Channel Correlation Based User Grouping Algorithm for Nonlinear Precoding Satellite Communication System

Low Earth Orbit(LEO)multibeam satellites will be widely used in the next generation of satellite communication systems,whose inter-beam interference will inevitably limit the performance of the whole system.Nonlinear precoding such as Tomlinson-Harashima precoding(THP)algorithm has been proved to be a promising technology to solve this problem,which has smaller noise amplification effect compared with linear precoding.However,the similarity of different user channels(defined as channel correlation)will degrade the performance of THP algorithm.In this paper,we qualitatively analyze the inter-beam interference in the whole process of LEO satellite over a specific coverage area,and the impact of channel correlation on Signal-to-Noise Ratio(SNR)of receivers when THP is applied.One user grouping algorithm is proposed based on the analysis of channel correlation,which could decrease the number of users with high channel correlation in each precoding group,thus improve the performance of THP.Furthermore,our algorithm is designed under the premise of co-frequency deployment and orthogonal frequency division multiplexing(OFDM),which leads to more users under severe inter-beam interference compared to the existing research on geostationary orbit satellites broadcasting systems.Simulation results show that the proposed user grouping algorithm possesses higher channel capacity and better bit error rate(BER)performance in high SNR conditions relative to existing works.

Preliminary discussion on the ignition mechanism of exploding foil initiators igniting boron potassium nitrate

Exploding foil initiator(EFI)is a kind of advanced device for initiating explosives,but its function is unstable when it comes to directly igniting pyrotechnics.To solve the problem,this research aims to reveal the ignition mechanism of EFIs directly igniting pyrotechnics.An oscilloscope,a photon Doppler velocimetry,and a plasma spectrum measurement system were employed to obtain information of electric characteristics,impact pressure,and plasma temperature.The results of the electric characteristics and the impact pressure were inconsistent with ignition results.The only thing that the ignition success tests had in common was that their plasma all had a relatively long period of high-temperature duration(HTD).It eventually concludes that the ignition mechanism in this research is the microconvection heat transfer rather than the shock initiation,which differs from that of exploding foil initiators detonating explosives.Furthermore,the methods for evaluating the ignition success of semiconductor bridge initiators are not entirely applicable to the tests mentioned in this paper.The HTD is the critical parameter for judging the ignition success,and it is influenced by two factors:the late time discharge and the energy of the electric explosion.The longer time of the late time discharge and the more energy of the electric explosion,the easier it is to expand the HTD,which improves the probability of the ignition success.

A Practical Regular LDPC Coded Scheme for Physical-Layer Information Security

In this paper,we aim to design a practical low complexity low-density parity-check(LDPC)coded scheme to build a secure open channel and protect information from eavesdropping.To this end,we first propose a punctured LDPC coded scheme,where the information bits in a codeword are punctured and only the parity check bits are transmitted to the receiver.We further propose a notion of check node type distribution and derive multi-edge type extrinsic information transfer functions to estimate the security performance,instead of the well-known weak metric bit error rate.We optimize the check node type distribution in terms of the signal-to-noise ratio(SNR)gap and modify the progressive edge growth algorithm to design finite-length codes.Numerical results show that our proposed scheme can achieve a lower computational complexity and a smaller security gap,compared to the existing scrambling and puncturing schemes.

A Multi-Token Sector Antenna Neighbor Discovery Protocol for Directional Ad Hoc Networks

In this paper,we propose a Multi-token Sector Antenna Neighbor Discovery(M-SAND)protocol to enhance the efficiency of neighbor discovery in asynchronous directional ad hoc networks.The central concept of our work involves maintaining multiple tokens across the network.To prevent mutual interference among multi-token holders,we introduce the time and space non-interference theorems.Furthermore,we propose a master-slave strategy between tokens.When the master token holder(MTH)performs the neighbor discovery,it decides which 1-hop neighbor is the next MTH and which 2-hop neighbors can be the new slave token holders(STHs).Using this approach,the MTH and multiple STHs can simultaneously discover their neighbors without causing interference with each other.Building on this foundation,we provide a comprehensive procedure for the M-SAND protocol.We also conduct theoretical analyses on the maximum number of STHs and the lower bound of multi-token generation probability.Finally,simulation results demonstrate the time efficiency of the M-SAND protocol.When compared to the QSAND protocol,which uses only one token,the total neighbor discovery time is reduced by 28% when 6beams and 112 nodes are employed.

