1. Program Objective

This program is dedicated to nurturing high-quality, innovative professionalscapable ofengagingin scientific researchindependentlywith strong personal character, professional ethics, and academic competence aligned with socialist values. Through joint domestic and international training, the program aims to: (1) Prepare professionals to serve the needs of socialist modernization, adapting to social, economic, and technological changes. (2) Instill a scientific spirit grounded in integrity, rigor, and curiosity, with a comprehensive foundation in Communication and Information Systems,along withsystematic and in-depth professional knowledge and necessary experimental skills,and a thorough understanding of current trends and advancements in Information and Communication Engineering. (3) Equip students with solid theoretical and practical knowledge in communication and information systems, advanced engineering application skills, and the ability to develop, design, and implement communication systems and devices. (4) Foster independent research capabilities and technical proficiency in solving practical engineering challenges within the field. (5) Develop proficient English skills, both written and oral, and a global perspective to enable students to read professional literature and engage in international academic exchanges. (6) Impart knowledge of international information and communication industry standards, with strong teamwork and cross-cultural communication abilities, allowing graduates to conduct theoretical research or high-level practical work in global organizations within Information and Communication Engineering, using theirbasic theoretical and practical knowledgein acomprehensiveway.

2. Key Research Areas:

(1) Communication and Information Systems

Focused on digital communication, this area includes research in wireless communication, IoT, computational electromagnetics, and specialized applications in mining communication, mine IoT, electromagnetic explorationandMIMO communication. It also covers the design and development of mine safety monitoring, emergency communication systems, personnel localization, remote equipment monitoring, and 3D electromagnetic imaging systems.

(2) Signal and Information Processing

Based on modern signal processing, this area involves signal acquisition and processing, computer measurement and control systems, and intelligent processing technologies to enhance communication and information systems. Research includes the design, development, and application of sensors and testing systems, electronic devicesand information systems, and mine safety production monitoring and control systems.

(3) Optoelectronic Information Processing and Devices

Focused on signal detection, this area involves research in novel optoelectronic sensors, optical system integration, and optical information processing. Key topics include the design and fabrication of new sensors, optimization of novel optoelectronic sensing materials, and the design and application of optoelectronic sensing systems.

3. Core Courses: Comprehensive English, Academic English, Communication and Security Protocols, Applied Cloud Computing, Introduction to Machine Learning and Data Engineering, IoT and Edge Computing, Edge Deep Learning, Real-Time Systems, Web-Based Application Design, and Converged Networks.