的吸附分解过程。结果表明,SF_(6)分子与TiO_(2)表面之间存在着很强的相互作用,吸附能达到-5.280 eV,推测这是一个化学吸附过程。根据Mulliken电荷分析,电子从Ti O2表面转移到SF_(6)气体分子,在此过程中,SF_(6)表现为电子受体,TiO_(2)表现为电子供体。根据态密度结果分析,SF_(6)分子的S原子和F原子与TiO_(2)表面的Ti原子和O原子之间存在明显的电子轨道重叠。除此之外,差分电荷密度结果也证实了这一电荷转移过程。吸附前后,SF_(6)的分子结构发生了显著变化,S—F键的拉长使得SF_(6)分子更易发生分解。研究表明,Ti O2具有催化降解SF_(6)绝缘气体的潜力,该研究为高效无害化处理SF_(6)气体的实验研究提供了理论支撑。

羟基钙(CaOH^(+))在铜砷分离中对毒砂抑制机理的DFT研究

黄铜矿与毒砂浮选分离中,Cu^(2+)总是不可避免地活化毒砂,使其混入铜精矿产品中,从而降低产品的质量。石灰作为毒砂的有效抑制剂,其有效成分为CaOH^(+)。本研究采用密度泛函理论(DFT),分析CaOH^(+)对毒砂的抑制机理。DFT计算结果表明,CaOH^(+)能够使Cu^(2+)离开毒砂表面,削弱其活化作用;毒砂表面的Fe^(2+)和Cu^(2+)失去的电子对与CaOH^(+)的LUMO+1轨道形成反馈π键,导致Fe、Cu的活性被CaOH^(+)降低,从而对毒砂形成强抑制作用。这表明无论毒砂是否被Cu^(2+)活化,CaOH^(+)均能吸附在其表面,达到抑制效果。

Mg/MgO interfaces as efficient hydrogen evolution cathodes causing accelerated corrosion of additive manufactured Mg alloys:A DFT analysis

The corrosion rates of additive-manufactured Mg alloys are higher than their as-cast counterparts,possibly due to increased kinetics for the hydrogen evolution reaction on secondary phases,which may include oxide inclusions.Scanning Kelvin Probe Force Microscopy demonstrated that MgO inclusions could act as cathodes for Mg corrosion,but their low conductivity likely precludes this.However,the density of state calculations through density functional theory using hybrid HSE06 functional revealed overlapping electronic states at the Mg/MgO interface,which facilitates electron transfers and participates in redox reactions.Subsequent determination of the hydrogen absorption energy at the Mg/MgO interface reveals it to be an excellent catalytic site,with HER being found to be a factor of 23x more efficient at the interface than on metallic Mg.The results not only support the plausibility of the Mg/MgO interface being an effective cathode to the adjacent anodic Mg matrix during corrosion but also contribute to the understanding of the enhanced cathodic activities observed during the anodic dissolution of magnesium.

基于DFT的频率敏感双分支Transformer多变量长时间序列预测方法

在进行多变量长时间序列预测时,仅利用时域分析通常无法充分捕捉长时间序列依赖,而这会导致信息利用率不足、预测精度不够高。因此,结合频域时域分析,提出一种基于离散傅里叶变换(DFT)的频率敏感双分支多变量长时间序列预测(FSDformer)方法。首先,通过DFT实现时间和频率的相互转换,从而将复杂的时间序列数据分解为结构简单的低频趋势项、中频季节项和高频余项3个分量;其次,采用双分支结构,针对中高频分量预测,应用Encoder-Decoder结构,设计了周期性增强注意力机制;针对低频趋势分量预测,采用多层感知机(MLP)结构;最后将中高频分量与低频分量预测结果相加,得到多变量长时间序列的最终预测结果。在2个数据集上把FSDformer与其他5个经典算法进行了对比分析,在Electricity数据集上,当历史序列长度为96,预测序列长度为336时,相较于Autoformer等对比算法,FSDformer的平均绝对误差(MAE)下降了11.5%~29.1%,均方误差(MSE)下降了20.9%~43.7%,达到了最优预测精度。实验结果表明,FSDformer能有效捕捉长时间序列的相关依赖,在提升预测精度和计算效率的同时,增强了模型预测的稳定性。

