college level module

robotics education

training the future

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Video presentation

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College Level Robotics Education

Millennial Robotics

Millennial Robotics is a groundbreaking, full-spectrum robotics education program designed to prepare students for the future of technology, automation, and AI. Students begin with a hands-on, year-long course where they learn computer hardware, coding, CAD design, electronics, and robot assembly — culminating in the creation of their own custom robot. Following the school-year program, students participate in a summer specialization lab, where they refine their final projects and explore advanced robotics topics like autonomous navigation and AI integration. The curriculum is built to be immersive, collaborative, and deeply practical — with a strong emphasis on real-world problem-solving and teamwork.

Beyond the classroom, students are connected through the Dream Cloud social network app, where they can showcase their work, join interest-based groups, ask technical questions, and collaborate with peers across the country. Graduates of the program are encouraged to apply for positions at the growing Millennial Robotics company, which is developing real-world robots for industries like automation, logistics, and clean tech. This creates a complete ecosystem: students become builders, leaders, and eventually, paid professionals — all within the same network.

What can we expect from this robotics program?

Program Outline

The students will receive hands on experience programming and building various robots.

The schools will receive a comprehensive robotics program that will attract more students.

The community will receive a social network app to share projects and collaborate.

The graduates will receive work opportunities after completing this course.

Who is Millennial Robotics?

Company Profile

We produce educational content focussed on designing, programming and building robots.

We design custom robots that can be deployed to accomplish real world tasks.

We are building a social network app to connect schools within our robotics community.

We promote open source technology allowing everyone in the robotics field to grow and thrive!

What can we expect from this robotics class?

Course Outline

Q1: Core Robotics Systems – Students will learn the basics of robotics hardware.

Q2: Robotic Navigation – Students will learn how to make robots move intelligently.

Q3: Robotic Automation – Students will learn how to program robots on automated tasks.

Q4: Autonomous Robots – Students will learn how to program robots to control themselves.

First quarter curriculum outline

Core Robotic Systems

We explore electricity, circuits, voltage, sensors and complimentary components.

We master standard computer components and how they are used in robotics.

We learn Python, CAD, Linux, Raspberry Pi, and the Robot Operating System (ROS_2).

We understand simple robot programs using our fundamental knowledge base.

Second quarter curriculum outline

Robotic Navigation

We explore how robots move and communicate in warehouse settings.

We master LiDar sensors and camera based smart navigation systems.

We learn how to set up ROS_2 (Robot Operating System) and import fundamental libraries.

We program a mobile robot cart using our fundamental knowledge base.

Third quarter curriculum outline

Robotic Automation

We explore how robotic arms work using joints, actuators, and motor sensors.

We master software tools that allow us to control the automation robots.

We learn how the robots handle objects and place them in specific locations.

We program a simple robot arm using our fundamental knowledge base.

Fourth quarter curriculum outline

Autonomous Robots

We explore self driving logic and the systems that power autonomous vehicles.

We master advanced LiDar sensors and camera based smart navigation systems.

We learn how a robot navigates within the environment autonomously.

We program robots to complete various tasks autonomously using both navigation and automation.

Complimentary computer training

Advanced Software

We explore Python as a coding language and learn fundamental programming syntax.

We master Linux OS (Ubuntu 22.04), Solid Works 3D modeling platform, and Blender animation studio.

We learn how to 3D print robotic components using various equipment and materials.

We program robots to interact with existing artificial intelligence applications.

Students showcase their knowledge

Final Project

We organize the class into teams of four students that will work together on a final robot.

We master all of the tools needed to make our robot complete simple tasks autonomously.

We learn how to work together as a team to program and build robot parts.

We build a custom robot to perform desired tasks using our fundamental knowledge base.

Full year education model

Summer Program

We explore the potential of first year projects completed during the regular school session.

We master real world application of custom robots and deploy working prototypes.

We learn how to market robotics products to consumers or businesses in the community.

We build market ready robots and design client specific software applications.

Existing robotic systems knowledge

Industry Partners

We partner with leading robotics manufacturers that have existing robotic systems deployed.

We master product specific user manuals and educational material needed to work on robots.

We learn how to improve upon the existing frameworks to manufacture our own product line.

We build custom robots to perform desired tasks using our fundamental knowledge base.

Second year education model

Artificial Intelligence

We explore existing artificial intelligence applications and how they interact with robots.

We master real world application of AI robots and deploy working prototypes.

We learn how to design advanced AI robotic products for consumers or businesses in the community.

We build market ready AI robots and design client specific software applications.

Millennial Robotics employment

Post Graduation

We partner with leading robotics recruiters that are ready to hire trained professionals.

We employ post graduates to work on Millennial Robotics products deployed in the community.

We train post graduates to teach the curriculum to future students within our education network.

We build custom robots companies for post graduates to manage and deploy.

Sustainable education business model

Operational Budget

An upfront investment of $10K will equip the lab with computers and tools for the next 5 years.

The yearly cost of this program is $130K including salary, utilities, materials and set up cost amortized.

The school charges $3K per student becoming profitable at 50 students $150K / 100 students = $300K revenue.

We can built 5 classes of 20 students reaching our goal of 100 total yearly students utilizing one faculty member.

Franchise education model

Teacher Training

Our professional robotics coach will train advanced post graduate students to manage local classes.

We can help your existing robotics teachers learn to use our standard kit platforms.

You can start your own robotics school franchise using our education model and professional network.

We keep teachers and students connected on the social networking app.

Connecting technology classrooms

Robotic Network

Our Dream Cloud app is a social network designed for sharing technology projects.

This will connect all of our students into one large digital classroom and promote collaboration.

The network will allow users to seek employment, recruit talent, fund projects, and troubleshoot issues.

The application can be extended to include complimentary fields such as manufacturing and materials research.

How do schools offer this robotics program?

Program Launch

Integrate this program into existing robotics department or replace a course with this standardized model.

Request a consultation to explore custom robotics course options to fit your education model.

Utilize our free online learning modules and request support from one of our team members.
Contact a Millennial Robotics training coach by clicking the link below.