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Your 3D Angle Searching System with PSO for Face Recognition Paper's Title Starts Here: Please Center use Helvetica (Arial) 14 FULL Ching-Tang Hsieh1,a, Chia-Shing Hu2,b and Meng-Shian ShihFirst Author1, a, FULL Second Author2,b and Last Author3,c 1FDepartment of Electrical Engineering, Tamkang University, New Taipei City, 25137, Taiwan, R.O.Cull address of first author, including country 2Department of Electrical Engineering, Tamkang University, New Taipei City, 25137, Taiwan, R.O.C 3Department of Electrical Engineering, Tamkang University, New Taipei City, 25137, Taiwan, R.O.C Full address of second author, including country 3List all distinct addresses in the same way ahsieh@ee.tku.edu.tw, b894350106@s94.tku.edu.tw, chsieh@ee.tku.edu.tw792350075@s92.tku.edu.twemail, bemail, cemail Keywords: PSO, FACE RECOGNITIONList the keywords covered in your paper.
The author should indicate on the checklist if he wishes to have them printed in full color and make the necessary payments in advance.
Forum Vol. 83-87 (1992), p. 119Jin Young Kim, Dae Young Ko, Seung You Na. : Implementation and enhancement of GMM face recognition systems using flatness measure, 13th IEEE, Robot and Human Interactive Communication, (2004), pp.247 – 251
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.

Fesmire: Advances in Cryogenic Engineering Vol.45 (2000), p. 1691-1698 Dj.M.
Forum Vol. 83-87 (1992), p. 119 [3] Q.
Morgunov: Chemical and petroleum engineering Vol. 14 (3) (1978), p. 243-245 [6] Stephen M.
Zahn: Advances in cryogenic engineering Vol. 23 (1978), p. 569-579 [8] V.
Gouge: Advances in cryogenic engineering Vol. 53 (2008), p. 160-167

The tests are stopped at a 50% engineering strain.
Fig. 5 shows the values of compressive yield strength and strain percentages for the the as-cast Ni15, Ni20, Al5, and Al10 HEAs showing the noteworthy advance of these values.
Both Ni15 and Ni20 alloys have FCC structure in the as-cast condition and can be compressed to more than 50% engineering strain without cracking.
Forum Vol. 917 (2018) p. 241
Chang: Nanostructured high‐entropy alloys with multiple principal elements: novel alloy design concepts and outcomes, Advanced Eng.

Venkateswarlu3,c 1Department of Mechanical Engineering, Vardhaman College of Engineering, Telangana 501218, India 2Department of Mechatronics Engineering, Kyungsung University, Busan 48434, Republic of Korea 3Department of Mechanical Engineering, Marri Laxman Reddy Institute of Technology and Management, Telangana 500043, India Email:1,avenukumar24@vardhaman.org, *2,bmuralicheepu@gmail.com, 3,cdevuri.venky@gmail.com Keywords: Tungsten inert gas arc welding–brazing, Dissimilar metals, Microstructures, Mechanical properties.
Forum. 710 (2012) 620-625
(eds) Advanced Materials.
Materials Science and Engineering A 509 (2009) 31–40
C.Kantumuchu, Dissimilar friction welding of AISI 304 austenitic stainless steel and AISI D3 tool steel: Mechanical properties and microstructural characterization, In Advances in Materials and Metallurgy, pp. 271-281.

Ferreira 3, 1Department of Mechanical Engineering, Escola Superior de Tecnologia de Setúbal-IPS and ICEMS, 2910-761 Setúbal, Portugal 2 Department of Materials Engineering, Instituto Superior Técnico and ICEMS, Av.
Rovisco Pais, 1, 1049-001 Lisboa, Portugal 3 Department of Ceramics and Glass Engineering, Universidade de Aveiro and CICECO, 3810-193 Aveiro, Portugal aguedes@est.ips.pt, balberto.ferro@ist.utl.pt, cjmf@cv.ua.
Bergström: Surface and Colloid Chemistry in Advanced Ceramics Processing (Marcel Decker, N.
Forum Vol. 455-456 (2004) p.631
In Ceramics and Glasses, Engineered Materials Handbook, Vol.4.

