World's first full-sized humanoid robot with dexterous manipulation.

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January 14, 2026

DOBOT Atom

CN Shenzhen Dobot Corp.Autonomous humanoids

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World's first full-sized humanoid robot with dexterous manipulation.

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Overview

DOBOT Atom is a full-size humanoid robot with revolutionary capabilities. This innovative application of AI technology simulates human-like skills, thanks to its dexterous manipulation and straight-knee walking ability, enabling it to adapt and operate in varying industrial environments.

The Atom's intelligence is rooted in advanced features like the Neuro-Driven Dexterity System and the Anthropomorphic Walking System, which allow it effectively to handle tasks with precise control and endurance that supersede human capabilities.In addition to its stand-alone competencies, the DOBOT Atom also supports multi-robot collaboration, optimizing efficiency through its advanced edge computing system.

Integrated human-robot interaction and safety technologies enable seamless coordination between Atom and other robots or human workers, thus facilitating high synchronization in tasks, especially those requiring continuous operation.Furthermore, DOBOT Atom's ability to excel in cross-scenario adaptability is amplified by the Robot Operator Model-1, which equips the Atom to autonomously decompose complex tasks and make decisions instantaneously.

This feature ensures the robot's robust performance in unstructured environments across diverse industries like automotive assembly, food and beverage preparation, and pharmacy operations.In conclusion, DOBOT Atom is designed to handle repetitive and precision-dependent tasks in dynamic environments requiring robust adaptability and spaces maneuvering, marking its utility across commercial and industrial applications.

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DOBOT AtomInitial

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July 3, 2025

Initial release of DOBOT Atom.

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Organization Shenzhen Dobot Corp. 🇨🇳 China

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Autonomous humanoids DOBOT Atom

CN Shenzhen Dobot Corp.Autonomous humanoids

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Pros and Cons

Pros

Full-sized humanoid robot

Simulates human-like skills

Dexterous manipulation capability

Straight-knee walking ability

Neuro-Driven Dexterity System

Anthropomorphic Walking System

Advanced edge computing system

Multi-robot collaboration

Integrated human-robot interaction

Safety technologies for coordination

High synchronization in tasks

Continuous operation capability

Robot Operator Model-1

Autonomous decision making

Cross-scenario adaptability

Operates in unstructured environments

Suited for diverse industries

Precise control and endurance

Seamless coordination with humans

Stand-alone competencies

Adaptability in industrial environments

Utility in commercial applications

Robust performance

View 18 more pros

Cons

Complex task setup

Requires high synchronization

Limited to industrial environments

Requires specific physical spaces

Potential safety concerns

High demand on resources

Specialized maintenance requirements

Reliance on external hardware

Potential interoperability issues

View 4 more cons

Q&A

What is DOBOT Atom's Neuro-Driven Dexterity System?

DOBOT Atom's Neuro-Driven Dexterity System enables precise control of 28 upper-body degrees of freedom (DoF) through a Transformer-based architecture and binocular RGB vision. This system ensures smooth, human-like fine motor skills for tasks like tool usage, assembly, and multi-specification handling, inspired by human brain-hand co-evolution.

Can DOBOT Atom perform tasks in collaboration with other robots?

Yes, DOBOT Atom supports multi-robot collaboration. Its advanced edge computing system enables seamless coordination with other robots or human workers, optimizing efficiency in tasks requiring high synchronization, such as in production lines or in multi-device service scenarios.

What is the Anthropomorphic Walking System in DOBOT Atom?

DOBOT Atom's Anthropomorphic Walking System mimics human biomechanics. It generates highly human-like motion strategies through imitation and reinforcement learning. This system reduces energy consumption by 42% compared to traditional bent-knee walking, enhancing stability and endurance for continuous operation in industrial environments, including navigating narrow spaces and adapting to varying workstation heights.

What is the edge computing system in DOBOT Atom?

DOBOT Atom's edge computing system is an advanced technology that delivers 7.7x industry-standard computational power. This system facilitates multi-robot collaboration and optimizes efficiency in tasks requiring high synchronization.

What is meant by DOBOT Atom's stand-alone competencies?

DOBOT Atom's stand-alone competencies refer to its ability to independently handle tasks with a high level of precision, dexterity and adaptability, without requiring consistent human intervention. These competencies are rooted in advanced features like the Neuro-Driven Dexterity System and the Anthropomorphic Walking System.

How does the Robot Operator Model-1 enhance DOBOT Atom's adaptability?

The Robot Operator Model-1 in DOBOT Atom enhances its adaptability by combining base and vertical industry models to autonomously decompose complex tasks and make instant decisions. By training this model via imitation and reinforcement learning, DOBOT Atom ensures robust performance in unstructured environments across diverse industries.

