Locating the position of objects in non-line-of-sight based on time delay estimation

Non-line-of-sight imaging detection is to detect hidden objects by indirect light and intermediary surface（diffuser）.It has very important significance in indirect access to an object or dangerous object detection, such as medical treatment and rescue. An approach to locating the positions of hidden objects is proposed based on time delay estimation. The time delays between the received signals and the source signal can be obtained by correlation analysis, and then the positions of hidden objects will be located. Compared with earlier systems and methods, the proposed approach has some modifications and provides significant improvements, such as quick data acquisition, simple system structure and low cost, and can locate the positions of hidden objects as well： this technology lays a good foundation for developing a practical system that can be used in real applications.

Characterization of Blue-Green Light Non-Line-of-Sight Transmission in Seawater

The blue-green light in the 450 nm to 550 nm band is usually used in underwater wireless optical communication (UWOC). The blue-green light transmission in seawater is scattered by the seawater effect and can achieve communication in non-line-of-sight (NLOS) transmission mode. Compared to line-of-sight (LOS) transmission, NLOS transmission does not require alignment and can be adapted to various underwater environments. The scattering coefficients of seawater at different depths are different, which makes the scattering of light in different depths of seawater different. In this paper, the received optical power and bit error rate (BER) of the photodetector (PD) were calculated when the scattering coefficients of blue-green light in seawater vary from large to small with increasing depth for NLOS transmission. The results show that blue-green light in different depths of seawater in the same way NLOS communication at the same distance, the received optical power and BER at the receiver are different, and the received optical power of green light is greater than that of blue light. Increasing the forward scattering coverage of the laser will suppress the received optical power of the PD, so when performing NLOS communication, appropriate trade-offs should be made between the forward scattering coverage of the laser and the received optical power.

Review of Ultraviolet Non-Line-of-Sight Communication

With rapid advances of solar blind ultraviolet LED and ultraviolet detecting technology in recent years, ultraviolet communication gradually becomes a research hotspot due to its inherent advantages: low solar background noise, non-line-of-sight(NLOS) and good secrecy. The strong scattering characteristics in atmospheric render ultraviolet waveband the ideal choice for achieving NLOS optical communication. This paper reviews the research history and status of ultraviolet communication both in China and abroad, and especially introduces three main issues of ultraviolet communication: channel model, system analysis and design, light sources and detectors. For each aspect, current open issues and prospective research directions are analyzed.

Unconditionally Explicit Stable Difference Schemes for Solving Some Linear and Non-Linear Parabolic Differential Equation

We present the numerical method for solution of some linear and non-linear parabolic equation. Using idea [1], we will present the explicit unconditional stable scheme which has no restriction on the step size ratio k/h2 where k and h are step sizes for space and time respectively. We will also present numerical results to justify the present scheme.

Non-Linear Phase Tomography Based on Fréchet Derivative

Phase imaging coupled to micro-tomography acquisition has emerged as a powerful tool to investigate specimens in a non-destructive manner. While the intensity data can be acquired and recorded, the phase information of the signal has to be “retrieved” from the data modulus only. Phase retrieval is an ill-posed non-linear problem and regularization techniques including a priori knowledge are necessary to obtain stable solutions. Several linear phase recovery methods have been proposed and it is expected that some limitations resulting from the linearization of the direct problem will be overcome by taking into account the non-linearity of the phase problem. To achieve this goal, we propose and evaluate a non-linear algorithm for in-line phase micro-tomography based on an iterative Landweber method with an analytic calculation of the Fréchet derivative of the phase-intensity relationship and of its adjoint. The algorithm was applied in the projection space using as initialization the linear mixed solution. The efficacy of the regularization scheme was evaluated on simulated objects with a slowly and a strongly varying phase. Experimental data were also acquired at ESRF using a propagation-based X-ray imaging technique for the given pixel size 0.68 μm. Two regularization scheme were considered: first the initialization was obtained without any prior on the ratio of the real and imaginary parts of the complex refractive index and secondly a constant a priori value was assumed on ?. The tomographic central slices of the refractive index decrement were compared and numerical evaluation was performed. The non-linear method globally decreases the reconstruction errors compared to the linear algorithm and is achieving better reconstruction results if no prior is introduced in the initialization solution. For in-line phase micro-tomography, this non-linear approach is a new and interesting method in biomedical studies where the exact value of the a priori ratio is not known.