Detection of UAV Target Based on Continuous Radon Transform and Matched Filtering Process for Passive Bistatic Radar

Long-time integration technique is an effective way of improving target detection performance for unmanned aerial vehicle(UAV)in the passive bistatic radar(PBR),while range migration(RM)and Doppler frequency migration(DFM)may have a major effect due to the target maneuverability.This paper proposed an innovative long-time coherent integration approach,regarded as Continuous Radon-matched filtering process(CRMFP),for low-observable UAV target in passive bistatic radar.It not only mitigates the RM by collaborative research in range and velocity dimensions but also compensates the DFM and ensures the coherent integration through the matched filtering process(MFP).Numerical and real-life data following detailed analysis verify that the proposed method can overcome the Doppler mismatch influence and acquire comparable detection performance.

Enhanced UAV Pursuit-Evasion Using Boids Modelling:A Synergistic Integration of Bird Swarm Intelligence and DRL

TheUAV pursuit-evasion problem focuses on the efficient tracking and capture of evading targets using unmanned aerial vehicles(UAVs),which is pivotal in public safety applications,particularly in scenarios involving intrusion monitoring and interception.To address the challenges of data acquisition,real-world deployment,and the limited intelligence of existing algorithms in UAV pursuit-evasion tasks,we propose an innovative swarm intelligencebased UAV pursuit-evasion control framework,namely“Boids Model-based DRL Approach for Pursuit and Escape”(Boids-PE),which synergizes the strengths of swarm intelligence from bio-inspired algorithms and deep reinforcement learning(DRL).The Boids model,which simulates collective behavior through three fundamental rules,separation,alignment,and cohesion,is adopted in our work.By integrating Boids model with the Apollonian Circles algorithm,significant improvements are achieved in capturing UAVs against simple evasion strategies.To further enhance decision-making precision,we incorporate a DRL algorithm to facilitate more accurate strategic planning.We also leverage self-play training to continuously optimize the performance of pursuit UAVs.During experimental evaluation,we meticulously designed both one-on-one and multi-to-one pursuit-evasion scenarios,customizing the state space,action space,and reward function models for each scenario.Extensive simulations,supported by the PyBullet physics engine,validate the effectiveness of our proposed method.The overall results demonstrate that Boids-PE significantly enhance the efficiency and reliability of UAV pursuit-evasion tasks,providing a practical and robust solution for the real-world application of UAV pursuit-evasion missions.

The Caching and Pricing Strategy for Information-Centric Networking with Advertisers’Participation

As users’access to the network has evolved into the acquisition of mass contents instead of IP addresses,the IP network architecture based on end-to-end communication cannot meet users’needs.Therefore,the Information-Centric Networking(ICN)came into being.From a technical point of view,ICN is a promising future network architecture.Researching and customizing a reasonable pricing mechanism plays a positive role in promoting the deployment of ICN.The current research on ICN pricing mechanism is focused on paid content.Therefore,we study an ICN pricing model for free content,which uses game theory based on Nash equilibrium to analysis.In this work,advertisers are considered,and an advertiser model is established to describe the economic interaction between advertisers and ICN entities.This solution can formulate the best pricing strategy for all ICN entities and maximize the benefits of each entity.Our extensive analysis and numerical results show that the proposed pricing framework is significantly better than existing solutions when it comes to free content.

Review on the Usage of Synchronous and Asynchronous FIFOs in Digital Systems Design

First-Input-First-Output (FIFO) buffers are extensively used in contemporary digital processors and System-on-Chips (SoC). There are synchronous FIFOs and asycnrhonous FIFOs. And different sized FIFOs should be implemented in different ways. FIFOs are used not only for the pipeline design within a processor, for the inter-processor communication networks, for example Network-on-Chips (NoCs), but also for the peripherals and the clock domain crossing at the whole SoC level. In this paper, we review the interface, the circuit implementation, and the various usages of FIFOs in various levels of the digital design. We can find that the usage of FIFOs could greatly facilitate the signal storage, signal decoupling, signal transfer, power domain separation and power domain crossing in digital systems. We hope that more attentions are paid to the usages of synchronous and asynchronous FIFOs and more sophististicated usages are discovered by the digital design communities.

