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A new Doppler-tolerant polyphase pulse compression codes based on hyperbolic frequency modulation
Jie Yang, Tapan K. Sarkar
Department of Electrical Engineering & Computer Science
Research output
:
Chapter in Book/Entry/Poem
›
Conference contribution
6
Scopus citations
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Dive into the research topics of 'A new Doppler-tolerant polyphase pulse compression codes based on hyperbolic frequency modulation'. Together they form a unique fingerprint.
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Keyphrases
Code-based
100%
Pulse Compression
100%
Polyphase
100%
Compression Coding
100%
Hyperbolic Frequency Modulation
100%
Polyphase Codes
75%
Doppler Effect
25%
Sidelobe
25%
Side Lobe Level
25%
P4 Code
25%
Signal Loss
25%
Frequency Modulated
25%
Maximum Sidelobe Level
25%
Phase Curves
25%
Chirp Signal
25%
Doppler Frequency
25%
Window Function
25%
Conventional Code
25%
Step Approximation
25%
Digital Signal Processing
25%
High Sidelobes
25%
P3 Code
25%
Frank Codes
25%
Engineering
Pulse Compression
100%
Sidelobes
100%
Frequency Modulation
100%
Doppler Effect
66%
Digital Signal Processing
33%
Peak Value
33%
Main Disadvantage
33%
Frequency Increase
33%
Chirp Signal
33%
Window Function
33%