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Atom

Atom

Dobot Atom is a 1.53m humanoid robot with 28–41 DOF, ±0.05 mm precision, and energy-efficient walking, designed for industrial automation and service applications.
In Development
China
Humanoid
2025
Specifications
Dev Doc
Website
Made by
Shenzhen Dobot Corp Ltd
Software Type
Closed Source
Software Package
Robot Operator Model - 1 (ROM-1) AI system for perception and control Real-time motion planning and autonomous adaptation software. User-friendly programming interface for task customization. Support for human-robot collaboration and safety protocols.
Actuators
High-precision actuators enable smooth, human-like arm and leg movements with ±0.05 mm repeatability, supporting complex manipulation and energy-efficient walking.
Compiute
Powered by an advanced edge computing system delivering 7.7× industry-standard performance, running AI models for real-time sensor fusion, decision-making, and motion control.
Sensors
Equipped with sensors for environment perception, balance, and obstacle detection, enabling safe navigation and manipulation in unstructured spaces.
Max Op. time
mins

Robot Brief

Dobot Atom is a next-generation humanoid robot developed by Shenzhen-based Dobot Robotics, designed for both industrial and service applications. Standing 1.53 meters tall and weighing 62 kilograms, it features 28 to 41 degrees of freedom (DOF) with a 1:1 human arm configuration, enabling human-like dexterity and precision. Atom’s standout feature is its energy-efficient straight-knee walking mechanism, which reduces energy consumption by 42% compared to traditional humanoid robots. Powered by Dobot’s proprietary Robot Operator Model - 1 (ROM-1) AI system and advanced edge computing delivering 7.7 times the industry-standard computing power, Atom autonomously adapts to unstructured environments. It excels in complex manipulation tasks with ±0.05 mm precision and has demonstrated proficiency in over 100 tasks, including delicate assembly, meal preparation, document delivery, and customer service. Atom’s design supports seamless human-robot collaboration, making it suitable for electronics manufacturing, healthcare, hospitality, logistics, and research.

Use Cases

Atom performs high-precision manipulation and dexterous tasks with human-like arm movements, navigating dynamic and unstructured environments efficiently. It can walk using a straight-knee mechanism, reducing energy use while maintaining balance and mobility. The robot supports complex assembly, delicate handling, service tasks like meal preparation and document delivery, and collaborates safely with humans in cobotic settings. Its AI-driven control system enables autonomous adaptation and decision-making in real time.

Industries

Atom performs high-precision manipulation and dexterous tasks with human-like arm movements, navigating dynamic and unstructured environments efficiently. It can walk using a straight-knee mechanism, reducing energy use while maintaining balance and mobility. The robot supports complex assembly, delicate handling, service tasks like meal preparation and document delivery, and collaborates safely with humans in cobotic settings. Its AI-driven control system enables autonomous adaptation and decision-making in real time.

Specifications

Length
mm
Width
mm
Height (ResT)
mm
Height (Stand)
-
1530
mm
Height (Min)
mm
Height (Max)
mm
Weight (With Batt.)
-
kg
Weight (NO Batt.)
-
62
kg
Max Step Height
-
mm
Max Slope
+/-
-
°
Op. Temp (min)
-
°C
Op. Temp (Max)
-
°C
Ingress Rating
-
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Intro

The Dobot Atom stands 1.53 meters tall and weighs 62 kg, featuring a human-like arm configuration with up to 41 degrees of freedom. It incorporates a straight-knee walking mechanism that reduces energy consumption by 42%, enabling efficient and stable locomotion. Atom is powered by Dobot’s ROM-1 AI system and edge computing platform, providing 7.7 times the industry-standard processing power for real-time adaptation and autonomous decision-making. Its high-precision actuators achieve ±0.05 mm repeatability, supporting delicate manipulation tasks. The robot is designed for smooth integration into industrial and service environments, capable of performing over 100 complex tasks with dexterity and reliability.

Connectivity

  • Edge computing platform for onboard AI processing
  • Wireless connectivity (WiFi likely) for remote monitoring and updates
  • Integration support for automation systems and programming interfaces

Capabilities

  • 28 to 41 DOF for human-like dexterity and mobility.
  • ±0.05 mm precision for delicate manipulation.
  • Straight-knee walking mechanism for 42% energy savings.
  • Autonomous adaptation to unstructured and dynamic environments.
  • Proficient in over 100 tasks including assembly, delivery, and meal prep.
  • Supports human-robot collaboration in cobotic applications.
  • Real-time AI-driven decision-making and motion planning.