Add multi-speaker tracking with beam steering (#5)
multi_speaker.py: Tracks up to 2 speakers simultaneously. When 2 distinct DoA angles are detected (30°+ apart) for >1s, locks the XVF3800's fixed beams onto each speaker. Releases back to auto mode when only 1 speaker remains (3s timeout). Manages beam gating so only the speaking beam is active. xvf3800.py: Added beam steering commands — enable_fixed_beams(), set_beam_azimuths(), enable_beam_gating(), read_all_beams(). Manager gets steer_beams() and release_beams() convenience methods. headmic.py: Wire multi-speaker tracker into DoA loop. New endpoint: GET /speakers/tracked — current speaker positions, beam mode, lock state. Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
This commit is contained in:
Alex
28
headmic.py
28
headmic.py
@@ -161,6 +161,7 @@ class ServiceState:
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self.doa: dict = {} # latest DoA from both arrays
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self.spatial: Optional[dict] = None # triangulated position + gaze
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self.last_anomaly: Optional[dict] = None # last spatial anomaly detected
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self.multi_speaker: Optional[dict] = None # multi-speaker tracking state
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state = ServiceState()
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@@ -177,6 +178,9 @@ binaural_recorder = None
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# Spatial scene
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spatial_scene = None
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# Multi-speaker tracker
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multi_speaker = None
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enrollment_name = None
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# Audio stream
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@@ -439,6 +443,10 @@ def doa_track_loop():
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try:
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state.doa = xvf_manager.read_both_doa()
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# Multi-speaker tracking (beam steering)
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if multi_speaker:
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state.multi_speaker = multi_speaker.update(state.doa)
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if spatial_tracker and dual_stream:
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left_energy = dual_stream.left.get_energy() if dual_stream.left else 0.0
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right_energy = dual_stream.right.get_energy() if dual_stream.right else 0.0
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@@ -496,7 +504,7 @@ app = FastAPI(title="HeadMic", description="Vixy's Ears 🦊👂 (Dual XVF3800)"
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@app.on_event("startup")
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async def startup():
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global sound_classifier, sound_ring_buffer, speaker_recognizer, dual_stream, LEDS_AVAILABLE, spatial_tracker, binaural_recorder, spatial_scene
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global sound_classifier, sound_ring_buffer, speaker_recognizer, dual_stream, LEDS_AVAILABLE, spatial_tracker, binaural_recorder, spatial_scene, multi_speaker
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state.running = True
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@@ -577,6 +585,12 @@ async def startup():
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spatial_scene = SpatialScene()
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spatial_scene.start()
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# --- Multi-speaker tracking ---
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if xvf_manager.left or xvf_manager.right:
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from multi_speaker import MultiSpeakerTracker
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multi_speaker = MultiSpeakerTracker(xvf_manager)
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logger.info("Multi-speaker tracking enabled (2 beams per array)")
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# --- Binaural recording ---
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if os.environ.get("BINAURAL_RECORD", "").lower() in ("1", "true", "yes"):
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from binaural_recorder import BinauralRecorder
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@@ -596,6 +610,8 @@ async def startup():
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async def shutdown():
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state.running = False
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leds_off()
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if multi_speaker and xvf_manager:
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xvf_manager.release_beams()
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if spatial_scene:
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spatial_scene.stop()
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if binaural_recorder:
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@@ -666,6 +682,16 @@ async def doa():
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}
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# --- Multi-speaker ---
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@app.get("/speakers/tracked")
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async def tracked_speakers():
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"""Currently tracked speaker positions and beam state."""
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if not state.multi_speaker:
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return {"speakers": [], "beam_mode": "auto", "active_count": 0, "total_tracked": 0}
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return state.multi_speaker
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# --- Spatial scene ---
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@app.get("/scene")
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197
multi_speaker.py
Normal file
197
multi_speaker.py
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@@ -0,0 +1,197 @@
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"""
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Multi-speaker tracking — track up to 2 speakers simultaneously.
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Uses the XVF3800's fixed beam mode to lock beams onto detected speakers.
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Each array has 2 steerable beams, so with 2 arrays we can independently
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track 2 speakers from different directions.
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Flow:
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1. Auto mode: free-running beams track the loudest source (default)
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2. When 2 distinct DoA angles are detected: switch to fixed beam mode
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3. Beam 1 → speaker A direction, Beam 2 → speaker B direction
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4. Track which speaker is active, feed to spatial tracker + speaker ID
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5. When only 1 speaker remains, release back to auto mode
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"""
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import logging
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import math
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import time
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import threading
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from typing import Optional
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logger = logging.getLogger("headmic.multispeaker")
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# How different two DoA angles must be to count as separate speakers (degrees)
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MIN_SPEAKER_SEPARATION = 30.0
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# How long a speaker position must be stable before locking a beam (seconds)
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LOCK_DELAY = 1.0
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# How long after a speaker goes silent before releasing the beam (seconds)
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RELEASE_DELAY = 3.0
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# Maximum number of tracked speakers
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MAX_SPEAKERS = 2
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class TrackedSpeaker:
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"""A speaker position being tracked."""
