mirror of
https://github.com/NawfalMotii79/PLFM_RADAR.git
synced 2026-06-09 06:57:15 +00:00
Jason
b7ac2de1a4
latency_buffer.v has had zero non-tb instantiations since RX-B (2026-04-23)
replaced its hookup in radar_receiver_final with a 1-FF alignment register.
The module was being kept "for potential future use" — exactly the kind of
dead weight the codebase does not need. Deleted, along with all build /
test infrastructure that dragged it along:
- 9_Firmware/9_2_FPGA/latency_buffer.v
- 9_Firmware/9_2_FPGA/tb/tb_latency_buffer.v
- run_regression.sh: removed from RTL_FILES and RECEIVER_RTL
- scripts/200t/build_200t.tcl: removed from synthesis source list
- tb/tb_system_e2e.v: removed from header compile-string example
- tb/cosim/validate_mem_files.py: deleted test_latency_buffer() (~75 lines),
its call site, and the corresponding entry in the module docstring
Historical RX-B comments referencing latency_buffer in radar_receiver_final.v,
tb_rxb_fullchain_latency.v, and tb_rxb_latency_measure.v are kept — they
explain WHY the module was removed, which is still useful design archaeology.
Two doc-only housekeeping touches bundled in:
- plfm_chirp_controller.v: replaced two empty "CRITICAL FIX: Generate
valid signal" labels at LONG_CHIRP and SHORT_CHIRP with one shared
chirp_valid policy comment block above LONG_CHIRP that explains the
actual rationale (downstream FIFO underrun on trailing samples).
- v7/models.py: replaced the "range_resolution and velocity_resolution
should be calibrated" docstring (sounded like an open TODO but was a
documented placeholder) with a clear pointer to the GUI-C3 fix in
workers.py:RadarDataWorker so future readers know the live path
derives correct values from WaveformConfig.
FPGA quick regression unchanged: 28/29 (1 fail is the unrelated iverilog/
Xilinx-IP RX-NEW-3 gap). GUI suite 180/180. Ruff clean.
255 lines
9.3 KiB
Python
255 lines
9.3 KiB
Python
"""
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v7.models — Data classes, enums, and theme constants for the PLFM Radar GUI V7.
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This module defines the core data structures used throughout the application:
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- RadarTarget, RadarSettings, GPSData (dataclasses)
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- TileServer (enum for map tile providers)
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- Dark theme color constants
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- Optional dependency availability flags
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"""
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import logging
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from dataclasses import dataclass, asdict
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from enum import Enum
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# ---------------------------------------------------------------------------
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# Optional dependency flags (graceful degradation)
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# ---------------------------------------------------------------------------
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try:
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import usb.core
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import usb.util # noqa: F401 — availability check
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USB_AVAILABLE = True
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except ImportError:
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USB_AVAILABLE = False
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logging.warning("pyusb not available. USB functionality will be disabled.")
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try:
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from pyftdi.ftdi import Ftdi # noqa: F401 — availability check
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from pyftdi.usbtools import UsbTools # noqa: F401 — availability check
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from pyftdi.ftdi import FtdiError # noqa: F401 — availability check
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FTDI_AVAILABLE = True
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except ImportError:
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FTDI_AVAILABLE = False
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logging.warning("pyftdi not available. FTDI functionality will be disabled.")
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try:
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from scipy import signal as _scipy_signal # noqa: F401 — availability check
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SCIPY_AVAILABLE = True
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except ImportError:
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SCIPY_AVAILABLE = False
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logging.warning("scipy not available. Some DSP features will be disabled.")
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try:
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from sklearn.cluster import DBSCAN as _DBSCAN # noqa: F401 — availability check
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SKLEARN_AVAILABLE = True
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except ImportError:
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SKLEARN_AVAILABLE = False
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logging.warning("sklearn not available. Clustering will be disabled.")