The main crack of up to 0.6 of the net section length spread at the angle of 10°, and then macro jumped up to the line of the notch extension and advanced at the angle of 10°.
Stolyarov, Features of deformation behavior at rolling and tension under current in TiNi alloy, Reviews on Advanced Materials Science. 25 (2010) 194-202
Maier, etc., Annealing behavior of ultrafine grained structure in low-carbon steel produced by equal channel angular pressing, Materials Science and Engineering A - Structural Materials Properties Microstructure and Processing. 1(581) (2013) 104-107
Materials Science Forum. 945 (2019) 563-568.

Analysis of Strain in Ion Implanted 4H-SiC by Fringes Observed in Synchrotron X-Ray Topography Zeyu Chen1,a*, Yafei Liu1,b, Hongyu Peng1,c, Qianyu Cheng1,d, Shanshan Hu1,e, Balaji Raghothamachar1,f, Michael Dudley1,g, Reza Ghandi2,h, Stacey Kennerly2,i, and Peter Thieberger3,j 1Department of Materials Science & Chemical Engineering, Stony Brook University, Stony Brook, NY 11794 USA 2GE Research, Niskayuna, NY, 12309, USA 3Brookhaven National Laboratory, Upton, NY, 11973, USA aZeyu.chen@stonybrook.edu, bYafei.liu@stonybrook.edu, c Hongyu.peng@stonybrook.edu, dQianyu.cheng@stonybrook.edu, eShanshan.Hu@stonybrook.edu, fBalaji.raghothamachar@stonybrook.edu, gMichael.dudley@stonybrook.edu, hGhandi@ge.com, iStacey.kennerly@ge.com, jThieber@bnl.com Keywords: 4H-SiC, Ion Implantation, Lattice Strain, Synchrotron X-ray Plane Wave Topography Abstract.
The information, data, or work presented herein was funded in part by the Advanced Research Projects Agency-Energy (ARPA-E), U.S.
DE[1]SC0012704 This research used resources of the Advanced Photon Source, a U.S.
Thieberger, Materials Science Forum 1062, 361-365 [10] Z.

Bouchard, Advances in residual stress modeling and measurement for the structural integrity assessment of welded thermal power plant, Advanced Materials Reserach, 41-42 (2008) 391-400
Kokabi, Fatigue life estimation of spot welds using a crack propagation-based method with consideration of residual stresses effect, Materials Science and Engineering: A, 527 (2010) 6359-6363
Francis, Residual stress, texture, and phase investigation of autogenous wleds using high energy synchrotron radiation, Materials Science Forum, 681 (2011) 43-48
Withers, Development of a user material subroutine for modelling stress evolution in SA508 steel considering solid state phase transformation, Materials Science and Engineering A, Under submission process (2013)

Integrating SCEC with advanced construction technologies, such as 3D printing, could further expand its adoption in sustainable building practices.
Within Engineering, Civil Engineering comprised the largest portion (~65%) suggesting the material is most relevant to sustainable building/infrastructure development.
Structural Engineering is approximately 18% of engineering-related publications, primarily focused on mechanical behavior, strength and durability.
Environmental Engineering (~10%) related to life cycle analysis and ecological performance of the material, with the rest of the total made up of examples of Mechanical Engineering and Geotechnical Engineering, with a focus on rheology, flow behavior and soil-structure interaction.
This analysis underscores the centrality of engineering and materials science in advancing SCEC research while highlighting opportunities for broader interdisciplinary collaboration and dissemination across varied publication types.

Advanced particle rearrangement mechanism due to homogeneous and fine distribution of silica sand nanoparticles into pore sites of the composites was also observed.
Katsuyoshi et al [3] had presented advanced Cu-40 mass% Zn alloys with high tensile strength and excellent machinability which were developed via a P/M process.
A Bruker AXS D8 Advance XRD system was used for the identification of phases. 3.
Kieback, “Interfacial design of Cu-based composites prepared by powder metallurgy for heat sink applications”, Journal of Materials Science and Engineering A, 475 (2008) 39-44 [6] L.
Zhang, “Processing of Cu-Al2O3 metal matrix nanocomposite materials by using high energy ball milling”, Materials Science and Engineering A, 286 (2000) 152-156