Applied AI for Robotics & Intelligent Infrastructure
We build responsible AI systems that operate in the physical world — from spatial intelligence and field robotics to construction automation designed for real deployment environments.
Centimeter-level spatial capture • Human-in-the-loop field workflows • US-based deployment team
Research-Driven. Deployment-Focused.
Aivex Robotics focuses on applying advanced AI and robotics to real-world environments where reliability, safety, and operational practicality matter. Our mission is to build responsible AI systems that work alongside human teams to solve meaningful physical-world problems.
Real Environments
Systems designed for messy, unpredictable real-world conditions, not controlled lab settings.
Human + Robot Collaboration
AI systems that augment human expertise and decision-making, not replace it.
Responsible AI in Practice
Practical safety engineering and deployment-aware system design from day one.
Focus Areas
Spatial Intelligence & 3D Perception
Real-time scanning, SLAM, and digital twin enablement for AEC environments.
- • Real-time 3D scanning and reconstruction
- • SLAM and spatial mapping algorithms
- • Point cloud processing and analysis
- • Digital twin generation and updates
Autonomous Field Robotics
Inspection, site data capture, and outdoor robotic workflows designed for real job sites.
- • Infrastructure inspection robotics
- • Autonomous site data capture
- • Remote operation and teleoperation
- • Real-time sensor fusion and processing
Intelligent Construction Systems
Human-robot collaboration for precision construction tasks such as line marking and tile placement.
- • Precision line marking and positioning
- • Tile laying and material placement automation
- • Human-robot collaborative workflows
- • Real-time task monitoring and adaptation
Responsible AI in Robotics
Practical safety, human-in-the-loop oversight, and deployment-aware system design.
- • Human-in-the-loop decision systems
- • Engineer-supervised field operations
- • Hybrid construction crew workflows
- • Real-world safety awareness and mitigation
Deployment Portfolio
3D Scanning System
Available for DeploymentPortable spatial scanning system producing high-resolution colored point clouds for surveying, renovation mapping, and digital twin workflows.
Technical Specifications
Relative Accuracy
<1 cm
Scan Rate
200k pts/s
Point Clouds
Real-time color
Localization
RTK-SLAM
Environment
Indoor & outdoor
Designed as a practical mobile scanning solution for AEC field teams.
Engagement models: Hardware purchase • Scan-as-a-service • Pilot deployments
Autonomous Lawn Mowing
Available for RentalTwo models available — suitable for commercial landscaping, municipal parks, airports, and large-area turf management.
Commercial-grade autonomous robotic mowers designed for large outdoor areas. Both models feature RTK + AI vision obstacle avoidance, autonomous zone management, and are available for rental engagements.
Pandag G1
Commercial Modular Robotic Mower
Suitable for airports, embankments, turf farms, municipal parks, agriculture.
LyMow One Plus
Intelligent Robotic Lawn Mower
Suitable for residential, commercial, and managed landscape environments.
Engagement models: Rental • Service deployment • Supervised operation
Intelligent Site Monitoring System
Early CommercializationFully automatic unmanned digital supervision — drone-based 3D reconstruction and AI safety monitoring.
A one-stop, fully automated site supervision platform combining drone-based aerial capture, 3D reconstruction, and AI-powered safety and progress monitoring. Replaces manual inspection workflows with continuous, unmanned data collection and analysis.
3D Reconstruction
3cm accuracy photogrammetry. Generates 3D models, 2D maps, and panoramic views from drone imagery.
Safety Monitoring
AI detection of unsafe behaviors, missing protective equipment, and safety blind spots on active job sites.
Progress Tracking
Automated earthwork volume calculation, construction progress comparison, and BIM/CAD integration.
Efficiency Comparison
On-site collection
20 min (vs. 1.5 days manual)
Data processing
4 hours (vs. 3–7 days manual)
Suitable for
Housing, hospitals, stadiums, dams, bridges
Engagement models: SaaS subscription • Supervised deployment • Rental
Construction Automation Suite
Project-Based DeploymentTwo specialized construction robots — tile paving and intelligent scribing — delivered through hybrid human + robotics workflows.
Human-robot collaborative construction systems for precision indoor finishing tasks. Both robots are deployed alongside experienced construction crews, combining robotic precision with human oversight and adaptability.
P900 Floor Tile Paving Robot
SLAM-navigated autonomous tile laying
Deployed in residential buildings, railway stations, airports, office buildings, and schools. Cumulative area >20,000 m².
Intelligent Scribing Robot
CAD/BIM-to-floor layout marking
Prints all lines, symbols, and fonts from CAD/BIM directly onto floors. Supports aluminum formwork, wooden formwork, and prefabricated construction. Cumulative area >20,000 m².
Engagement models: Project-based deployment • Equipment rental • Human + robotics hybrid crew
Responsible AI in the Physical World
Human-in-the-Loop Approvals
Critical decisions remain under human oversight and approval, with AI providing recommendations and analysis.
Engineer-Supervised Deployments
Field operations are monitored and directed by experienced engineers with real-time intervention capability.
Hybrid Construction Crew Workflows
Robots augment human expertise and labor, not replace it. Crews remain in control of operations.
Real-World Safety Awareness
Systems designed with deployment constraints, safety requirements, and practical risk mitigation from day one.
The Team
US-based team with research and deployment experience across AI, robotics, and construction.
Feng Huang
Co-founder, Deployment
Xi Wang
Robotics Engineer
Eileen Deng
Co-founder, GTM & Partnerships
Engineering Team
MIT-trained robotics & SLAM engineers