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try:
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from filterpy.kalman import KalmanFilter as _KalmanFilter # noqa: F401 — availability check
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FILTERPY_AVAILABLE = True
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except ImportError:
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FILTERPY_AVAILABLE = False
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logging.warning("filterpy not available. Kalman tracking will be disabled.")
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# ---------------------------------------------------------------------------
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# Dark theme color constants (shared by all modules)
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# ---------------------------------------------------------------------------
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DARK_BG = "#2b2b2b"
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DARK_FG = "#e0e0e0"
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DARK_ACCENT = "#3c3f41"
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DARK_HIGHLIGHT = "#4e5254"
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DARK_BORDER = "#555555"
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DARK_TEXT = "#cccccc"
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DARK_BUTTON = "#3c3f41"
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DARK_BUTTON_HOVER = "#4e5254"
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DARK_TREEVIEW = "#3c3f41"
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DARK_TREEVIEW_ALT = "#404040"
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DARK_SUCCESS = "#4CAF50"
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DARK_WARNING = "#FFC107"
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DARK_ERROR = "#F44336"
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DARK_INFO = "#2196F3"
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# ---------------------------------------------------------------------------
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# Data classes
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# ---------------------------------------------------------------------------
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@dataclass
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class RadarTarget:
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"""Represents a detected radar target."""
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id: int
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range: float # Range in meters
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velocity: float # Velocity in m/s (positive = approaching)
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azimuth: float # Azimuth angle in degrees
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elevation: float # Elevation angle in degrees
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latitude: float = 0.0
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longitude: float = 0.0
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snr: float = 0.0 # Signal-to-noise ratio in dB
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timestamp: float = 0.0
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track_id: int = -1
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classification: str = "unknown"
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def to_dict(self) -> dict:
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"""Convert to dictionary for JSON serialization."""
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return asdict(self)
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@dataclass
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class RadarSettings:
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"""Radar system display/map configuration.
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FPGA register parameters (chirp timing, CFAR, MTI, gain, etc.) are
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controlled directly via 4-byte opcode commands — see the FPGA Control
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tab and Opcode enum in radar_protocol.py. This dataclass holds only
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host-side display/map settings and physical-unit conversion factors.
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range_resolution and velocity_resolution below are placeholders. Live
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operation derives the actual values from WaveformConfig in
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workers.py:RadarDataWorker (see GUI-C3 fix); these literals are only
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consulted by code paths that have not yet been migrated, and should
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not be relied on for physics-accurate display.
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"""
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system_frequency: float = 10.5e9 # Hz (carrier, used for velocity calc)
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range_resolution: float = 6.0 # Meters per range bin (c/(2*Fs)*decim = 1.5*4)
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velocity_resolution: float = 1.0 # m/s per Doppler bin (calibrate to waveform)
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max_distance: float = 3072 # Max detection range (m), 3 km mode
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map_size: float = 4000 # Map display size (m)
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coverage_radius: float = 3072 # Map coverage radius (m), 3 km mode
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@dataclass
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class GPSData:
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"""GPS position and orientation data."""
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latitude: float
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longitude: float
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altitude: float
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pitch: float # Pitch angle in degrees
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heading: float = 0.0 # Heading in degrees (0 = North)
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timestamp: float = 0.0
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def to_dict(self) -> dict:
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return asdict(self)
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# ---------------------------------------------------------------------------
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# Tile server enum
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# ---------------------------------------------------------------------------
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@dataclass
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class ProcessingConfig:
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"""Host-side signal processing pipeline configuration.
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These control host-side DSP that runs AFTER the FPGA processing
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pipeline. FPGA-side MTI, CFAR, and DC notch are controlled via
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register opcodes from the FPGA Control tab.
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Controls: DBSCAN clustering, Kalman tracking, and optional
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host-side reprocessing (MTI, CFAR, windowing, DC notch).
