1. 1 history and application of radar
Basic functions of 1.2 radar
1.3 pulse system radar parts
1.3. 1 transmitter and waveform generator
1.3.2 antenna
1.3.3 receiver
1.4 Some concepts and operations of signal processing
1.4. 1 resolution
1.4.2 spatial frequency
1.4.3 Fourier transform
1.4.4 sampling theory and spectrum periodicity
Vector representation of 1-4.5 signal
1.4.6 data accumulation
1.4.7 correlation
1.5 preview of basic radar signal processing
1.5. 1 radar time scale
1.5.2 Phenomenology
1.5.3 signal conditioning and interference suppression
1.5.4 imaging
1.5.5 detection
1.5.6 Post-processing
1.6 radar literature
1.6. 1 radar system and its composition
1.6.2 radar signal processing
1.6.3 advanced radar signal processing
1.6.4 current radar research
refer to
Chapter 2 Signal Model
2. 1 radar signal composition
2.2 amplitude model
2.2. 1 simple point target radar range equation
2.2.2 Distance equation in the form of distributed target
2.2.3 Radar cross-sectional area
2.2.4. Radar Cross-sectional Area of Meteorological Target
2.2.5 Statistical description of radar cross-sectional area
2. 2. 6 Svarling model
2.3 clutter
2.3. 1σ0 characteristics
Signal clutter ratio
2.3.3 Temporal and spatial correlation of clutter
2.3.4 radar cross-sectional area hybrid model
2.4 Noise model and signal-to-noise ratio
2.5 interference
2.6 frequency model: Doppler frequency shift
2.6. 1 Doppler frequency shift
2.6.2 Simplified analysis method of Doppler frequency shift
2.6.3 "Stop Jump" Hypothesis and Spatial Doppler
2.7 spatial model
2.7. 1 varies with angle and lateral distance.
With the change of distance
2.7.3 Forecast
multipath
2.8 spectral model
2.9 Summary
refer to
Chapter III Sampling and Quantization of Pulse Radar Signal
3. 1 Radar signal sampling domain and standard
3. 1. 1 Time and frequency sampling
3. 1.2 spatial sampling
3. 1.3 sampling standard
3.2 Fast Time Dimension Sampling
3.3 Slow Time Dimension Sampling: Selection of Pulse Repetition Interval
3.4 Doppler spectrum sampling
3.4. Nyquist rate in1Doppler
Straddle loss
3.5 Sampling of spatial and angular dimensions
3.5. 1 Stationary phase unit spacing
Antenna beam spacing
3.6 Quantization
3.7I/Q channel imbalance and digital I/Q
3.7. 1I/Q channel imbalance and its compensation
3.7.2I/Q channel error correction
Digital input/output
refer to
Chapter 4 Radar Waveform
4. 1 Introduction
4.2 Waveform Matching Filter
4.2. 1 matched filter
4.2.2 Single-frequency pulse matching filtering
Full range matched filter
4.2.4 Range resolution of matched filter
4.3 Matching filtering of moving targets
4.4 Fuzzy function
Definition and properties of fuzzy function
4.4.2 Fuzzy function of simple pulse
4.5 Pulse sequence waveform
4.5. 1 pulse train waveform matching filter
4.5.2 Pulse processing one by one
range ambiguity
4.5.4 Doppler response of pulse sequence waveform
4.5.5 Fuzzy function of pulse sequence waveform
4.5.6 Relationship between slow time spectrum and fuzzy function
4.6 FM pulse compression waveform
4.6. 1 LFM waveform
4.6.2 Stage principle
4.6.3LFM waveform LFM ambiguity function
Range-Doppler coupling
Stretching treatment
4.7 Range sidelobe control of FM waveform
Matching filter frequency response shaping
4.7.2 waveform spectrum shaping
4.8 Step frequency waveform
4.9 Phase Modulated Pulse Compression Waveform
4.9. 1 binary encoding
4.9.2 Polyphase coding
4. 10 costas frequency coding
refer to
Chapter V Doppler Processing
5. 1 other forms of Doppler spectrum
5.2 moving target indication
5.2. 1 pulse canceller
Vector representation of matched filter
5.2.3 Matched filter for clutter suppression
5.2.4 Blind speed and staggered PRF
Quality chart
5.2.6MTI performance limit
5.3 Pulse Doppler Processing
5.3. 1 Discrete Time Fourier Transform of Moving Target
5.3.2DTFT sampling: discrete Fourier transform
5.3.3 Interpretation of matched filters and filter banks for pulse Doppler processing based on DFT
5.3.4 Fine Doppler Estimation
5.3.5 Modern Spectral Estimation of Pulse Doppler Processing
5.3.6 Interleaving problem
5.4. Pulse pair processing
5.5 Other Doppler Processing Problems
5.5. 1MTI and pulse Doppler cascade processing
transient effect
5. 5. 3 RF system and fuzzy solution
.5.6 Clutter Map and Moving Target Detector
5.6. 1 clutter map
Moving object detector
5.7 MTI of moving platform: adaptive offset phase center antenna processing
5.7. 1DPCA concept
Adaptive DPCA
refer to
Chapter 6 Basic Principles of Testing
Chapter VII Detection of Constant False Alarm Rate
refer to
Chapter 8 Synthetic Aperture Imaging Technology
Chapter 9: Introduction of beamforming and space-time adaptive processing.
refer to
Appendix a abbreviation list