BitRobot

get involved

Join the
Open Robotics Movement

Build the future of distributed robotics — with one machine, one subnet, one mission at a time.

mission briefing

engage with the network

Active subnets: 6

updated frequently

Welcome to
The World’s Open Robotics Lab.

contribution

pathway breakdown

Connect & Explore

Choose active robotics tasks to participate in, from teleoperation to gameplay and wearable devices.

real robots, real data, real outcomes.

Contribute & Earn

Drive, record, or teleoperate to complete tasks. All verified work earns tokens.

train, shape, reinforce, drive.

Refer

Boost your rewards by referring others to the network. Referrals are complete when you both complete a task.

Grow the network. Advance embodied ai.

Contribute to active subnets

Each subnet is a live robotics mission coordinated on the BitRobot Network.
Feed the models that are shaping the future.

Active missions: 7

SN/01

ET Fugi

Remotely operate real rover robots to catch alien fugitives in urban environments

Robotic embodiment:

Rovers

output type:

Teleop dataset

SN/01

ET Fugi

Remotely operate real rover robots to catch alien fugitives in urban environments

Robotic embodiment:

Rovers

output type:

Teleop dataset

SN/02

Earth Rovers Grand Challenge

Autonomous urban navigation models benchmarked against humans

Robotic embodiment:

Sidewalk Robot

output type:

AI Models

ag/01

Earth Rovers Agent Kit

Your personal playground for AI Agents & Embodied Intelligence

Robotic embodiment:

Sidewalk Robot

output type:

Agents

ag/01

Earth Rovers Agent Kit

Your personal playground for AI Agents & Embodied Intelligence

Robotic embodiment:

Sidewalk Robot

output type:

Agents

ag/01

Earth Rovers Agent Kit

Your personal playground for AI Agents & Embodied Intelligence

Robotic embodiment:

Sidewalk Robot

output type:

Agents

SN/03

Robotic Origami Grand Challenge

AI models benchmarked against human experts from Nippon Origami Association

Robotic embodiment:

Robotic Hand

output type:

AI Models

two hands reaching for a flying object in the sky

SN/04

Robotic IKEA Assembly

AI models benchmarked against human furniture assembly

Robotic embodiment:

Mobile Manipulator

output type:

AI Models

SN/04

Robotic IKEA Assembly

AI models benchmarked against human furniture assembly

Robotic embodiment:

Mobile Manipulator

output type:

AI Models

SN/04

Robotic IKEA Assembly

AI models benchmarked against human furniture assembly

Robotic embodiment:

Mobile Manipulator

output type:

AI Models

a cell phone sitting on top of a window sill

SN/05

Seesaw by Virtuals

Real-world egocentric video collection through mobile phone task recording

Robotic embodiment:

iPhone

output type:

video dataset

SN/05

Seesaw by Virtuals

Real-world egocentric video collection through mobile phone task recording

Robotic embodiment:

iPhone

output type:

video dataset

A 3D printer is manufacturing orange plastic parts.

SN/06

TeleArms: RoboPlayground

Control simulated robotic arms to complete virtual tasks

Robotic embodiment:

simulation platform

output type:

Teleop-in-Sim Dataset

SN/06

TeleArms: RoboPlayground

Control simulated robotic arms to complete virtual tasks

Robotic embodiment:

simulation platform

output type:

Teleop-in-Sim Dataset

SN/06

TeleArms: RoboPlayground

Control simulated robotic arms to complete virtual tasks

Robotic embodiment:

simulation platform

output type:

Teleop-in-Sim Dataset

For Researchers & Builders

BitRobot isn’t just for contributors. It’s an open platform for researchers to accelerate their work.

research
opportunity Hub

Launch

Launch your own subnet

Coordinate data collection, testing, or training through your own robotics missions. Participation is open to contributors at all levels, from hobbyists to active researchers.

launch now

Access

Access real-world data

Use verified robotics datasets for embodied AI research. Speak to us about using datasets generated by BitRobot Network subnets for your own research.

get the data

COLLABORATE