Maximum Length Sequences for Radar and Synchronization.

Saved in:
Bibliographic Details
Author / Creator:Brückner, Sebastian.
Imprint:Göttingen : Cuvillier Verlag, 2016.
Description:1 online resource (159 pages)
Subject:Ground penetrating radar.
Ground penetrating radar.
Electronic books.
Format: E-Resource Book
URL for this record:
Hidden Bibliographic Details
Notes:Print version record.
Other form:Print version: Brückner, Sebastian. Maximum Length Sequences for Radar and Synchronization. Göttingen : Cuvillier Verlag, ©2016 9783736991927
Table of Contents:
  • Kurzfassung; Abstract; Contents; Acronyms; Introduction; Organization of this Thesis; Contributions; Radar Fundamentals; Pulsed Radar; Frequency Modulated Radar; Noise Modulated Radar; Correlation; Maximum Length Sequences; Effects of Nonlinearities; M-Sequence Radar; M-Sequence Generation; Discrete Linear Feedback Shift Register (7-Bit CML); Discrete Sparse LFSR (11-Bit CML); Shift Register as Integrated Circuit (9-Bit ECL); Programmable Logic; Conclusions; Distance Measurement; Design; Implementation; Transmitter; Receiver; Prototype Hardware; Measurement Setup; Prototype Characterization.
  • IQ BalanceDistance Measurement; Conclusions; Synchronization System; Synchronization Concept; Implementation; Carrier Recovery; Demodulation; Characterization and Measurements; Characterization in the Lab; Real-world Measurements; Conclusions and Future Work; Ground Penetrating Radar; Introduction to Ground Penetrating Radar; Implementation; Analog Front-end; Field Programmable Gate Array; Clock Generation; Prototype Hardware; Antennas; Characterization; Prototype Performance; Real-world Measurements; Reference Measurement; Conclusions; Conclusions and Future Work; Bibliography.