基于改进SHKF算法的UWB/IMU组合定位方法

针对复杂环境下超宽带(UWB)无线定位系统存在非视距(NLOS)及随机误差的问题,提出一种基于改进Sage-Husa卡尔曼滤波算法(SHKF)的UWB/IMU组合定位方法。首先,设计了一种基于概率密度的提升树,将UWB/IMU特征数据的概率分布密度引入提升树的损失函数中,鉴别出NLOS信号;然后,设计了一种改进SHKF算法,根据新息变化趋势定义自适应因子,实时调整对新息误差修正的策略以调节历史噪声对当前定位的影响,进而提升UWB/IMU组合定位的稳定性和精度。实验结果表明,所提方法将NLOS信号鉴别精度提升至99.12%,定位均方根误差降低至4.30 cm,提升了复杂环境下UWB/IMU组合系统定位精度。

非视距信号传播场强特性的分析与研究

为探索机场通信路径中障碍物造成非视距传播产生衍射损耗,对信号场强衰减特性进行了研究。首先,基于ITU-R P.1546中不同地形环境对信号传播的影响,结合Deygout模型构建信号场强组合模型。其次,按障碍物数量分析随障碍物高度变化的接收场强传播特性。仿真结果表明,单障碍物越高,占据0.6F1菲涅尔区越大,场强越小;双障碍物路径中,高度增加的障碍物经过由次要转为主要障碍物,直到只剩主要障碍物的过程,使场强逐渐衰减。再次,针对场强上升,分析了次要障碍物高度与0.6F1菲涅尔区的关系。最后,调整覆盖场强最小阈值,确定接收设备是否被障碍物遮挡,从而导致信号被屏蔽。上述研究结果可为未来模拟机场各场景下障碍物分布,预测接收机是否因障碍物受干扰或影响场强覆盖范围提供参考依据。

基于UWB技术的高精度定位系统设计

为了解决传统定位技术的不足,设计了UWB高精度定位系统。定位系统主要包括了电子移动标签系统、UWB天线标签系统等通信接口电路系统的软硬件设计。硬件设计主要包括主控DWM-1000芯片、DWM-1000基站天线芯片和无线通信接口等电路,软件系统主要包括了基本软件逻辑和电子便签P坐标解析算法软件流程设计,系统实现了电磁波信号发送、接收、数据计算分析和精确定位。测试结果表明,系统定位误差范围均小于10 cm,降低了非视距误差和噪声干扰影响,满足了定位系统高精度、强稳定性和低功耗的要求。

架空输电线路非平稳台风风场数值模拟与验证

为了实现架空输电线路非平稳台风风场模拟,考虑非平稳脉动风场的紊流强度和阵风因子特性及其影响,提出了一种架空输电线路非平稳台风风场的模拟方法。首先利用Spline插值方法生成时变平均风速,采用更新时变平均风速的谐波合成法模拟脉动风速,然后基于三向风谱功率密度函数,构建了台风风场的时变功率谱,计入风场空间上的相关性,获取了调制进化功率谱,并与模拟台风功率谱比较;最后以沿海500 kV架空输电线路为例,验证了台风模拟方法的合理性。研究结果表明:随着基本时距的增加,台风的非平稳因素所占比重越大;所提出的输电线路非平稳台风模拟方法合理有效。

奥希替尼联合化疗在伴有EGFR突变晚期非小细胞肺癌一线治疗中的应用

1文献来源Planchard D,Jänne PA,Cheng Y,et al.Osimertinib with or without chemotherapy in EGFR⁃mutated advanced NSCLC[J].N Engl J Med,2023,389(21):1935-1948.2证据水平1b。

