RIS辅助共生无线电通信的速率分拆多址资源分配方案

随着通信场景和网络架构的日益复杂,无线电网络频谱资源稀缺与能耗问题是无线通信的关键挑战,为此,提出了一种新的基于速率分拆多址接入技术(Rate Splitting Multiple Access,RSMA)广播信号的可重构智能表面(Reconfigurable Intelligent Surface,RIS)辅助共生无线电(Symbiotic Radio,SR)系统方案。在该方案中主发射机采用RSMA的方式广播信号,并将传统高功耗次发射机用低功耗RIS替代协作信号的后向散射传输。在主发射机发射波束形成,RIS相移系数和公有信息速率分配约束下,构建了最大化主接收最小速率的问题。由于问题的非凸性和变量的耦合性,提出了一种基于逐次凸逼近,凸差函数,罚函数的交替优化方法以求得次优解。仿真结果表明,与空分多址接入和非正交多址接入方案相比,所提RSMA方案能显著提升用户速率。

室内热点场景多频段RIS辅助MIMO通信信道测量与建模

对Sub-6 GHz频段和毫米波频段可重构智能超表面(RIS)辅助多输入多输出(MIMO)通信信道进行了室内热点(InH)场景下的信道测量。基于上述信道测量结果,研究了RIS辅助通信信道修正浮动截距(FI)模型,并对模型的准确性以及参数特性进行了验证。对RIS辅助通信信道在多频段的传播特性进行了分析,包括路径损耗增益、路径损耗因子(PLE)、时间色散等。上述信道测量和建模结果将为RIS辅助通信系统的实际应用奠定基础。

单纯疱疹病毒脑炎后的抗Ri抗体脑炎1例报告

单纯疱疹病毒脑炎是感染性脑炎中最常见的类型,但其预后较差。部分患者会出现复发或者继发自身免疫性脑炎的发生。本文报告1例单纯疱疹病毒脑炎后继发抗Ri抗体脑炎的病例,以帮助提高临床医生对其的认识,避免发生误诊、漏诊等事件发生。尤其在既往有肿瘤的患者中,副肿瘤综合征相关抗体应予以筛查,早期的诊断及免疫治疗对患者的预后起到重要作用。

PBL、情景教学法联合RIS在超声实习教学中的应用

目的探讨以问题为导向的教学法(problerm-based learning,PBL)、情景教学法联合放射学信息系统(radiography information system,RIS)在超声医学本科实习教学中的应用价值。方法选取2020年6月—2022年6月在重庆医科大学附属大学城医院超声科实习的医学影像专业本科实习生48名为研究对象,随机分为观察组24名学生,对照组24名学生,察组采用PBL、情景教学法联合RIS进行教学,对照组采用传统教学法进行教学,对2组出科考核成绩(理论、操作技能)、问卷调查进行比较。结果观察组的出科成绩理论为(88.24±2.18)分,操作为(84.47±3.49)分,均高于对照组的出科成绩理论(74.48±2.32)分,操作(71.33±3.24)分,差异有统计学意义(P<0.001);观察组满意度为95.83%,对照组满意度为79.17%,差异有统计学意义(P<0.05);观察组83.33%的学生认为PBL教学法+情景教学+RIS激发了学习兴趣,87.50%的学生认为训练了临床思维能力,91.67%的学生认为培养了团队协作能力,83.33%的学生认为提高了沟通能力,而对照组54.17%学生认为传统教学激发了学习兴趣,54.17%的学生认为训练了临床思维能力,45.83%的学生认为培养了团队协作能力,50.00%的学生认为提高了沟通能力,观察组的学习兴趣、学习主动性、团队协作意识、人文关怀意识、沟通能力、理论知识掌握、技能操作熟练程度、临床思维能力方面均优于对照组,差异有统计学意义(P<0.05)。结论PBL、情景学法联合RIS在超声实习教学中不仅有助于提高学生的专业素养,还有助于提高学生的综合素质,能提高教学效果,提升学生对教学的满意度。

