R Top Platform Series

R Top Platform Series

The R Top Platform Series is a modular robotic mobile platform developed to accelerate the deployment of manipulation robots for real-world applications. Designed for teleoperation, AI data collection, and automation, it provides a scalable hardware foundation where embodied intelligence can be trained, validated, and deployed efficiently.

The R Top Platform Series is a modular robotic mobile platform developed to accelerate the deployment of manipulation robots for real-world applications. Designed for teleoperation, AI data collection, and automation, it provides a scalable hardware foundation where embodied intelligence can be trained, validated, and deployed efficiently.

The R Top Platform Series is a modular robotic mobile platform developed to accelerate the deployment of manipulation robots for real-world applications. Designed for teleoperation, AI data collection, and automation, it provides a scalable hardware foundation where embodied intelligence can be trained, validated, and deployed efficiently.

Year

Year

2025

2025

Industry

Industry

Logistics & Supply Chain

Logistics & Supply Chain

Scope of work

Scope of work

/

Robotics Design

Robotics Design

Robotics Design

/

Industrial and Product Design

Industrial and Product Design

Industrial and Product Design

Timeline

Timeline

6 months

6 months

Modular Robotics Platform

The R Top family—including R Top Static, R Top+, and R Top Linear—creates a unified robotic platform capable of supporting multiple manipulation configurations. Its modular architecture enables organizations to deploy robots faster while adapting the hardware to different operational needs.

The R Top family—including R Top Static, R Top+, and R Top Linear—creates a unified robotic platform capable of supporting multiple manipulation configurations. Its modular architecture enables organizations to deploy robots faster while adapting the hardware to different operational needs.

The platform was designed as the physical foundation for manipulation robotics. By integrating interchangeable mobile bases, configurable vertical structures, and multiple robotic arm options, it supports teleoperation, autonomous manipulation, warehouse automation, and AI training. The design reduces development time while providing a scalable ecosystem that evolves with changing applications.

The platform was designed as the physical foundation for manipulation robotics. By integrating interchangeable mobile bases, configurable vertical structures, and multiple robotic arm options, it supports teleoperation, autonomous manipulation, warehouse automation, and AI training. The design reduces development time while providing a scalable ecosystem that evolves with changing applications.

Retro Car
Woman Workout
Woman Workout
Woman Workout

Embodied Intelligence Infrastructure

Developed in collaboration with Robot.com and powered by i2RT hardware, the platform combines industrial engineering with modular robotics to accelerate deployment, AI training, and real-world automation using proven third-party technologies.

Developed in collaboration with Robot.com and powered by i2RT hardware, the platform combines industrial engineering with modular robotics to accelerate deployment, AI training, and real-world automation using proven third-party technologies.

The Linear version incorporates a high-speed vertical linear actuator with travel speeds up to 300 mm/s, delivering smooth and highly accurate positioning for dense workspaces. Dual configurable YAM robotic arms allow multiple manipulation configurations, while the integrated self-locking brake maintains the robot's position during power loss without energy consumption. Multiple wheel-base iterations were tested to optimize stability, mobility, and manipulation performance across diverse environments.

The Linear version incorporates a high-speed vertical linear actuator with travel speeds up to 300 mm/s, delivering smooth and highly accurate positioning for dense workspaces. Dual configurable YAM robotic arms allow multiple manipulation configurations, while the integrated self-locking brake maintains the robot's position during power loss without energy consumption. Multiple wheel-base iterations were tested to optimize stability, mobility, and manipulation performance across diverse environments.

Woman Workout
Woman Workout
Retro Car

Designed For Deployment

Every version of the R Top platform was designed to simplify implementation. From research laboratories to industrial facilities, the platform allows rapid integration of manipulation hardware while providing a clean, recognizable identity aligned with the Robot.com ecosystem.

Every version of the R Top platform was designed to simplify implementation. From research laboratories to industrial facilities, the platform allows rapid integration of manipulation hardware while providing a clean, recognizable identity aligned with the Robot.com ecosystem.

The platform supports dual 6-DOF YAM arms, mobile operation, remote teleoperation, autonomous workflows, and AI data collection within a single hardware architecture. The product family includes fixed, enhanced, and linear-lift configurations, allowing users to select the ideal platform for research, logistics, manufacturing, or embodied AI applications while maintaining a consistent mechanical and visual language.

The platform supports dual 6-DOF YAM arms, mobile operation, remote teleoperation, autonomous workflows, and AI data collection within a single hardware architecture. The product family includes fixed, enhanced, and linear-lift configurations, allowing users to select the ideal platform for research, logistics, manufacturing, or embodied AI applications while maintaining a consistent mechanical and visual language.

Man Workout
Woman Workout
Woman Workout
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Foundation For Embodiment

The R Top Platform Series represents more than a robotic base—it establishes a scalable infrastructure for the next generation of embodied intelligence. By combining modular industrial design, engineering, and AI-ready hardware, the project enables faster experimentation and deployment.

The R Top Platform Series represents more than a robotic base—it establishes a scalable infrastructure for the next generation of embodied intelligence. By combining modular industrial design, engineering, and AI-ready hardware, the project enables faster experimentation and deployment.

Rather than designing a single robot, this project created a flexible ecosystem capable of supporting evolving manipulation technologies. The collaboration between industrial design, engineering teams, Robot.com, and i2RT produced a platform that accelerates AI training, teleoperation, and automation while remaining adaptable to future robotic hardware. It serves as a robust physical foundation for the embodied intelligence era.

Rather than designing a single robot, this project created a flexible ecosystem capable of supporting evolving manipulation technologies. The collaboration between industrial design, engineering teams, Robot.com, and i2RT produced a platform that accelerates AI training, teleoperation, and automation while remaining adaptable to future robotic hardware. It serves as a robust physical foundation for the embodied intelligence era.

Man Workout

Direction Team: Felipe Chávez, Judah Longgrear, Natalia Valderrama, David Rodríguez, Sergio Pachón, Kim Fennell. Design Team: Joell Martínez, Erika Ospina, Johan Ceballos, Miguel Sierra. Engineering Team: Natalia Pinilla, Andrés Rengifo, Leonardo Correa, Miguel Jiménez, José Logreira, Dany Cáceres, Andrés Martínez.

Direction Team: Felipe Chávez, Judah Longgrear, Natalia Valderrama, David Rodríguez, Sergio Pachón, Kim Fennell. Design Team: Joell Martínez, Erika Ospina, Johan Ceballos, Miguel Sierra. Engineering Team: Natalia Pinilla, Andrés Rengifo, Leonardo Correa, Miguel Jiménez, José Logreira, Dany Cáceres, Andrés Martínez.

Direction Team: Felipe Chávez, Judah Longgrear, Natalia Valderrama, David Rodríguez, Sergio Pachón, Kim Fennell. Design Team: Joell Martínez, Erika Ospina, Johan Ceballos, Miguel Sierra. Engineering Team: Natalia Pinilla, Andrés Rengifo, Leonardo Correa, Miguel Jiménez, José Logreira, Dany Cáceres, Andrés Martínez.

Head designer

Head designer

Alejandro Otálora

Alejandro Otálora

Team

Team

robot.com

robot.com

Company

Company

robot.com

robot.com

robot.com

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Let’s design.

Tell us about your vision—whether you're looking to develop next-generation mobility, autonomous robotics, or market-ready industrial products.

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Have a project in mind?

By submitting, you agree to our Terms and Privacy Policy.

2026 alot_design® Studio722

Let’s design.

Tell us about your vision—whether you're looking to develop next-generation mobility, autonomous robotics, or market-ready industrial products.