Skip to content

NVIDIA Announces Cloud-Native Metropolis Microservices and Retail AI Workflows for Theft Prevention

Woman scanning groceries

Retail shrinkage is on the rise with industry losses totaling $100 billion in 2021 and growing due to inflationary pressures. To help software developers…

Retail shrinkage is on the rise with industry losses totaling $100 billion in 2021 and growing due to inflationary pressures. To help software developers accelerate the development of retail loss prevention solutions, NVIDIA is releasing a suite of microservices as part of NVIDIA Metropolis, along with Retail AI Workflows. These AI workflows deliver pretrained AI models along with the applications needed to jump-start development, rapidly index hundreds of thousands of store products for cross-camera and barcode-scan identification, and detect ticket switching and theft.

Microservices reference architecture

Building these complex solutions requires a scalable and distributed architecture. Leveraging cloud-native technologies ensures scalability, serviceability, upgradability, adaptability, and choice of deployment environments. Increasingly, these solutions rely on multiple data and sensor sources that require multimodal AI capabilities. A microservices-based design offers a natural fit to support these requirements.  

The Metropolis microservices reference architecture is designed for:

  • scalability across stores with support for hybrid on-prem or cloud environments
  • resiliency with monitoring and self-healing ensuring stability and high up-time 
  • modularity to pick and choose functional modules for building new functionality to existing solutions  
  • customizability for addressing unique customer requirements across store design, AI models, and deployment constraints from DevOps and IT infrastructure

Sign up for early access to Metropolis microservices.

Figure 1. Metropolis microservices provides customizable cloud-native building blocks to build vision AI applications

Retail AI Workflows

The Retail AI Workflows detailed below address highly complex application development challenges, providing the initial ‘building blocks’ necessary as components of an effective solution.

Retail Loss Prevention AI Workflow

NVIDIA researchers developed a state-of-the-art variation of few-shot learning designed to adapt continuously with limited new product data, using object characterization and self-supervised learning algorithms. This unique method of active learning identifies and captures any new products scanned by customers and associates during checkout for future recognition through similarity search. Ultimately, this improves model accuracy.

The AI model is pretrained to recognize hundreds of the most common products lost to shrinkage, including meats, alcohol, and health and beauty products. It also recognizes these products in the various sizes and shapes offered. 

As a developer, you can customize the workflow, add your own models, and easily expand to hundreds of thousands of store products.

Figure 2. Reference architecture for the Retail Loss Prevention AI Workflow composed of Metropolis 
microservices

To learn more about the Retail Loss Prevention AI Workflow, see the resources listed below. 

  • Watch the GTC session, Vision AI when Data Is Expensive and Constantly Changing.
  • View the Metropolis Self-Checkout AI Copilot demo.

Multi-Camera Tracking AI Workflow

Giving perception to retail spaces often requires applying vision AI to many cameras covering multiple physical areas. The Multi-Camera Tracking AI Workflow delivers multi-target multi-camera (MTMC) capabilities to allow application developers to easily create solutions that anonymously track shoppers from camera to camera. The workflow uses the NVIDIA DeepStream SDK, pretrained models, and new state-of-the-art microservices for re-identification and tracking.

The MTMC workflow tracks and associates objects across cameras and maintains a unique ID for the object. Each object is tracked through visual embeddings/appearance rather than any personal biometric information, so privacy is fully maintained.

MTMC capabilities help bolster the security of self-checkout and is foundational for fully autonomous stores. The workflow can be trained to detect anomalous behavior. It can be deployed and scaled with Kubernetes and managed by Helm.

Figure 3. Reference architecture for the Multi-Camera Tracking AI Workflow composed of Metropolis microservices

To learn more about the Multi-Camera Tracking AI Workflow, see the resources listed below.

  • Watch the GTC session, Tracking Objects Across Multiple Cameras Made Easy with Metropolis Microservices. 
  • View the Metropolis Multi-camera Tracking demo.

Retail Store Analytics AI Workflow

The Retail Store Analytics AI Workflow enables developers to create end-to-end retail vision AI applications for store analytics using custom dashboards. 

Customize dashboards with analytical insights such as: 

  • number of store visitors throughout the day
  • proportion of customers shopping with and without baskets
  • visitors counts per store aisle
  • store heatmaps
  • customer journey visualization

These attributes can be easily amended to include information about specific use cases that are customized to individual stores. Stores can use this information to optimize staffing, enhance store merchandising and layout, and improve customer experience to maximize sales. 

Solve development challenges with NVIDIA AI

Complete store solutions can be brought to life with NVIDIA’s new Retail AI Workflows and microservices. The multiple workflows have a shared infrastructure and solve key development challenges. They help developers more easily create and deploy total solutions critical to the retail industry, such as loss prevention and autonomous shopping, while ensuring scalability and flexibility. Sign up for early access to Metropolis microservices.

NVIDIA will unveil more detailed information about the Retail Loss Prevention AI Workflows at the National Retail Federation Conference (NRF) in New York, January 15–17. Join NVIDIA at NRF 2023.

Source:: NVIDIA