부경대학교 Pukyong National University : 112

kuhusu 5000~500000

186

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1

203.250.126.211

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$(function(){ $('.logoutBtn').on('click',function(){ if(confirm('로그아웃하시겠습니까?')){ location.href='/main/155'; } }); getBookmarkList(); $(".nbar-toggler").on("click",function(){ $('#sidebar').toggleClass('active'); }); varLogOutTimer=function(){ varS={ timer:null, limit:1000*60*60, fnc:function(){ }, start:function(){ S.timer=window.setTimeout(S.fnc,S.limit); }, reset:function(){ window.clearTimeout(S.timer); S.start(); } }; document.onmousemove=function(){ S.reset(); }; returnS; }(); //로그아웃체크시간설정 LogOutTimer.limit=1000*60*60; //로그아웃함수설정 LogOutTimer.fnc=function(){ //alert("LogOut"); if(''!=''){ alert("장시간사용하지않아로그아웃되었습니다."); location.href="/main"; } } //로그아웃타이머실행 LogOutTimer.start(); }); functionaddBookmark(){ if(''!=''){ $.ajax({ url:peContext+"/addBookmark.do", method:'POST', dataType:"json", data:{ nm:'', no:'', ste:'IE5ISH' } }).done(function(data){ if(data.chkRst>0){ alert('등록된페이지입니다.') } if(data.result>0){ alert('저장되었습니다.'); getBookmarkList(); } }); }else{ alert('로그인후이용가능합니다.') } } functiongetBookmarkList(){ if(''!=''){ $ .ajax({ url:peContext+"/getBookmarkList.do", method:'POST', dataType:"json", data:{ ste:'IE5ISH' } }) .done( function(data){ varlist=data.bookmarkList varhtml=''; if(list.length>0){ $ .each( list, function(index,item){ if(item.mnuId=='1'){ html+=' ' +item.mnuNm +'삭제' }else{ html+=' ' +item.mnuNm +'삭제' } }); } if(list.length0){ if(list.length>0){ varmypeBookmarkList="" $ .each( list, function(index,item){ mypeBookmarkList+=' ' mypeBookmarkList+=' ' +(index+1) +'' mypeBookmarkList+=' ' +item.mnuNm +'' mypeBookmarkList+=' 삭제' mypeBookmarkList+=' ' }); }else{ mypeBookmarkList+=' ' mypeBookmarkList+=' #' mypeBookmarkList+=' 즐겨찾기를추가하세요' mypeBookmarkList+=' ' } $('#bookmarkList').html(mypeBookmarkList); } }); } } functiondeleteBookmark(id){ if(''!