Detecting indoor environmental

contaminants and performs

automatic disinfection

Detecting indoor environmental contaminants and performs automatic disinfection

Disinfection robot

Always! Automatic disinfection


All Day

24x7 automatic monitoring system

Robot + AI + Autonomous


All Care

Autonomous navigation and spatial recognition

Air purification + ultraviolet light + ethanol sanitization


All Data

Data analysis to improve effectiveness

Big data + cloud based

Disinfection robotroot

Always! Automatic disinfection

All Day

24x7 automatic monitoring system

Robot + AI + Autonomous

All Care

Autonomous navigation and spatial recognition

Air purification + Ultraviolet light + Ethanol sanitization

All Data

Data analysis to improve effectiveness

Big data + Cloud based

Disinfection Methods

Air purification

-  Tracking + Detection + Purification

-  Air purifier structure that can replace cylindrical filters

-  The space on the side is utilized to supplement the heat generated by the air circulation with the front part

Ethanol sanitization

-  Air purifier structure that can replace cylindrical filters

-  Development of a dispenser configured to spray ethanol to the bottom or rear of the AI robot by disinfection

-  Tank for storing ethanol, sensor for detecting level of ethanol stored, and nozzle for spraying ethanol on the floor

Ultraviolet light

-  Full Coverage Sterilization

-  Uses ultraviolet light at wavelengths 240 to 280nm, which have the greatest effect of killing bacteria

-  Ultraviolet radiation is carried out by fluoridation of microorganisms

Reports Approved Technologies

Reports approved technologies

2018

2019

2020

Automatic Charging Process

Robot and Charging Station
Robot and Charging Station

a stable structure

-  Less vulnerability to external contaminants

-  We use the same charging station across our fleet of robots

Docking part required for charging
Docking part required for charging

Accurate and efficient system

- Robot uses autonomous driving to automatically return to charging station

- Faster and more efficient charging compared to other autonomous robot

Autonomous Driving

SLAM

Dead Reckoning

Minimize slip occurrences in driving paths

AMCL

A Star

Find an exact location by using 

2000 particles around the robot

Dijkstar

DWA

Determine the optimal path and 

automatically detect obstacles

Operating the Robot

ZMS

A cloud server system and specialized software that can manage the location, measurement data, content, and behavior of the robot remotely

Management Software

(Mobile APP)

-  Real-time environment data, administrator settings, and seeing a analysis

-  The administrator can set the functions of the robot, such as the speed of movement of the robot, the path of travel, autonomous driving, UV LED on/off, and other functionality according to the location of use and the time of use



Headquarters  |  6F, 20, Gwangnaru-ro 6-gil, Seongdong-gu, Seoul, Republic of Korea

AI R&D center  |  75, Nowon-ro, Buk-gu, Daegu, Republic of Korea

AI Healthcare center  |  3F, 193-22, Geumnam-ro, Dong-gu, Gwangju, Republic of Korea 

E-MAIL.  yelin@zetabank.co.kr 


Copyright ⓒ ZETABANK.Co.,Ltd. All rights reserved.

Headquarters  |  6F, 20, Gwangnaru-ro 6-gil, Seongdong-gu, Seoul, Republic of Korea 

AI R&D center  |  75, Nowon-ro, Buk-gu, Daegu, Republic of Korea

AI Healthcare center  |  3F, 193-22, Geumnam-ro, Dong-gu, Gwangju, Republic of Korea 

E-MAIL.  yelin@zetabank.co.kr 

Copyright ⓒ ZETABANK.Co.,Ltd. All rights reserved.