Estimation of co-channel interference between cities caused by ducting and turbulence

With the rapid development of the fifth-generation(5 G)mobile communication technology,the application of each frequency band has reached the extreme,causing mutual interference between different modules.Hence,there is a requirement for detecting filtering and preventing interference.In the troposphere,over-the-horizon propagation occurs in atmospheric ducts and turbulent media.The effects of both ducting and turbulence can increase the probability of occurrence of long-distance co-channel interference(CCI),in turn,severely affecting the key performance indicators such as system access,handover and drop.In the 5 G era,to ensure communication channels and information security,CCI must be reduced.This paper introduces a scattering parabolic equation algorithm for calculating signal propagation in atmospheric ducts on irregular terrain boundaries.It combines Hitney’s radio physical optical model and Wagner’s nonuniform turbulent scattering model for calculating the tropospheric scattering in an evaporation duct or a surface-based duct.The new model proposes a tropospheric scattering parabolic equation algorithm for various tropospheric duct environments.Finally,as a specific case,the topographical boundaries between several cities in the East China Plain were considered,and the over-the-horizon propagation loss was simulated for various ducting and turbulent environments.The simulation results were used to evaluate whether CCI would occur between cities in a specific environment.

Array (Smart) Antennas Improve GSM Performance

As wireless data applications over cellular networks become more widespread, the pressure to increase capacity will become even more intense. Capacity in the 800 and 900 MHz bands, where bandwidth is restricted, is already becoming a limiting factor. This paper attempts to address how the application of smart antenna systems has brought about improvements in call quality and increased capacity through reduced Interference in Mobile Communication. The smart antenna may be in a variety of ways to improve the performance of a communications system. Perhaps most importantly is its capability to cancel co-channel interference. It helps in improving the system performance by increasing the channel capacity, spectrum efficiency, extending range coverage, speech quality, enabling tighter reuse of frequencies within a cellular network and economically, feasible increased signal gain, greater, reduced multipath reflection. It has been argued that Smart antennas and the Algorithms to control them are vital to a high-capacity communication system development.

考虑电磁干扰的LTE通信频谱资源分配算法仿真

传统资源分配算法无法解决区间同频电磁干扰问题,会显著降低资源分配效率低、减少系统边缘吞吐量。为解决上述问题,将最小化功率MP技术与动态优先级DP方法有机融合,提出了一种MDP动态频谱资源分配算法。算法首先通过对区内边缘用户进行判断,确定同频干扰源;然后在用户信道增益表的基础上,采用增益高低法对子载波进行资源分配,解决同频电磁干扰影响;最后采用MP技术优化区内资源分配体系,并利用DP方法划分动态区间载波,提升资源分配的高效性。与传统RR与PF基线分配算法相比,MDP算法在仿真时,当用户数少于50时,用户的满意度与算法公平性最高;且系统频谱效率分别平均提高了43.61%与30.73%;此外边缘吞吐量平均提高了7.89%,系统吞吐量平均提升6.37%。综上所述,MDP动态频谱资源分配算法能够解决区间同频电磁干扰问题,提高系统吞吐量,在通信领域中具有重要的研究价值。

面向同频干扰环境的5G机会信号定位算法研究

针对全球导航卫星系统(GNSS)拒止环境下定位精度难以保证的问题,该文设计了一种基于新无线电(NR)机会信号的定位方案,并提出一种基于干扰消除子空间追踪(ICSP)算法,解决超密集网络(UDNs)和异构网络(HetNets)环境中同频干扰对定位观测量提取精度不足的问题。通过仿真实验和通用软件无线电外设(USRP)半实物仿真,验证了ICSP算法在复杂网络环境中优化5G机会信号接收机性能、提高定位精度上的有效性。

政府补贴下考虑风险厌恶的双渠道绿色供应链运营决策及协调契约

在政府对绿色产品提供补贴的基础上,构建以制造商为主导的供应链博弈模型,利用均值方差法分析了在双方风险中性(RN)、双方风险厌恶(RA)、仅制造商风险厌恶(MRA)和仅零售商风险厌恶(RRA)4种模式下的双渠道绿色供应链决策及效用,并设计带有转移支付的成本分担契约以实现协调。研究发现:在RRA模式下,产品绿色度与风险厌恶程度正相关;而在MRA模式和RA模式下,产品绿色度与风险厌恶程度负相关;双方效用在4种模式下均与政府补贴正相关,且在RRA模式下制造商效用受政府补贴的影响最为显著;当研发成本系数较大时,在MRA模式和RRA模式下,一方的效用与另一方的风险厌恶程度正相关,而在RA模式下双方效用与风险厌恶程度负相关。此外,通过数值分析揭示了成本分担比例与风险厌恶程度负相关、与政府补贴正相关。以上结论可为双渠道绿色供应链的决策制定及协调管理提供参考。

