Module Number: EI7440
Duration: 1 Semester
Occurence: Winter Semester
Number of ECTS: 5
Professor in charge: Wolfgang Utschick
Contact hours: 60
Self-study hours: 90
Fundamentla knowledge: - Linear Algebra, - Elektrical Networks, - LTI SystemsThe following modules should have been passed successfully:- Circuit Theory- Adaptive and Array Signal Processing- Linear Signal Processing
The high level of abstraction makes information theory a versatile and powerful tool for the analysis and optimization of a wide variety of communication systems. On the other hand, information theory has no concept of the flow of energy that accompanies the flow of information. Consequently, some important aspects of communication, like transmit power or noise covariance are by no means straight forward. In this lecture, we introduce effective methods which overcome this inherent limitation of information theory. We deal with this problem from a classic circuit theory point of view. This allows correct assessment of the energy flow in communication systems and thereby enables an information theoretic analysis and optimization which is consistent with the underlying physics of the communication system under investigation. After developing appropriate circuit theoretic channel models, we analyze the performance potential of different kinds of multi-antenna radio communication systems. Besides the study of channel capacity, we also develop interesting insight into receive and transmit antenna gain, super-directivity and super-resolution. A knowledge of circuit- and information theory is helpful but not strictly required, as all necessary methods are introduced during the lecture.
After completion of the module students are able to apply multigate circuit theory and therewith develop a physically consistent model of communication systems. With these students develop an insight into the behavior of multi antenna systems and are able to optimise them. They are able to make connections to disciplines like information theory and signal processing.
Lecture and calculations in tutorials. Individual methods of problem solving during homework.
N. Balabanian, Fundamentals of Network Theory, Allyn & Bacon, Prentice-Hall, 1961