='' &&confirm('삭제시복구가불가합니다.삭제하시겠습니까?')==true){ $.ajax({ url:peContext+"/deleteBookmark.do", method:'POST', dataType:"json", data:{ id:id, ste:'IE5ISH' } }).done(function(data){ if(data.result>0){ getBookmarkList(); } }); } } functiongetCookie(name){ varcookieName=name+"="; vari=0; while(i 열기 JOIN SITEMAP ENGLISH LOGIN 검색 전체메뉴열기 전체메뉴열기     11 통합에서융합으로융합에서창학으로 미래를우리손으로 재학생 수강신청 비교과신청바로가기 부경구글앱스 OCU바로가기 KCU바로가기 디딤돌 학생생활관 교직원 KORUS KORUSVPN 웹메일 강의공유방 구성원참여·소통채널 교직원증명서발급 예비부경인 학부/학과/전공검색 학부입학정보 대학원입학정보 찾아오시는길 캠퍼스투어신청 학생생활관 동문 총동창회 대학발전기금 학생상담센터 4119고객센터 단디센터 청렴센터 부경포털 부경챗봇 PukyongToday 5월,창학100년축제의달 국립부경대,지역·세계와함께‘창학100년’기념한다-5월한달간기념식,축제,국제포럼등행사‘다채’△100년기념배너가걸려있는백경광장.ⓒ사진이성재(대외홍보팀) 국립부경대학교(총장장영수)가올해‘창학100년’을맞아다채로운행사를마련해지역,세계와함께기념한다. 국립부경대는지난1924년설립된부산공업대학교와1941년설립된부산수산대학교가1996년종합국립대학최초로통합해탄생한역사가있다. 이에따라국립부경대는5월중기념식을비롯,대동제,오픈캠퍼스,국제포럼,문학축전등행사를개최한다. 5월 9일에는창학100년을맞아올해개교기념식을확대해대학본부2층대회의실에서연다.연혁역사영상상영을비롯,국내외내빈들의축사및축전소개,대학을빛낸100인시상등을통해대학의역사적발자취를소개하고성과를기념할계획이다.기념식에이어홈커밍데이부경가족한마음음악회도열린다. 7일부터9일까지는봄축제인대동제를개최한다.학생은물론,교수,직원,동문까지참여하는축제로기획해체육행사,공연,불꽃놀이,유학생경연대회,대학원컨퍼런스등다양한프로그램이진행된다. 13일에는부산수산대교수로서우리나라근대아동문학을이끈작가인향파이주홍선생의문학세계를공유하기위해국립부경대구성원은물론지역주민을대상으로‘이주홍문학축전’개막식을열고,내달21일까지전시를진행할예정이다. 오는22일과23일에는아시아5개대학이참가하는‘아시아대학국제포럼’과인도네시아15개대학이참가하는‘한-인니국·공립대학학술네트워크컨소시엄’행사를통해국립부경대의창학100년역사를함께기념하며국제교류네트워크확대에나선다. 이와함께국립부경대는지난달부터오는8월까지박물관에서역사기록물을전시하는특별전을비롯,역사를총취합하는창학100년사발간,학내탐방기회를제공하는오픈캠퍼스,도서관도서소개북큐레이션,다이아몬드브리지걷기축제콜라보등다양한행사를열어구성원은물론지역사회와함께창학100년을기념하고축하할계획이다.  5월,창학100년축제의달 39;K-디지털트레이닝39;운영한다 국립부경대,‘K-디지털트레이닝’신규기관선정-AI·핀테크첨단인재양성기관으로‘주목’국립부경대학교(총장장영수)는고용노동부와직업능력심사평가원의2024년상반기K-디지털트레이닝(첨단산업·디지털핵심실무인재양성훈련)훈련과정운영기관으로신규선정됐다.K-디지털트레이닝은대학이나민간기업등이훈련기관으로참여해디지털·신기술분야훈련과정을제공하는직업훈련사업이다.국립부경대는참여기관인(사)한국핀테크연합회(의장홍준영),㈜파인브이티(대표이사윤형영)와함께첨단분야에특화한대학의시설과장비,교원등의인프라를활용해수준높은첨단AI·핀테크인재를양성할예정이다.