PD-1抑制剂联合安罗替尼治疗二线化疗失败的老年晚期非小细胞肺癌的效果

目的 探究程序性死亡受体1(PD-1)抑制剂联合安罗替尼治疗二线化疗失败的老年晚期非小细胞肺癌(NSCLC)的临床疗效。方法 选取2019年1月—2021年4月泰州市第二人民医院收治的106例二线化疗失败的老年晚期NSCLC患者作为研究对象,按照随机数字表法分为单药组和联合组,各53例。单药组采用安罗替尼治疗,联合组采用PD-1抑制剂联合安罗替尼治疗。比较两组的疾病控制率、毒副反应发生情况、生存率、肿瘤标志物[细胞角蛋白19片段抗原21-1(CYFRA21-1)、癌胚抗原(CEA)、糖类抗原125(CA125)]、血管新生指标[血管内皮生长因子(VEGF)-A、VEGF受体2(VEGFR2)]、血清驱动蛋白超家族蛋白(KIF)C1、N-钙黏蛋白、生活质量核心量表(QLQ-C30)评分。结果 联合组疾病控制率高于单药组(P<0.05);治疗2个周期后,联合组血清CYFRA21-1、CA125、CEA、VEGF-A、VEGFR2、KIFC1及N-钙黏蛋白水平均低于单药组(P<0.05),QLQ-C30评分低于单药组(P<0.05);两组各毒副反应总发生率比较,差异均无统计学意义(P>0.05);Kaplan-Meier生存分析显示,联合组累积生存率高于单药组(P<0.05)。结论 PD-1抑制剂联合安罗替尼治疗二线化疗失败的老年晚期NSCLC效果显著,可有效调节血清KIFC1、N-钙黏蛋白表达,抑制VEGF-A、VEGFR2水平,降低肿瘤标志物水平,提高生活质量,延长生存时间,安全性高。

基于TOF和自适应抗差卡尔曼滤波的UWB室内定位算法

为提高超宽带(UWB)定位系统在室内复杂环境下的定位精度,提出一种基于飞行时间(TOF)和自适应抗差卡尔曼滤波(ARKF)的改进定位算法。针对超低功耗宽带设备在复杂室内环境状态下易受周围干扰而存在标准时间偏差的问题,提出一种改进的TOF算法,同时进行测距标定,拟合数据;对室内存在非视距(NLOS)干扰的情形,提出一种ARKF算法,通过比较残差与3倍信息的方差来判断视距(LOS)与NLOS情形。实验结果显示:该算法可以在静态与动态定位实验中有效提高系统定位精度,降低定位误差,取得较好的定位效果。

基于电子式电压互感器边界特性分析的35 kV配网输电线路单端暂态量保护方案及其整定

随着分布式电源广泛接入配电网,传统三段式电流保护方案的性能严重劣化。单端暂态量边界保护由于具备不依赖电源特性等突出优势,有望成为改善主动配电网保护配置性能的有效方案,但其需依附于线路边界强健的滤波作用。为此,该文研究发现,可利用智能变电站和智能开闭所中电子式电压互感器、金属氧化物避雷器与其余设备杂散电容共同作为线路边界,其优异的高频滤波作用能够为暂态量保护方案的设计奠定基础;其次,利用区内外故障时电压行波高频频带能量差异构造保护判据,并基于整定门槛与动作时序的合理配合形成单端暂态量阶段式保护方案;最后,基于PSCAD仿真平台验证所提方案的有效性、灵敏性与可靠性,其可与电流保护方案协同互济以强化主动配电网继电保护方案的动作性能。

