Engineering:Swarm 3D printing

From HandWiki

Swarm 3D printing or cooperative 3D printing or swarm manufacturing[1][2][3][4][5][6][7][8][9][10] is a digital manufacturing platform that employs a swarm of mobile robots with different functionalities to work together to print and assemble products based on digital designs. A digital design is first divided into smaller chunks and components based on its geometry and functions, which are then assigned to different specialized robots for printing and assembly in parallel and in sequence based on the dependency of the tasks.[11][12] The robots typically move freely on an open factory floor, or through the air, and could carry different tool heads. Some common tool heads include material deposition tool heads (e.g., filament extruder, inkjet printhead), pick and place tool head for embedding of pre-manufactured components, laser cutter, welding tool, etc. In some cases, operations are managed by artificial intelligence algorithms, increasingly prevalent with larger swarms or more complex robots, which require elements of autonomy to work together effectively. While in its early stage of development, swarm 3D printing is currently being commercialized by startup companies. According to Additive Manufacturing Magazine,[1] AMBOTS[13] is credited with creating the first end-to-end solution for cooperative 3D printing. Using the Rapid Induction Printing metal additive manufacturing process, Rosotics[14] was the first company to demonstrate swarm 3D printing using a metallic payload, and the only to achieve metallic 3D printing from an airborne platform.[15]

See also

References

  1. 1.0 1.1 "Robots, Assemble! A New Path to Autonomous Mobile 3D Printing". https://www.additivemanufacturing.media/articles/robots-assemble-a-new-path-to-autonomous-mobile-3d-printing. 
  2. "The 5 Coolest Things On Earth This Week | GE News". https://www.ge.com/news/reports/the-5-coolest-things-on-earth-this-week-4. 
  3. O'Neal, Bridget (2 March 2019). "University of Arkansas: Research Group Delegates 3D Printing Duties to Their Swarm of Robots". https://3dprint.com/237475/university-arkansas-researchers-delegate-3d-printing-duties-swarm-of-robots/. 
  4. Ackerman, Evan (28 August 2018). "Mobile Robots Cooperate to 3D Print Large Structures". https://spectrum.ieee.org/automaton/robotics/industrial-robots/mobile-robots-cooperate-to-3d-print-structures. 
  5. "3D-printing swarm robots pave the way for new construction possibilities". 9 October 2018. https://www.createdigital.org.au/3d-printing-swarm-robots-construction/. 
  6. "What's next? Swarm 3D printing, i.e., synchronized 3D printing - Make Parts Fast". https://www.makepartsfast.com/whats-next-swarm-3d-printing-i-e-synchronized-3d-printing/. 
  7. "Siemens Contemplating "Swarm" 3D Printing?". https://www.fabbaloo.com/blog/2017/4/15/siemens-contemplating-swarm-3d-printing. 
  8. Oxman, Neri, Jorge Duro‐Royo, Steven Keating, Ben Peters, and Elizabeth Tsai. "Towards robotic swarm printing." Architectural Design 84, no. 3 (2014): 108-115.
  9. Murphy, Mike. "Siemens is building a swarm of robot spiders to 3D-print objects together". https://qz.com/672708/siemens-is-building-a-swarm-of-robot-spiders-to-3d-print-objects-together/. 
  10. "AMBOTS Brings Autonomous Collaboration to Manufacturing". 27 March 2019. https://all3dp.com/4/ambots-brings-autonomous-collaboration-manufacturing/. 
  11. "The Chunker "chunk-based slicer" proposed for cobot 3D printing". 16 October 2018. https://3dprintingindustry.com/news/the-chunker-chunk-based-slicer-proposed-for-cobot-3d-printing-141602/. 
  12. Saunders, Sarah (21 December 2018). "Thesis Focuses on Using Cooperative 3D Printing with Robots to Improve the Technology's Scalability". https://3dprint.com/232301/cooperative-3d-printing-with-robots-to-improve-scalability/. 
  13. "AMBOTS". https://www.ambots.net/. 
  14. "Rosotics - Solving Industry's Largest Problems". https://www.rosotics.com/. 
  15. "Technology". 25 July 2020. https://www.rosotics.com/technology/. 

External links