Hands-On Robotics, AI, and Autonomous Systems for Engineering and CS Education
Faculty-ready instructional systems that help university engineering and computer science programs deploy hands-on labs, support ABET-aligned outcomes, and integrate robotics, AI, simulation, UAVs, and autonomous systems into existing courses.
Built for Modern Engineering and CS Education
Comprehensive robotics, AI, and aviation instructional systems that help engineering programs launch courses, enhance existing curricula, and scale hands-on learning. Designed to support faculty implementation, lab deployment, and program growth, LocoRobo enables departments to integrate emerging technologies across existing courses and multiple program levels.
WHY PROFESSORS CHOOSE LOCOROBO?
ABET-EAC / ETAC / CAC aligned
Supports outcome-based assessment, data collection, and continuous improvement for accredited programs.
Faculty-ready implementation
Ready-to-use labs, curriculum, slides, and rubrics that reduce prep time and accelerate course adoption.
Modular deployment
Deploy as standalone modules, full course systems, or multi-course pathways across robotics, AI, aviation, computing, and engineering programs.
Hands-On Engineering Standardized Operation Procedures
Work with real hardware, simulation tools, programming environments, sensors, autonomous systems, and applied engineering challenges.
Robotics, AI, and aviation systems for hands-on engineering education
Each system maps to existing university courses and can be adopted independently or sequenced across a full program pathway.
Intro Robotics and Embedded Systems
Designed for:
Freshman engineering, introductory robotics, embedded systems, mechatronics foundations, and physical computing courses.
Hardware:
LocoXtreme + LocoScout
Course Topics:
Sensors, actuators, electronics integration, embedded systems, physical computing, robotics fundamentals, introductory programming.
Students learn to:
Apply robotics fundamentals across sensors, actuators, electronics, and embedded systems.
Design and test physical computing and robotics programs on real hardware.
Connect software logic to real-world robotic behavior.
Robotics Simulation and Autonomous Systems
Designed for:
Robotics simulation, ROS-based systems, autonomous navigation, mapping, and applied robotics courses.
Hardware:
LocoHex + LocoRover
Course Topics:
ROS, Gazebo, SLAM, sensor fusion, mapping, autonomous navigation, simulation-to-hardware deployment.
Students learn to:
Configure ROS-based simulation environments.
Implement SLAM, sensor fusion, and perception for robot navigation.
Test autonomous behaviors in simulation and deploy them to physical robots.
Human Robot Interaction Systems
Advanced robotics, human-robot interaction, robotic manipulation, perception-driven behavior, and interactive robotics courses.
Hardware:
LocoScout + LocoArm + LocoHex
Course Topics:
Human-robot interaction, robotic manipulation, perception systems, AI-assisted behaviors, bio-inspired robotics.
Students learn to:
Develop human-robot interaction workflows.
Design manipulation and perception-based robotic tasks.
Analyze how robots respond to users, environments, and real-time sensor inputs.
Embedded AI and Edge Robotics Systems
Designed for:
AI robotics, computer vision, embedded AI, autonomous perception, and edge computing courses.
Hardware:
LocoHex + LocoRover
Course Topics:
Computer vision, embedded AI, real-time inference, autonomous perception, edge robotics, AI-enabled decision-making.
Students learn to:
Deploy computer vision and AI inference models on edge devices.
Connect AI perception to autonomous robotic behavior.
Test real-time AI workflows on physical robotics platforms.
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Aviation Fundamentals and UAV System Design
Designed for:
Intro UAV systems, aerospace technology, aviation systems, and flight systems engineering courses.
Hardware:
LocoDroneX + TryDrones + LocoDrone
Course Topics:
Drone assembly (indoor and outdoor), propulsion, sensors, aerodynamics, flight systems
Students learn to:
Understand UAV components, propulsion, sensors, and flight controllers.
Apply aerodynamics and flight systems concepts to UAV operations.
Build and test UAV systems in structured lab environments.
Autonomous Flight and UAV Design
Autonomous flight systems, UAV software workflows, drone programming, and mission planning courses.
Hardware:
LocoDroneX + TryDrones
Course Topics:
Mission planning, waypoint navigation, sensor integration, UAV programming.
Students learn to:
Program autonomous indoor flight behaviors and outdoor waypoint missions.
Design and test single-drone autonomous missions.
Integrate sensors and communication systems into UAV workflows.
Advanced UAV Systems and Multi-Drone Operation Design
Designed for:
Advanced UAV systems, autonomous aerial operations, payload integration, and multi-drone coordination courses.
Hardware:
LocoDroneX multi-drone systems
Course Topics:
Multi-drone coordination, sensor payload integration, autonomous aerial workflows, UAV systems engineering.
Students learn to:
Coordinate multi-drone systems for advanced aerial robotics applications.
Integrate payloads for aerial data collection.
Design advanced UAV missions using autonomous systems workflows.
Engineering and Computer Science Programs Is Evolving
Universities are preparing students for systems that combine hardware, software AI, simulation, sensors, and autonomous decision-making.
LocoRobo provides comprehensive robotics, drones, and AI teaching systems that help programs launch courses, strengthen existing curricula, and scale hands-on learning with support for pathway design, lab deployment, and faculty adoption.
Courses from Freshman to Senior Year
Flexible instructional systems designed to support introductory through advanced engineering and computer science programs across multiple program levels.
Industry-Relevant Technologies
Expose students to robotics, autonomous systems, UAV technologies, embedded computing, and AI applications that reflect emerging engineering practices.
Expert Technical and Curricular Support
Connect with our team via email, video, or phone for assistance with implementation, troubleshooting, and instructional questions, typically within 24 hours.
LMS Integration
Integrate seamlessly with Canvas, Blackboard, and Moodle to simplify course delivery and provide students with centralized access to instructional resources.