Veerum Api New [upd] 〈PLUS〉

VEERUM API (part of their DigitalTWIN platform ) has recently seen significant updates focused on enabling Visual Operations (VisOps)

Key highlights for developers and users in 2025–2026 include: DigitalTWIN API & ToolKITS : As of 2024 and 2025, the platform introduced a dedicated DigitalTWIN API

alongside an AI/ML Vision Toolkit to help teams automate the detection of equipment like valves and pumps from reality scans. VisOps Framework

: Launched in April 2025, VisOps is a new technology category that integrates reality capture data (drones, LiDAR) with existing industrial workflows via the cloud, emphasizing browser-based 3D visualization. Security & Authentication : Access typically requires JWT (JSON Web Token)

authentication. Note that some legacy formats, like certain Bearer tokens, are scheduled for deprecation in June 2026 (based on related industrial API documentation standards). V-Stream Release : The platform now supports , which allows for the real-time streaming

of location and sensor data directly into the web-based visual interface. Deployment Options : VEERUM recently announced a single-tenant offering

for organizations with strict data compliance needs that cannot use standard multi-tenant cloud setups. veerum api new

For specific technical documentation or to request a new URL for the migrated DigitalTWIN platform, users should contact VEERUM Support integration guide for a particular use case?

Assuming you want concise marketing/content copy for "Veerum API" (new release). Here are several short options you can use for web, email, and social — pick one tone.

Website hero (concise): Veerum API — Real-time digital twins for infrastructure. Integrate live sensor data, run automated simulations, and unlock predictive insights with a developer-first REST and WebSocket API.

Website hero (developer-focused): Build with the Veerum API: ingest sensor streams, query synchronized 3D models, run deterministic simulations, and get anomaly alerts — all via simple REST endpoints and WebSockets. Quick SDKs for Python, JS, and Go.

Feature bullets (for product page):

Email subject lines:

Short social posts:

Technical overview (short): Veerum API provides REST and WebSocket endpoints to:

  1. Authenticate via OAuth2 and retrieve API tokens.
  2. Register and manage assets (3D models + metadata).
  3. Stream time-series data and map it to model elements.
  4. Query synchronized state and run simulations (sync/async).
  5. Subscribe to events and receive notifications via webhooks.
    Responses use JSON; models and geometry are referenced via UUIDs and served through secure object storage.

Get-started snippet (quickstart):

  1. Create API client and obtain OAuth2 token.
  2. POST /assets to upload model metadata and geometry reference.
  3. POST /streams to create a sensor stream and link to asset element UUIDs.
  4. Use WebSocket /realtime to stream telemetry and receive state updates.
  5. POST /simulations to run scenario; poll /simulations/id for results.

Call-to-action: Start your free trial — connect one asset, stream real data, run a simulation.

If you want tailored content (blog post, full API reference, SDK README, pricing page copy, or visuals), tell me which format and tone and I’ll produce it.

Key Capabilities

1. Seamless Integration with Enterprise Systems The new API is built for interoperability. It allows Veerum’s Visual Twin to connect with popular Asset Management Systems (EAM), Enterprise Resource Planning (ERP) software, and process historians. This means an engineer using SAP or Oracle can view real-time 3D context from Veerum without switching screens. VEERUM API (part of their DigitalTWIN platform )

2. Secure Data Access Security is paramount in oil and gas, mining, and energy sectors. The Veerum API utilizes modern authentication protocols (such as OAuth 2.0) to ensure that sensitive asset data is only accessible to authorized users and applications.

3. Streaming 3D Context One of the standout features is the ability to stream high-fidelity 3D capture data. Rather than downloading massive CAD files, the API allows external applications to query spatial data. This enables "digital twin" views to be embedded directly into dashboards or safety applications.

4. Search and Filtering The API enables advanced querying of assets. Users can search for specific equipment tags, filter by maintenance status, or locate assets within a specific geospatial zone, returning structured data (JSON) that can be used for analytics or automated reporting.

Why the "Veerum API New" Matters More Than Previous Versions

The previous iteration of the Veerum API was functional but limited. It supported basic read-only queries and simple tag retrieval. The new API suite represents a complete architectural rewrite, moving to a RESTful, OAuth 2.0-secured architecture with GraphQL support for complex queries.

Here are the five pillars that define this new release:

1. Bi-Directional Synchronization (Write-Back Capabilities)

The most requested feature is now live. The new API allows external systems (e.g., a predictive maintenance AI) to write data back into Veerum. If a vibration sensor detects a failure pattern, the API can automatically create a work order inside a Veerum Field checklist. Conversely, when a technician marks a valve as "repaired" in Veerum, the API immediately pushes that status to the corporate asset registry. Real-time data ingestion: stream sensor and telemetry data