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def __init__(self, angle: float, side: str):
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self.angle = angle # degrees, smoothed
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self.side = side # "left" or "right" (which ear detected)
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self.first_seen = time.monotonic()
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self.last_seen = time.monotonic()
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self.active = True # currently producing speech
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self.beam_locked = False # beam steered to this position
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self.speaker_name: Optional[str] = None # from speaker ID
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def update_angle(self, angle: float, alpha: float = 0.3):
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"""Smooth angle update."""
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# Handle circular wraparound
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diff = angle - self.angle
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if diff > 180:
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diff -= 360
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elif diff < -180:
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diff += 360
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self.angle = (self.angle + alpha * diff) % 360
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self.last_seen = time.monotonic()
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self.active = True
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@property
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def age(self) -> float:
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return time.monotonic() - self.first_seen
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@property
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def silence_duration(self) -> float:
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return time.monotonic() - self.last_seen
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@property
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def stable(self) -> bool:
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"""Has this speaker been present long enough to lock a beam?"""
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return self.age >= LOCK_DELAY
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@property
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def expired(self) -> bool:
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"""Has this speaker been silent long enough to release?"""
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return self.silence_duration >= RELEASE_DELAY
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class MultiSpeakerTracker:
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"""Track multiple speakers and manage beam steering."""
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def __init__(self, xvf_manager):
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self.xvf = xvf_manager
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self.speakers: list[TrackedSpeaker] = []
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self.fixed_mode = False
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self._lock = threading.Lock()
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def update(self, doa: dict) -> dict:
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"""
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Process DoA from both arrays and update speaker tracking.
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Args:
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doa: {"left": {"angle": N, "vad": bool}, "right": {"angle": N, "vad": bool}}
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Returns:
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{"speakers": [...], "beam_mode": "auto"|"fixed", "active_count": N}
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"""
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with self._lock:
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# Collect active DoA readings
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active_readings = []
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for side in ("left", "right"):
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d = doa.get(side)
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if d and d.get("vad"):
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active_readings.append({"angle": d["angle"], "side": side})
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# Mark all speakers as potentially inactive this frame
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for s in self.speakers:
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s.active = False
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# Match readings to existing speakers or create new ones
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for reading in active_readings:
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matched = self._match_speaker(reading["angle"])
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if matched:
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matched.update_angle(reading["angle"])
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elif len(self.speakers) < MAX_SPEAKERS:
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new_speaker = TrackedSpeaker(reading["angle"], reading["side"])
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self.speakers.append(new_speaker)
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logger.info("New speaker detected at %.0f° (%s side)",
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reading["angle"], reading["side"])
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# Remove expired speakers
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expired = [s for s in self.speakers if s.expired]
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for s in expired:
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logger.info("Speaker at %.0f° expired (silent %.1fs)",
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s.angle, s.silence_duration)
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self.speakers = [s for s in self.speakers if not s.expired]
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# Manage beam steering
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self._manage_beams()
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return self._get_state()
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def _match_speaker(self, angle: float) -> Optional[TrackedSpeaker]:
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"""Find an existing speaker close to this angle."""
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best = None
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best_dist = MIN_SPEAKER_SEPARATION
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for s in self.speakers:
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dist = abs(angle - s.angle) % 360
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dist = min(dist, 360 - dist)
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if dist < best_dist:
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best = s
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best_dist = dist
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return best
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def _manage_beams(self):
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"""Switch between auto and fixed beam mode based on speaker count."""
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stable_speakers = [s for s in self.speakers if s.stable]
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if len(stable_speakers) >= 2 and not self.fixed_mode:
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# Two speakers detected — lock beams
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s1, s2 = stable_speakers[0], stable_speakers[1]
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logger.info("Locking beams: speaker 1 at %.0f°, speaker 2 at %.0f°",
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s1.angle, s2.angle)
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self.xvf.steer_beams(s1.angle, s2.angle)
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s1.beam_locked = True
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s2.beam_locked = True
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self.fixed_mode = True
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elif len(stable_speakers) >= 2 and self.fixed_mode:
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# Update beam directions if speakers moved
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s1, s2 = stable_speakers[0], stable_speakers[1]
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self.xvf.steer_beams(s1.angle, s2.angle)
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elif len(stable_speakers) < 2 and self.fixed_mode:
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# Back to single speaker or silence — release beams
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logger.info("Releasing beams — back to auto mode")
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self.xvf.release_beams()
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self.fixed_mode = False
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for s in self.speakers:
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s.beam_locked = False
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def _get_state(self) -> dict:
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return {
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"speakers": [
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{
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"angle": round(s.angle, 1),
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"side": s.side,
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"active": s.active,
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"beam_locked": s.beam_locked,
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"age_seconds": round(s.age, 1),
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"silence_seconds": round(s.silence_duration, 1),
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"speaker_name": s.speaker_name,
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}
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for s in self.speakers
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],
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"beam_mode": "fixed" if self.fixed_mode else "auto",
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"active_count": sum(1 for s in self.speakers if s.active),
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"total_tracked": len(self.speakers),
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}
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def set_speaker_name(self, angle: float, name: str):
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"""Associate a speaker ID name with the nearest tracked speaker."""