金属间化合物Al_(3)Ti多晶型性质的DFT理论研究

采用基于密度泛函理论(DFT)的第一性原理研究方法,考察了在DO_(22)、DO_(23)、DO_(19)和L1_(2)四种晶体结构下,Al_(3)Ti金属间化合物的热力学稳定性和力学性能。计算结果表明,四种结构的Al_(3)Ti生成焓均为负值,表明四者在热力学上均可以稳定存在。其中,DO_(23)-Al_(3)Ti的生成焓最负,热力学稳定性最高,其后依次是DO_(22)、L1_(2)、DO_(19)三种结构。力学性能计算表明,DO_(23)结构具有最高的杨氏模量E和体模量B。根据体模量B和剪切模量G的比值B/G,可知四种结构的Al_(3)Ti均呈脆性。各向异性指数A^(U)的排序为DO_(22)>DO_(23)>L1_(2)>DO_(19)。

一种数字后端设计DFT的方法分析

阐述可测试性设计(DFT)的特点。分析一种ASIC设计中DFT的方法,包括定义扫描链、定义测试信号、提取扫描链、写入测试协议,使设计人员可以优化最终芯片制造的功耗、面积和时序。

表面活性剂在气液界面层性质的DFT理论研究

在温度273.15 K、压力1.013×10^(5) Pa条件下,该文采用密度泛函理论计算方法,应用Gaussian 03程序B3LYP方法6-31G基组对十二烷基二甲基氧化胺及十二烷基磺酸钠的水合物结构(水分子数n=1~3)进行了全优化计算,从分子水平上研究了在气液界面层中表面活性剂分子与水之间的相互相用,并对界面的形成、稳定性和影响因素进行了分析.分析结果表明:表面活性剂与水分子以氢键形成了稳定的水合物,在水合物中发生明显的电荷从表面活性剂分子向水分子的迁移现象,水合过程体系的吉布斯自由能降低,是一个自发的过程.通过计算水合物的电荷分布规律,对气液界面层表面活性剂分子间相互作用及排布方式进行了理论研究.研究结果表明:表面活性剂疏水基团与亲水基团连接部分带有与亲水基同种电荷,而远离亲水基的一端带有部分负电荷;气液界面层表面活性剂可以通过氢键及静电作用力形成稳定有序的排布.对十二烷基二甲基氧化胺及十二烷基磺酸钠复配协同增效作用进行了理论解释,表面活性剂水合物分子间除了氢键作用外,还存在较强的正负电荷静电作用力,从而提高了其界面稳定性.

Fe/Co/Ni-N共掺杂石墨烯氧还原反应活性的DFT研究

为了研究Fe/Co/Ni-N掺杂石墨烯的氧还原反应(ORR)活性,比较单金属原子和氮不同的掺杂方式对石墨烯ORR活性的影响.利用Materials Studio软件建立了Fe/Co/Ni-N掺杂石墨烯模型,然后将氧气分子分别吸附在Fe/Co/Ni-N掺杂石墨烯模型表面上.采用CASTEP模块对构建的模型进行结构优化并模拟计算,分析了Fe/Co/Ni-N掺杂石墨烯的吸附能、脱附能和导电性变化规律.基于模拟计算,发现单金属原子掺杂石墨烯时,Fe掺杂石墨烯的ORR活性优于Co和Ni;单金属原子和氮共掺杂石墨烯时,Fe-N掺杂石墨烯的ORR活性高于Co-N和Ni-N掺杂石墨烯,且M-N4-G形态的ORR活性优于M-N1-G、M-N2-G和M-N3-G.

Kinetics and Mechanism of Hydration of Acrylic Acid over Ion-exchanged Resin:Experimental Exploration and DFT Calculation

Liquid-phase acrylic acid hydration over solid-phase catalysts is a key reaction for the industrial productionof 3-hydroxypropionic acid. However, the relevant literature primarily focuses on the experimental aspects of catalystscreening and exploring reaction conditions, with few accurate descriptions of the reaction kinetics and determination ofthe reaction mechanism. Here, we combined kinetics experiments and theoretical calculations to elucidate the kinetics andmechanism of acrylic acid hydration on a resin catalyst. The pseudo-homogeneous model, and Langmuir-Hinshelwood-Haugen-Watson and Elie-Riedel (ER) heterogeneous models were used to explain the experimental kinetics data. TheER model can explain the experimental data very well, suggesting strong adsorption of acrylic acid on the surface of theresin catalyst. Furthermore, density functional theory calculations show that the hydration follows a stepwise, rather than aconcerted, reaction pathway. The present study provides theoretical insights into the reaction mechanism and kinetics, fillingthe gap in our understanding of the reaction on a fundamental level.

