Three-dimensional channel flow of second grade fluid in rotating frame

An analysis is performed for the hydromagnetic second grade fluid flow between two horizontal plates in a rotating system in the presence of a magnetic field. The lower sheet is considered to be a stretching sheet, and the upper sheet is a porous solid plate. By suitable transformations, the equations of conservation of mass and momentum are reduced to a system of coupled non-linear ordinary differential equations. A series of solutions to this coupled non-linear system are obtained by a powerful analytic technique, i.e., the homotopy analysis method （HAM）. The results are presented with graphs. The effects of non-dimensional parameters R, A, M2, a, and K2 on the velocity field are discussed in detail.

Microstructure and mechanical properties of Mg-Gd-Y-Zr alloy processed by equal channel angular pressing

Microstructure evolution and texture development and their effects on mechanical properties of a Mg-Gd-Y-Zr alloy during equal channel angular pressing（ECAP） were investigated.It is found that the microstructure is still inhomogeneous after four passes,and two zones,namely the fine grain zone（FGZ） and the coarse grain zone（CGZ） are formed.The grain refinement occurs mainly by particle-stimulated nucleation（PSN） mechanism,which led to a more random texture after four passes of ECAP.In the ECAP-processed alloy,the strength did not increase while the ductility was enhanced dramatically compared with the as-received condition.The change of ductility of this alloy was discussed in terms of texture and second phase particles.

Effects of second phases on mechanical properties and martensitic transformations of ECAPed TiNi and Ti-Mo based shape memory alloys

TiNi and Ti-based shape memory alloys were processed by equal channel angular pressing （ECAP） at 673-773 K along Bc route to obtain ultrafine grains for increasing the strength of parent phase and improving the functional properties. The effects of both thermodynamically stable and metastable second phases on the mechanical properties and martensitic transformations of these alloys were investigated. It is found that thermodynamically stable Ti2Ni phase has no effect on martensitic transformation and superelasticity of Ti-rich TiNi alloy, thermodynamically stable α phase is harmful for ductility of Ti-Mo-Nb-V-Al alloy, but metastable Ti3Ni4 phase is effective for R phase transformation, martensitic transformation and superelasticity of Ni-rich TiNi alloy. The mechanisms of the second phases on the martensitic transformations and mechanical properties were discussed.

沅水桃源枢纽二线船闸整体布置试验研究

针对沅水下游存在高等级航道瓶颈,桃源枢纽一线船闸通过能力不足的问题,拟在桃源枢纽扩建二线船闸。建立1:100整体定床物理模型,对船闸左、右岸的设计方案进行比选和优化,并对引航道及口门区的通航水流条件采取一系列改善措施。结果表明:左岸新建船闸方案通航流量基本能达到10 a一遇洪水流量,但需要拆除重建3孔泄洪闸,对枢纽主体结构、左汊行洪能力、河床稳定影响大,还需要拆除一线船闸左侧导航堤和导流堤,导致大幅降低一线船闸通航保证率;通过对右岸船闸方案采用减小上游开挖深度、在上游连接段布置潜坝、优化隔水墙长度、扩展航槽宽度的方案,可大幅改善引航道及口门区的通航水流条件,满足通航要求。

Blind Equalization Based on RLS Algorithm Using Adaptive Forgetting Factor for Underwater Acoustic Channel

Blind equalization based on adaptive forgetting factor, recursive least squares （RLS） with constant modulus algorithm （CMA）, is investigated. The cost function of CMA is simplified to meet the second norm form to ensure the stability of RLS-CMA, and thus an improved RLS-CMA （RLS-SCMA） is established. To further improve its performance, a new adaptive forgetting factor RLS-SCMA （ARLS-SCMA） is proposed. In ARLS-SCMA, the forgetting factor varies with the output error of the blind equalizer during the iterative process, which leads to a faster convergence rate and a smaller steady-state error. The simulation results prove the effectiveness under the condition of the underwater acoustic channel.

