CES 2025
CES 2025
CES 2025
E-brochure
E-brochure
E-brochure
About "atron"
AI Waste Sorting Robot
AI Waste Sorting Robot
Powerful Performance
Powerful Performance
Sorting Accuracy
Sorting Accuracy
99.3%
Sortation/min
Sortation/min
up to
up to
up to
96 ea
Over The Limits of Hand-based Sortation
Over The Limits of Hand-based Sortation
Robot
Robot
Never Tired
Never Tired
Never Tired
No Injury Concerns
No Injury Concerns
No Injury Concerns
AI
AI
High Sortation Accuracy
High Sortation Accuracy
High Sortation Accuracy
Fast Sortation Speed
Fast Sortation Speed
Fast Sortation Speed
⬇
Robot + AI -> Overcoming The Weaknesses of Hand-based Sortation
Labor Shortage
Labor Shortage
Low Sortation Accuracy & Speed
Low Sortation Accuracy & Speed
Short Available Work Time
Short Available Work Time
Classifiable Waste
Classifiable Waste
Waste Disposal (7 types)
PET, PP, PE, PS, Other, Glass, Can
PET, PP, PE, PS, Other, Glass, Can
Subclassification Criteria 43 Classifications
얇은투명페트, 일반투명페트, 녹색페트, 갈색페트, 하얀페트, 혼색페트,알루미늄캔, 투명유리병, 갈색유리병, 녹색유리병, 파랑유리병, 혼색유리병 등 → 용도, 색상 등으로 분류 가능
얇은투명페트, 일반투명페트, 녹색페트, 갈색페트, 하얀페트, 혼색페트,알루미늄캔, 투명유리병, 갈색유리병, 녹색유리병, 파랑유리병, 혼색유리병 등 → 용도, 색상 등으로 분류 가능
Expectation
Expectation
Sortation Speed
Sortation Speed
Working Hours
Working Hours
Sortation Cost
Sortation Cost
Technology
Technology
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
01. AI
Deep learning-based waste location detection and classification
Plastic component analysis, object tracking on the conveyor
Analysis of waste statistics data
02. HW Development
To enable AI and robots to operate in the real world, they must be realized.
HW design and production for each component
Deriving solutions for installation at the actual site
03. Robot Control
Adaptive robot control suitable for the shape and situation of waste
Development of robot motion to maximize waste processing capacity
Conveyor and Equipment Control
Our Tech Brands
Our Tech Brands
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
01. 3nity
A technology brand that helps the seamless integration of three core technologies (AI, HW development , robot control)
Maximizing throughput with adaptive control tailored to the properties of waste.
Custom production of HW · SW for customers, easy maintenance.
02. wai-kor
Korean Waste Characterization Optimization AI Algorithm Brand
2.8 million cases of Korean waste learning data +
Utilize wai-kor experience and know-how in local waste learning when expanding overseas → Develop local waste AI algorithms → wai-{country}
Introduction Case
Introduction Case
Introduction Case
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Seoul (Public)
2 units
Gyeonggi-do (Private)
3 units
Gyeonggi-do (Public)
2 units
Incheon City (Private)
3 units
Incheon City (Public)
2 units
Ulsan City (Private)
4 units
Cheongdo County (Public)
3 units
Namwon City (Public)
1 unit
Don't Forget Your Brochure
Don't Forget Your Brochure