基于组合DFT方法的ECSP配比设计策略研究

为提高电控固体推进剂(ECSP)配比设计中能量特性参数计算效率以及解决传统配比设计策略未考虑组分含量同步变化的问题,提出了一种基于revDSD-PBEP86-D3(BJ)泛函的组合密度泛函理论(DFT)方法(co-revDSD),将几何优化、振动分析、单点能计算、单点能外推等步骤组合,并结合非迭代三激发电子相关耦合簇(CCSD(T))方法进行了校正,对比了部分有机物生成焓的实验值和co-revDSD方法的计算值;建立了基于评价指数的配比设计策略,基于co-revDSD方法计算了ECSP组分生成焓,绘制了考虑ECSP不同组分含量同步变化时的能量特性参数云图。结果表明,co-revDSD方法可以高效地计算生成焓,部分有机物的实验值和co-revDSD方法的计算值误差在-5%~5%之间;硝酸羟胺(HAN)的生成焓-250.031 kJ·mol^(-1),聚乙烯醇(PVA)的生成焓与重复单元数成正比,比例系数为-219.117;氧化剂/燃料(O/F)比和Al含量的增大在一定范围内均会造成ECSP的能量特性参数的增大,增大Al含量和O/F比可在比冲合适的条件下尽可能降低燃烧温度及燃气平均相对分子质量。

水化膜对石英表面硫化作用的DFT研究

在许多地质检测和工业生产的过程中,硫化是一种常用的改善氧化矿浮选的预处理工艺。并不是所有的氧化矿物都可以硫化,因此石英表面的硫化十分重要。然而,该过程的详细机理目前仍不清楚,尤其是在存在水化膜的情况下。因此,本文使用密度泛函理论(DFT)来研究水化膜对石英表面硫化作用的影响。计算结果表明,水化膜对石英能否硫化起决定性作用,石英中的Si-O键比Si-S键强烈,导致石英表面水化膜对硫化氢(HS)有强大障碍,石英的硫化难以进行。为找出其内部机理,本文进一步分析了重叠布居、投影态密度(PDOS)和电子构型,并建立了它们与硫化行为的关系,研究其对硫化产物的性质和稳定性有何影响。

基于DFT-MARTE模型的时序分析算法

针对航天嵌入式软件(aerospace embedded software,AES)时序需求复杂带来的时序需求定义不准确问题,提出一种基于MARTE(modeling and analysis of real-time and embedded systems)模型的数据流时序(data flow timing based on MARTE,DFT-MARTE)模型,设计基于该模型的处理点缓存计算算法、时序偏离概率检测算法和时序序列分析算法。处理点缓存计算算法动态更新缓存空间,使后续时序检测正常执行;时序偏离概率检测算法利用多线程并发模拟时序特性,检测需求中时序偏离问题;时序序列分析算法是基于梯度下降算法,拟合时序序列,指导用户优化需求。该模型相比传统数据流模型更适用航天嵌入式软件,利于后续开发和维护,具有极高的应用价值。

Theoretical Study of Benzothiazole and Its Derivatives: Molecular Structure, Spectroscopic Properties, NBO, MEP and TD-DFT Analyses

Benzothiazole (BTH) and its derivatives are organic molecules with biologic actions. Because of their many applications, they are produced on a massive scale and used in a number of environmental compartments. Their discharge into water produces environmental problems, exposing our environment to public health problems. A solution that can contribute to their deterioration is becoming a necessity. For this reason, a conceptual analysis of the reactivity of benzothiazole and four of its compounds was undertaken in order to investigate certain aspects of their biodegradability. A theoretical investigations of the compounds studied were conducted in the gas and water phases with the most widely used density functional theory method, Becke-3-Parameter-Lee-Yang-Parr (B3LYP) with 6-31G+ (d, p) basis. Reactivity study calculated global indices of reactivity revealed that 2-SCH3_BTH is the most reactive. Dipole moment values analysis reveals that 2-NH2_BTH is the most soluble in water, while the lipophilicity shows that 2-NH2_BTH is the most hydrophilic compound. Thermodynamic parameters values reflect that reactions are respectively exothermic and spontaneous. By analyzing an Electrostatic Molecular Potential (EMP) map, researchers can pinpoint reactive sites on a molecule and anticipate its reactivity. This assessment is further enhanced by incorporating global and local reactivity descriptors. Additionally, an exploration of frontier molecular orbitals offers valuable insights into the molecule’s charge transfer characteristics. Moreover, a combined examination of internal and external molecular interactions unveils hyperconjugative interactions arising from charge delocalization, as elucidated through natural bond orbital (NBO) analysis.