이를위해국립부경대학교는구글에서개발된golang언어를기반으로‘HyperAI·GoBlock,핀봇프로젝트’과정을운영한다.480시간의이론교육을비롯해해커톤,데모데이등실무형프로젝트를480시간교육을운영하며,최근유수디지털기업이요구하는golang프로그래머를현업4년차수준까지끌어올릴수있도록교육할계획이다.사업책임을맡은노맹석교수(빅데이터융합전공)는“기술혁신속도가빠른첨단디지털분야에서우리대학이첨단AI·핀테크인재양성교육의구심점이될수있도록심혈을기울이겠다.”라고밝혔다.  39;K-디지털트레이닝39;운영한다 벤처기업대표대학원생의포부는? IT벤처사업가대학원생,부산대표창업기업‘주목’-박사과정이현호…부산시장표창및인터뷰실려△글로벌탑넷대표이현호박사과정생. 국립부경대학교금속공학과박사과정생이부산대표창업기업대표로주목받고있다. 부산금정구소재IT벤처기업‘글로벌탑넷’의이현호대표가그주인공.는이현호대표의인터뷰기사를지난4월16일지면에실었다. 글로벌탑넷은2017년설립해현재7년차스타트업이다.약80종서버를자체개발했고이가운데31종을조달등록해다수공급자계약방식으로판매하고있다.서버개발공급과함께서버가상화,클라우드환경구성등IT인프라구축서비스도제공한다. 이대표는대양공고(부산문현동)에서정보통신을공부하면서,프로그램과통신에대한지식을쌓은것과군대에서관련업무를담당하면서서버장비를많이다뤘던경험을토대로회사를설립했다.‘서버’가중심아이템이다. 이대표는기사에서“2018년부터홈페이지와애플리케이션개발을시작했는데,초창기에는일이없어직원2명의월급조차못줬다.그러던중외국에서생산하는서버의국산화에관심을가져장비의국산화에집중했다.”라면서,“시제품을완성한지3개월이지났는데,그때코로나19사태를겪으면서세계적으로비대면을온라인공간등에서실현하려면전산등을처리하기위한서버가많이필요했는데그것이호재가됐다.”라고밝혔다. 그는서버제조·판매외에도인공지능·클라우드플랫폼,블록체인등으로사업영역을확장하고있다.△IT장비개발△IT장비수출△클라우드백업솔루션△블록체인등으로다각화를준비하고있다. 그는현재국립부경대박사과정(지도교수왕제필)에재학하며사업과동시에학업에도열정을보이고있다.그는‘부산대표기업’으로서성장하기위해노력하는가운데지난해부산대표창업기업‘브라이트클럽’으로선정된데이어,중소벤처기업부‘신진연구자인건비’사업과구매조건부신제품개발사업에선정됐다. 또부산시교육감표창,한국산업융합학회우수논문상,고용노동부장관표창,부산지방중소벤처기업청장표창,앞서2022년에는부산경제진흥원장표창과고용노동부장관표창을받았다.4월24일에는부산광역시장표창을받았다. 그는“우리회사를계열사도있는대기업으로키우는것이목표다.10년안에10조원규모의그룹으로키워내고싶다.”라며포부를밝혔다. ▷기사전문보기(클릭!) 벤처기업대표대학원생의포부는? 일시정지 23,570재적생수 국제교류본부 도서관 진로취업길라잡이 학부대학 교수학습지원센터 공지사항 비교과안내 학사안내 등록장학채용초빙 더보기 제46기월드프렌즈코리아(WFK)해외파견봉사활동지원자모집 2024-05-01 2024학년도1학기모의토익경시대회안내 2024-04-30 2024학년도후기정시일반대학원신입생모집요강및서식 2024-04-29 ★2024학년도글로벌언어집중강좌(GLIP)세션2수강생모집(무료)★ 2024-04-26 창학100주년주요행사안내 2024-04-26 부경대학교 Pukyong National University : 112 2024학년도대학생핵심역량진단(K-CESA)신청및참여안내 2024-05-03 [㈜부산테크노파크](산학연계브릿지)2024B-IU취업브릿지데이,찾아가는지산학기업설명회개최안내 2024-05-03 5월심리검사일정안내(학생상담센터) 2024-04-29 [모든학부재학생필수]▷▶2024학년도PKNU핵심역량사전진단실시(~5/31)◀◁ 2024-04-26 [교수학습지원센터]2024학년도학습컨설팅참가자모집(참가자커피쿠폰증정!!) 2024-04-24 [교수학습지원센터]2024학년도부경튜터링(교과목,학습동아리,외국인멘토링)참가팀선발결과안내 2024-04-19 ♥비교과서포터즈(비즈bee-s)♥4월꿀단지(맞춤형진로.