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Stemi Bot
Hands-On Robotics and Coding for the Modern Classroom
Built for STEM Learning Through Direct Interaction
StemiBot combines an autonomous robot with MIT Scratch programming. Students write block-based code and see it run in real time. Abstract concepts become visible and immediate. Teachers get a classroom-ready robot. No complex setup. No specialist technical knowledge required.
Start with one robot in a single class. Scale to multiple classrooms with ease. Manage everything through HelloGard Intelligence without complex setup or additional technical staff.
Where StemiBot Belongs
K-12 Classrooms and Schools
After-School and STEM Programs
University and Research Labs
Corporate Training Environments
What Students Actually Do With StemiBot
From contactless drops in busy corridors to routine staff support, StemiBot handles the moves that keep your operation flowing.
01
Coding Lessons
Students write block-based programs in MIT Scratch that control StemiBot's movement, speech, and screen in real time
02
Coding Competitions
Challenge groups to program StemiBot to complete a task, navigate a route, or solve a problem within a set time
03
Interactive Storytelling
Students build stories where StemiBot acts as a character, combining creative writing with programming logic
04
Real-World Problem Solving
Present real scenarios for students to solve using code and robotics, building critical thinking alongside technical skills
05
Virtual Presentations and Tours
Use StemiBot to guide guests, present projects, or run automated tours during open days or school events
06
Career Readiness
Give students practical coding and robotics skills that map directly to careers in technology, engineering, and operations
What Powers the Learning Experience
Purpose-built for environments that demand agility, awareness, and easy day-one deployment.
MIT Scratch Integration
Students program StemiBot using Scratch, the block-based visual coding environment developed at the MIT Media Lab
Autonomous Navigation
StemiBot maps its environment and moves between locations without manual guidance, responding directly to student code
Interactive Touchscreen
A full HD display allows students to add visual outputs, content, and interfaces to their programs
Voice and Audio Interaction
StemiBot speaks, listens, and responds, allowing students to build conversational programs
Open SDK
Advanced students can go beyond Scratch into deeper customisation through the open developer platform
Classroom-Ready Setup
Operational in a standard classroom without infrastructure changes or specialist installation
Technical Specifications
Category | Specification |
|---|---|
Programming Interface | MIT Scratch, block-based drag-and-drop coding |
Advanced Programming | Open SDK for deeper customisation and application development |
Navigation | Autonomous indoor navigation with obstacle avoidance |
Speed | Up to 1 m/s |
Display | 13.3 inch Full HD IPS touchscreen, 1920 x 1080 |
Battery Life | Up to 8 hours |
Charging | Autonomous docking |
Connectivity | Wi-Fi 5, Bluetooth 5.0 |
Interaction | Voice commands, touchscreen, two-way audio and video |
Dimensions | 35 cm wide, 45 cm deep, 100 cm tall |
Weight | 12 kg |
Platform Integration | Manageable through HelloGard Intelligence for schools with multiple units |
Robots
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Resources
Explore articles, case studies, and technical resources designed to help teams deploy, manage, and scale autonomous systems effectively.
Why StemiBot Works When Simulators Don't
Four reasons operators choose StemiBot to move items through spaces that never sit still.
Code a Real Robot, Not a Simulation
Students see the direct result of their code on a physical robot that moves, speaks, and navigates. That connection between code and outcome is what makes the learning stick
Built for Educators, Not Technicians
StemiBot runs on a platform teachers can configure and manage without needing a technical background
Scales from Beginner to Advanced
Block-based Scratch keeps entry simple for younger students, while the open SDK keeps advanced learners challenged within the same robot
Ready for the Classroom Today
No infrastructure changes, no long setup, no specialist staff required to get StemiBot running in a classroom
02
Temi Run
Fast, contactless delivery in healthcare facilities, hospitality environments, and commercial spaces where agile navigation and guest interaction are essential.
03
Ottobot
Autonomous last mile delivery across large campuses and mixed indoor–outdoor environments such as enterprise complexes, retail destinations, and public spaces.
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02
Keenon W3
Automated transport of supplies, meals, and operational items across structured indoor facilities with multi-point delivery requirements.
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Resources
Explore articles, case studies, and technical resources designed to help teams deploy, manage, and scale autonomous systems effectively.
What Changes in the Classroom
​Measurable gains across teams, spaces, and workflows.
Give students hands-on programming experience with a robot they can see and interact with
Build coding confidence from beginner level through to advanced application development
Connect classroom learning to real-world robotics and technology careers
Run STEM programs without specialist technical staff or complex infrastructure