分布式机器学习在RIS辅助的无线信道估计中的应用

无线信道估计是部署可重构智能超表面(Reconfigurable Intelligent Surface,RIS)辅助通信系统的关键与前提,然而下行链路传输环境下信道估计困难且导频开销大是对智能超表面辅助通信的重大挑战。针对以上问题,提出了一种基于分布式机器学习(Distributed Machine Learning,DML)训练模型的区域交集切换方案。首先,建立了一个多用户共享的下行信道估计神经网络,通过DML技术协同用户与基站训练网络模型。其次,搭建分层次神经网络结构对用户区域信道进行分类和特征提取。最后,针对用户处于相邻信道交集位置问题采用特征区域模型融合。仿真结果表明,基于区域交集的DML模型方案能在减少信道训练导频开销的同时最大化信道估计的精准性能。

基于稀疏度自适应的RIS辅助无线通信系统信道估计

对于RIS辅助的无线通信系统中信道估计算法的研究,提出了DS-SAMP算法,与已有的DS-OMP算法相比,DSSAMP算法应用毫米波信道在角度域的双结构稀疏性,采用SAMP算法进行信号恢复,通过设置合理的步长和阈值使得在运行过程中不需要稀疏度等先验条件,扩宽算法的应用范围。仿真结果显示,DS-SAMP算法能在稀疏度未知的条件下将信号稳定恢复,完成相应信道估计,有显著优势。

RIS辅助的UAV与用户协同缓存策略

研究了智能反射面(RIS)和缓存辅助的无人机(UAV)中继通信系统方案,通过在UAV与用户之间搭建RIS反射信号,改善信道环境;在UAV与用户设备上部署缓存设备,预先存储热点内容,减轻无线回程链路的压力;以最大化用户服务成功概率为优化目标,建立缓存容量受限约束下的UAV与用户协同缓存放置策略优化模型,针对该非线性连续非凸约束优化问题,提出基于鲸鱼优化算法(WOA)的求解方法.仿真实验结果表明,使用RIS可以有效降低UAV通信中断概率,基于WOA的UAV与用户协同缓存最优放置策略优于现有其他两种缓存策略,能有效提高缓存命中概率,从而提高用户服务成功概率.

采用通道注意力机制的RIS辅助MIMO级联信道估计

可重构智慧表面(RIS)辅助多天线毫米波无线通信系统的级联信道有直传和反射两条链路,系统维数大且复杂,获取信道状态信息(CSI)困难.针对RIS辅助下的大规模多输入多输出(MIMO)通信系统应用场景,提出了基于通道注意力机制的SE-ResNetV2网络来获取CSI,在残差网络(ResNet)中引入了通道注意力模块,通过挤压和激励策略来提高噪声特征的捕捉能力.仿真结果表明,相比于最小二乘(LS)估计算法和常规的注意力机制深度ResNet,所提出的深度学习网络具有更好的去噪效果和估计精度.

Self-Powered Absorptive Reconfigurable Intelligent Surfaces for Securing Satellite-Terrestrial Integrated Networks

Satellite communications have attracted significant interests due to its advantages of large footprint and massive access.However,the commonly used onboard beamforming is hard to achieve reliable security because of the highly correlated legitimate and wiretap downlink channels.We exploit the benefits of satellite-terrestrial integrated network(STIN)and a novel absorptive reconfigurable intelligent surface(RIS)for improving the security of satellite downlink communications(SDC)in the presence of eavesdroppers(Eves).This paper aims to maximize the achievable secrecy rate of the earth station(ES)while satisfying the signal reception constraints,harvested power threshold at the RIS,and total transmit power budget.To solve this nonconvex problem,we propose a penalty-function based dual decomposition scheme,which firstly transforms the original problem into a two-layer optimization problem.Then,the outer layer and inner problems are solved by utilizing the successive convex approximation,Lagrange-dual and Rayleigh quotient methods to obtain the beamforming weight vectors and the reflective coefficient matrix.Finally,simulation results verify the effectiveness of the proposed scheme for enhancing the SDC security.

