rakadu1/Simulator - Simulator - Gitea: Git with a cup of tea

Author	SHA1	Message	Date
RUSHIL AMBARISH KADU	201e663327	feat: modernize simulation pipeline with centralized scripts and high-frequency UI telemetry	2 months ago
RUSHIL AMBARISH KADU	c5f2eeb42b	feat: scenario-centric migration for Town10HD_Opt - Updated braking, cutin, and obstacle scenarios with class-held constants - Added deterministic ego_spawn_point (Showcase P2) for all scenarios - Added 0.5m Z-lift to NPC spawns to prevent ground clipping in Town10 - Refactored showcase.py to use the new standardized ego_spawn_point property	2 months ago
RUSHIL AMBARISH KADU	15fbf8e31d	feat: Implement Deterministic Showcase Suite with Asynchronous Pipeline and Auto-MCAP This commit represents a major architectural upgrade to the CARLA ADAS simulation project, transitioning from stochastic Traffic Manager behavior to a fully deterministic, high-impact demo environment. 1. Deterministic Scenario Architecture New Showcase Scenario: Implemented scenarios/showcase.py for a manual "Left-Turn Across Path" (LTAP) maneuver. Physics Velocity Injection: Overrode engine/friction variance by directly setting set_target_velocity for NPC actors at 35 km/h. Multi-Stage Waypoint Guidance: Integrated EGO_MID and P1_MID transition points to ensure realistic, cinematic turning radii and reliable collision-avoidance timing. Manual Steering Controller: Developed a proportional steering-to-target helper for all actors. 2. Sensor & Data Pipeline Dual-Camera Support: Integrated a second Third-Person Perspective (TPP) camera. Radar Serialization Fix: Implemented trigonometric conversion of raw spherical coordinates (Depth, Azimuth, Altitude) into Cartesian XYZ + Velocity 16-byte PointClouds for Foxglove Studio. Synchronization: Aligned all sensor data (Dash Cam, TPP Cam, Radar, Lidar) at the orchestrator level. 3. Performance & Asynchronous I/O Asynchronous Recorder: Refactored src/recorder.py to use ThreadPoolExecutor, offloading cv2.imwrite operations to background threads to eliminate simulation stutter. Rapid Iteration: Added --no-record global flag to main.py for sub-second iteration during coordinate tuning. 4. Automation & Seamless UX Auto-MCAP conversion: Integrated data_to_mcap.py as a post-simulation callback in main.py . Auto-Video Stitching: Implement automatic .mp4 generation for both camera views using OpenCV's VideoWriter. Weather/Time CLI: Added --weather flag with presets (Clear, Rain, Sunset, Night). Console Sync: Integrated tqdm for professional progress tracking and refactored scenario logging to use pbar.write() to prevent terminal flickering/staircasing. 5. Dependency Updates Added tqdm as a core dependency for enhanced console visualization.	2 months ago
RUSHIL AMBARISH KADU	2d6d04e0b0	feat: initial commit CARLA ADAS modular scenario-driven simulation pipeline ## Summary First commit of the Fox CARLA simulation pipeline. Establishes a fully working, end-to-end ADAS data collection and visualization system built on CARLA 0.9.16. --- ## What is included ### Core Pipeline - Multi-sensor synchronous simulation (Camera, Radar, LiDAR) at configurable FPS - Frame-aligned sensor data captured using CARLA synchronous mode with fixed delta time - Structured dataset output: PNG images, NPY arrays, JSONL metadata per frame - MCAP conversion script producing Foxglove-compatible topics (/camera, /lidar, /radar, /ego_pose) - Ground truth vehicle tracking embedded in every frame record ### Modular Scenario Architecture - Abstract ScenarioBase plugin interface (setup / step / cleanup lifecycle) - Dynamic scenario loader via importlib main.py never imports scenarios by name - Three implemented ADAS test scenarios: - braking : Lead vehicle hard braking (emergency stop at configurable frame) - cutin : Adjacent lane NPC forced lane change into ego lane - obstacle : Static traffic cone placed on ego lane - All NPC placement via CARLA waypoints zero hardcoded world coordinates - Scenario metadata embedded into every JSONL frame record for MCAP traceability ### Orchestrator (src/main.py) - Fully scenario-agnostic scenarios selected via --scenario CLI flag - Supports --frames override for quick test runs without editing config - Supports --list-scenarios for dry-run discovery (no CARLA server required) - Deferred CARLA import so the process works without a live server for non-simulation commands ### Configuration (config.py) - Single source of truth for all simulation, sensor, and scenario constants - Scenario trigger frames and distances fully configurable without code changes ### Recorder (src/recorder.py) - Session folders named <scenario>_YYYYMMDD_HHMMSS for easy identification - extra_meta parameter merges scenario state into every frame record automatically ### Developer Tooling - run.bat: one-click launcher that activates the carla312 conda environment - intel/context.md: comprehensive AI-agent and developer reference document - .gitignore: excludes data/, .mcap, __pycache__, logs/, .pyc --- ## Architecture src/main.py (orchestrator) \|-- scenario_loader.py (importlib-based dynamic loader) \|-- sensors.py (SensorManager: camera + radar + lidar) \|-- recorder.py (per-frame data writer) scenarios/ \|-- base.py (ScenarioBase ABC) \|-- braking.py (BrakingScenario) \|-- cutin.py (CutInScenario) \|-- obstacle.py (ObstacleScenario) config.py (all constants) data_to_mcap.py (dataset -> MCAP converter) run.bat (conda env launcher) intel/context.md (codebase reference) --- ## Usage run.bat braking run.bat cutin --frames 120 run.bat obstacle python data_to_mcap.py --- ## Environment - CARLA 0.9.16 - Python conda env: carla312 (miniconda) - Key deps: carla, numpy, opencv-python, mcap --- ## Known Limitations (future work) - MCAP uses JSON encoding (functional; Protobuf migration planned) - Intersection scenario not yet implemented (requires junction-aware waypoint logic) - Single ego vehicle assumed throughout - Foxglove layout presets not yet defined	2 months ago