Park Hangue, Ghovanloo Maysam
School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA 30332 USA.
IEEE Trans Microw Theory Tech. 2014 Dec;62(12):3205-3215. doi: 10.1109/TMTT.2014.2365804.
This paper explores communication methods and frequencies for wireless intraoral electronic devices, by using an intraoral tongue drive system (iTDS) as a practical example. Because intraoral devices do not meet the operating conditions of the body channel communication, we chose radio frequency communication. We evaluated and compared three frequencies in industrial, scientific, and medical bands (27 MHz, 433.9 MHz, and 2.48 GHz) in terms of their data link performance based on path loss and radiation patterns over horizontal and vertical planes. To do so, we dynamically minimize the impedance mismatch caused by the varying oral environment by applying the adaptive impedance matching technique to 433.9 MHz and 2.48 GHz bands. Experimental results showed that 27 MHz has the smallest path loss in the near-field up to 39 cm separation between transmitter and receiver antennas. However, 433.9 MHz shows the best performance beyond 39 cm and offers a maximum operating distance of 123 cm with 0 dBm transmitter output power. These distances were obtained by a bit error rate test and verified by a link budget analysis and full functionality test of the iTDS with computer access.
本文以口腔内舌驱动系统(iTDS)为例,探讨了无线口腔内电子设备的通信方法和频率。由于口腔内设备不符合人体通道通信的运行条件,我们选择了射频通信。我们基于水平和垂直平面上的路径损耗和辐射方向图,评估并比较了工业、科学和医疗频段(27 MHz、433.9 MHz和2.48 GHz)中的三个频率的数据链路性能。为此,我们通过将自适应阻抗匹配技术应用于433.9 MHz和2.48 GHz频段,动态地最小化由变化的口腔环境引起的阻抗失配。实验结果表明,在发射天线和接收天线间距达39 cm的近场中,27 MHz的路径损耗最小。然而,433.9 MHz在超过39 cm时表现出最佳性能,在发射机输出功率为0 dBm时提供的最大工作距离为123 cm。这些距离是通过误码率测试获得的,并通过链路预算分析以及iTDS与计算机连接的全功能测试得到验证。