What is Azure AI Language?

Azure AI Language is a cloud-based service that provides Natural Language Processing (NLP) features for understanding and analyzing text. Use this service to help build intelligent applications using the web-based Language Studio, REST APIs, and client libraries.

Available features

This Language service unifies the following previously available Azure AI services: Text Analytics, and LUIS. If you need to migrate from these services, see the migration section below.

The Language service also provides several new features as well, which can either be:

  • Preconfigured, which means the AI models that the feature uses are not customizable. You just send your data, and use the feature's output in your applications.
  • Customizable, which means you'll train an AI model using our tools to fit your data specifically.

Tip

Unsure which feature to use? See Which Language service feature should I use? to help you decide.

Language Studio enables you to use the below service features without needing to write code.

Named Entity Recognition (NER)

Named entity recognition is a preconfigured feature that categorizes entities (words or phrases) in unstructured text across several predefined category groups. For example: people, events, places, dates, and more.

Personally identifying (PII) and health (PHI) information detection

PII detection is a preconfigured feature that identifies, categorizes, and redacts sensitive information in both unstructured text documents, and conversation transcripts. For example: phone numbers, email addresses, forms of identification, and more.

Language detection

Language detection is a preconfigured feature that can detect the language a document is written in, and returns a language code for a wide range of languages, variants, dialects, and some regional/cultural languages.

Sentiment Analysis and opinion mining

Sentiment analysis and opinion mining are preconfigured features that help you find out what people think of your brand or topic by mining text for clues about positive or negative sentiment, and can associate them with specific aspects of the text.

Summarization

Summarization is a preconfigured feature that uses extractive text summarization to produce a summary of documents and conversation transcriptions. It extracts sentences that collectively represent the most important or relevant information within the original content.

Key phrase extraction

Key phrase extraction is a preconfigured feature that evaluates and returns the main concepts in unstructured text, and returns them as a list.

Entity linking

Entity linking is a preconfigured feature that disambiguates the identity of entities (words or phrases) found in unstructured text and returns links to Wikipedia.

Text analytics for health

Text analytics for health is a preconfigured feature that extracts and labels relevant medical information from unstructured texts such as doctor's notes, discharge summaries, clinical documents, and electronic health records.

Conversational language understanding

Conversational language understanding (CLU) enables users to build custom natural language understanding models to predict the overall intention of an incoming utterance and extract important information from it.

Orchestration workflow

Orchestration workflow is a custom feature that enables you to connect Conversational Language Understanding (CLU), question answering, and LUIS applications.

Question answering

Question answering is a custom feature that finds the most appropriate answer for inputs from your users, and is commonly used to build conversational client applications, such as social media applications, chat bots, and speech-enabled desktop applications.

Which Language service feature should I use?

This section will help you decide which Language service feature you should use for your application:

What do you want to do? Document format Your best solution Is this solution customizable?*
Detect and/or redact sensitive information such as PII and PHI. Unstructured text,
transcribed conversations
PII detection
Extract categories of information without creating a custom model. Unstructured text The preconfigured NER feature
Extract main topics and important phrases. Unstructured text Key phrase extraction
Determine the sentiment and opinions expressed in text. Unstructured text Sentiment analysis and opinion mining
Summarize long chunks of text or conversations. Unstructured text,
transcribed conversations.
Summarization
Disambiguate entities and get links to Wikipedia. Unstructured text Entity linking
Extract medical information from clinical/medical documents, without building a model. Unstructured text Text analytics for health
Build a conversational application that responds to user inputs. Unstructured user inputs Question answering
Detect the language that a text was written in. Unstructured text Language detection
Predict the intention of user inputs and extract information from them. Unstructured user inputs Conversational language understanding
Connect apps from conversational language understanding, LUIS, and question answering. Unstructured user inputs Orchestration workflow

* If a feature is customizable, you can train an AI model using our tools to fit your data specifically. Otherwise a feature is preconfigured, meaning the AI models it uses cannot be changed. You just send your data, and use the feature's output in your applications.

Migrate from Text Analytics, or Language Understanding (LUIS)

Azure AI Language unifies two individual language services in Azure AI services - Text Analytics, and Language Understanding (LUIS). If you have been using these two services, you can easily migrate to the new Azure AI Language. For instructions see Migrating to Azure AI Language.

Tutorials

After you've had a chance to get started with the Language service, try our tutorials that show you how to solve various scenarios.

Additional code samples

You can find more code samples on GitHub for the following languages:

Deploy on premises using Docker containers

Use Language service containers to deploy API features on-premises. These Docker containers enable you to bring the service closer to your data for compliance, security, or other operational reasons. The Language service offers the following containers: