Antennas for Communications and Sensors and Fundamentals of Electromagnetic Engineering

通信和传感器天线以及电磁工程基础

• 批准号: RGPIN-2018-06414
• 负责人: Antar, Yahia
• 金额: $ 3.35万
• 依托单位: Royal Military College of Canada
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=752331
• 关键词: Antennas; Communications; Sensors; Fundamentals; Electromagnetic

Wireless communications is creating a mobile information society that has led to the result that the evolution and development of wireless systems has now become a fundamental and critical issue in all aspects of modern life. It is expected that the performance of communication technologies will need to improve by up to 1000X over our existing technology to meet demand in the next decade. Apart from traditional services, future systems are expected to be key systems for 5G and Internet of Things (IoT). Many of these new developments revolve around antenna technology, microwave circuits, devices and their integration as well as associated electromagnetic phenomena. Our main objectives are to investigate and develop analytical and experimental techniques for developing innovative antenna systems, new materials for antennas and associated microwave circuits and antenna miniaturization, phased arrays and smart antennas. The proposed research on the fundamentals of electromagnetics is unique as it aims to develop new analytical descriptions of e.m. phenomena and creates new essential and needed knowledge. It will enable scientists in dealing with important applications lying on the cutting edge of modern technological trends. This research is being conducted in the expectation that new applications in the 21st century will be challenged by increased density and complexity of urban areas which will result in rapid intensification of the use of electromagnetic devices. This gives importance and justification to our objectives which also include mutual coupling effects and their modelling for MIMO antenna design,wave-object interaction and applications to electromagnetic compatibility and interference, near field communications and other emerging areas such as wireless power transfer, medical applications and defence.

无线通信正在建立一个移动信息社会，这导致了无线系统的发展和开发现在已成为现代生活各个方面的一个基本和关键问题。 预计通信技术的性能将比我们现有技术提高1000倍，以满足未来十年的需求。 除传统服务外，预计未来的系统将是5G和物联网（IoT）的关键系统。 这些新事态发展中的许多围绕天线技术，微波电路，设备及其整合以及相关的电磁现象。 我们的主要目标是调查和开发用于开发创新天线系统，天线和相关微波电路的新材料以及天线微型化，分阶段阵列和智能天线的分析和实验技术。关于电磁学基础知识的拟议研究是独一无二的，因为它旨在开发E.M.的新分析描述。现象并创造了新的基本和需要的知识。它将使科学家能够处理现代技术趋势最前沿的重要应用。这项研究是在期望21世纪的新应用会受到城市地区的密度和复杂性的挑战，这将导致电磁设备的使用迅速加强。这给我们的目标带来了重要的和理由，还包括相互耦合效应及其对MIMO天线设计，波动对象的相互作用以及对电磁兼容性和干扰的应用，近场通信以及其他新兴领域的应用，例如无线功率转移，医疗应用，医疗应用和医疗应用，和防御。