취업상담등) 2024-04-17 [대학일자리플러스센터]병무청과함께하는병역진로설계특강안내 2024-04-16 ♥비교과서포터즈(비즈bee-s)♥꿀벌이의Bee밀의섬탐험!(선배멘토링프로그램등) 2024-04-15 2024년제1기국립부경대학교다전공서포터즈(CICA)선발안내 2024-04-24 2024학년도1학기학생설계전공교육과정신설(변경)신청안내 2024-04-04 2024-1학기학부1차폐강교과목알림 2024-02-27 2024-1학기온라인공개강좌학점인정사전승인신청안내 2024-02-27 2024학년도신입생입학식행사안내 2024-02-19 2024학년도1학기휴업일에대한보강수업일안내 2024-02-13 [2024학년도1학기타대학학생의국립부경대학교교류수학및수강신청안내](수정) 2024-01-16 ★★2024학년도1학기(재)부경대학교발전기금정효택장학생선발안내(4.29.(월)~5.3.(금)16:00까지)★★ 2024-03-29 2024년도세아해암학술장학재단제3기커리어챌린지장학생모집안내 2024-05-02 2024학년도1학기국가장학금Ⅰ유형장학금지급(3차)예정안내 2024-05-01 2024-1학기교내장학금추가(1차)지급안내 2024-04-30 2024년도(재)인천인재평생교육진흥원상반기(2차)장학생선발안내 2024-04-26 2024학년도예술체육비전장학금「전공탐색및전공확립유형」장학생선발기준및심사자료제출안내 2024-04-26 2024학년도인문100년장학금「전공탐색및전공확립유형」장학생선발기준및심사자료제출안내 2024-04-26 국립부경대학교국제교류부한국어강사채용 2024-05-02 2024년제2회국립부경대학교국가공무원경력경쟁채용(해양수산)공고 2024-04-30 [채용공고]교육부청년인턴제2차채용공고 2024-04-30 [서류합격]대학공무직(전임연구원,사무원,입학사정관,미화원,시설원)서류전형합격자발표 2024-04-22 4단계BK21사업부산의관문도시형국제화를위한글로벌지역학전문인력교육연구단의박사후연구원채용공고 2024-04-15 [채용공고]경영대학국제통상학부조교채용공고 2024-04-09 [최종합격]청년인턴최종합격자공고 2024-04-09 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 건축창학100주년맞았다 국립부경대,‘건축창학100주년기념식’개최-3일미래관…교수·학생·동문모여학과100년역사기념△ 건축창학 100주년기념식참석자들이단체기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교건축공학과와건축학전공은5월 3일오전미래관2층소민홀에서‘건축창학100주년기념식’을개최했다. 이날기념식에는건축공학과와건축학전공교수,학생을비롯해김영복부총장,김영진공과대학장,송하주정보융합대학장,이수용명예교수,서영옥총동창회장,박진철대한건축학회장,전신규·박만식·김석조부경건축동문회전임회장등이참석했다. 국립부경대의건축공학과와건축학전공은100년전인1924년에개설된가구과(家具科)에서시작됐다.우리나라건축분야학과의효시이기도한이학과는이후1933년건축과,2000년에는건축공학부로개편된후2011년건축공학,건축학두학과로분리됐다. 이날기념식참석자들은100주년기념영상관람과축하떡커팅식등을통해건축창학100년역사를함께기념했다. 김영복부총장은이날“두학과는우리대학이특성화종합국립대학으로발전하는데크게기여한것은물론,우리나라건축분야교육과연구분야를선도해왔다.앞으로도두학과가창의적인전문인재를키워우리대학은물론,지역과국가,세계의발전에이바지하는건축분야교육의명문으로더욱활약하기를바란다.”라고말했다.  정보융합대‘Dean’sList’뽑았다 정보융합대학,2024-1‘Dean’sList’시상식개최-2일동원장보고관…우수학생27명시상 △ ‘Dean’sList’수상학생들이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교정보융합대학(학장송하주)은5월2일동원장보고관1층에서2024학년도1학기‘Dean’sList’시상식을개최했다. 