3.546 14.53%

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Position Transfer Phase Ambient Mixture Radar-communication Presence Recovery Fdd Cache Sum Latency Delivery Node Mimo-ofdm Sharing Game Reservation Two-way Tradeoff Temporal Theory Asynchronous Intelligent Sampling Uav-aided Path Perspective Sequence Management M2m Molecular Offset Enabled Gain Dynamic Convolutional Beam Strategy Clustering Primary Spectral Index Physical-layer Integer Blind Limited Sensing Optimization Caching Meet Fog Application Power Policy Authentication Secure Survey Novel Thing Networking Technique Computation Machine Cyclic Dp-ldpc Splitting Observation Hoc Tone Single Planning Altitude Small Optical Timing Simultaneous Tdd Mu-mimo Ghz Polarized In-band Region Eavesdropper Compensation Acquisition Transmit Assignment Adaptation Characteristic Coordinated Mapping Toward Modeling Light Clustered Distortion Adcs Nonlinear Coded Ofdm-im Order Quality Ber Residual Partial Handover Duplex Amplify-and-forward Effective Matching Bandit Diffusion Mac Ieee Message Multi-antenna Streaming Greedy Transmitter Convergence Time-varying Collaborative Minimum Polarization Aoa Reconstruction Markov Reinforcement Complexity Diversity Finite Artificial Passive Multihop Sir Range Doa Doe Csit Correction Rayleigh Aided Jscc Low-resolution Matrix Fog Non-orthogonal Pareto Loss Low Location Sinr Meta Surface Modified Sum-rate Recognition Cost Variable Traffic Cache-enabled Uav-assisted Omp Cell Proactive Optimized Receive Precoder Multi-beam Paradigm Untrusted Successive Modulation Polar Editorial Motivation Measurement Relay Field Unified Map Analysis City Matching Cooperative Wlan Home Leo Ultra-dense Technology Promising Infrastructure Uavs Connectivity Fusion Trend Band Evolution Identification Drone Aerial Orthogonality Transportation Guest Low Cooperation Space-air-ground Current Millimeter-wave Propagation Traffic Efficient Slicing Broadcast Noma Full-duplex Distributed Transfer Broadband Rfid Attack Speed Nr Flying Lte Integrated Time Cloud Mechanism Emergency Covert Arrival R Uavs Versus Urban Sparsity Mmse NOMA Vanets Visible Multi-connectivity Bayesian Detection Poisson Keying Ultra-dense Circuit Weighted Domain Detector Multichannel Short Internet K Equalization Connectivity Direct Discovery Sub-6 Flexible Byzantine Reliability Horizontal Consumption Multi-armed Multicarrier Multicasting Uav-relayed Proportional Open-loop Division Gaussian Search Differential Emission Geometry Length Approximate Identity Dissemination Iterative Ad

IEEE Wireless Communications Letters - 影响因子

IEEE Wireless Communications Letters的2019年影响因子 为 4.390 (2020年最新数据)。 与历年影响因子数据相比,IEEE Wireless Communications Letters 2019年影响因子上升了 24.01% 。 2019-20年IEEE Wireless Communications Letters的最新影响因子分区 为 1区影响因子现已成为国际上通用的期刊评价指标,它不仅是一种测度期刊有用性和显示度的指标,而且也是测度期刊的学术水平,乃至论文质量的重要指标。影响因子是一个相对统计量。影响因子通过在前两年(2017-2018)期刊上发表的论文总数计算特定年份(2019年)的平均引用次数。 除了IEEE Wireless Communications Letters的2年影响因子外,IEEE Wireless Communications Letters3年影响因子也提供给您进一步评估。


IEEE Wireless Communications Letters 实时影响因子预测 2019 2018 2017 影响因子趋势追踪 - 学术加速器


IEEE Wireless Communications Letters - 影响因子即时预测系统

影响因子即时预测系统 提供一个开放且透明的平台,通过众人智慧及巨量资料帮助学术研究人员预测未来期刊的影响和表现。 影响因子趋势预测系统即时地真实呈现群众巨量数据,没有附加任何加密运算、隐藏因子或系统延迟。

IEEE Wireless Communications Letters Impact Metric Trend Forecasting System
  • ISSN
  • 21622337
  • 开放获取
  • 出版商
  • IEEE Communications Society
  • 国家/地区
  • United States
  • 出版历史
  • 研究领域
  • Control and Systems Engineering (Q1), Electrical and Electronic Engineering (Q1), Physics and Astronomy (miscellaneous) (Q1)

IEEE Wireless Communications Letters - ISSN

IEEE Wireless Communications Letters 的 ISSN 是 21622337。ISSN是一个8位数的代码,用于识别各种报纸,期刊,杂志和期刊以及所有媒体 - 包括印刷版和电子版。

IEEE Wireless Communications Letters - ISSN

IEEE Wireless Communications Letters - 传统订阅 (non-OA) 期刊

IEEE Wireless Communications Letters传统订阅 (non-OA) 期刊。出版商拥有其期刊中文章的版权。任何想要阅读文章的人都应该由个人或机构支付费用来访问这些文章。任何人想以任何方式使用这些文章都必须获得出版商的许可。

IEEE Wireless Communications Letters - Open Access

IEEE Wireless Communications Letters - 出版商

IEEE Wireless Communications Letters的出版商是 IEEE Communications Society (United States), IEEE Wireless Communications Letters的出版历史包含 - 2012-ongoing

IEEE Wireless Communications Letters - Publisher

IEEE Wireless Communications Letters - 研究主题

IEEE Wireless Communications Letters為标准同行评审期刊。同行评审(Peer review,在某些学术领域亦称 Refereeing) 为一种审查程序,即一位作者的学术著作让同一领域的其他专家学者来加以评审。IEEE Wireless Communications Letters主要以同行评审的方法来选择与筛选所投送的稿件录取与否。 IEEE Wireless Communications Letters的研究主题涵盖以下类别: Control and Systems Engineering (Q1), Electrical and Electronic Engineering (Q1), Physics and Astronomy (miscellaneous) (Q1)

IEEE Wireless Communications Letters - Categories

IEEE Wireless Communications Letters - 期刊重要指标

事实上仅使用单一指标 - 影响因子 很难全面性地了解IEEE Wireless Communications Letters期刊影响力,因此需要更多指标提供您投稿文章的参考依据。学术加速器除了提供期刊标准缩写期刊录用-拒稿 比例期刊审稿速度期刊研究热点期刊投稿模板, 一系列相关期刊重要指标包括 CitescoreH-IndexSelf-Citation RatioSJR (SCImago Journal Rank Indicator)SNIP (Source Normalized Impact per Paper) 让您可以进一步评估 IEEE Wireless Communications Letters期刊影响力。

IEEE Wireless Communications Letters - Journal Metrics