卫星通信中基于流量均衡的跳波束分簇构型研究

星上资源有限且珍贵,而在真实的通信场景中,地面终端用户地理位置分布和卫星通信业务需求各不相同,因此需要进行动态星上资源管理,并设计灵活高效的资源管理方案。本文利用跳波束技术提供波束级别灵活的资源管理,解决高通量卫星产生的点波束覆盖地面小区之间业务需求量不均衡的问题。首先,针对跳波束卫星存在共信道干扰的问题,提出了基于频率模式切换的跳波束簇间干扰避免策略;然后,提出均匀分簇和非均匀分簇两种分簇构型策略,针对均匀分簇均衡效果差、不适用于地面动态变化的问题和共信道干扰问题,提出了基于频率模式切换的跳波束簇间干扰避免策略的非均匀分簇构型方案;最后,对干扰避免策略进行仿真,同时基于多种智能优化算法对不同的分簇策略进行验证,证明所提分簇构型的可行性,并表明无距离限制的非均匀分簇算法的流量均衡能力较传统分簇算法更强。

面向6G的星地融合网络频谱共享技术

卫星网络被公认为是下一代移动通信系统的重要组成部分,其与现有的地面蜂窝网络实现优势互补形成星地融合网络,可以为全球范围内的海量用户提供无处不在的宽带接入服务。而两网如何高效共享有限的频谱资源、缓解同频共存干扰成为当前的技术难点与热点问题之一。分析了星地融合网络频谱共享时存在的典型干扰类型,并对星地频谱共享场景中系统间干扰进行了仿真。介绍了星地频谱共享需要进一步研究的关键技术,并总结了星地融合网络频谱共享面临的挑战。

手术区域全密闭技术在经皮同轴大通道内镜下腰椎融合术治疗退行性腰椎滑脱症中的应用

目的:探讨手术区域全密闭(full surgical area closure technique,FSAC)技术在经皮同轴大通道内镜下腰椎融合术(percutaneous coaxial large-channel endoscopic lumbar interbody fusion,PLE-LIF)治疗退行性腰椎滑脱症中的应用价值。方法:回顾性分析2020年1月~2023年1月因单节段退变性腰椎滑脱症在我院行PLE-LIF的83例患者,其中46例术中采用FSAC技术,纳入FSAC组;37例未采用FSAC技术,纳入N-FSAC组。两组患者性别、年龄、病程及住院时间等一般资料无统计学差异(P>0.05)。两组患者均规律随访1年。记录两组患者手术时间及并发症发生情况。记录两组患者术前1d、术后3d、术后3个月、术后1年的腰痛及下肢痛视觉模拟评分(visual analogue scale,VAS)及术前1d、术后3个月、术后1年的功能障碍指数(Oswestry disability index,ODI)。术后3个月复查腰椎X线片并采用Meyerding分级评估滑脱复位情况,术后1年复查CT并采用Brantigan标准评价两组椎间融合情况。结果:FSAC组手术时间较N-FSAC组更短(118.9±10.6min vs 130.6±16.3min,P<0.05)。两组术后各时间点腰痛和下肢痛VAS评分及ODI均较术前明显下降(P<0.05),两组间同时间点比较均无统计学差异(P>0.05)。N-FSAC组有2例发生下肢麻木,FSAC组无下肢麻木发生;N-FSAC组及FSAC组分别有4例和1例发生神经水肿性疼痛;两组均有1例发生cage移位,两组均无内固定松动、感染及硬膜囊撕裂发生,N-FSAC组术中并发症发生率较FSAC组更高(18.9%vs 4.3%)(P<0.05)。术后1年两组患者的滑脱程度较术前均明显改善(P<0.05),两组间无统计学差异(P>0.05);FSAC组42例椎间融合成功,N-FSAC组34例椎间融合成功,两组间的融合率(91.3%vs 91.9%)及椎间融合分级比较无统计学差异(P>0.05)。结论:采用FSAC技术的PLE-LIF治疗单节段退变性腰椎滑脱症时,能缩短手术时间,提高手术安全性。

Capacity of orthogonal space-time block codes in MISO fading channels with co-channel interference and noise

Orthogonal space-time block codes （OSTBCs） are an efficient mean in order to exploit the diversity offered by the wireless multiple-input multiple-output （MIMO） channel. This paper considers capacity problems of OSTBCs over spatially correlated multiple-input single-out （MISO） Rayleigh fading channels in the presence of spatially correlated Rayleigh co-channel interference and additive Gaussian noise, and derives exact expressions of the ergodic capacity and outage probability （capacity distribution） for such OSTBCs. Some numerical examples are given to illustrate the effect of co-channel interference on the ergodic and outage capacity of OSTBCs.