The Collaboratory for the Study of Earthquake Predictability in China:Experiment Design and Preliminary Results of CSEP2.0

Since the inaugural international collaboration under the framework of the Collaboratory for the Study of Earthquake Predictability(CSEP)in 2007,numerous forecast models have been developed and operated for earthquake forecasting experiments across CSEP testing centers(Schorlemmer et al.,2018).Over more than a decade,efforts to compare forecasts with observed earthquakes using numerous statistical test methods and insights into earthquake predictability,which have become a highlight of the CSEP platform.

基于改进DnCNN的RIS辅助毫米波系统信道估计

RIS是第六代移动通信系统中潜在的候选技术之一。然而,由于无源的RIS缺乏信号处理能力,这给RIS辅助毫米波大规模MIMO系统的信道估计带来了挑战。为了获得更精确的信道状态信息,将信道估计转化为图像去噪问题,提出改进的DnCNN来完成信道估计任务。具体地,采用LMMSE对信道进行粗估计。融合注意力机制网络和噪声水平估计子网络对DnCNN进行改进,以提高网络对噪声的提取性能和自适应性能,实现从信道的粗估计中得到高精度信道估计值。仿真实验表明,所提算法在低信噪比下具有较好的估计性能。

RIS-Assisted Cell-Free MIMO: A Survey

Cell-free(CF)multiple-input multiple-output(MIMO)is a promising technique to enable the vision of ubiquitous wireless connectivity for next-generation network communications.Compared to traditional co-located massive MIMO,CF MIMO allows geographically distributed access points(APs)to serve all users on the same time-frequency resource with spatial multiplexing techniques,resulting in better performance in terms of both spectral efficiency and coverage enhancement.However,the performance gain is achieved at the expense of deploying more APs with high cost and power consumption.To address this issue,the recently proposed reconfigurable intelligent surface(RIS)technique stands out with its unique advantages of low cost,low energy consumption and programmability.In this paper,we provide an overview of RIS-assisted CF MIMO and its interaction with advanced optimization designs and novel applications.Particularly,recent studies on typical performance metrics such as energy efficiency(EE)and spectral efficiency(SE)are surveyed.Besides,the application of RIS-assisted CF MIMO techniques in various future communication systems is also envisioned.Additionally,we briefly discuss the technical challenges and open problems for this area to inspire research direction and fully exploit its potential in meeting the demands of future wireless communication systems.

BVLGARI 时光交响乐

在流转不息的时光里,每一个珍贵而特别的瞬间犹如跃动的音符,共同交织成一曲悠扬的交响乐。近十几年来,BVLGARI宝格丽一直以此为灵感打造拥有报时复杂功能腕表,凭借深厚的罗马传承与卓越的工艺水准,宝格丽不断突破界限,开创制表艺术新境界。今年全新推出的报时作品,基于宝格丽在高级制表机械领域的深厚造诣,将三全音的音程通过机械结构巧妙实现,充分诠释了瑞士制表技艺与意式美学设计的创意交融,展现出果敢创新、隽永优雅的风格。

基于稀疏多径矩阵的RIS辅助无线通信系统的信道估计

在智能反射面(Reconfigurable Intelligent Surfaces,RIS)辅助的无线通信系统中,由于基站侧复杂的散射环境及RIS大量的反射元件,导致级联信道估计导频开销过大。针对此问题,提出了一种基于稀疏多径矩阵的信道估计方案,旨在优化导频资源的使用,从而提高估计效率和准确性。该方案充分利用了RIS的反射特性和信道的稀疏性,利用不同用户位置的信道方向信息,在基站侧构建的稀疏多径矩阵来捕获关键的信道信息,并据此优化RIS反射系数以及基站的接收信号,进一步提升信道估计的性能。对该方案进行了仿真,并与传统的信道估计方法进行了比较。仿真结果证明,在相同的导频资源条件下,该方案能够显著降低级联信道估计的归一化均方误差(Normalized Mean Square Error,NMSE)。