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What types of tasks can DOBOT Atom handle in automotive assembly?

In automotive assembly, DOBOT Atom can handle tasks like material handling, tool usage, assembly, and multi-specification handling. Its Neuro-Driven Dexterity System enables precise control and smooth, human-like fine motor skills, while the Robot Operator Model-1 allows it to decompose complex tasks autonomously.

Can DOBOT Atom operate in food and beverage preparation environments?

Yes, DOBOT Atom can operate in food and beverage preparation environments. Its ability to decompose complex tasks and make decisions instantaneously, combined with its smooth, human-like fine motor skills, makes it suitable for handling different types of food-related tasks, such as preparing beverages in coffee shops.

What is DOBOT Atom's role in pharmacy operations?

In pharmacy operations, DOBOT Atom can perform tasks like nighttime dispensing. Its precision and ability to perform repetitive tasks, combined with its ability to operate in unstructured environments, make it well-suited to the pharmacy industry.

What makes DOBOT Atom suitable for precision-dependent tasks?

DOBOT Atom is suitable for precision-dependent tasks due to its advanced features. The Neuro-Driven Dexterity System enables precise control of its movements and operations, which is essential for tasks that demand high accuracy. It also has the ability to autonomously decompose complex tasks and make decisions instantaneously via the Robot Operator Model-1, allowing it to perform precision-dependent tasks efficiently.

What kind of safety technologies are integrated in DOBOT Atom for human-robot interaction?

DOBOT Atom integrates safety technologies within its system to facilitate safe human-robot interaction. While the explicit details of these technologies are not specified on their website, their primary function is to enable seamless coordination between the Atom and human workers without jeopardizing safety.

How does DOBOT Atom excel in cross-scenario adaptability?

DOBOT Atom excels in cross-scenario adaptability through features like the Robot Operator Model-1, which allows the robot to decompose complex tasks and make decisions autonomously. This ability is instrumental in ensuring the robot's robust performance across various unstructured environments.

Can DOBOT Atom function in varying and dynamic industrial environments?

Yes, DOBOT Atom can function in varying and dynamic industrial environments. Its advanced features including straight-knee walking ability and the Neuro-Driven Dexterity System provide it with the flexibility, adaptability, and precision control necessary to operate effectively in a range of industrial environments.

What are the commercial applications of DOBOT Atom?

DOBOT Atom is suitable for a variety of commercial applications. Its ability to handle repetitive and precision-dependent tasks, along with its adaptability in dynamic environments and compact space maneuvering capabilities, make it ideal for industries like automotive assembly, food and beverage preparation, pharmacy operations and more.

How does DOBOT Atom ensure high synchronization in tasks?

DOBOT Atom ensures high synchronization in tasks through its advanced edge computing system. This technology, combined with integrated human-robot interaction, facilitates seamless coordination between Atom and other robots or human workers, making it ideal for tasks requiring continuous operation and high synchronization.

How does DOBOT Atom maneuver in compact spaces?

DOBOT Atom can effectively maneuver in compact spaces. Its Anthropomorphic Walking System, which mimics human biomechanics, allows it to navigate narrow spaces and adapt to varying workstation heights, making it suitable for environments where space is a concern.

What is the straight-knee walking ability of DOBOT Atom?

The straight-knee walking ability of DOBOT Atom is an innovative feature that mimics human walking. This ability enhances the stability and endurance of the robot, ensuring its effective operation in industrial environments, including navigation in narrow spaces and adapting to varying workstation heights.

Can DOBOT Atom efficiently operate in continuous operation scenarios?

Yes, DOBOT Atom can efficiently operate in continuous operation scenarios. Its Anthropomorphic Walking System reduces energy consumption, enhancing stability and endurance for continuous operation. In addition, the advanced edge computing system enables high synchronization, optimizing efficiency in repeated tasks.

What is the role of the advanced edge computing system in multi-robot collaboration of DOBOT Atom?

In the context of multi-robot collaboration with DOBOT Atom, its advanced edge computing system provides computational power that is significantly higher than the industry standard. This facilitates seamless coordination with other robots or human workers, optimizing efficiency especially for tasks requiring high synchronization.

How does DOBOT Atom autonomously decompose complex tasks and make decisions?

DOBOT Atom autonomously decomposes complex tasks and makes decisions through its Robot Operator Model-1. This model combines base and vertical industry models and is trained via imitation and reinforcement learning. It has 100M parameters and 24Hz end-to-end control to ensure robust performance in unstructured environments.

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