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MARs-Modular Autonomous Robot System

MARs (Modular Autonomous Robot System) serves as an embodiment and pinnacle of artificial intelligence and autonomous robot. It strives to transform the application of robotics in the medical context with AI-powered fleet management, enhances the efficiency of the human-robot collaborative context and ultimately solves the pain point of insufficient trained medical personnel in today’s world. MARs interchangeable system allows virtually unlimited upgrades of top modules with various functions and breaks the boundaries of autonomous robots both categorically and geographically by incorporating a radically redesigned drone transport system.

Modularity

The system design is founded on the basis of modularity and extends itself through compatible and upgradeable top-mounted modules, which redefines its specialized application in various contextual environments and user scenarios, including medical clinics, industrial warehouses, emergency response and aerospace. The interchangeable modules complement each other and become an interconnected network through an internal network.

UVC Disinfection 
Module

The disinfection robot utilizes the ultraviolet germicidal irradiation (UVGI) method to disinfect surfaces in the hospital environment.

Modularity

The system design is founded on the basis of modularity and extends itself through compatible and upgradeable top-mounted modules, which redefines its specialized application in various contextual environments and user scenarios, including medical clinics, industrial warehouses, emergency response and aerospace. The interchangeable modules complement each other and become an interconnected network through an internal network.

UVC Disinfection 
Module

The disinfection robot utilizes the ultraviolet germicidal irradiation (UVGI) method to disinfect surfaces in the hospital environment.

Long Range Interregional Drone System

A radically redesigned drone with integration into MAR cloud computing system for Long-range interregional transportation 

D-Port +
Changing Station 

D-Port functions as a landing and charging platform for heavy lift drones with magnetic anchors on contact surfaces. The  Airlift module can enter effortlessly and transfer its content to the drone above for inter-hospital flight. Changing Station lifts top-mounted modules for efficient interchanging. Wireless charger is integrated into the changing station. Changing Stations can be chained up to a maximum of 5 units, sharing electricity and data.

Long Range Interregional Drone System

A radically redesigned drone with integration into MAR cloud computing system for Long-range interregional transportation 

D-Port +
Changing Station 

D-Port functions as a landing and charging platform for heavy lift drones with magnetic anchors on contact surfaces. The  Airlift module can enter effortlessly and transfer its content to the drone above for inter-hospital flight. Changing Station lifts top-mounted modules for efficient interchanging. Wireless charger is integrated into the changing station. Changing Stations can be chained up to a maximum of 5 units, sharing electricity and data.

AI Autonomy

Autonomous robots and artificial intelligence represent the bleeding edge technologies in their respective spectrum. MARs serves as an embodiment and convergence of advanced software and hardware development. Furthermore, it is designed to be the foundation of a future-proof modular platform that aims to enhance the efficiency of the human-robot collaborative context.

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