Robust linear receivers for STBC systems with unknown co-channel interference

Focusing on space-time block code （STBC） systems with unknown co-channel interference, an oblique projection-based robust linear receiver is proposed in this paper.Based on the oblique projection, the desired signal subspace and interference-plus-noise subspace are first identified from the received signal.Then the matched filter receiver is used to decode the STBC encoded signals in the desired signal subspace.Simulation results show that the proposed linear receiver obtains significant performance improvement over conventional Capon-type receivers under finite sample-size situations and in the presence of channel estimation errors.

GSM Co-Channel and Adjacent Channel Interference Analysis and Optimization

Most current Global System for Mobile Communications （GSM） frequency planning methods evaluate the interference and assign frequencies based on measurement reports. Assigning the same or adjacent frequencies to cells close to each other will introduce co-channel and adjacent channel interference which will reduce network performance. Traditionally, man power is used to check and allocate new frequencies which is time consuming and the accuracy is not satisfactory. This paper presents an intelligent analysis method for optimization of co-channel and adjacent channel interference by exploiting cell configuration information. The method defines an interference evaluation model by analyzing various factors such as the base station layer, the azimuth ward relationship, and the cell neighborhood relationships. The interference for each frequency is evaluated and the problem frequencies are optimized. This method is verified by a large number of actual datasets from an in-service GSM network. The results show this method has better intelligence, accuracy, timeliness, and visualization than traditional methods.

Inter-domain traffic balancing with co-channel interference management in multi-domain heterogeneous network for LTE-A

Heterogeneous network （Het-Net） is part of the long-term evolution advanced （LTE-A） study item and represents cellular deployments with a mixture of cells of different overlapping coverage areas, e.g., a number of relay and pico cells overlaid by a macro cell in the same frequency. Traffic balancing and interference management are required in Het-Net design for LTE-A to maintain system performance. In this paper, we propose an inter-domain cooperative traffic balancing scheme focusing on reducing the effective resource cost and mitigating the co-channel interference in multi-domain Het-Net. We first set up the conception of multi-domain in Het-Net and incorporate the co-channel interference into the proposed traffic balancing scheme. Then we model the traffic balancing issue as a multi-domain traffic resource optimization problem for minimizing the effective resource cost. The detailed implementation for the proposed traffic balancing scheme is designed. In the numerical evaluation, the genetic algorithm （GA） as an optimization method is used to demonstrate that the total effective resource cost is significantly reduced through our proposed inter-domain traffic balancing scheme, comparing with the intra-domain traffic balancing scheme. The 43% of the resource cost is saved. In the system level simulation, the performance results of signal interference noise ratio （SINR） and throughput demonstrate that the proposed scheme has great advantages in interference management in Het-Net.

基于有界成分分析的欠定RFID标签防碰撞技术

针对无线射频识别(Radio Frequency Identification,RFID)面临的标签碰撞问题,即同频干扰消除,从通信输层信号处理的角度,将多标签防碰撞问题建模为盲源分离(Blind Source Separation,BSS)问题。为降低阅读器天线成本,利用标签通信信号的有界性,提出了一种欠定的基于有界成分分析(Bounded Component Analysis,BCA)的RFID标签防碰撞技术,将欠定的标签信号碰撞模型与BCA机制相结合。经仿真试验结果表明,所提BCA算法能更好地解决欠定碰撞问题,改善标签信号同频干扰消除的效果,提高系统误码率(Bit Error Rate,BER)性能,降低欠定模型系统的复杂度。

跳波束波位优化与干扰避免的跳变图案设计

跳波束技术利用时间分片的方式提高了通信系统的资源利用率,但现有的跳波束波位相对固定,不能随业务需求的变化而变化;且跳变波束服务的波束越多,系统排队时延越大;当多个波束同时工作时,同频干扰也不容忽视。对此,本文在波位优化的基础上,进一步提出一种将时隙分配与跳波束图案设计联合优化的资源分配算法。以最大化系统吞吐量为目标,首先利用相控阵天线可波束赋形的特点,根据业务需求,配置合适大小的波位;其次利用遗传算法对跳波束图案进行设计,从而避免共信道干扰。对比联合优化前后系统性能参数,结果表明,该方法能够提高系统吞吐量和业务满意度,降低系统排队时延。