The Tight Bound for the Number of Pilots in Channel Estimation for OFDM Systems

Coherent detection in OFDM systems requires accurate channel state information (CSI) at the receiver. Channel estimation based on pilot-symbol-assisted transmissions provides a reliable way to obtain CSI. Use of pilot symbols for channel estimation, introduces overhead and it is desirable to keep the number of pilot symbols as minimum as possible. This paper introduces a new tight bound for the number of pilots in channel estimation using adaptive scheme in OFDM systems. We calculate the minimum number of necessary pilots using two approaches. The first approach for the number of pilots is obtained based on Doppler frequency shift estimation and the second approach is acquired based on channel length estimation using second order statistics of received signal. Finally we obtain the tight bound for the number of pilots using attained values.

Blind Adaptive MMSE Equalization of Underwater Acoustic Channels Based on the Linear Prediction Method

The problem of blind adaptive equalization of underwater single-input multiple-output (SIMO) acoustic channels was analyzed by using the linear prediction method.Minimum mean square error (MMSE) blind equalizers with arbitrary delay were described on a basis of channel identification.Two methods for calculating linear MMSE equalizers were proposed.One was based on full channel identification and realized using RLS adaptive algorithms,and the other was based on the zero-delay MMSE equalizer and realized using LMS and RLS adaptive algorithms,respectively.Performance of the three proposed algorithms and comparison with two existing zero-forcing (ZF) equalization algorithms were investigated by simulations utilizing two underwater acoustic channels.The results show that the proposed algorithms are robust enough to channel order mismatch.They have almost the same performance as the corresponding ZF algorithms under a high signal-to-noise (SNR) ratio and better performance under a low SNR.

SECOND-MOMENT CLOSURE FOR MODELLING THE NEAR-WALL TURBULENCE IN 3D MEAN FLOWS

A second-moment closure for the near-wall turbulence is proposed. The limiting behaviour of this closure near a wall is consistent with that of the exact Reynolds-stress transport equations, and it converts asymptotically into a high- Reynolds-number closure remote from the wall. The closure is applied to a pressure- driven 3D transient channel flow. The predicted results are in fair agreement with the DNS data.

基于深度学习的快速长时视觉跟踪算法

在目标尺寸变化、遮挡和出视场等复杂长时视觉跟踪环境下,现有基于深度学习的视觉跟踪算法很难对目标进行实时准确的跟踪。针对该问题,提出一种快速的长时视觉跟踪算法,该算法由一个快速短时视觉跟踪算法和一个快速全局重检测模块组成。在基准算法SiamRPN中加入二阶通道与区域空间融合的注意力模块作为短时视觉跟踪算法,在保证快速性的同时,提高算法的短时视觉跟踪精确度和成功率;为使改进后的短时视觉跟踪算法具有快速的长时视觉跟踪能力,在算法中加入提出的基于模板匹配的全局重检测模块,该模块使用轻量级网络和快速的相似度判断方法,加快重检测速率。在OTB100、LaSOT、UAV20L、VOT2018-LT、VOT2020-LT等5个数据集上进行测试,实验结果表明,所提算法在长时视觉跟踪中具有优越的跟踪性能,平均速度达104帧/s。

可见-近红外二区双通道荧光成像系统

本文基于光学手段,开发出了一套能够兼顾可见光与近红外二区(NIR-Ⅱ)窗口的双通道宏观成像系统,能够实时输出具有NIR-Ⅱ荧光信息的高质量明场图像,解决了常规的NIR-Ⅱ宏观成像系统提供的荧光图像与明场图像割裂较大的问题。实验中利用不同厚度的脂肪组织测试了吲哚菁绿的NIR-Ⅱ窗口荧光信号分别在1 100~1 700 nm长通滤光片与1 300~1 700 nm长通滤光片下的抗散射能力与成像表现。接着利用所搭建的双通道宏观成像系统分别在小鼠以及大鼠模型上实现了淋巴结成像并模拟进行了淋巴结的切除手术,模拟了对腹腔淋巴结清扫的过程。最后,在大鼠模型上添加了不同厚度的生物脂肪组织,模拟实际手术中脂肪组织覆盖在淋巴结上的情况,观察双通道系统的穿透能力。可见近红外二区双通道荧光成像系统通过给操作者提供直观的影像信息,缩减手术时间、提高患者的预后,在临床手术导航中具有较大的应用潜力。

