Tells your voice agent which speech is actually for it.
One decision per utterance: only addressee speech reaches your STT, LLM, and TTS. No wake word.
Drop-in for the voice-agent stack you already use:
What is SAA?
A voice agent's microphone hears every voice in the room: yours, a coworker's, the kids, a podcast playing on the laptop, the agent's own TTS bleeding back through the speakers. Most pipelines respond to any of it, paying STT for every transcribed second and triggering the LLM on speech that was never directed at the device.
SAA (Selective Auditory Attention) is a hosted classifier that runs before STT and decides, per utterance, whether the speech was directed at the device. Side talk, background media, and the agent's own playback are filtered out, so your STT / LLM / TTS only see audio meant for the agent.
- No wake word. SAA decides per-utterance from the audio (and optionally low-rate video) stream.
- Hosted. A real-time WebSocket to attention labs' cloud; the open SDKs are thin clients. Because it gates before STT, only addressed speech reaches the STT, LLM, and TTS you already run, so your downstream services and logs see less audio, not more. On-device deployment is a separate enterprise licence.
The architecture and evaluation are described in the technical report.
Ways to integrate
| Shape | Package | Use it when |
|---|---|---|
| Streaming SDK | @attenlabs/saa-js, attenlabs-saa |
your app captures the audio/video itself and you want typed attention events to gate your own pipeline. Good for web agents, mall kiosks, drive-through agents, and robots. |
| LiveKit | saa-livekit-client |
you run a LiveKit Agents voice agent. SAA joins your room and gates the session. |
| Pipecat (Daily) | saa-pipecat-client |
you run a Pipecat voice agent on Daily. SAA joins your Daily room and gates the pipeline through the "saa" app-message topic. |
| ElevenLabs | attenlabs-saa |
you run an ElevenLabs Conversational AI agent. SAA gates it via the streaming SDK's feed_audio (its room is sealed, so SAA can't join it directly). |
| Twilio | attenlabs-saa |
you run a Twilio Media Streams telephony agent. SAA gates inbound/outbound call audio (μ-law 8 kHz resampled to PCM16) via the streaming SDK's feed_audio. |
Install
npm install @attenlabs/saa-js # JavaScript / browser pip install attenlabs-saa # Python (streaming SDK) pip install saa-livekit-client # Python (LiveKit) pip install saa-pipecat-client # Python (Pipecat on Daily)
Get an API key at attentionlabs.ai.
Streaming SDK
You capture the media; SAA emits typed events. The key event is turnReady / turn_ready, one device-directed utterance, captured and ready to forward to your STT or LLM.
import { AttentionClient } from "@attenlabs/saa-js"; const client = new AttentionClient({ token: process.env.SAA_API_KEY }); // fires once per device-directed turn; turn.audioBase64 is PCM16 @ 16 kHz client.on("turnReady", (turn) => yourSTT.send(turn.audioBase64)); await client.start({ videoElement: document.querySelector("video") });
import os from saa import AttentionClient client = AttentionClient(token=os.environ["SAA_API_KEY"]) @client.on_turn_ready def _(turn): # turn.audio_base64, PCM16 @ 16 kHz mono; turn.audio_pcm16, np.int16 array your_stt.send(turn.audio_base64) client.start()
For audio-only deployments, omit videoElement (browser) or pass enable_video=False (Python).
Both SDKs also emit prediction, vad, state, interrupt, config, and stats events, and expose mute() / unmute(), setThreshold() / set_threshold(), and markResponding() / mark_responding(). See packages/saa-js and packages/saa-py.
Runnable end-to-end demos are in examples/web/ (browser) and examples/python/ (terminal).
LiveKit
For LiveKit Agents, saa-livekit-client brings SAA into your room to run the classifier and publish events on the "saa" data topic. Your agent consumes them through AttentionEngine and gates the session.
from saa_livekit_client import AttentionEngine, attention_agent_token, start_attention_session saa = await start_attention_session( api_key=SAA_API_KEY, livekit_url=LIVEKIT_URL, agent_token=attention_agent_token(api_key=LK_KEY, api_secret=LK_SECRET, room_name=ctx.room.name), room_name=ctx.room.name, participant_identity=user.identity, ) engine = AttentionEngine(ctx.room, agent_identity=saa.agent_identity) @engine.on_prediction def _(p): session.input.set_audio_enabled(p.aligned_class == 2) # the gate await engine.start()
Two runnable samples, an OpenAI Realtime agent and a vanilla-JS web client, are in examples/livekit/.
