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Additionally, we present a new accurate approximation expression for OP, using the gamma distributions to approximate the fading of both desired and interference links, thereby yielding a closed-form expression. Nevertheless, both derived expressions, i.e., the exact integral-form and the approximate closed-form, contain special functions, such as Meijer’s G-function and the parabolic cylinder function, which complicate real-time OP analysis. To circumvent this, we employ a deep neural network (DNN) for real-time OP prediction, trained with data generated by the exact expression. Moreover, we present a tight upper bound that quantifies the impact of interference on achievable diversity order and coding gain. We validate the derived expressions through Monte Carlo simulations. Our analysis reveals that while interference does not affect the system’s diversity order, it significantly degrades the performance by reducing the coding gain. 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引用次数: 0
摘要
本文分析了可重构智能表面(RIS)辅助设备对设备(D2D)通信系统的性能,重点是解决同信道干扰问题,这是由于带内 D2D 底层通信中侧向链路的频率重用而普遍存在的问题。以往的研究要么忽略了干扰,要么只考虑了用户的干扰,与此不同的是,我们的研究从中断概率 (OP) 的角度对 RIS 辅助 D2D 通信系统进行了性能分析,同时考虑了用户和 RIS 存在的干扰。更具体地说,我们引入了一种新的积分形式表达式,用于对 OP 进行精确分析。此外,我们还提出了一种新的 OP 精确近似表达式,利用伽马分布来近似期望链路和干扰链路的衰减,从而得出闭式表达式。然而,这两种推导表达式,即精确积分形式和近似闭合形式,都包含一些特殊函数,如 Meijer 的 G 函数和抛物线圆柱体函数,这使得实时 OP 分析变得复杂。为了避免这种情况,我们采用了一种深度神经网络(DNN)来进行实时 OP 预测,该网络由精确表达式生成的数据训练而成。此外,我们还提出了一个严密的上限,可量化干扰对可实现的分集阶和编码增益的影响。我们通过蒙特卡罗模拟验证了推导出的表达式。我们的分析表明,虽然干扰不会影响系统的分集顺序,但会通过降低编码增益而显著降低性能。结果进一步证明,增加 RIS 反射元件的数量是减轻干扰对系统性能不利影响的有效策略。
RIS-assisted D2D communication in the presence of interference: Outage performance analysis and DNN-based prediction
This paper analyzes the performance of reconfigurable intelligent surface (RIS)-assisted device-to-device (D2D) communication systems, focusing on addressing co-channel interference, a prevalent issue due to the frequency reuse of sidelink in the underlay in-band D2D communications. In contrast to previous studies that either neglect interference or consider it only at the user, our research investigates a performance analysis in terms of outage probability (OP) for RIS-assisted D2D communication systems considering the presence of interference at both the user and the RIS. More specifically, we introduce a novel integral-form expression for an exact analysis of OP. Additionally, we present a new accurate approximation expression for OP, using the gamma distributions to approximate the fading of both desired and interference links, thereby yielding a closed-form expression. Nevertheless, both derived expressions, i.e., the exact integral-form and the approximate closed-form, contain special functions, such as Meijer’s G-function and the parabolic cylinder function, which complicate real-time OP analysis. To circumvent this, we employ a deep neural network (DNN) for real-time OP prediction, trained with data generated by the exact expression. Moreover, we present a tight upper bound that quantifies the impact of interference on achievable diversity order and coding gain. We validate the derived expressions through Monte Carlo simulations. Our analysis reveals that while interference does not affect the system’s diversity order, it significantly degrades the performance by reducing the coding gain. The results further demonstrate that increasing the number of RIS’s reflecting elements is an effective strategy to mitigate the adverse effects of the interference on the system performance.
期刊介绍:
The Ad Hoc Networks is an international and archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in ad hoc and sensor networking areas. The Ad Hoc Networks considers original, high quality and unpublished contributions addressing all aspects of ad hoc and sensor networks. Specific areas of interest include, but are not limited to:
Mobile and Wireless Ad Hoc Networks
Sensor Networks
Wireless Local and Personal Area Networks
Home Networks
Ad Hoc Networks of Autonomous Intelligent Systems
Novel Architectures for Ad Hoc and Sensor Networks
Self-organizing Network Architectures and Protocols
Transport Layer Protocols
Routing protocols (unicast, multicast, geocast, etc.)
Media Access Control Techniques
Error Control Schemes
Power-Aware, Low-Power and Energy-Efficient Designs
Synchronization and Scheduling Issues
Mobility Management
Mobility-Tolerant Communication Protocols
Location Tracking and Location-based Services
Resource and Information Management
Security and Fault-Tolerance Issues
Hardware and Software Platforms, Systems, and Testbeds
Experimental and Prototype Results
Quality-of-Service Issues
Cross-Layer Interactions
Scalability Issues
Performance Analysis and Simulation of Protocols.