替雷利珠单抗一线治疗晚期非小细胞肺癌的快速卫生技术评估

目的评价替雷利珠单抗(TIS)一线治疗晚期非小细胞肺癌(NSCLC)的有效性、安全性和经济性。方法计算机检索PubMed、Embase、Cochrane Library、CNKI、WanFang Data、SinoMed数据库和卫生技术评估(HTA)相关网站,搜集TIS一线治疗晚期NSCLC的HTA报告、系统评价/Meta分析和药物经济学研究,检索时限均从建库至2024年4月30日。由2名研究者独立筛选文献、提取资料和质量评价,并采用定性描述方法进行快速卫生技术评估。结果共纳入9篇文献,包括系统评价/Meta分析7篇,药物经济学研究2篇。有效性方面,与化疗(CT)相比,TIS+CT可提高晚期NSCLC患者的无进展生存期(PFS)和客观缓解率(ORR),可提高任何程序性细胞死亡受体配体-1(PD-L1)表达情况、伴或不伴肝转移、年龄≥65岁或<65岁、有吸烟病史的晚期NSCLC患者的PFS;与CT相比,TIS+CT可提高晚期非鳞状NSCLC患者的PFS,可提高PD-L1≥50%的晚期非鳞状NSCLC患者的PFS;与CT相比,TIS+CT可提高PD-L1为1%~49%、PD-L1≥50%、男性、年龄≥65岁、有吸烟史、ECOG评分1分、ⅢB期和Ⅳ期晚期鳞状NSCLC患者的PFS。安全性方面,与卡瑞利珠单抗+CT和阿替利珠单抗+贝伐珠单抗+CT相比,TIS+CT可降低严重不良反应发生率。经济学方面,对于无表皮生长因子受体突变和渐变淋巴瘤激酶重排的非鳞状NSCLC,与CT相比,TIS+CT在中国具有一定的成本-效果优势。亚组分析结果显示,在PD-L1表达≥50%、肝转移和有吸烟史的非鳞状NSCLC患者中,一线TIS+CT方案的生存益处更大。结论TIS+CT一线治疗晚期NSCLC具有较好的有效性、安全性和经济性。

安罗替尼联合一线化疗治疗晚期非小细胞肺癌的效果

目的研究安罗替尼联合化疗一线治疗晚期非小细胞肺癌(NSCLC)的价值。方法回顾分析2018年3月至2022年5月郑州大学第五附属医院收治的90例晚期NSCLC患者资料,其中45例接受单纯一线化疗的患者纳入对照组,45例联合安罗替尼治疗的患者纳入观察组。两组均连续治疗4个化疗周期。记录两组治疗效果、肿瘤标志物水平[细胞角蛋白19片段抗原21-1(CYFRA21-1)、癌胚抗原(CEA)和神经元特异性烯醇化酶(NSE)]、生存情况、不良反应发生情况。结果治疗后,观察组治疗总有效率高于对照组(P<0.05)。治疗前,两组CYFRA21-1、NSE、CEA差异无统计学意义(P>0.05);治疗后,两组CYFRA21-1、NSE、CEA均降低,且观察组低于对照组,差异有统计学上的意义(P<0.05)。观察组生存时间长于对照组,生存率高于对照组,差异有统计学上的意义(P<0.05)。治疗期间,两组不良反应发生率差异无统计学意义(P>0.05)。结论安罗替尼联合化疗一线治疗晚期NSCLC可以进一步提高效果,降低肿瘤标志物水平,有助于延长患者生存时间,且不会增加不良反应,安全性较好。

基于线激光的压缩机曲轴圆度和平面度测量

目前人工使用千分表测量空调压缩机曲轴圆度和平面度时存在易伤工件表面、效率低和不能精确评定等问题。针对上述问题,设计了一套基于线激光位移传感器的空调压缩机曲轴圆度和平面度非接触式测量系统。首先,通过测量标准量棒,提出一种系统误差的标定方法;其次,基于线激光采样数据,开发了一种曲轴横截面圆度测点的提取算法,并将系统误差用于测点补偿,实现曲轴圆度测量;接着根据曲轴平面测点间的斜率分离出轮廓线,通过均匀下采样方法获取精简点云数据并采用最小二乘法实现曲轴平面度测量;最后,基于上述方法开展了曲轴圆度和平面度的测量实验。实验结果表明:该测量系统的圆度测量精度<4μm,平面度测量精度<2μm,圆度重复度测量误差<0.8μm,平面度重复度测量误差<0.3μm,满足曲轴圆度和平面度快速准确的测量需求。

