Augmentus Robotics: Difference between revisions

Line 17:

Their system combines industrial 3D scanning, AI-driven path planning, and adaptive motion control to elimate the need for manual coding of the robotics. This allows robot programs to be generated in minimal time, and enable users to automate complex tasks without the need for robotics experts.

~~==Funding==~~

In July 2025, Augmentus raised US$11 million in a Series A+ round<ref name=":0">{{Cite web |last=Augmentus |date=2025-07-09 |title=Augmentus Raises $11M to Scale Physical AI for High-Mix, Complex Robotic Surface Finishing and Welding |url=https://www.accessnewswire.com/newsroom/en/electronics-and-engineering/augmentus-raises-11m-to-scale-physical-ai-for-high-mix-complex-robotic-1046874 |access-date=2025-11-28 |website=ACCESSWIRE Newsroom}}</ref>. This round was led by [[Woori Venture Partners]], with participation from [[EBDi]], [[Sierra Ventures]], and [[Cocoon Capital]]. These funds would be used to fulfill existing customer demand and for R&D into hyper-adaptive robotics

==Traction==

As of 2025, the startup deployed more than fifty systems in over six countries<ref name=":0" />, including Australia, Singapore, Germany, and the United States. The systems have been used in sectors including [[Aerospace|aerospace]], heavy industry, [[Precision manufacturing|precision manufacturing]], and [[Automotive|automotive]]<ref name=":0" />.

==Funding==

In July 2025, Augmentus raised US$11 million in a Series A+ round<ref name=":0">{{Cite web |last=Augmentus |date=2025-07-09 |title=Augmentus Raises $11M to Scale Physical AI for High-Mix, Complex Robotic Surface Finishing and Welding |url=https://www.accessnewswire.com/newsroom/en/electronics-and-engineering/augmentus-raises-11m-to-scale-physical-ai-for-high-mix-complex-robotic-1046874 |access-date=2025-11-28 |website=ACCESSWIRE Newsroom}}</ref>. This round was led by [[Woori Venture Partners]], with participation from [[EBDi]], [[Sierra Ventures]], and [[Cocoon Capital]]. These funds would be used to fulfill existing customer demand and for R&D into hyper-adaptive robotics.{{Startup/Funding history}}

== References ==

@@ Line 17: / Line 17: @@
 Their system combines industrial 3D scanning, AI-driven path planning, and adaptive motion control to elimate the need for manual coding of the robotics. This allows robot programs to be generated in minimal time, and enable users to automate complex tasks without the need for robotics experts.
-==Funding==
-In July 2025, Augmentus raised US$11 million in a Series A+ round<ref name=":0">{{Cite web |last=Augmentus |date=2025-07-09 |title=Augmentus Raises $11M to Scale Physical AI for High-Mix, Complex Robotic Surface Finishing and Welding |url=https://www.accessnewswire.com/newsroom/en/electronics-and-engineering/augmentus-raises-11m-to-scale-physical-ai-for-high-mix-complex-robotic-1046874 |access-date=2025-11-28 |website=ACCESSWIRE Newsroom}}</ref>. This round was led by [[Woori Venture Partners]], with participation from [[EBDi]], [[Sierra Ventures]], and [[Cocoon Capital]]. These funds would be used to fulfill existing customer demand and for R&D into hyper-adaptive robotics
 ==Traction==
 As of 2025, the startup deployed more than fifty systems in over six countries<ref name=":0" />, including Australia, Singapore, Germany, and the United States. The systems have been used in sectors including [[Aerospace|aerospace]], heavy industry, [[Precision manufacturing|precision manufacturing]], and [[Automotive|automotive]]<ref name=":0" />.
+==Funding==
+In July 2025, Augmentus raised US$11 million in a Series A+ round<ref name=":0">{{Cite web |last=Augmentus |date=2025-07-09 |title=Augmentus Raises $11M to Scale Physical AI for High-Mix, Complex Robotic Surface Finishing and Welding |url=https://www.accessnewswire.com/newsroom/en/electronics-and-engineering/augmentus-raises-11m-to-scale-physical-ai-for-high-mix-complex-robotic-1046874 |access-date=2025-11-28 |website=ACCESSWIRE Newsroom}}</ref>. This round was led by [[Woori Venture Partners]], with participation from [[EBDi]], [[Sierra Ventures]], and [[Cocoon Capital]]. These funds would be used to fulfill existing customer demand and for R&D into hyper-adaptive robotics.{{Startup/Funding history}}
 == References ==
 {{Reflist}}