RIS 辅助的LDPC 乘积码编码中继协作系统构建与性能分析

为实现极其可靠信息传输,针对融合可重构智能表面(RIS)技术与编码中继协作技术系统展开研究,建立了RIS辅助的低密度奇偶校验(LDPC)乘积码编码中继协作系统模型;利用LDPC乘积码,信源节点对信息矩阵行编码,中继节点对信息矩阵列编码;提出了一种高效联合迭代译码算法,目的节点对接收的两路信号分别进行LDPC行译码与LDPC列译码,并迭代更新信息位的对数似然比,再判决输出。理论推导了所提系统的中断概率以及有限码长信道容量的闭合解。理论分析与仿真结果表明,所提系统性能明显优于传统编码中继协作系统,而且随着RIS反射单元数量增加,优势变得更明显;随着LDPC乘积码码长增加,所提系统的有限码长信道容量逐渐逼近理想信道容量。

医用臭氧油通过抑制FcεRI/Syk信号通路缓解DNCB诱导的变应性接触性皮炎

目的:臭氧被广泛用于治疗过敏性皮肤病,如湿疹、特应性皮炎和接触性皮炎。然而其具体的机制仍然不清楚。本研究旨在探讨医用臭氧油对2,4-二硝基氯苯(2,4-dinitrochlorobenzene,DNCB)诱导的变应性接触性皮炎(allergic contact dermatitis,ACD)的治疗作用及其机制。方法:除空白对照组外,其余小鼠均用DNCB处理。采用DNCB建立ACD样小鼠模型,随机分为模型组、基础油组、医用臭氧油组、FcεRI过表达质粒(FcεRI-OE)组和FcεRI空质粒(FcεRI-NC)组;基础油和医用臭氧油组分别采用同等剂量基础油和医用臭氧油进行处理,FcεRI-OE组和FcεRI-NC组分别皮内注射25μg FcεRI过表达质粒和空质粒。记录皮损每日的变化,并使用反射共聚焦显微镜(reflectance confocal microscope,RCM)评估皮损厚度和炎症改变,同时对皮损组织进行苏木精-伊红(hematoxylineosin,HE)染色、实时聚合酶链反应(real-time PCR)、RNA测序(RNA-sequencing,RNA-seq)和免疫组织化学的检测及分析。结果:医用臭氧油显著减轻了DNCB诱导的ACD样皮炎,并降低了IFN-γ、IL-17A、IL-1β、TNF-α和其他相关炎症因子的表达(均P<0.05)。RNA-seq分析显示医用臭氧油显著抑制了DNCB诱导的FcεRI/Syk信号通路的激活,后续通过real-time PCR和免疫组织化学方法得到证实(均P<0.05)。与臭氧油组和FcεRI-NC组相比,FcεRI-OE组的IFN-γ、IL-17A、IL-1β、IL-6、TNF-α和其他炎症基因的mRNA表达水平明显升高(均P<0.05),FcεRI-OE组FcεRI和Syk的mRNA和蛋白质表达水平也明显升高(均P<0.05)。结论:医用臭氧油通过抑制FcεRI/Syk信号通路显著改善ACD样皮炎,减轻DNCB诱导的ACD样皮炎。

