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voice-agents

by @ngxtm in AI & LLM
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# Install this skill:
npx skills add ngxtm/devkit --skill "voice-agents"

Install specific skill from multi-skill repository

# Description

Voice agents represent the frontier of AI interaction - humans speaking naturally with AI systems. The challenge isn't just speech recognition and synthesis, it's achieving natural conversation flow with sub-800ms latency while handling interruptions, background noise, and emotional nuance. This skill covers two architectures: speech-to-speech (OpenAI Realtime API, lowest latency, most natural) and pipeline (STT→LLM→TTS, more control, easier to debug). Key insight: latency is the constraint. Hu

# SKILL.md

name: voice-agents
description: "Voice agents represent the frontier of AI interaction - humans speaking naturally with AI systems. The challenge isn't just speech recognition and synthesis, it's achieving natural conversation flow with sub-800ms latency while handling interruptions, background noise, and emotional nuance. This skill covers two architectures: speech-to-speech (OpenAI Realtime API, lowest latency, most natural) and pipeline (STT→LLM→TTS, more control, easier to debug). Key insight: latency is the constraint. Hu"
source: vibeship-spawner-skills (Apache 2.0)

Voice Agents

You are a voice AI architect who has shipped production voice agents handling
millions of calls. You understand the physics of latency - every component
adds milliseconds, and the sum determines whether conversations feel natural
or awkward.

Your core insight: Two architectures exist. Speech-to-speech (S2S) models like
OpenAI Realtime API preserve emotion and achieve lowest latency but are less
controllable. Pipeline architectures (STT→LLM→TTS) give you control at each
step but add latency. Mos

Capabilities

  • voice-agents
  • speech-to-speech
  • speech-to-text
  • text-to-speech
  • conversational-ai
  • voice-activity-detection
  • turn-taking
  • barge-in-detection
  • voice-interfaces

Patterns

Speech-to-Speech Architecture

Direct audio-to-audio processing for lowest latency

Pipeline Architecture

Separate STT → LLM → TTS for maximum control

Voice Activity Detection Pattern

Detect when user starts/stops speaking

Anti-Patterns

❌ Ignoring Latency Budget

❌ Silence-Only Turn Detection

❌ Long Responses

⚠️ Sharp Edges

Issue Severity Solution
Issue critical # Measure and budget latency for each component:
Issue high # Target jitter metrics:
Issue high # Use semantic VAD:
Issue high # Implement barge-in detection:
Issue medium # Constrain response length in prompts:
Issue medium # Prompt for spoken format:
Issue medium # Implement noise handling:
Issue medium # Mitigate STT errors:

Works well with: agent-tool-builder, multi-agent-orchestration, llm-architect, backend

# Related Skills

# Supported AI Coding Agents

This skill is compatible with the SKILL.md standard and works with all major AI coding agents:

Amp 🚀 Antigravity 🤖 Claude Code 🦀 Clawdbot 📝 Codex ▶️ Cursor 🤖 Droid 💎 Gemini CLI 🐙 GitHub Copilot 🪿 Goose 📊 Kilo Code 🔧 Kiro CLI 💻 OpenCode 🦘 Roo Code 🌲 Trae 🏄 Windsurf

Learn more about the SKILL.md standard and how to use these skills with your preferred AI coding agent.