top of page

International

Tardid_Logo.png

Privacy

Meglan_Main.jpg

PRODUCT INNOVATION

ARTIFICIAL INTELLIGENCE

"Machines can perform countless tasks, but they cannot generate meaning or address deeper questions. They are unable to define our values or make decisions for us. With Brainbox, we’ve developed technology that will undoubtedly make machines more intelligent. However, the world we are shaping remains one meant for us, not for the machines."

Brainbox AI Platform

Brainbox is a Model-Driven AI Platform an advanced system that leverages physics-based models alongside AI and machine learning to enhance predictions, simulations, and optimizations across various industrial applications. Unlike traditional AI platforms that rely solely on data-driven techniques, Brainbox combines physics laws, equations, and constraints with AI's data processing and pattern recognition capabilities.

Immersive Situational Awareness with Decision Presentation

Understand environment or situation in real-time to improve decision-making and response time.
sitation_aware_1.png
Learn More

Integrated AI Torque Optimization of today and tomorrow

Improve energy efficiency, reduce wear and tear, and boost overall performance drastically                               
torque_optimized.jpg
Learn More

Optimized Swarm Cognitive Autonomous Response

 "Freestyle Swarm" swarm tactics allowing users to dynamically design and adapt in real-time    
oscar.png
Learn More

The Brainbox Dynamic Fusion system takes into account the surrounding environment and operational conditions when fusing data

Context Aware Adaptive Fusing Technique

fusion.jpg

Advanced Model Predictive Control of system dynamics which predicts suture states and optimize control action over a time horizon

Next Generation Physics Driven Control Model

,PC.jpg

physics-informed machine learning models for improved generalization, reduced data requirements and physical interpretability

Hybrid Physics Based Data Driven Model

HYBRID MODEL.jpg

Now our computer vision models are more efficient, both in computational performance and energy consumption, while maintaining high accuracy and robust performance.

Vision Efficient Dynamics for Self-Supervised Learning

Brainbox Vision Efficient Dynamics.jpg

Latest Deep Stacks Added to Brainbox

bottom of page