电子工程专业课题：物联网与无人机阵列网络通信系统设计

　　Course Arrangement

　　课程安排

　　招生状态：招生中

　　课程时间：2024-01-27 ~ 2024-07-07

　　课程形式：Neoschool平台直播

　　课时安排：5周科研策略与论文写作课程+10周专业知识拓展课程&2周考核+6周线上科研研讨组会，课程时长共91课时，为期23周

　　Course Description

　　课程描述

　　课程背景

　　1897年古列莫.马可尼率先证明, 通过无线电波, 有可能与在英吉利海峡航行的船只建立连续的通信流，从而使我们能够进行移动通信的无线技术发生了显著的变化。如今在射频电路制造和数字交换技术的推动下, 经济实惠的高速电信已在全球范围内部署。为了能让所有用户使用到具有足够数据速率和无缝连接的网络，我们应该考虑构建更优化的无线通信系统。无线电通信在科学研究、军事通信、航空航天等诸多领域的应用可以通过各种传感器和设备来获取信息，并通过无线电通信系统与地面站或其他设备进行通信。

　　课程目标

　　课程将重点介绍一种自上而下的无线通信系统设计方法，从分析和实践的角度建立对核心物理和网络层功能的基本理解。学生们将学习无线系统数字通信和信号处理的知识;实用的检测和估计算法应用于发射机-接收机线路设计中;研究基于 OFDM、扩频和多天线的现代无线电设计以及无线协议和网络技术。同时学生们将研究现有和新出现的无线系统, 包括 2G 到 6G网络、WiFi和物联网。

　　Course background

　　In 1897. Guglielmo Marconi first demonstrated that it was possible to establish continuous communication with ships navigating in the English Channel through wireless radio waves, leading to a significant transformation in the wireless technology that enables mobile communication. Today, driven by advancements in radio frequency circuit manufacturing and digital switching techniques, affordable high-speed telecommunications have been deployed globally. In order to provide all users with networks offering sufficient data rates and seamless connectivity, it is necessary to consider constructing more optimized wireless communication systems. Radio communication is applied in various fields such as scientific research, military communication, aerospace, and more, utilizing diverse sensors and devices to gather information and communicate through radio communication systems with ground stations or other equipment.

　　Course objective

　　The course will focus on a top-down approach to the design of wireless communication systems to build a fundamental understanding of core physics and network layer functions from an analytical and practical perspective. Students will learn about digital communication and signal processing in wireless systems; Practical detection and estimation algorithms are used in transmitter - receiver circuit design. Modern radio design based on OFDM, spread spectrum and multi-antenna as well as wireless protocols and network technologies are studied. Students will also study existing and emerging wireless systems, including 2G to 6G networks, WiFi and the Internet of Things.

　　Suitable For

　　适合人群

　　对电子工程、智能通讯、物联网感兴趣的学生。未来希望在电子电气行业、物联网、数据传输、新型无线系统技术研发等领域的学生。

　　Professor Introduction

　　导师介绍

　　Danijela Cabric

　　加州大学洛杉矶分校终身教授

　　加州大学洛杉矶分校电子工程系终身教授

　　加州大学洛杉矶分校电路和嵌入式系统项目主任

　　2018-2019 IEEE Com Soc 美国电气和电子工程师协会通讯领域杰出科学家

　　美国IEEE网络信号和信息处理期刊副主编

　　著名通讯硬件制造商 MaxLinear 公司首席科学顾问

　　研究方向 Research Interests

　　Wireless Communications System Design 无线通信系统设计

　　Machine Learning for Wireless Communications 无线通信中的机器学习

　　Embedded Platforms and Software Defined Radios 嵌入式平台和软件定义无线电