Designing and Implementing an Advanced Big Data Governance Platform

Contemporary mainstream big data governance platforms are built atop the big data ecosystem components,offering a one-stop development and analysis governance platform for the collection,transmission,storage,cleansing,transformation,querying and analysis,data development,publishing,and subscription,sharing and exchange,management,and services of massive data.These platforms serve various role members who have internal and external data needs.However,in the era of big data,the rapid update and iteration of big data technologies,the diversification of data businesses,and the exponential growth of data present more challenges and uncertainties to the construction of big data governance platforms.This paper discusses how to effectively build a data governance platform under the big data system from the perspectives of functional architecture,logical architecture,data architecture,and functional design.

Implicit Modality Mining: An End-to-End Method for Multimodal Information Extraction

Multimodal named entity recognition(MNER)and relation extraction(MRE)are key in social media analysis but face challenges like inefficient visual processing and non-optimal modality interaction.(1)Heavy visual embedding:the process of visual embedding is both time and computationally expensive due to the prerequisite extraction of explicit visual cues from the original image before input into the multimodal model.Consequently,these approaches cannot achieve efficient online reasoning;(2)suboptimal interaction handling:the prevalent method of managing interaction between different modalities typically relies on the alternation of self-attention and cross-attention mechanisms or excessive dependence on the gating mechanism.This explicit modeling method may fail to capture some nuanced relations between image and text,ultimately undermining the model’s capability to extract optimal information.To address these challenges,we introduce Implicit Modality Mining(IMM),a novel end-to-end framework for fine-grained image-text correlation without heavy visual embedders.IMM uses an Implicit Semantic Alignment module with a Transformer for cross-modal clues and an Insert-Activation module to effectively utilize these clues.Our approach achieves state-of-the-art performance on three datasets.

LEO导航增强星座设计与链路性能分析

现有卫星导航系统的PNT服务无法提供全空域服务,LEO卫星星座、星间链路是未来多源导航信息源的重要组成部分。本文根据极轨道星座设计理论,在LEO卫星个数较少的条件下,设计了一个LEO导航增强星座,并分析了该星座的全球覆盖性。然后,根据卫星间的几何特性,在星座中建立了星间链路拓扑结构,并采用图论知识讨论了该星间链路拓扑结构的连通性和稳健性。最后,分析增加5颗GEO卫星后的星座星间链路性能。

深空组阵迭代FX相关合成算法及性能分析

针对火星距离下大规模天线组阵中极微弱接收信号的高效合成问题,在VLBI(Very Long Baseline Interferometry,甚长基线干涉测量)的FX相关器开环处理架构基础上提出了一种新的迭代FX相关合成算法,对算法原理进行了详细理论推导,对数据处理流程、算法合成性能等进行深入分析,与FSC(Full-Spectrum Combining,全频谱合成)、BC(Bascband Combining,基带合成)、SSC(Symbol-Stream Combining,符号流合成)等组阵方案进行性能仿真对比,并给出该算法在36面接收天线组阵的实测试验结果。仿真和试验结果表明,迭代FX相关合成算法相比于FSC、BC、SSC等组阵方案具有较好的合成性能,在输入带内信噪比不低于-20 dB时,合成效率可达95%以上,非常适用于火星天线组阵微弱接收信号的组阵合成。

微波统一测控系统的发展趋势及建议

面向未来航天测控任务的新需求和微波统一测控系统的现实挑战,在国内外测控通信技术发展需求的基础上,梳理了微波统一测控系统的发展趋势的几点考虑:现有系统的信息化智能化发展趋势、PNT服务的多样化高精度与自主化、射频与光学测控通信和天地一体化网络等,并着重提出了相应的技术发展方向和关键技术建议,以满足我国微波统一测控系统更高、更远、更快和更多的发展需求。

