Based on the provided excerpt and headline: RoboDK will demo a new CAM software at Automate Chicago 2026 that reportedly cuts robotic machining deployment time by up to 40%. The showcase will feature CAD-to-robot machining and collision-free motion planning in a production-ready setup using a Mecademic robot.
What part of your workflow would benefit most from faster deployment and collision-free path planning?
RoboDK will showcase CAD-to-robot machining and collision-free motion planning in a production-ready setup using a Mecademic robot.
Cutting deployment time by 40% is nice, but in practice our bottlenecks are calibration and compliance - how does RoboDK handle TCP drift, fixture tolerance stack-up, and flex compensation so the cut matches CAM on a small Mecademic? Do your collision-free plans account for the real spindle/tool+cabling envelope, and do you have tolerance data vs. a CNC for light machining (e.g., aluminum brackets)?