基于改进YOLOv7的煤矿输送带异物识别算法

针对煤矿井下图像不清晰以及YOLOv7定位误差较大的问题,提出了一种改进YOLOv7模型。首先通过直方图均衡化提高图像目标的清晰度,然后在YOLOv7的主干网络中添加二阶通道注意力模块(SOCA),使其专注于更有益的信息,添加空洞空间卷积池化金字塔(ASPP)模块,以多尺度的方式捕获上下文信息。实验结果表明:应用于煤矿输送带异物识别时,改进YOLOv7优于YOLOv7、YOLOv5、YOLOv5-CBAM模型。

京杭运河二通道待闸锚地容量探讨

以京杭运河二通道上设置的八堡船闸待闸锚地为研究对象,基于运量预测、通航条件分析、八堡船闸运行特点等前期成果,通过经验公式计算、排队模型对待闸锚地所需锚泊位数量分析计算,同时利用三堡船闸待闸锚地布置情况进行实例对比分析,并提出针对性的锚地改造措施。结果表明,合适的待闸锚地容量为不小于3个闸次船舶数量,并建议设置远程调度锚地进行梯级调度。

第二相粒子对ECAP挤压的2A12铝合金晶粒细化的影响

采用等径角挤压技术对2A12铝合金在室温下进行挤压,成功制备了亚微米尺度的块体铝合金材料.挤压前材料的平均晶粒尺寸约5μm,两次挤压后,平均晶粒尺寸细化至200nm左右.合金中的Al2Cu相在挤压过程中由针状变成了块状颗粒,而Al2CuMg相在挤压过程中晶粒大小基本不变.研究发现,硬颗粒Al2CuMg对基体α-Al有剪切和割裂作用,可以促进基体的晶粒细化过程,并初步给出了晶粒细化的模型.

采用FFT方法的抗阶数过估计信道盲辨识算法

针对二阶统计量信道盲辨识算法在小样本观测数据条件下性能恶化且对信道阶数误差敏感的问题,本文首先提出一种改进的基于FFT变换的信道盲辨识算法(FFT-MCR),该算法充分利用MCR算法只需最小冗余度信息求解信道向量的特性,有效地降低了原算法(BI-FFT)的计算复杂度且性能相当。研究表明FFT-MCR算法在信道阶数过估计情况下额外引入的公零点具有单位圆聚集性,同时提出一种具有较强阶数鲁棒性的盲辨识算法(R-FFT-MCR),算法通过聚类的思想搜索单位圆周围的公零点并将其移除,实现准确的信道估计。理论分析与仿真实验验证了所提算法的有效性。

河南卫辉地区寒武系第三统馒头组二段中的核形石及其沉积特征

为重建河南卫辉地区寒武纪古环境,揭示微生物岩的成因及演化规律,对河南卫辉地区寒武系第三统馒头组二段中的核形石进行了野外地质调查和室内微观分析。识别出2种不同类型的核形石,其中椭圆形核形石由较小的核心和不规则的明、暗纹层组成,与大量不规则泥质条带伴生,形成于高、低能交替的潮间水道;帽状—圆状核形石发育较大的核心和规则的明、暗纹层,与缓波状叠层石伴生,形成于高、低能交替的潮间—潮下水道。馒头组二段含核形石灰岩垂向序列自下而上呈潮上—潮间带泥、灰坪—潮间—潮下带水道、近岸鲕粒浅滩相的变化规律,反映了海平面向上缓慢上升、水动力逐渐增强的过程。

