CORE BUSINESS
Data Design Engineering (DDE) introduces On Edge Device Offline AI Technology, embedding AI models within robots and unmanned equipment for autonomous operations even offline and in GPS/GNSS-denied environments. Utilizing compressed Large Multi-Model (LMM) AI systems, it supports real-time decision-making, planning, and human interaction without cloud or network reliance. Core capabilities include SWARM AI, high AI model density integration, AI-driven sensor fusion, collision avoidance, offline SLAM, autonomous navigation, and domain-specific language models.
Security features encompass code obfuscation, key distribution, hardware security modules, and physical tamper detection. Applications span drones, AGVs, satellites, ground systems, unmanned vessels, industrial mobile robots, and more. Benefits include true offline autonomy, ultra-high AI model density, versatility across industries, security-first architecture, and AI-driven sensor fusion. The All-in-One Customizable AI Chip delivers seamless integration of various AI models, maximizing AI model capacity per chip with minimized computational needs and minimized cost footprint.
PRODUCTS & SERVICES
Customizable On Edge Device Offline AI Technology
Embedding high density AI models within robots and unmanned equipment for autonomous operations even offline and in GPS/GNSS-denied environments.
Autonomous Navigation
Edge-based offline SLAM technology enabling autonomous operation in contested environments with zero external dependencies and in GPS/GNSS-denied environments.
Collision Avoidance
Embedded visual and inertial sensor fusion allowing unmanned applications to detect and avoid obstacles, including other unmanned applications even in GPS/GNSS-denied environments.
Swarm Intelligence
Autonomous coordination of multiple unmanned applications enabling targeting, coordination, and path planning. Supports edge-to-edge pairing for fully autonomous operations in offline and in GPS/GNSS-denied environments.
AI Based Radar Sensor Technology
Processes raw radar frequency data in real-time, enabling multi-band, multi-polarization object detection and classification for maritime, aerial, and other applications.
Single Image 2D-to-3D Conversion Technology
Transforms any Single 2D image (RGB, SAR, others) into a 3D digital elevation model on the edge device, supporting real-time navigation, mapping, height calculation and change detection.
Vision-Language Models (VLMs)
Advanced multimodal detection systems that interpret and correlate visual data with textual information, providing deeper, context-aware situational awareness.
TECHNICAL MEANS
All-in-One AI Chip
Cost effective AI chips powered by proprietary compressed models, delivering seamless integration of Domain-Specific SLMs, Text-to-Speech, Speech-to-Text, Various Detection Models, Offline SLAM, Collision Avoidance, Swarm Intelligence, and more — all tailored to meet your mission-critical requirements. Engineered to analyze and fuse data across multiple domains with high efficiency.
Maximized AI Model Density
Compression and optimization techniques that maximize AI model capacity per chip, providing superior intelligence with minimized computational needs and cost footprint.
Swarm Intelligence
Advanced swarm targeting algorithms, dynamic swarm path planning, and seamless swarm coordination embedded directly on edge hardware—enabling fully autonomous operation for both individual units and coordinated unmanned missions.
Security-First Hardware
Military-grade protection through integrated hardware security modules, advanced tamper detection, sophisticated code obfuscation, guaranteeing operational integrity at an accessible cost.
MAIN CUSTOMERS
Space Manufacturing, Earth Observation, Defence, Robotics, Aerospace, Manufacturing Industry, Healthcare, Agriculture, Logistics, Railway, Automobile, Cybersecurity Integrators and others
MAJOR SPACE PROJECTS
ESA: Robotic Additive Manufacturing AI driven digital process & active robotic compensation