Pipecat on Daily
For Pipecat voice agents running on Daily, saa-pipecat-client brings SAA into your Daily room and publishes events on Daily's app-message channel under the "saa" topic. Your bot consumes them through AttentionEngine (which subscribes via your DailyTransport) and gates the pipeline.
from saa_pipecat_client import AttentionEngine, attention_agent_token, start_attention_session saa = await start_attention_session( api_key=SAA_API_KEY, room_url=ROOM_URL, agent_token=attention_agent_token(daily_api_key=DAILY_API_KEY, room_name=room_name), participant_identity=human_identity, ) engine = AttentionEngine(transport, agent_identity=saa.agent_identity) engine.bind_task(task) @engine.on_prediction def _(p): addressee_gate.suppressed = (p.aligned_class == 1 and p.confidence > 0.7) await engine.start()
A runnable web-client sample is in examples/pipecat/.
ElevenLabs
ElevenLabs Conversational AI runs its agent in a sealed WebRTC room, so SAA can't join it directly. Instead the streaming SDK runs in feed mode: you hand it the agent's microphone audio through feed_audio and gate the agent on SAA's prediction events.
from saa import AttentionClient # feed mode: the SDK captures nothing itself; you supply the audio saa = AttentionClient(token=SAA_API_KEY, enable_audio=False, enable_video=False) @saa.on_prediction def _(p): mic_to_agent.enabled = (p.aligned_class == 2) # 2 = addressed to the device saa.start() # in ElevenLabs' AudioInterface input callback: saa.feed_audio(mic_pcm16)
A runnable sample is in examples/elevenlabs/.
Twilio
For Twilio Media Streams telephony agents, the streaming SDK runs in feed mode over the call audio. The adapter transcodes Twilio's μ-law 8 kHz frames to PCM16 16 kHz, feeds them to SAA, and forwards only device-directed turns to your bridge, so side talk, hold music, and the agent's own TTS echo are gated out.
from saa import AttentionClient saa = AttentionClient(token=SAA_API_KEY, enable_audio=False, enable_video=False) @saa.on_turn_ready def _(turn): bridge.on_speech(turn.audio_base64) # only device-directed call audio continues saa.start() # in the Twilio media handler, after decoding μ-law -> PCM16: saa.feed_audio(pcm16_frames)
A runnable Media Streams bridge (codec, paced outbound, automatic mark_responding) is in examples/twilio/.
Proactive agents (speak first)
The streaming SDKs expose markResponding(true) / mark_responding(True) so the agent can assert when it is the one speaking, suppressing the gate during its own TTS and resuming once the tail clears. The LiveKit and Pipecat bridges expose the same lifecycle via engine.responding_start() / responding_stop(), identical surface.
How it composes
SAA is the model-agnostic addressee decision between your VAD and STT. It answers a different question than VAD (is anyone speaking), speaker diarization (which voice it is), turn detection (have they finished), or a wake word (did they say the phrase), so it composes with those layers and can replace the wake word outright.
On-device deployment
The open SDKs stream to the SAA cloud. For deployments where audio must stay on the device (telephony, embedded systems, wearables, robotics, kiosks), request on-device and embedded access at attentionlabs.ai.
Documentation
packages/saa-js/README.md,packages/saa-py/README.md, streaming SDK reference.packages/saa-livekit-client/README.md: the LiveKit client.packages/saa-pipecat-client/README.md: the Pipecat-on-Daily client.examples/README.md, runnable examples.examples/twilio/README.md: the Twilio Media Streams bridge.
License
Apache-2.0 across the repo, each package and the examples ship under it (see each subtree's LICENSE). The hosted cloud service is governed by the attention labs Terms of Service.
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