The Confluence of AI and AM (Authentise Weekly News-In-Review – Week 92)

We’ve witnessed how the digital age is transforming the manufacturing industry and nowhere it is more apparent than in the contributions that AI is giving to the field. Advanced computing capabilities are being coupled with full-spectrum sensors and autonomous “thinking”. These systems are being developed in AM for a variety of benefits. First, they can help with in-process fault detection, constantly monitoring the printer for defects where the human eye can’t see and even adjust it to fix the problem on the spot. Bringing a trustworthy AI system in the fray opens up possibilities for decentralized manufacturing, where human skill isn’t needed to produce good quality, reliable parts. Such manufacturing units can be located anywhere, operate autonomously and even cooperate with one another to reach a certain goal. Authentise is presently using AI technologies to drive process estimates, providing an accurate, reliable window into your operations.

 

US Navy and Lockheed Martin Are Building AI-Driven 3D Printing Robots

Lockheed Martin

A new generation of smart 3D printers is under development which will use artificial intelligence to oversee and optimize 3D printed parts. The US Navy’s Office of Naval Research (ONR), which is funding the ambitious project, has recently announced a two-year $5.8 million contract. There are four partners working on this project, led by Lockheed Martin’s Advanced Technology Centre. The collective aim is to be able to create robots that can make independent decisions on how to optimize the production of complicated 3D printed parts.

Read the rest here.

 

Mobile Robots Cooperate to 3D Print Large Structures

A team of robot arms on mobile bases can 3D print large structures quickly

Roboticists at Nanyang Technological University in Singapore have, for the first time (as far as they know), performed “the actual printing of a single-piece concrete structure by two mobile robots operating concurrently.” The big advantage of this system is that you can use it to build structures that are more or less arbitrary in size without having to change the system all that much, since the robots themselves can define their own build volume by moving around.

Read more at IEEE Spectrum.

 

Kansas State University Researchers Develop AI System For 3D Printing Process Monitoring

Researchers from Kansas State University’s Department of Industrial and Manufacturing Systems Engineering (IMSE) have developed a new quality monitoring system for the 3D printing process. With integrated supervised machine learning, a camera, and image processing software, the researchers created a production quality monitoring system for assessing 3D printed parts in real-time.

Read the full article here.

 

We’ll be at Formnext in Frankfurt from the 13th to 16th November. Come see us at booth #B30J.

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Finding the new limits of AM (Authentise Weekly News-In-Review – Week 88)

If you think that AM is sitting comfortably into its allotted seat, that it has already found its target market, you’d be wrong. AM’s flexibility enables us to find numerous potential fields to disrupt. This flexibility is made possible by its assortment of technologies, hardware, software and everything in between, that change the rules year by year. Advances in robotics and AI enable groups of autonomous, mobile units to step up the construction process. After the 3D printed pills and surgical models and implants, we are now beginning to use AM in the development of new future-proof antibiotics. Strong of its success of sending the first 3D printer to the ISS, Made in Space is aiming to produce higher quality fiber optics in space, creating a new business case for manufacturing in and outside Earth’s orbit.

Mobile Robots Cooperate to 3D Print Large Structures

A team of robot arms on mobile bases can 3D print large structures quickly

Roboticists at Nanyang Technological University in Singapore have, for the first time (as far as they know), performed “the actual printing of a single-piece concrete structure by two mobile robots operating concurrently.” The big advantage of this system is that you can use it to build structures that are more or less arbitrary in size without having to change the system all that much, since the robots themselves can define their own build volume by moving around.

Read more at IEEE Spectrum.

HP Partners With CDC To Test And Bioprint Antibiotics

The HP D300e Digital Dispenser BioPrinter. Photo via HP.

HP has announced its participation in the Centers for Disease Control and Prevention (CDC) pilot program that aims to develop new antibiotics designed to fight antimicrobial-resistant bacteria. With HP’s bioprinting technology, microbiologists are able to print antibiotics samples for testing directed at halting the spread of such bacteria.

Read the full article here.

Optical fibre made in orbit should be better than the terrestrial sort

Made in Space and FOMS (Fiber Optic Manufacturing in Space) are both proposing to manufacture optical fibre of the highest quality in the free-falling conditions of the International Space Station. At $1m a kilogram, this is a material that is well worth the trip to and from orbit.

Read more on The Economist.

Follow us on Twitter to keep updated on AM & IIoT related news as well as updates to Authentise’s services!

AUTHENTISE will be exhibiting, through a partnership with America Makes, the power of smart digital tools within the AM production thread. Showcasing our 3Diax modular platform and MES for AM, you’ll be able to witness how our machine learning algorithms and automation tools can boost operational performance through the roof for each role within the pipeline.

WHERE: additive ETC, located on Level 3 of the West Building at McCormick Center.