Chipless RFID SAW technology has been identified as a possible solution for NASA's long term needs for ground, space-flight, and space-exploration sensor requirements. SAW has many unique advantages over possible competing technologies, which include the following properties: passive, radiation hard, operable over wide temperature ranges, small, rugged, inexpensive, and identifiable. The purpose of this paper is to define a system simulation environment for SAW sensors; not on any particular sensor. For remote sensing, it is beneficial to be able to simulate effectively the sensor environment prior to fabrication. This paper will use previously presented orthogonal frequency coded (OFC) sensor tags. The parameters of interest are the transmitter, channel characteristics, target, and the receiver output. The simulations utilize a SAW device coupling of modes (COM) model and combined with the RF system parameters. This provides an accurate simulation tool for the overall system when performing analysis on important parameters, such as signal to noise ratio (SNR), SAW coding type, and range effects. Theoretical system performance of a multi-frequency SAW RFID sensor system utilizing multiple targets will be discussed.
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机译:ChipleSS RFID SAW技术已被确定为NASA对地面,空间飞行和空间勘探传感器要求的长期需求的可能解决方案。锯有可能竞争技术的独特优势,包括以下性能:被动,辐射硬,在宽温度范围内,小,粗糙,廉价和可识别的可操作。本文的目的是为SAW传感器定义系统仿真环境;不在任何特定的传感器上。为了遥感,能够在制造之前有效地模拟传感器环境是有益的。本文将使用先前呈现的正交频率编码(OFC)传感器标签。感兴趣的参数是发送器,信道特性,目标和接收器输出。该模拟利用模式(COM)模型的SAW器件耦合并与RF系统参数组合。这为整个系统提供了对重要参数的分析时的精确模拟工具,例如信号到噪声比(SNR),SAW编码类型和范围效果。将讨论利用多个目标的多频锯RFID传感器系统的理论系统性能。
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