We’re running demos for those interested in learning more about the Reach Alpha robotic manipulator arm and related products.

In these Reach Alpha webinars, James and Anders from Reach Robotics will be demonstrating the Reach Alpha manipulator system and answering your questions.

We will run through the following agenda:

  • Product overview – main features and specs
  • Setup and Control
  • Reach Control GUI – detailed look
  • Product Options and Variations – controllers, end-effectors, different manipulator variants
  • Q&A

We have two sessions this month to suit your location, sign up at the links below!

  • Session A (UK/Asia): Tuesday June 16, 2020, 5:00 PM AEST


  • Session B (Americas): Friday June 19, 2020, 7:30 AM AEST (Thursday evening in the US!)


What is the Reach Alpha?

The Reach Alpha is the world’s most lightweight, dexterous, and smart ROV manipulator for portable underwater vehicles. Not just for underwater robotic applications, the Reach Alpha is also suitable in other atmospheres and offers an intelligent small manipulator arm for a variety of sea, land, air, nuclear, and space operators.


Online sessions with Reach Robotics
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Command Pods

Command Pods are a pair of space mouse controllers comprising of left and right units. They are designed to attach to an ROV control tablet and allow full system control from one interface. The Command Pod configuration simplifies control of a dual-manipulator system as operators are able to intuitively control both arms, while still piloting the vehicle.
The joystick model allows for arms to be directed towards a target while the system automatically maps the arms configuration along that path.


Compatible with all Reach Robotics manipulators, the Master Arm controller is available in five and seven-function models to mimic your robotic arm. Achieve unparalleled precision and accuracy while undertaking complex tasks including:
  • Precise placement of probes for crack and corrosion monitoring.
  • Place and recover objects with unmatched dexterity and minimised
  • Attach hooks and shackles consistently.
  • Reach confined areas unreachable with lower degree-of-freedom manipulators
    and traditional control methods.