厘米级扩频测距系统自校准链路分析

针对未来遥感、导航等卫星对地面测控设备的距离测量精度由米级提高到厘米级这一问题,简要介绍了航天测控常用的距离零值标校方案,并量化分析了天线和模拟信道设备引入的距离零值变化,认为必须引入与工作链路同时工作的距离零值自校准链路。针对扩频测距系统对自校准链路的信号形式进行了讨论,并对工作信号电平与自校准链路信号电平之间的相互影响进行了理论分析及仿真,认为自校准链路信号电平低于工作信号电平10 d B是一个较优的选择。

星际探索中的电子技术

各种各样的深空探测器持续地扩展着人类的认知范围。通过对几次典型深空探测活动的成败分析,总结电子技术在星际探索任务中所起到的作用,分析星际探索任务中电子设备应用所获得的经验和启示。认为电子设备的功能、性能、寿命、可靠性是星际探索任务成败的决定性因素,电子技术甚至成为了限制星际探索能力的一个瓶颈。进而论述了未来深空探测任务对电子技术发展的需求,以期对未来电子系统的研制有所借鉴。

铝合金化学镀Ni-P合金层退镀工艺探讨

介绍了一种化学镀Ni-P合金层的退镀溶液配方 ,对Ni-P合金层退镀液对金属基体的腐蚀量进行了测定 ,并对退镀反应的机理进行了初步的探讨。

高掺镁LiNbO3晶体抗光折变性能研究

在LiNbO3中掺进MgO以提拉法生长Mg(1mol%):LN,Mg(3mol%):LN,Mg(5mol%):LN,Mg(7mol%):LN,和Mg(9mol%):LN晶体.改进晶体生长工艺条件,解决了在生长中出现的脱溶,散射颗粒,生长条纹等缺陷.生长出高质量高掺镁LiNbO3晶体.测试Mg:LiNbO3晶体的红外光谱,当Mg2+的浓度达到或超过阈值浓度的Mg:LiNbO3晶体,OH-吸收峰移到3535cm-1,晶体抗光损伤能力比LiNbO3晶体提高两个数量级以上.测试Mg:LiNbO3晶体的倍频性能(相位匹配温度,倍频转换效率)Mg:LiNbO3晶体的相位匹配温度随Mg2+浓度的增加而改变,Mg(5mol%):LN,晶体的相位匹配温度达到116℃,Mg(9mol%):LN晶体在室温附近.

海底光缆通信系统的最新进展

回顾了海底光缆通信系统的发展历程,介绍了海底光缆系统技术的最新进展,特别讨论了偏振复用相干接收无中继传输试验系统和偏振复用副载波调制光正交频分复用(SCM-CO-OFDM)相干检测WDM系统的构成和实现原理。

Mg:Er:LiNbO3晶体波导基片抗光损伤的研究

以Czochralski技术生长Mg(2mol%):Er(1mol%):LN,Mg(4mol%):Er(1mol%):LN,Mg(6mol%):Er(1mol%):LN,Mg(8mol%):Er(1mol%):LN和Er(1mol%):LN晶体.测试了Mg:Er:LiNbO3晶体的红外光谱,Mg(2mol%):Er:LN,Mg(4mol%):Er:LN OH-吸收峰在3486cm-1附近,Mg(6mol%):Er:LN和Mg(8mol%):Er:LN晶体OH-吸收峰移动到3535cm-1附近,对Mg:Er:LN晶体OH-吸收峰移动机理进行研究.采用m线法测试Mg:Er:LN晶体光损伤阈值.Mg(6mol%):Er(1mol%):LN和Mg(8mol%):Er:LN晶体光损伤阈值比Er:LN晶体提高两个数量级以上.Mg(2mol%):Er:LN和Mg(4mol%):Er:LN晶体比Er(1mol%):LN晶体提高一个数量级.

光传输网(OTN)的技术演进和标准化进展

简单回顾了光纤通信系统的发展历程,指出建设下一代每信道超过100 Gbit/s的高速相干光纤通信系统的必要性和可用技术,列出使用不同的调制和检测技术,每信道100 Gbit/s的WDM系统实现的不同传输容量和频谱效率,介绍了光传输网(OTN)的技术演进、标准化进展和一种可能的OTN复用映射结构。