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"""
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# MTI (Moving Target Indication)
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mti_enabled: bool = False
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mti_order: int = 2 # 1, 2, or 3
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# CFAR (Constant False Alarm Rate)
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cfar_enabled: bool = False
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cfar_type: str = "CA-CFAR" # CA-CFAR, OS-CFAR, GO-CFAR, SO-CFAR
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cfar_guard_cells: int = 2
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cfar_training_cells: int = 8
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cfar_threshold_factor: float = 5.0 # PFA-related scalar
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# DC Notch / DC Removal
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dc_notch_enabled: bool = False
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# Windowing (applied before FFT)
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window_type: str = "Hann" # None, Hann, Hamming, Blackman, Kaiser, Chebyshev
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# Detection threshold (dB above noise floor)
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detection_threshold_db: float = 12.0
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# DBSCAN Clustering
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clustering_enabled: bool = True
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clustering_eps: float = 100.0
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clustering_min_samples: int = 2
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# Kalman Tracking
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tracking_enabled: bool = True
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# ---------------------------------------------------------------------------
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# Tile server enum
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# ---------------------------------------------------------------------------
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class TileServer(Enum):
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"""Available map tile servers."""
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OPENSTREETMAP = "osm"
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GOOGLE_MAPS = "google"
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GOOGLE_SATELLITE = "google_sat"
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GOOGLE_HYBRID = "google_hybrid"
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ESRI_SATELLITE = "esri_sat"
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# ---------------------------------------------------------------------------
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# Waveform configuration (physical parameters for bin→unit conversion)
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# ---------------------------------------------------------------------------
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@dataclass
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class WaveformConfig:
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"""Physical waveform parameters for converting bins to SI units.
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Encapsulates the radar waveform so that range/velocity resolution
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can be derived automatically instead of hardcoded in RadarSettings.
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Defaults match the AERIS-10 production system parameters from
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radar_scene.py / plfm_chirp_controller.v:
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100 MSPS DDC output, 20 MHz chirp BW, 30 us long chirp,
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167 us long-chirp PRI, X-band 10.5 GHz carrier.
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"""
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sample_rate_hz: float = 100e6 # DDC output I/Q rate (matched filter input)
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bandwidth_hz: float = 20e6 # Chirp bandwidth (not used in range calc;
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# retained for time-bandwidth product / display)
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chirp_duration_s: float = 30e-6 # Long chirp ramp time
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pri_s: float = 167e-6 # Pulse repetition interval (chirp + listen)
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center_freq_hz: float = 10.5e9 # Carrier frequency (radar_scene.py: F_CARRIER)
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n_range_bins: int = 512 # After decimation (3 km mode; 4096 in 20 km)
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n_doppler_bins: int = 32 # Total Doppler bins (2 sub-frames x 16)
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chirps_per_subframe: int = 16 # Chirps in one Doppler sub-frame
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fft_size: int = 2048 # Pre-decimation FFT length
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decimation_factor: int = 4 # 2048 → 512
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@property
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def range_resolution_m(self) -> float:
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"""Meters per decimated range bin (matched-filter pulse compression).
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For FFT-based matched filtering, each IFFT output bin spans
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c / (2 * Fs) in range, where Fs is the I/Q sample rate at the
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matched-filter input (DDC output). After decimation the bin
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spacing grows by *decimation_factor*.
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"""
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c = 299_792_458.0
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raw_bin = c / (2.0 * self.sample_rate_hz)
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return raw_bin * self.decimation_factor
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@property
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def velocity_resolution_mps(self) -> float:
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"""m/s per Doppler bin.
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lambda / (2 * chirps_per_subframe * PRI), matching radar_scene.py.
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"""
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c = 299_792_458.0
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wavelength = c / self.center_freq_hz
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return wavelength / (2.0 * self.chirps_per_subframe * self.pri_s)
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@property
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def max_range_m(self) -> float:
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"""Maximum unambiguous range in meters."""
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return self.range_resolution_m * self.n_range_bins
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@property
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def max_velocity_mps(self) -> float:
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"""Maximum unambiguous velocity (±) in m/s."""
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return self.velocity_resolution_mps * self.n_doppler_bins / 2.0
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