准确有效的人手模型,用于移动设备天线效率的预测

U. Navsariwala
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引用次数: 4

摘要

移动设备(如蜂窝电话)中的天线受到用户存在的显著影响,特别是在通话位置。传统上,这种影响没有被准确地建模,而且在许多情况下,它完全被忽略了。这将导致对天线性能,特别是辐射效率的预测不准确,并可能导致天线设计不佳。在这篇文章中,更详细地考虑了手的建模。尽管许多CAD工具都有能力用多种材料对手部几何形状进行精细的建模,但在处理模型复杂性和构建用于测量的手部模型方面存在相关问题。因此,需要在模型几何和材料中的细节与仿真和测量工具的需求之间取得平衡。本文提出了一种齐次手模型。该模型很好地代表了手的几何形状,并且可以适应形成各种握把。研究了该模型的材料特性对几种典型手机天线辐射效率的影响。这些研究表明,均匀手模型的有效材料特性可以用于天线辐射效率的合理精度。研究了由骨和肌肉组成的双组织模型。
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Accurate and efficient models of the human hand for the prediction of antenna efficiency in mobile devices
The antennas in a mobile device, like a cellular phone, are significantly impacted by the presence of the user, especially in the talk position. Traditionally, this impact has not been accurately modeled and, in many cases, it is completely ignored. This results in an inaccurate prediction of the antenna performance, especially the radiation efficiency, and can lead to poor antenna design. In this article, the modeling of the hand in greater detail is considered. Although many CAD tools have the capability to model the hand geometry in fine detail with multiple materials, there are associated issues dealing with the model complexity and constructing hand phantoms for measurements. Therefore, a balance needs to be reached between the details in the model geometry and materials and the needs of the simulation and measurement tools. In this paper, a homogeneous hand model is presented. The model represents the geometry of the hand in good detail and it can be adapted to form various hand grips. The effect of the material properties of this hand model on the radiation efficiency of a few typical antennas in mobile handsets is studied. These studies illustrate than an effective material property for a homogeneous hand model can be used for a reasonable accuracy in the radiation efficiency of the antennas. A two tissue model consisting of bone and muscle is also studied.
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