Real-Time-Shift: Pseudo-Real-Time Event Scheduling for the Split-Protocol-Stack Radio-in-the-Loop Emulation

Proceedings of the 25th International ACM Conference on Modeling Analysis and Simulation of Wireless and Mobile Systems Pub Date : 2022-10-24 DOI:10.1145/3551659.3559057

Sebastian Boehm, H. Koenig

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引用次数: 1

Abstract

The incorporation of real radio hardware and physical emulated radio links into higher layer network and protocol simulation studies has been a largely untouched area of research so far. The Split-Protocol-Stack Radio-in-the-Loop emulation combines pure discrete-event protocol simulation with a hardware-based radio link emulation. Since the basic techniques involve contrary time concepts, event communication between the two domains requires a rethink of scheduling and synchronization. With the Real-Time-Shift conservative synchronization and time compensation scheme, the simulator is decoupled from real-time constraints and limitations by introducing predetermined pause times for event execution. In this paper, we present the core synchronization and event scheduling approach allowing for scalable pseudo-real-time simulations with radio hardware in the loop. This enables discrete-event simulations for wireless host systems and networks with link-level emulation accuracy, accompanied by an overall high modeling flexibility.

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Real-Time-Shift:用于分离协议栈无线电在环仿真的伪实时事件调度

将真实的无线电硬件和物理模拟无线电链路结合到更高层的网络和协议仿真研究中，迄今为止，这在很大程度上是一个未触及的研究领域。分离协议栈环内无线电仿真将纯离散事件协议仿真与基于硬件的无线电链路仿真相结合。由于基本技术涉及相反的时间概念，两个域之间的事件通信需要重新考虑调度和同步。采用real-time - shift保守同步和时间补偿方案，通过为事件执行引入预先确定的暂停时间，使模拟器从实时约束和限制中解耦。在本文中，我们提出了核心同步和事件调度方法，允许在环路中使用无线电硬件进行可扩展的伪实时仿真。这使得无线主机系统和网络的离散事件模拟具有链路级仿真精度，同时具有整体高建模灵活性。

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Proceedings of the 25th International ACM Conference on Modeling Analysis and Simulation of Wireless and Mobile Systems

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