정보융합대학은학업성적이우수한학생을격려하고학업동기부여를위해2022년부터우수학생을‘Dean’sList’로선정해시상하고있다. 이날‘Dean’sList’로선정된송정아학생(빅데이터융합전공)등정보융합대학소속학생27명이상패와포상금을받았다. 정보융합대학은수상학생들의이름과상패를정보융합홈페이지명예의전당메뉴인‘HallofFame’에싣고있다. 학생모니터링단이뛴다 국립부경대, 국립대학육성사업 학생모니터링단 발대식 개최- 3기 오리엔테이션 및 운영 시작△모니터링단학생들이발대식에서기념촬영하고있다.ⓒ사진이성져(대외홍보팀)국립부경대학교는 4월 30일 오전 동원장보고관 1층 학생취업설명회실에서 ‘2024년 국립대학육성사업 3기 학생 모니터링단 발대식 및 오리엔테이션’을 개최했다.국립부경대는 학생이 직접 프로그램에 참여해 모니터링을 통한 피드백을 제공하고, 우수사업을 발굴하기 위해 지난해부터 학생모니터링단을 운영하고 있다.이날 발대식을 한 3기 소속 학생 10명은 5월부터 8월까지 4개월간 국립대학육성사업 프로그램 개선의견을 제시하거나, 동영상이나 SNS 콘텐츠를 제작하는 등 모니터링 및 홍보활동을 펼친다.국립부경대는 학생모니터링단을 지속적으로 운영하며 구성원의 참여와 소통을 확대하고 우수성과를 공유 확산하는 등 사업 추진 효과를 극대화하고 있으며, 이 같은 노력으로 지난해 교육부의 국립대학육성사업 인센티브 평가에서 A등급을 받은 바 있다. (주)놀잇과손잡았다 국립부경대교육기부거점지원센터-(주)놀잇업무협약-알파세대위한늘봄학교교육기부프로그램개발협력△ 이상길센터장(왼쪽)과최다은대표가협약을하고기념촬영하고있다. 국립부경대학교경상권교육기부거점지원센터(센터장이상길)와㈜놀잇(대표최다은)은경상권역의교육환경개선과교육기부활성화를위한업무협약을체결했다. 양기관은지난19일웨스틴조선호텔부산에서업무협약을맺고△각기관의교육인프라를활용한교육기부활성화사업운영△경상권학생들의창의융합인성교육활성화를위한공동교육프로그램운영△지역사회아동을위한소셜플랫폼및교육지원운영등에협력하기로했다. 국립부경대경상권교육기부거점지원센터는올해‘늘봄학교초1맞춤형프로그램운영사업’운영기관으로선정되면서초등학교1학년대상맞춤형프로그램발굴과확산을위해㈜놀잇과협력체계구축및확대에나섰다. ㈜놀잇은66만유튜브채널다니유치원으로활동하고있는최다은대표를중심으로 저학년아동을위한참여형소셜네트워크서비스를통해의사소통및사회성증진기회를제공하고있다. 양기관은이번협약으로초등학교1학년을대상으로한다양한프로그램을개발하고,지역사회의다양한배경의아동들을지원하며함께성장하는데도움이될것으로기대하고있다. 내방|육군53사단사단장 강관범육군53사단장,국립부경대방문△강관범사단장(왼쪽)이장영수총장과기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 강관범육군53사단사단장이4월29일국립부경대학교를방문했다. 강관범사단장은이날오후국립부경대대학본부3층총장실을찾아장영수총장을예방했다. 이어강관범사단장은동원장보고관3층리더십홀에서국립부경대육군？해군학군단학군사관후보생을대상으로특강을진행했다. 내방|바누아투장관 밥로우만바누아투장관,국립부경대방문△밥로우만장관(왼쪽)이장영수총장과기념촬영하고있다.ⓒ사진이성재(대외홍보팀)밥로우만(BobLaughman)바누아투관광통상산업부장관이4월24일국립부경대학교를방문했다. 밥로우만장관일행은이날오후국립부경대대학본부3층총장실을찾아장영수총장을예방했다. 바누아투는남태평양의섬나라다.국립부경대학교는올해한국과태평양도서국간의협력네트워크를구축하기위한해양수산부의‘원양협력국교류및인력양성사업’에선정된바있다. ‘초1늘봄학교’체계적지원나서 국립부경대,‘초1늘봄학교’체계적지원나서-참여학교학교장워크숍및강사연수개최△ 늘봄학교지원사업참여학교학교장워크숍기념촬영사진.국립부경대학교(총장장영수)가‘늘봄학교지원사업참여학교학교장워크숍’과‘늘봄학교초1맞춤형프로그램운영사업사전강사연수’를잇달아개최했다. 국립부경대경상권교육기부거점지원센터(센터장이상길)는지난4월 19일웨스틴조선호텔부산에서‘늘봄학교지원사업참여학교학교장워크숍’을개최했다. 