Feasibility Evaluation System

LumosAX

Geometric Correction System

Recommender System

Revolutionizing additive manufacturing assessments: introducing our advanced standard and intelligent systems for feasibility analysis and redesign - a first in the industry!

LumosAX offers innovative solutions across three key phases:

Phase 1

Techno-economic Feasibility Evaluation System -

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1) Through a fully automated process, LumosAX evaluates the component's design readiness from a comprehensive technical and economic perspective, including: Dimensional evaluation | Geometric evaluation | Optimum build orientation and support generation | Time & cost associated with the build stage | Time and cost associated with the post-processing. stage. 2) LumosAX can also compute precise feasibility scores & levels based on an intelligent scoring system. Key application: These techno-economic feasibility assessments enable users with varying levels of expertise, from novices to experts, to quickly and confidently identify which components can reliably be manufactured using 3D-printing processes. This significantly reduces mistakes and printing failures and eliminates the risk of costly trial-and-error exercises.

Automated Geometric Correction System -

Phase 2

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1) The correction system integrated with LumosAX automatically identifies and rectifies geometry-related issues in components, ensuring their successful 3D printing. 2) The mathematical algorithm implemented in this system boasts unique features that allow it to be tailored to any additive manufacturing technology. Key application: Using this advanced correction system, designers can rapidly convert problematic component designs into 3D-printable designs with minimum user interaction.

Phase 3

Recommender System for Part Inventories -

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1) With the aid of an intelligent platform and machine learning analysis, LumosAX's recommender system is capable of automatically evaluating the AM readiness of an extensive database of components ranging from hundreds to millions of parts. 2) This system can also provide effective design recommendations for those component clusters whose current designs are deemed as infeasible/inefficient for AM, supporting a rapid, efficient, and successful transition to AM. Key application: This intelligent recommender system is particularly valuable for industries engaged in high-volume production, introducing much-needed automation and intelligence to assessments and re-design processes.