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Apollo
apollo-apptronik
Apollo
apollo-apptronik
Apollo is a humanoid robot developed by Apptronik for industrial and logistics operations . Designed to work safely alongside humans, Apollo supports material handling, warehouse workflows, and factory tasks by taking over physically demanding and repetitive work. Its human-sized design allows easy integration into existing industrial environments without infrastructure changes.
Apollo is a humanoid robot by Apptronik , designed for industrial and logistics environments . It supports material handling, warehouse operations, and factory tasks by taking over repetitive, physically demanding, and unsafe work.
With its human-sized design , Apollo can operate in existing facilities without infrastructure changes and work safely alongside human employees . Features like swappable batteries and modular tools enable continuous operation and flexible deployment across multiple industrial use cases.
Apollo is ideal for warehouses, fulfillment centers, and manufacturing plants looking for adaptable, human-centered automation.
manufacturer
Apptronics
WARRANTY YEARS
battery_life_h
4
imu
Apollo uses an integrated IMU (Inertial Measurement Unit) to measure orientation, acceleration, and angular velocity. The IMU supports balance, stable bipedal walking, posture control, and motion coordination, especially during dynamic movements such as lifting, turning, and navigating uneven surfaces.
IMU data is fused with vision and other sensors to ensure smooth, safe, and precise operation in industrial and logistics environments.
storage_gb
0
feature_bullets
Apollo provides a modern, developer‑friendly programming interface designed for industrial and logistics deployments. The robot supports robotics‑standard software frameworks and APIs that enable flexible control, integration, and task development.
Key aspects include:
ROS / ROS 2 compatibility for motion control, perception, and task orchestration
High‑level APIs for manipulation, navigation, and workflow automation
Support for teleoperation and imitation learning , enabling fast task training
Integration-ready architecture for warehouse management systems (WMS), factory software, and AI pipelines
Remote monitoring and fleet management through enterprise tooling
The programming interface allows companies to customize Apollo for specific industrial tasks while maintaining scalability, security, and long‑term updatability.
manufacturer country
USA
height_cm
173
charging_time_h
2
microphones
Apollo can be equipped with integrated microphones to support voice interaction, audio feedback, and human‑robot communication, depending on configuration and deployment. Microphones enable basic speech input, sound detection, and situational awareness, primarily for collaborative industrial and logistics environments.
Audio input is typically used in combination with visual and motion sensors to enhance safe and intuitive operation around human workers.
programming
Apollo provides a modern, developer‑friendly programming interface designed for industrial and logistics deployments. The robot supports robotics‑standard software frameworks and APIs that enable flexible control, integration, and task development.
Key aspects include:
ROS / ROS 2 compatibility for motion control, perception, and task orchestration
High‑level APIs for manipulation, navigation, and workflow automation
Support for teleoperation and imitation learning , enabling fast task training
Integration-ready architecture for warehouse management systems (WMS), factory software, and AI pipelines
Remote monitoring and fleet management through enterprise tooling
The programming interface allows companies to customize Apollo for specific industrial tasks while maintaining scalability, security, and long‑term updatability.
use_cases
Apollo provides a modern, developer‑friendly programming interface designed for industrial and logistics deployments. The robot supports robotics‑standard software frameworks and APIs that enable flexible control, integration, and task development.
Key aspects include:
ROS / ROS 2 compatibility for motion control, perception, and task orchestration
High‑level APIs for manipulation, navigation, and workflow automation
Support for teleoperation and imitation learning , enabling fast task training
Integration-ready architecture for warehouse management systems (WMS), factory software, and AI pipelines
Remote monitoring and fleet management through enterprise tooling
The programming interface allows companies to customize Apollo for specific industrial tasks while maintaining scalability, security, and long‑term updatability.
robot type
Humanoid
WIDTH_cm
num_joints_total
44
speakers
Apollo includes integrated speakers used to provide audio feedback and status communication during operation. The speakers support sounds or voice output to signal robot states, alerts, and basic human‑robot interaction in industrial and logistics environments.
