Description
Electronic Information Engineering(Signal Processing)is an engineering discipline which covers mathematics, physics, electronics, communication technology, signal transmission and processing technology, image transmission and processing technology and meteorological signal detecting technology. Undergraduates explore subjects from basic theories of information transmission and processing in information systems to communication theory, signal processing and image processing technology.
Students Outcomes
An ability to apply knowledge of mathematics, science and engineering.
An ability to identify, formulate and solve signal processing problems.
An ability to use the techniques, skills and modern engineering tools for engineering practice.
Courses
College English
Physical Education
Calculus, Linear Algebra, Engineering Mathematics, Probability Theory and Mathematical Statistics
College Physics, Basis of Atmospheric Physics
Fundamentals of College Computers, C Language Programming, Data Structure and Algorithmic Design, Microprocessors and Microcomputer System, Advanced Programming Language, Embedded System Design, Data Acquisition Technology
Electromagnetic Field and Wave, Principles of Modern Communication System
Fundamentals of Circuit Analysis, Analog Electronic Technology, Digital Circuit and Digital Logic Design, High-Frequency Electronic Circuit, Electronic System Comprehensive Design
Signals and Systems, Digital Signal Processing, Digital Image Processing, Random Signal Analysis, Digital Video Signal Processing Technology, Speech Signal Processing, Signal Processing Simulation and Application, DSP Device and Application, FPGA Design, Signal Processing Experiment and Design
Engineering Practice
Research fields
Signal acquiring, transmitting and processing, signal and system simulating, signal detecting and processing, digital image acquiring, transmitting and processing, signal processing in communication system, meteorological radar data acquiring and processing, etc.
Faculty
F. Z. Wang (Ph.D., CUMT), Communication and Information System.
Z. W. Chen (M.S., Hubei University), Systems Analysis and Integration.
H. J. Wang (Ph.D., UESTC), Signal and Information Processing.
G. Q. Li (M.S., UESTC), Communication Engineering.
Y. J. Li (M.S., Sichuan University), Communication and Information System.
Q. Xu ((Ph.D., UESTC), Circuits and Systems.
W. Z. Bi (M.S., UESTC), Optical Engineering.
T. Liu (Ph.D., UESTC), Signal and Information Processing.
H. Y. Chen (M.S., UESTC), Signal and Information Processing.
X. Q. Zhen (M.S., CUIT), Signal and Information Processing.
L. J. Wang (M.S., CUIT), Signal and Information Processing.
T. Y. Tang (Ph.D., UESTC), Signal and Information Processing.
Q. Y. Zeng (Ph.D., Sichuan University), Communication and Information System.
Z. P. Yang (M.S., CUIT), Signal and Information Processing.
L. C. Zhou (Ph.D., UESTC), Signal and Information Processing.
R. Li (M.S., CUIT), Signal and Information Processing.
Facilities
Signal Processing Lab provides experiment and design environment for the professional courses, in which, function signal generators, oscilloscopes, spectrum analyzers, various development boards and various development software are provided for teachers and students.