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EDITOR’S CHOICE FROM AUTOMATION TO AUTONOMY


Dijam Panigrahi, Co- founder and COO of GridRaster, says we are entering the next phase of robotic automation, where robots no longer simply complete repetitive tasks, but can begin to take on some of the decision- making


fundamental shift from robots that simply follow instructions to those that


T


decide what to do next. For the past decade, collaborative robots (cobots) have been viewed as tireless helpers for scripted, repetitive tasks, while humans retained all meaningful decision rights. This model provided efficiency but capped the potential of automation because every exception required human intervention. Agentic AI is now eroding that ceiling by granting robots bounded autonomy over micro-decisions.


How robots learn to think This evolution is driven by two primary advances: learning from video and language. • Video Learning: Robots are trained by watching high-skilled operators. Vision models map human motions and outcomes into machine-understandable patterns. Rather than just replaying a trajectory, the robot learns how specific conditions correlate with the correct next action. • Language Learning: Large Language Models (LLMs) and Vision Language Models (VLMs) ingest the same 200-page manuals and work procedures used by technicians. The AI layer consumes this documentation directly to infer rules, such as acceptable tolerances and defect taxonomies.


By combining these, robots become grounded in both how humans actually work and how a process is supposed to work on paper. The first major application of this autonomy


32 MARCH 2026 | PROCESS & CONTROL data.


• Classify defects against standards encoded from manuals and human judgment. • Decide if a non-conformance is acceptable, reworkable, or scrap.


• Close the loop by autonomously generating and inserting task orders into repair queues.


Executives who move early will not just own more robots, they will own more of the decision-making fabric of their operations





For instance, if a weld on an aircraft frame is out of tolerance, the robot doesn’t just flag it; it logs the details and creates a digital work order for a technician or downstream cell. This transforms inspection from a passive gate into an active orchestrator, leading to higher first- time yields and more stable schedules. Despite these gains, humans remain essential for complex process decisions. Expert welders still synthesise subtle cues – like the sound of an arc or the feel of heat – that have





he industrial robotics landscape is undergoing a


is in inspection, a sector that is data-rich and historically under- automated. In complex fields like welding and casting, agentic


robots can now: • Capture high-resolution visual and depth


never been fully documented or labelled for AI training. Current systems also struggle with novel scenarios, such as one-off repairs or inconsistent documentation.


The near-term equilibrium is a progressive handoff: robots decide within well-bounded domains, while humans define those boundaries, handle edge cases, and refine the “playbooks”.


Executive priorities for ROI To capitalise on agentic robots, leaders must view this as a decision-rights transformation rather than a hardware refresh. Key priorities include:


1. Building a Digital Backbone: Autonomy depends on access to 3D models and manuals; siloed data is the biggest brake on progress.


2. Capturing Expert Knowledge:


Systematically record expert decisions in video and data form to provide ground truth for future models.


3. Redesigning Roles: Human work must shift toward oversight and exception handling, with KPIs focused on quality stability and faster recovery.


Executives who move early will not just own more robots; they will own more of the decision fabric of their operations. In an era where resilience, quality, and speed are strategic differentiators, shifting decisions from “repeat what you were told” to “decide what must happen next” may be the most consequential automation upgrade of the next decade.


GridRaster www.gridraster.com


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