Smart and performances-demanding platform for millimeter-wave sensing systems

适用于毫米波传感系统的智能且高性能平台

• 批准号: RGPIN-2017-06959
• 负责人: Djerafi, Tarek
• 金额: $ 1.75万
• 依托单位: Institut national de la recherche scientifique
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=712508
• 关键词: Smart; performances; demanding; platform; millimeter

The smart home system based on wireless sensor networks is a combination of technologies and services that improve the life in the areas of safety, comfort and technical management. In the smart home scenario, sensors, RFID, local positioning system and decisional algorithms are combined to achieve various functionalities in complete smart and autonomous system. The smart home goes beyond the stereotype of a homeowner who can check his house on a smartphone and verify the status of interior devices such as security alarm or heating system. In addition, wearable and no-contact healthcare devices can monitor resident blood pressure, heart rate and other metrics (posture, ECG, breathing) and transmit data to the resident smartphone as part of a medical tele-monitoring system. These indoor systems should work in millimeter-wave range to be compatible with future applications of millimeter-wave technology in wireless communications such as 5G platforms, especially information sharing of sensor networks and functional interplay among wireless functionalities. System working in millimeter-wave range, should deal with some constraints in indoor environment like dynamic range, propagation blockage and noise. Reconfigurability in circuits and systems gives an additional tool to meet the stringent frequency and power requirements, even in the changing of operating environment inherent in these systems. In addition, tunable circuit responses can be made to compensate for the deleterious effects of aging and temperature changes in sensitive RF circuits. At millimeter-wave band and beyond, the actual active components which use TEM-mode waveguide are troubled by transmission loss, fabrication tolerance and other problems. Non-TEM modes such as SIW (substrate integrated waveguide) guide offers much better solutions. Therefore, the concept of “true” active waveguide techniques based on “nonlinear” media similar to the solid-state semiconductor devices should be developed. The “active” waveguide should present “distributed” features with wave interactions instead of voltage and current characterized “lumped” such as diodes and transistors. To do so, innovative thick- and think-films and substrate such as BST, ferroelectric and liquid crystal materials, will be integrated inside or as layer in SIW line. The strategic goal of this proposal is to develop reconfigurable circuits and waveguides to be integrated in millimeter wave systems for different indoor applications. Tunable waveguides developed in this project will be used to design distributed phase shifters based on BST that allow different modulations and smart antenna operations. The different developed components and waveguides will be integrated in the same platform to estimate the performances enhancement. Of course, such final platform will provide “smart” and “performance demanding” actions.

基于无线传感器网络的智能家居系统是在安全、舒适和技术管理等方面改善生活的技术和服务的结合。在智能家居场景中，传感器，RFID，本地定位系统和决策算法相结合，以实现完整的智能和自主系统的各种功能。智能家居超越了房主的刻板印象，房主可以在智能手机上检查他的房子，并验证安全警报或供暖系统等内部设备的状态。此外，可穿戴和非接触式医疗设备可以监测居民血压、心率和其他指标（姿势、ECG、呼吸），并将数据传输到居民智能手机，作为医疗远程监测系统的一部分。这些室内系统应在毫米波范围内工作，以兼容毫米波技术在无线通信（如5G平台）中的未来应用，特别是传感器网络的信息共享和无线功能之间的功能相互作用。 系统工作在毫米波频段，需要解决室内环境中的动态范围、传播阻塞和噪声等问题。电路和系统的可重新配置性提供了额外的工具来满足严格的频率和功率要求，即使在这些系统固有的操作环境发生变化的情况下也是如此。此外，可调谐电路响应可用于补偿敏感RF电路中老化和温度变化的有害影响。 在毫米波段及更高波段，实际使用TEM模波导的有源器件受到传输损耗、加工公差等问题的困扰。非TEM模式，如基片集成波导（SIW）波导提供了更好的解决方案。因此，基于类似于固态半导体器件的“非线性”介质的“真”有源波导技术的概念应该得到发展。“有源”波导应该呈现具有波相互作用的“分布式”特征，而不是诸如二极管和晶体管的“集总”特征的电压和电流。为此，创新的厚膜和薄膜以及衬底，如BST、铁电和液晶材料，将被集成在SIW线的内部或作为层。 该提案的战略目标是开发可重新配置的电路和波导，以集成在毫米波系统中，用于不同的室内应用。在这个项目中开发的可调谐波导将用于设计分布式移相器的基础上BST，允许不同的调制和智能天线操作。不同的开发组件和波导将被集成在同一个平台，以评估性能的提高。当然，这样的最终平台将提供“智能”和“性能要求”的动作。