新疆与西北主网联网第二通道工程系统调试

新疆与西北主网联网750 kV第二通道工程是国家电网公司"十二五"规划重点建设项目之一,涉及7站12线,是我国西北750 kV主网架的重要组成部分,也是新疆及西北地区煤电、风电及光伏的重要外送通道。工程在世界上形成首个由750 kV级母线磁控式可控高抗、线路阀控式可控高抗及66 kV级大容量SVC等新型柔性交流输电装置组成的FACTS设备群。工程系统调试研究解决了远距离弱电网新设备启动及电压控制策略、柴拉直流及新能源安全预控、新型FACTS设备系统调试及多目标网架安控策略等技术难题,圆满完成系统调试实施。该文介绍了工程系统调试概况,系统调试研究及调试方案的确定,以及现场调试的主要结果,为工程投产运行及后续工程建设提供参考。

线性盲信道辨识算法中存在的问题及解决方法

传统的盲信道辨识与均衡技术大多采用高阶统计的方法 ,这种方法有一些弊端。后来开始研究基于二阶统计的方法 ,这是一个较大的突破。基于二阶统计的盲信道辨识算法大致有以下五种 :线性预测算法LPA[1] [2 ] ,外积分解算法OP DA[3] [4 ] ,多步线性预测算法MSLP[5] ,最小均方平滑算法LSS[6 ] 和约束最小输出能量算法CMOE[7] 。但是这些算法的仿真结果显示信道是不能被辨识的 ,该文将通过分析这些算法 ,指出导致辨识失败的原因 ;并在数字通信系统的背景下 ,给出解决方法。

淮河蚌埠以下河道疏浚对降低洪水位的可行性及长效性研究

目前淮河中游洪涝灾害仍然严重,为了减轻灾害损失,迫切需要找到更加有效的治理措施。疏浚虽然是一种常用河道治理措施,可以理顺河势,降低洪水位,但是由于担心疏浚后回淤,效果不能维持,一直没有作为主要措施在淮河治理中使用。为此,首先从研究淮河中游河道演变规律出发,量化第二造床流量,揭示第二造床流量与平滩流量关系的机理,探寻淮河治理的新方法,为采用河道大规模疏浚来降低洪水位提供理论依据。然后采用非均匀不平衡输沙数学模型就上段疏浚、下段疏浚以及全河段疏浚对降低淮河干流洪水位的效果以及长期维持情况进行了计算研究。研究结果表明,长距离河道疏浚不仅能够大幅度地降低干流河道的洪水位,而且不会发生明显回淤,疏浚效果可以长期保留,为淮河的洪涝灾害治理提供了新思路和新措施。

北江濛里枢纽上游引航道通航水流条件试验研究

濛里枢纽原有航道等级偏低,不满足目前货运增长的要求,因此需要对原有船闸进行扩建来提高航运能力,将在一线船闸右岸新建二线船闸。为保证一、二线船闸口门区有利于通航的良好水流条件,建立了整体定床物理模型,研究引航道导墙长度及布置形式对口门区及引航道内水流条件的影响。模型试验结果表明,在所有修改方案中,修改方案Ⅱ(一、二线船闸分开布置,二线船闸外导墙375 m,堤头段开孔)较好,其一线船闸上引航道通航条件基本不变,二线船闸口门区通航水流条件较好,较好地改善了上游口门区及连接段的斜流、回流等不利流态。

基岩弯曲河段洪水水流结构的试验研究

低坡度基岩弯曲河流在地质构造控制区域广泛存在(床面坡度小于5‰),洪水对基岩弯曲河流的河床淤积与侵蚀具有较大影响,但以往研究对基岩弯曲河流的洪水动力结构认识不足。通过几何概化基岩弯曲河段,考虑Froude相似与边壁粗糙,建立基岩弯曲河道概化模型,分析洪水下的弯道水面线分布、时均流场与湍流结构特性。结果表明:在洪水流量下,弯顶上游出现最小水面横比降、凸岸水流分离、凹岸双环流发育、流速下潜且二次环流强度达到最大,在弯顶下游水面横比降达到最大并出现环流分裂;床面切应力分布于凸岸水流分离以及弯顶上游中心区域,横向动量输移集中于弯顶上游。试验结果为基岩弯曲河道中的床面侵蚀与沿程淤积提供了水动力方面的解释。