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with self._lock:
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speaker = self._match_speaker(angle)
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if speaker:
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speaker.speaker_name = name
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56
xvf3800.py
56
xvf3800.py
@@ -40,8 +40,15 @@ LED_EFFECT_CMD = 12 # 0=off, 1=breath, 2=rainbow, 3=solid, 4=doa, 5=ring
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AEC_RESID = 33
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AEC_AZIMUTH_CMD = 75 # 4 floats: beam1, beam2, free-running, auto-select (radians)
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AEC_SPENERGY_CMD = 80 # 4 floats: speech energy per beam (>0 = speech)
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# Beam steering (resid=33)
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AEC_FIXED_BEAMS_ON_CMD = 37 # rw uint8: 0=off, 1=on — enable fixed beam mode
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AEC_FIXED_BEAMS_AZ_CMD = 81 # rw 2 floats (radians): beam 1 azimuth, beam 2 azimuth
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AEC_FIXED_BEAMS_ELEV_CMD = 82 # rw 2 floats (radians): beam 1 elevation, beam 2 elevation
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AEC_FIXED_BEAMS_GATING_CMD = 83 # rw uint8: 0=off, 1=on — silence beams without speech
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AUDIO_MGR_RESID = 35
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AUDIO_MGR_SELECTED_AZ_CMD = 11 # 2 floats: processed DoA, auto-select DoA (radians)
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AUDIO_MGR_SELECTED_CH_CMD = 12 # rw 2 uint8: which beam goes to L/R output channel
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LED_BRIGHTNESS_CMD = 14
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LED_COLOR_CMD = 16 # single uint32 color (confirmed: xvf_host LED_COLOR cmdid=16)
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LED_DOA_COLOR_CMD = 17 # two uint32 values: base + indicator
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@@ -129,6 +136,41 @@ class XVF3800:
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return int(angle_deg) % 360, vad
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def read_all_beams(self) -> dict:
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"""Read all 4 beam azimuths: beam1, beam2, free-running, auto-select."""
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import math
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data = self._read_float(AEC_RESID, AEC_AZIMUTH_CMD, 4)
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if len(data) < 17: # 1 status + 4*4 bytes
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return {}
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beams = struct.unpack_from("<ffff", data, 1)
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return {
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"beam1_deg": round(math.degrees(beams[0]) % 360, 1),
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"beam2_deg": round(math.degrees(beams[1]) % 360, 1),
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"free_running_deg": round(math.degrees(beams[2]) % 360, 1),
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"auto_select_deg": round(math.degrees(beams[3]) % 360, 1),
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}
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# --- Beam steering ---
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def enable_fixed_beams(self, on: bool = True):
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"""Enable/disable fixed beam mode. When on, beams lock to set azimuths."""
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self._write(AEC_RESID, AEC_FIXED_BEAMS_ON_CMD, bytes([1 if on else 0]))
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def set_beam_azimuths(self, beam1_deg: float, beam2_deg: float):
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"""Set fixed beam directions in degrees (0=front, 90=right, 180=back, 270=left)."""
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import math
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b1_rad = math.radians(beam1_deg)
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b2_rad = math.radians(beam2_deg)
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self._write(AEC_RESID, AEC_FIXED_BEAMS_AZ_CMD, struct.pack("<ff", b1_rad, b2_rad))
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def enable_beam_gating(self, on: bool = True):
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"""Enable/disable beam gating. When on, only the beam with speech is active."""
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self._write(AEC_RESID, AEC_FIXED_BEAMS_GATING_CMD, bytes([1 if on else 0]))
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def disable_fixed_beams(self):
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"""Return to auto beam mode."""
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self.enable_fixed_beams(False)
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# --- LEDs ---
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def led_off(self):
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@@ -280,6 +322,20 @@ class XVF3800Manager:
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if dev:
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dev.led_doa()
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def steer_beams(self, beam1_deg: float, beam2_deg: float):
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"""Steer both arrays' fixed beams to the same directions."""
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for dev in [self.left, self.right]:
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if dev:
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dev.enable_fixed_beams(True)
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dev.set_beam_azimuths(beam1_deg, beam2_deg)
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dev.enable_beam_gating(True)
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def release_beams(self):
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"""Return both arrays to auto beam mode."""
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for dev in [self.left, self.right]:
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if dev:
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dev.disable_fixed_beams()
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def read_both_doa(self) -> dict:
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"""Read DoA from both arrays."""
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result = {}
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