Extreme Engineering: Polarization in Product Development and Manufacturing

Andrew Kusiak

Engineering ›› 2021, Vol. 7 ›› Issue (3) : 282-284.

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Engineering ›› 2021, Vol. 7 ›› Issue (3) : 282-284. DOI: 10.1016/j.eng.2020.01.012
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Extreme Engineering: Polarization in Product Development and Manufacturing

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Andrew Kusiak. Extreme Engineering: Polarization in Product Development and Manufacturing. Engineering, 2021, 7(3): 282‒284 https://doi.org/10.1016/j.eng.2020.01.012

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[1]
Extance A. Perovskites on trial. Nature 2019;570(7762):429–32.
[2]
Kusiak A. Smart manufacturing. Int J Prod Res 2018;56(1–2):508–17.
[3]
Kusiak A. Service manufacturing: basic concepts and technologies. J Manuf Syst 2019;52(Pt A):198–204.
[4]
Kusiak A. Smart manufacturing must embrace big data. Nature 2017;544 (7648):23–5.
[5]
Zhang Z, Yan J, Kuriyagawa T. Manufacturing technologies toward extreme precision. Int J Extreme Manuf 2019;1(2):022001.
[6]
Fang F, Zhang N, Guo D, Ehmann K, Cheung B, Liu K, et al. Towards atomic and close-to-atomic scale manufacturing. Int J Extreme Manuf 2019;1(1):012001.
[7]
Fujimoto J, Mizoguchi H, Abe T, Tanaka S, Ohta T, Hori T, et al. Laser-produced plasma-based extreme-ultraviolet light source technology for high-volume manufacturing extreme-ultraviolet lithography. J Micro-Nanolith MEM 2012;11 (2):021111.
[8]
Kusiak A. Convolutional and generative adversarial neural networks in manufacturing. Int J Prod Res 2020;58(5):1594–604.
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