picovoice

Crates.iopicovoice
lib.rspicovoice
version3.0.4
sourcesrc
created_at2021-08-12 19:58:33.023014
updated_at2024-09-04 18:44:42.298977
descriptionRust SDK for Picovoice's voice recognition platform
homepagehttps://picovoice.ai/
repositoryhttps://github.com/Picovoice/picovoice
max_upload_size
id435376
size17,151
Albert Ho (albho)

documentation

README

Picovoice SDK for Rust

Picovoice

Made in Vancouver, Canada by Picovoice

Picovoice is an end-to-end platform for building voice products on your terms. It enables creating voice experiences similar to Alexa and Google. But it entirely runs 100% on-device. Picovoice is

  • Private: Everything is processed offline. Intrinsically HIPAA and GDPR-compliant.
  • Reliable: Runs without needing constant connectivity.
  • Zero Latency: Edge-first architecture eliminates unpredictable network delay.
  • Accurate: Resilient to noise and reverberation. It outperforms cloud-based alternatives by wide margins *.
  • Cross-Platform: Design once, deploy anywhere. Build using familiar languages and frameworks.

Compatibility

  • Rust 1.54+
  • Runs on Linux (x86_64), macOS (x86_64, arm64), Windows (x86_64), Raspberry Pi

Installation

First you will need Rust and Cargo installed on your system.

To add the picovoice library into your app, add picovoice to your app's Cargo.toml manifest:

[dependencies]
picovoice = "*"

AccessKey

Picovoice requires a valid Picovoice AccessKey at initialization. AccessKey acts as your credentials when using Picovoice SDKs. You can get your AccessKey for free. Make sure to keep your AccessKey secret. Signup or Login to Picovoice Console to get your AccessKey.

Usage

To create an instance of the engine with default parameters, use the PicovoiceBuilder function. You must provide a Porcupine keyword file, a wake word detection callback function, a Rhino context file and an inference callback function. You must then make a call to init():

use picovoice::{rhino::RhinoInference, PicovoiceBuilder};

let access_key = "${ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

let wake_word_callback = || {
    // let user know wake word detected
};
let inference_callback = |inference: RhinoInference| {
    if inference.is_understood {
        let intent = inference.intent.unwrap();
        let slots = inference.slots;
        // add code to take action based on inferred intent and slot values
    } else {
        // add code to handle unsupported commands
    }
};

let mut picovoice = PicovoiceBuilder::new(
    access_key,
    keyword_path,
    wake_word_callback,
    context_path,
    inference_callback,
).init().expect("Failed to create picovoice");

Upon detection of wake word defined by keyword_path it starts inferring user's intent from the follow-on voice command within the context defined by the file located at context_path. keyword_path is the absolute path to Porcupine wake word engine keyword file (with .ppn suffix). context_path is the absolute path to Rhino Speech-to-Intent engine context file (with .rhn suffix). wake_word_callback is invoked upon the detection of wake phrase and inference_callback is invoked upon completion of follow-on voice command inference.

When instantiated, valid sample rate can be obtained via sample_rate(). Expected number of audio samples per frame is frame_length(). The engine accepts 16-bit linearly-encoded PCM and operates on single-channel audio.

fn next_audio_frame() -> Vec<i16> {
    // get audio frame
}

loop {
    picovoice.process(&next_audio_frame()).expect("Picovoice failed to process audio");
}

The sensitivity of the Porcupine (wake word) and Rhino (inference) engines can be tuned using the porcupine_sensitivity() and rhino_sensitivity() methods respectively. They are floating point numbers within [0, 1]. A higher sensitivity value results in fewer misses at the cost of (potentially) increasing the erroneous inference rate:

let access_key = "${ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

let mut picovoice = PicovoiceBuilder::new(
    access_key,
    keyword_path,
    wake_word_callback,
    context_path,
    inference_callback,
)
.porcupine_sensitivity(0.4f32)
.rhino_sensitivity(0.77f32)
.init().expect("Failed to create picovoice");

Non-standard model and library paths (For example, when using a non-english model) for both engines can be tuned in a similar manner:

let access_key = "${ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

let mut picovoice = PicovoiceBuilder::new(
    access_key,
    keyword_path,
    wake_word_callback,
    context_path,
    inference_callback,
)
.porcupine_sensitivity(0.4f32)
.rhino_sensitivity(0.77f32)
.porcupine_model_path("path/to/model/params.pv")
.rhino_model_path("path/to/model/params.pv")
.porcupine_library_path("path/to/library.so")
.rhino_library_path("path/to/library.so")
.init().expect("Failed to create picovoice");

Non-English Models

In order to detect wake words and run inference in other languages you need to use the corresponding model file. The model files for all supported languages are available here and here.

Demos

Check out the Picovoice Rust demos here

Commit count: 782

cargo fmt