Artificial neural network based framework for cyber nano manufacturing

Huraish Almakaeel; Ahmed Albalawi; Salil Desai

doi:10.1016/j.mfglet.2017.12.013

Artificial neural network based framework for cyber nano manufacturing

Huraish Almakaeel
, Ahmed Albalawi
, Salil Desai

Industrial and Systems Engineering

Industrial and systems engineering with North Carolina A&T State University

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Nanomanufacturing plays an important role for high performance products in several applications. The challenge for fabricating products with nanomaterials is the inability to interconnect and interface with nano/micro manufacturing equipment. This paper presents a framework for cyber nanomanufacturing. Input part designs of nano/micro scale components are evaluated with an artificial neural network (ANN) based smart agent to predict optimal nanomanufacturing processes. An internet-of-things (IoT) based cyber-interface simulator is implemented to simulate real-time machine availability. Further, an application program interface (API) is developed to integrate the ANN smart agent and IoT simulator outcomes to predict dynamic machine allocations in real-time.

Original language	English
Pages (from-to)	151-154
Number of pages	4
Journal	Manufacturing Letters
Volume	15
Issue number	Part B
DOIs	https://doi.org/10.1016/j.mfglet.2017.12.013
State	Published - Jan 1 2018

Keywords

Artificial neural network
Cyber-physical systems
Internet-of-things nanomanufacturing
Smart agent

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10.1016/j.mfglet.2017.12.013

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abstract = "Nanomanufacturing plays an important role for high performance products in several applications. The challenge for fabricating products with nanomaterials is the inability to interconnect and interface with nano/micro manufacturing equipment. This paper presents a framework for cyber nanomanufacturing. Input part designs of nano/micro scale components are evaluated with an artificial neural network (ANN) based smart agent to predict optimal nanomanufacturing processes. An internet-of-things (IoT) based cyber-interface simulator is implemented to simulate real-time machine availability. Further, an application program interface (API) is developed to integrate the ANN smart agent and IoT simulator outcomes to predict dynamic machine allocations in real-time.",

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AB - Nanomanufacturing plays an important role for high performance products in several applications. The challenge for fabricating products with nanomaterials is the inability to interconnect and interface with nano/micro manufacturing equipment. This paper presents a framework for cyber nanomanufacturing. Input part designs of nano/micro scale components are evaluated with an artificial neural network (ANN) based smart agent to predict optimal nanomanufacturing processes. An internet-of-things (IoT) based cyber-interface simulator is implemented to simulate real-time machine availability. Further, an application program interface (API) is developed to integrate the ANN smart agent and IoT simulator outcomes to predict dynamic machine allocations in real-time.

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Artificial neural network based framework for cyber nano manufacturing

Abstract

Keywords

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