We provide a range of educational, coaching, training activities for both students and professionals, as well as STEM summer innovation camps for high school students. These include formal training sessions, seminars, and workshops in the following areas:

Attendees will learn the full suite of robotics operations for scalable production. The training provides the skills required for range of robotic applications including architectural assembly, construction, industrial scale printing, painting, “pick and place” for packaging, welding, and CNC milling.

This training provides necessary skills and knowledge of software and tools for students and professionals in architecture, engineering, and construction industries to translate their ideas into 2D and 3D forms. Attendees will learn how to use CNC milling machine, 3D printers, laser cutters, and CAM based equipment to create physical objects.

Workshops on small robotics are focused on how to use Arduino micro-controllers and Raspberry Pi general purpose small computers. Arduino workshop attendees will learn how to build interactive devices using servo motors, pneumatic actuators, and sensors. Raspberry Pi workshops are focused on teaching how to build hardware and software projects.

In this workshop students and professionals will learn how to create real time visualization tools such as 2D mobile applications and desktop PC computer games. Attendees will learn how to use Unreal Engine, Unity 3D and Touchdesinger software to plan and design Virtual Reality or Augmented Reality environments.

This workshop is focused on teaching Building Information Modeling (BIM) applications such as Revit, which is an intelligent 3D modeling software. Attendees will learn how to use Revit for efficient design, planning, construction, and management processes in architecture, engineering, and construction (AEC) professionals.

STEM Summer Innovation Camps

The Summer Camps provide opportunities for high school and middle school students to learn about industrial robotics, 3D printing, and visualization technologies using hands-on experiments with the lab’s cutting-edge technologies.

Product Development & Prototyping

We offer cutting-edge facilities to our clients to explore ideas using visualization tools, and fabrication and production technologies including but not limited to mold making for panel systems, subtractive wood and foam work for furniture prototyping, and additive ceramic and concrete manufacturing for industrial scale prototypes. Our prototyping tools include:

3D printing

PLA – MakerBot
Resin – FormLabs
Ceramic – KUKA KR30

3D scanning

Laser Scanning – DAVID

CNC milling

3-Axis milling machine
7-Axis – KUKA KR30

Modular Assembly

6-Axis – KUKA KR10
7-Axis – KUKA KR30

Hot wire foam formwork

6-Axis – KUKA KR10
7-Axis – KUKA KR30

Process Improvement, Application Development, and Automation

Through integration of robotics and computer aided digital tools and techniques we combine innovative software and custom automation engineering to create unique solutions that reduce production costs and increase up-time.  Using our expertise and resources we offer design, prototyping, and development of end of arm solutions that meet client-specific system needs.

We provide tailored manufacturing, autiomation, consultation, and solutions to businesses to help them improve production performance, reduce cost, risk, and downtinme, as well as add more value to their manufacturing operations.

We design, prototype, and develop end of arm tooling solutions which are devices attached to the end of a robotic arm to perform a variety of tasks. These include end of arm devices for packaging and staking, industrial painting, milling wood, welding metal, cutting foam as well as printing in plastic, clay, and concrete.  Our team will implement functional end of arm tools to increase uptime, production capacity, and improve product’s handling operations.