共信道干扰环境下中继无人机的航迹优化方法

为克服共信道干扰恶化无人机中继通信系统链路传输可靠性的问题,提出了中继无人机的航迹优化方法。首先,建立了点对点无人机中继通信系统模型,以基站节点解调器输入信干噪比(SINR,signal-to-interference-plus-noise ratio)最大化准则为基础,提出中继无人机的航迹优化方法,并通过粒子群优化算法获得中继无人机的最佳飞行航迹;随后,理论分析给出了无人机中继通信系统的链路中断概率和遍历容量;最后,仿真验证了所提出航迹优化方法的正确性。研究表明:所提方法可克服共信道干扰的影响,提高系统链路传输可靠性。

Improved Analysis of Co-Channel Interference in Cellular Communications Systems

In terms of the carrier-to-interference-ratio, the performance of co-channel interference in cellular communications systems is studied. The approach is based on an improved analysis, which allows to take into account some area in the desired sector may not be interfered by some co-channel sectors with exact geometrical analysis, instead of the entire sector interfered by some co-channel sectors. Other features, such as power control and the number of interferences are also included.

基于渠道结构视角的供应链竞争与合作研究回顾

在供应链管理中,各个成员往往不是纯粹的合作关系或竞争关系,复杂的采销渠道使得供应链成员之间面临着纵向或横向的竞争与合作。文章回顾了近年来国内外供应链竞争与合作策略方向的研究成果。基于渠道结构问题视角,文章总结了供应链竞争与合作的三种类型:OEM采购中的竞争与合作,分销渠道策略中的竞争与合作以及外包生产问题中的竞争与合作。最后,文章对现有研究进行了总结,并对今后的研究进行了展望。

热流密度对高速钢刀具多道熔覆WC/Co陶瓷层组织与性能的影响

目的研究高速钢刀具表面激光多道熔覆WC/Co陶瓷层时,热流密度对熔覆层道次间的影响规律,以及多道熔覆层制备时的参数选择。方法建立多道单层激光熔覆理论模型,并利用模拟仿真和实验的方法,以热流密度作为评价指标,对激光热源的不同参数和熔覆层组织与性能进行耦合分析。结果当热流密度小于24.06×10^(6) W/m^(2)时,熔覆层内形成细长的枝状晶。当热流密度在36.09×10^(6)~39.82×10^(6) W/m^(2)变化时,熔覆层内形成以胞状、枝状为主要强化相的多晶体混合组织。当热流密度大于44.11×10^(6) W/m^(2)时,熔覆层组织形成稳态的块状结构。不同热流密度下,熔覆层的物相组织均由Fe_(3)W_(3)C、Co_(3)W_(3)C、Mo_(3)Co_(3)C、W_(2)C、WC、Cr_(3)Mo、(Cr,Fe)_(7)C_(3)和多种间隙化合物组成。结论当第n道熔覆层制备完成后,受到后续第n+1道熔覆层制备时热流密度的影响较大,而此后道次的影响较小。熔覆层内部组织形态随着热流密度的增加从细长的枝状晶向胞状晶转变,再逐渐形成稳态块状晶。熔覆层内各位置的显微硬度值随着热流密度的增加而先增大,随后逐渐减小。较大的热流密度会导致基材参与熔覆的质量增加,但降低了基材的抗弯曲强度,加大了熔覆层及基材断裂的可能性。当热流密度为36.09×10^(6) W/m^(2)时,是一组较为理想的工艺参数选择。

微波同波道交叉极化技术应用及分析

本文主要针对不同系统的同波道交叉极化技术应用进行对比分析,阐述同波道交叉极化技术大致原理以及传输质量保障手段,并从实际应用层面进行整体框架描述和系统分析、比对,实现对该技术的实际应用层面以及应用场景介绍。

面向天地融合网络的无线资源智能分配方法

为满足天地融合网络全时、全域通信需求,采用认知无线电技术可实现有限频谱资源的感知与高效利用,有效缓解同频干扰问题。文章提出了一种用于天地一体认知网络的信道选择和功率调整的无线资源智能分配方法,在保证主用户服务质量的前提下最大化系统数据速率。首先,将天地融合网络建模为异质图结构,通过用户距离估计信道状态信息,并且利用图卷积网络提取和分析关键环境特征。其次,采用深度强化学习探索底层拓扑环境信息,通过试错与奖惩机制不断优化资源分配策略。仿真结果验证了所提方法的收敛性,并且证明系统数据速率能够得到显著提升。