Study the Structural, Electronic, Optical Properties of CZTS Compound after Doping Ba at Zn Site and Si at Sn Site Using Density Functional Theory (DFT)

The structural, electronic, and optical properties of Cu2Zn1−xBaxSn1−ySiyS4 compounds have been calculated using GGA-PBE function within the framework of Density Functional Theory (DFT). In the present work, lattice parameters remained the same, that is tetragonal crystal structure for 0% and 100% doping concentration. The electronic band gap of Cu2Zn1−xBaxSn1−ySiyS4 compounds has been gradually increased for continuous increment of doping concentration where the highest electronic band gap is 1.117 eV for Cu2BaSiS4 structure. Moreover, the band gap changes from direct to indirect band gap with the increase of doping concentration in the parent compound. The absorption coefficient has been found to be high (> 104 cm−1) in UV-region for all the doping concentration which makes the studied compound as a potential candidate of absorber layer in the UV detector. The theoretical study of the effect of double doping in the CZTS compound is very interesting for improving the quality of it and it would be a reference for the theoretical and experimental researchers.

Structural, Electronic and Optical Properties of ScxAl1-xN alloys within DFT Calculations

Structural, electronic and optical properties of Sc-based aluminum-nitride alloy have been carried out with first-principles methods using both local density approximation (LDA) and Heyd-Scuseria-Ernzerhof (HSE) hybrid functional. This latter provides a more accurate description of the lattice parameters, enthalpy of formation, electronic and optical properties of our alloy than standard DFT. We found the transition from wurtzite to rocksalt structures at 61% of Sc concentration. By increasing the scandium concentration, the lattice parameters and the band gap decrease. The HSE band gap is in good agreement with available experimental data. The existence of the strong hybridization between Sc 3d and N 2p indicates the transport of electrons from Sc to N atoms. Besides, it is shown that the insertion of the Sc atom leads to the redshift of the optical absorption edge. The optical absorption of ScxAl1-xN is found to decrease with increasing Sc concentrations in the low energy range. Because of this, ScxAl1-xN have a great potential for applications in photovoltaics and photocatalysis.

基于滑窗DFT算法的新能源直流并网逆变器协调控制方法

当前的并网逆变器协调控制结构一般设置为独立形式,整体协调控制效率较低,导致周期逆变器的畸变率增加,为此提出基于滑窗离散傅里叶变换(Discrete Fourier Transform,DFT)算法的新能源直流并网逆变器协调控制方法。根据现有的测定需求和标准,先进行畸变电流测定,采用多目标的方式提高整体的协调控制效率。设计多目标交叉协调控制结构,构建滑窗DFT测算并网逆变器协调控制模型,采用三相平衡控制实现逆变器协调控制处理。测试结果表明,与传统带输出LC滤波器辅助逆变器协调控制方法和传统光伏处理逆变器协调控制方法相比,本次设计的基于滑窗DFT算法的逆变器协调控制方法最终得出的周期逆变器畸变率均被控制在0.2%以下,大幅提升了变网逆变器的协调控制效率,控制针对性增强,具有较好的实际应用价值。

水液相下苯丙氨酸钾配合物对映异构的DFT研究

采用DFT(密度泛函理论)的M06-2X、MN15方法和处理溶剂效应的SMD模型方法,研究了水液相环境下手性苯丙氨酸钾配合物(Phe·K^(+))的对映异构。研究发现:手性Phe·K^(+)的对映异构可在质子只以氧为桥、以氧和氮联合为桥和只以氮为桥迁移的3个通道上实现。计算表明:质子只以氮为桥迁移是最优势反应通道,隐性水溶剂效应下决速步的自由能垒是220.0 kJ/mol,显性水溶剂效应下该能垒降到114.0至122.8kJ/mol之间。结果表明:水液相下手性Phe·K^(+)的消旋反应过程十分缓慢,苯丙氨酸钾短期用于生命体同补苯丙氨酸和钾元素比较安全。