Electrical&ComputerElectrical&Computer 30Naoki KitaIn the FutureAfter GraduationAfter GraduationAssociateProfessorHe received Ph.D. degree in knowledge science from Japan Advanced Institute of Science and Technology (2019).His research interests include computational design and fabrication.Keywords:StellerevolutionGravitationalWaveHighenergyAstrophysicsMachine learning-based color palette expansion method. For example, a 3-color palette can be expanded to 4, 5, or more colors while maintaining color harmony. Customization for various color design scenarios is also possible.In standard gift wrapping, patterns often break at the folds. Our system ensures that patterns remain continuous, creating a more refined and polished appearance. Computational Omotenashi.We have developed an algorithm capable of generating geometric puzzles from 2D/3D shapes that can be assembled and disassembled. The number of pieces and the piece shapes are also controllable, facilitating the creation of one’s unique puzzles.Wefocusondevelopingalgorithms/systemstosupportdesignvisualelementssuchascolors.Wealsostudyalgorithms/systemsthataidinDIYprojects,handmadecrafts,anddigitalfabrication.Ourprimaryaimistoassistnoviceusers—thosewithoutadvancedskillsindesignorengineering—intheircreativedesignprocesses.Byeffectivelyutilizingcomputationaltools,westrivetocreatesystemscapableofgeneratinginnovativedesignsthataredifficultthusenhancinguserefficiencyandexpandingcreativepossibilities.IntheKinugawaLaboratory,weareconductingtheoreticalcalculationsonbinarystellarsystems.Morethanhalfofthestarsintheuniversearebinary,andbinarysystemsarecloselyrelatedtovariousinterestingastronomicalphenomena,suchasgamma-raybursts,themergingofbinaryblackholesresultingingravitationalwaves,andsoon.Clarifyingthefateofbinarysystemsisthemainthemeofourlaboratoryinunravelingthemysteriesoftheseastronomicalphenomena.Inparticular,binarysystemsformedintheearlyuniversehaveattractedattentionintermsofgravitationalwavesandobservationsoftheearlyuniverse.Tomoya KinugawaAssociateProfessorResearchInterests:AstrophysicsHarnessingthepowerofcomputationaltoolscanunlockastonishingnewdesignpossibilities.Thisexpansionofcreativityindesignworkwillnotonlyrevolutionizetheentertainmentindustrybutalsopavethewayforinnovationacrossavarietyoffields.Acquiringtheskillstomodel,generalize,andimplementandvariousobjectsourunderstandingoftheworld.Theseabilitieswillproveinvaluablenotonlyintheentertainmentindustrybutinnumerousotherfieldsaswell.Findingsomethingthatgenuinelyinterestsyouandwholeheartedlypursuingitisnotsomethingthatcanbedonefrequentlyinlife.Istronglyencourageyoutodiscoveryourpassionandengageinresearchorstudiesrelatedtoitwhileyouareastudent.Bydoingso,youcandevelopbothyourcriticalthinkingskillsandyourabilitytotakeaction,whichwillgreatlybenefityouasaworkingprofessionalinthefuture.Throughresearch,youcandevelopmanyskills.Theseskillsarenotonlyapplicabletoresearchbutcanalsobeappliedtovariousfields.Manyprofessionalshaveacquiredtheseskillsthroughresearchandaremakingsignificantcontributionsinsociety.Iencourageallofyoutofollowintheirfootstepsandleveragetheskillsyouacquirethroughresearchtothriveinyourchosenpaths.toachievemanually,In the FuturedesignswillenhanceOneexampleofbinarystarevolution:Initially,astarburnsthroughhydrogenfusion,liketheSun.Asthehydrogendepletes,itevolvesintodifferentstages,suchasaredgiant.Ultimately,itundergoesasupernovaexplosion,leavingneutronstarsorblackholes.Throughouttheevolutionprocessofbinarysystems,variousastronomicalphenomenaoccur,includingsupernovaexplosions,X-raybinaries,andtheemissionofgravitationalwaves.EngineeringEngineeringComputational Design/FabricationExploring the Destiny of Binary Stars in the Universe
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