基于修正Loganathan公式的非水平布置双线平行盾构隧道施工引起土体位移计算方法

[目的]为研究双线平行盾构隧道非水平布置方式下,由施工引起的周围土体位移规律,提出一种基于修正Loganathan公式的土体位移计算方法。[方法]介绍了Loganathan公式及相关假设;考虑盾构隧道开挖扰动引起的地层损失、土体卸荷回弹和土体损失率沿掘进路径变化的综合影响,修正Loganathan公式并建立单线盾构隧道周围土体位移解;建立双线平行盾构隧道非水平布置方式下,由施工引起的土体位移计算方法;通过实际工程的现场监测和数值模拟结果,验证所提计算方法的工程适用性。[结果及结论]所提计算方法能够考虑隧道轴心连线与水平面夹角、双线隧道半径、隧道轴心间距、双线隧道埋深等双线隧道布置因素,以及隧道盾构施工扰动造成的地层损失、土体卸荷回弹和土体损失率沿掘进路径变化等施工因素对土体位移的影响。地面沉降及土体水平位移的理论计算结果同现场监测结果和数值模拟结果之间的平均误差分别为5.6%、0.6%和5.5%、5.3%,均满足工程经验规定的20%的精度要求,说明所提计算方法能够有效解决双线平行盾构隧道非水平布置方式下施工引起的土体位移计算问题,具有良好的工程适用性。

Amivantamab联合lazertinib一线治疗EGFR敏感突变晚期NSCLC:评MARIPOSA研究

1文献来源Cho BC,Felip E,Spira AI,et al.Amivantamab plus lazertinib versus osimertinib as first⁃line treatment in patients with EGFR⁃mutated,advanced non⁃small cell lung cancer(NSCLC):primary results from MARIPOSA,a phaseⅢ,global,randomized,controlled trial[J].Ann Oncol,2023,34(2S):S1306.

非圆形隧洞衬砌支护下应力与位移的新解法

以往在利用平面弹性复变函数方法进行衬砌支护作用下非圆形隧洞的力学分析时,一般将洞室外域保角映射到象平面的单位圆外域,并认为可以利用同一个映射函数将衬砌截面映射到象平面的圆环域内。当衬砌厚度很薄时,这种方法是可行的,而当衬砌相对较厚时,利用同一映射函数所得到的衬砌截面形状发生严重失真。为解决此问题,本文引入两套映射函数,分别将洞室外域映射到象平面的单位圆的圆外域,衬砌截面映射到圆环域。这种方法可以适应于不同的衬砌厚度,利用这种方式获得的衬砌截面,在衬砌较厚时仍能保证衬砌厚度相对均匀。在求解解析函数过程中不再采用传统的幂级数解法,而是使用边界配点法,将两套映射函数结合,获得了该问题的应力解和位移解。本文以马蹄形隧洞为例,求解结果与ANSYS软件所得数值解吻合很好,分析了衬砌厚度对隧洞应力和位移的影响。根据本文解答可以方便、快捷地进行相近条件下隧道的初步设计。

面向地铁施工环境的残差加权定位算法

在地铁施工环境中,进行地下室内定位,非视距误差是影响位置估计稳定性与准确性的一个重要因素。目前已经出现一些技术可以消除一定的非视距误差,但往往都需要关于非视距信道条件的先验信息。提出一种改进的残差加权位置估计算法(Developed residual weighting algorithm,D-rwgh),该算法基于最小残差原则,通过前一轮的计算不断剔除产生误差最大的基站,然后将不同基站数对应的位置估计进行残差加权,加权结果即为最终的定位结果。实验结果表明,该算法无需信道的先验信息,且在非视距传播环境下具有较好的定位精度。