Audio output complements visual indicators and helps improve clarity, safety, and collaboration when Apollo operates alongside human workers.
os
Apollo runs on a Linux‑based operating system designed for real‑time robotic control and industrial reliability . The OS supports ROS / ROS 2 and provides the foundation for perception, motion control, sensor fusion, and AI execution.
Key aspects:
Linux‑based, real‑time capable architecture
ROS / ROS 2 support for modular robotics development
Deterministic control loops for balance, locomotion, and manipulation
Secure and updatable software stack for long‑term industrial use
Integration‑ready for enterprise IT, factory systems, and cloud services
The operating system is optimized for continuous operation in logistics and manufacturing environments and supports scalable deployment across robot fleets.
Category
Industry & Logistics Use Case
depth_cm
num_joints_arms
7
CPU
Apollo uses a custom onboard computing system designed for real‑time perception, motion control, and sensor fusion. The CPU handles tasks such as vision processing, balance control, manipulation planning, and safe human‑robot interaction.
The computing architecture is optimized for industrial reliability, low latency control loops, and integration with AI and autonomy software used in logistics and manufacturing environments.
certifications
0
price in euro
weight_kg
72.6
num_joints_legs
GPU
Apollo uses an integrated onboard GPU as part of its computing stack to accelerate AI workloads, vision processing, and perception tasks. The GPU supports real‑time processing of camera and sensor data, enabling object recognition, navigation, manipulation planning, and safe human‑robot interaction in industrial and logistics environments.
The exact GPU model is not publicly specified and may vary by configuration or deployment. The architecture is optimized for low‑latency, power‑efficient operation in continuous industrial use.
safety_features
Apollo is designed with a strong focus on safe human‑robot collaboration in industrial and logistics environments. Its safety systems allow the robot to operate alongside people without traditional safety cages.
Key safety features include:
Force‑controlled actuation to limit impact forces and enable compliant interaction
Real‑time person detection using vision and depth sensors
Automatic speed reduction and stopping when humans enter the safety zone
Stable bipedal balance control to prevent falls during operation
Visual and audio status indicators for clear communication with nearby workers
Fail‑safe behaviors for controlled stopping in case of faults or power issues
These features make Apollo suitable for shared workspaces, reducing risk while maintaining productivity in warehouses and factories.
price in USD
50000
max_speed_kmh
5.4
camera_system
Apollo is equipped with a multi‑camera vision system designed for industrial and logistics environments. The system includes RGB cameras and depth sensors to support object detection, navigation, and safe human‑robot collaboration. Visual data is combined with force and motion sensors to enable precise manipulation and situational awareness in warehouses and factories. [apptronik.com], [humanoidindex.org]
ram_gb
datasheet_pdf
0
DELIVERY TIME
12
payload_kg
25
lidar
Apollo supports LiDAR‑based perception as part of its sensing stack, depending on configuration and deployment. LiDAR is used to enhance spatial awareness, environment mapping, and navigation, especially in complex industrial and logistics settings such as warehouses and factory floors.
Combined with cameras and depth sensors, LiDAR helps Apollo navigate safely, detect obstacles, and operate reliably around humans and dynamic objects.
ai_capabilities
Apollo is equipped with advanced AI‑driven perception, control, and autonomy capabilities designed for industrial and logistics operations . Its onboard AI enables the robot to understand environments, manipulate objects, and collaborate safely with humans in real time. [apptronik.com] , [humanoidindex.org]
Key AI capabilities include:
Perception & scene understanding using camera, depth, and LiDAR data
Object detection and manipulation planning for boxes, totes, and components
Autonomous navigation in warehouses and factory floors
Force‑aware control for safe human‑robot collaboration
Task learning via teleoperation and imitation learning , enabling faster deployment in real environments [manus-meta.com]
Apollo's AI stack supports human‑supervised autonomy , allowing it to transition from guided operation to increasingly autonomous task execution as models are trained and refined in production settingsApptronik OS (proprietary)
review_rating