Signal Design for Good Correlation

Signal Design for Good Correlation presents mathematical principles and techniques for creating signal sequences with optimal correlation properties. The book focuses on applications in radar, sonar, communications, and synchronization systems. The text covers fundamental concepts like periodic and aperiodic correlation, Barker sequences, and complementary sequences. Mathematical proofs and derivations demonstrate key relationships between different signal types and their correlation behaviors. Engineering examples illustrate real-world implementations in spread spectrum communications, pulse compression radar, and code-division multiple access (CDMA) systems. Detailed diagrams and tables support the technical explanations. The work represents a bridge between pure mathematics and practical engineering, offering insights into sequence design that remain relevant for modern digital communications. Its systematic approach to correlation theory continues to influence signal processing and coding techniques.

This specialized signal processing textbook appears to have very few public reviews available online. No ratings or reviews exist on Goodreads or Amazon. The book serves as a reference text among electrical engineering and signal processing experts based on limited academic citations and forum discussions. Readers note: + Clear explanations of correlation properties and sequence design + Practical applications for radar and communications systems + Strong mathematical foundation without excessive theory Critiques: - High level of mathematical background required - Limited accessibility for non-specialists - Some sections need updating for modern applications A review in IEEE Communications Magazine (1986) states the book "fills an important gap in the literature" but notes it "assumes substantial mathematical preparation." Due to its technical nature and specialized audience, comprehensive reader reviews and ratings from general book platforms are not available.

Sequences and Their Applications by Solomon W. Golomb and Guang Gong The text covers sequence design fundamentals and their use in spread-spectrum communications, radar, and cryptography.

Digital Communications with Chaos by Wing-Kit Wong and Lap-Ming Tam This work connects sequence design principles with chaotic systems for modern digital communications applications.

Spread Spectrum Systems with Commercial Applications by Robert C. Dixon The book presents practical implementations of sequence design in commercial spread spectrum systems and wireless networks.

Introduction to Coding Theory by Ron M. Roth The text establishes mathematical foundations for sequence design through coding theory and finite fields.

Random Signal Processing by K. Sam Shanmugan and Arthur M. Breipohl The work examines correlation properties and signal processing techniques that build upon sequence design principles.

🔹 Solomon Golomb coined the term "polyomino" in 1953, which inspired the creation of the game Tetris and influenced mathematical puzzle design for decades. 🔹 The book's principles about signal correlation have been crucial in GPS technology, helping devices determine their position by measuring the time delays between different satellite signals. 🔹 Golomb sequences, discussed in the book, are used in radar and sonar systems to improve detection accuracy while minimizing interference. 🔹 The author was both a mathematician and a professional cryptographer who worked for Glenn L. Martin Company (now Lockheed Martin) on military communications systems. 🔹 The correlation techniques described in the book have become fundamental to CDMA (Code Division Multiple Access) technology, which allows multiple cellular phones to use the same frequency band simultaneously.