RisøNaIγ谱仪在不同类型沉积物中环境剂量率的应用研究

光释光测年被广泛的应用于地球科学和考古学等领域的年代学研究,而如何准确测量环境剂量率是光释光测年的关键问题之一。研究利用丹麦RisøNutech所提供的铀(U)、钍(Th)、钾(K)等标样,标定了实验室的RGS-19A型NaIγ谱仪。选择不同类型沉积物,进行了不同测量时间对实验结果的影响研究,结果显示随着测量时间增加,测量误差减小,在测量时间达到6 h就可满足其要求,可作为测试样品的固定测量时间;进一步对于岩性均一以及岩性不均一的36个地质样品开展了RisøNaIγ谱仪法与ICP-MS法,RisøNaIγ谱仪法与中子活化法测定环境剂量率的对比研究。研究结果表明,对于大部分样品两组不同方法测量结果在误差范围内基本一致(±1σ),NaIγ谱仪与ICP-MS法及中子活化法的剂量率平均之比为1.13±0.03(n=36)。说明研究仪器测量结果是可靠的,此仪器RisøNaIγ谱仪可以广泛应用于不同类型沉积物光释光测年的环境剂量率测量中。

RIS辅助MIMO通信信道外推技术研究

RIS辅助MIMO通过部署大量无源反射单元,主动调控电磁波,实现无线环境可编程新范式。利用此优势的关键为高精度RIS信道获取。同时发挥RIS的电磁调控能力,利用部分RIS信道同全部RIS信道之间的确定性映射关系,提出实用的RIS信道外推框架。首先,基于电磁传播理论,拓展电磁空间重构机理,解释信道外推可行性,精准表征RIS链路电磁特性。其次,探寻电磁散射参数集合同部分RIS信道的耦合机理。以此为基础,给出基于贝叶斯统计推断和深度学习的RIS辅助MIMO信道外推方案。这些技术将极大降低信道训练开销,为RIS辅助MIMO实用化提供理论依据和技术支撑。

Mathematical Modeling and Design of RIS Deployment in a RIS-Assisted Metal Cuboid for WAIC Systems

Wireless avionics intra-communications(WAIC)is an emergent research topic,since it can improve fuel efficiency and enhance aircraft safety significantly.However,there are numerous baffles in an aircraft,e.g.,seats and cabin bulkheads,resulting in serious blockage and even destroying wireless communications.Thus,this paper focuses on the reconfigurable intelligent surface(RIS)deployment issue of RIS-assisted WAIC systems,to solve the blockage problem caused by baffles.We first propose the mirror-symmetric imaging principle for mathematically analyzing electromagnetic(EM)wave propagation in a metal cuboid,which is a typical structure of WAIC systems.Based on the mirror-symmetric imaging principle,the mathematical channel model in a metal cuboid is deduced in detail.In addition,we develop an objective function of RIS's location and deduce the optimal RIS deployment location based on the geometric center optimization lemma.A two-dimensional gravity center search algorithm is then presented.Simulation results show that the designed RIS deployment can greatly increase the received power and efficiently solve the blockage problem in the aircraft.

Max-Min Fair RIS-Aided Rate-Splitting Multiple Access for Multigroup Multicast Communications

Rate-splitting multiple access(RSMA)can cope with a wide range of propagation conditions in multigroup multicast communications through rate splitting optimization.To breakthrough the grouprate limited bottleneck,reconfigurable intelligent surface(RIS)technique can be introduced to assist wireless communications through enhancing the channel quality.In RIS-aided RSMA multigroup multicasting,how to provide fair and high-quality multiuser service under power and spectrum constraints is essential.In this paper,we propose a max-min fair RIS-aided rate-splitting multiple access(MMF-RISRSMA)scheme for multigroup multicast communications,where the rate fairness is obtained by maximizing the minimum group-rate.In doing so,we jointly optimize the beamformers,the rate splitting vector at the transmitter,as well as the phase shifts at RIS.To solve it,we divide the original optimization problem into two subproblems and alternately optimize the variables.The beamforming and rate splitting optimization subproblem is solved by using the successive convex approximation technique.The phase shift optimization subproblem is solved through the penalty function method to achieve a rank-one locally optimal solution.Simulations demonstrate that the proposed MMF-RIS-RSMA scheme can obtain significant performance gain in terms of the minimum group-rate.