늘봄학교초1맞춤형프로그램을체계적으로운영하기위한이행사는부산,울산,경남,대구,경북지역23개초등학교의교장,교감25명이참석한가운데프로그램안내와운영사례발표등으로진행됐다. 이날김보경한국과학창의재단선임연구원의‘2024년늘봄학교운영방향’을비롯해최다은주식회사놀잇대표의‘알파세대말하기능력레벨업프로그램놀잇’,왕서현부산석포초교장의‘2023·2024늘봄학교교육기부모델학교운영사례’,이애영·이정희부산통합심리상담센터원장의‘교육기부프로그램사례(초1심리·정서프로그램개발)’등발표가열렸다. 이에앞서국립부경대경상권교육기부거점지원센터는지난3월에는같은장소에서늘봄학교초1맞춤형프로그램운영사업에참여하는강사35명을대상으로사전연수프로그램도개최했다. 국립부경대는올해‘늘봄학교초1맞춤형프로그램운영사업’운영기관으로선정된이후경상권교육기부거점지원센터를주관으로민관참여형늘봄학교지원체계를구축하며초등학교1학년대상맞춤형프로그램발굴과확산에힘쓰고있다.  대기업직무적성검사특강열려 국립부경대,대기업직무적성검사특강개최-2024상반기채용대비…학생·졸업생등131명참가△동원장보고관에서열린 대기업직무적성검사특강교육전경. 국립부경대학교(총장장영수)는2024년상반기대기업채용이본격시작됨에따라‘대기업직무적성검사특강’을개최했다. 국립부경대는학생역량개발과와대학일자리플러스센터(센터장김태규)주관으로지난 4월 2일과3일,9일세차례에걸쳐동원장보고관에서학생과미취업졸업생등매회영역별40명이상참가한가운데특강을열었다. 국립부경대는학생들이대기업취업을준비할때특히어려워하는직무적성검사를체계적으로준비하고실전감각을키울수있도록이번특강을마련했다. 이번특강참가학생들은세차례에걸쳐수리,추리,언어/지각영역별문제유형파악및풀이등교육을이수하며취업역량을키웠다. 한편부경대대학일자리플러스센터는고용노동부의대학일자리센터플러스사업운영기관으로,부경대재학생과지역청년들의다양한진로,취업지원프로그램과서비스를제공하고있다. 34;미래수산부국위한준비를서둘러야34; ‘수산부국(水産富國)을위한도전과제’-김도훈교수,칼럼게재 김도훈교수(해양수산경영경제학부)의해양수산칼럼‘수산부국(水産富國)을위한도전과제’가4월15일21면에실렸다. 김도훈교수는“국제적으로수산업은새로운성장산업으로빠르게발전하고있다.미래학자들이이미예측한바와같이국제적으로식량위기가고조됨에따라인류의미래식량문제를해결할수단으로수산업에대한투자가활발하게이뤄지고있다.”라고설명했다. 김도훈교수는그사례로사우디아라비아는새우와어류의대규모양식업을도모하고있고,미국캐나다남아공등은최첨단4차산업기술을적용한대규모양식업을확대하고있다고있다는점을들었다. 그는“여기에는단순노동자가아닌최첨단기술을보유한유능한젊은인재들이몰려들고있다.”라고강조했다. 김도훈교수는미래수산부국을위한준비를서둘러야한다며△수산업에대한미래산업으로서의인식전환△과거전통산업에서4차산업과연계한최첨단산업으로탈바꿈△글로벌규범에부응하는산업이될것△현수준유지의지원산업이아닌경쟁력있는산업으로재편등을강조했다. ▷칼럼전문보기(클릭) “중장년층들도과학기술전문가로거듭날수있어야” ‘중장년위한과학기술프로그램도입’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘중장년위한과학기술프로그램도입’이4월15일22면에실렸다. 이유태교수는이칼럼에서“반도체기술,첨단과학,의료등분야에서의전문교육은현재까지는20대위주로이루어져왔다.20대에전문교육을받고일정한직업을가지고살다가은퇴후취미여가활동을보내는하나의인생주기에익숙해져있다.”라고지적했다. 지금은의과학기술의발달로전문직업인으로서활약할수있는두번째인생주기가가능한시대라면서이유태교수는이두번째인생주기를더욱생산적으로활용하는방법으로“중장년층들도과학기술전문가로거듭날수있게사회인식기반과교육인프라를재설계하는것.”을제시했다. 이를위해“두번째인생주기에서의대학은첨단과학기술인을양성할수있는대학이어야한다.”라고밝혔다. 이유태교수는“과학기술을배울수있는열정과소양을가진사람들을엄격한기준으로선발하여반도체,첨단공학,의료등에서분야별과학기술전문가를양성할수있도록하는프로그램을지방대학에도입해서새로운지방시대를열수있다.”라고전망했다. 그는그효과로“저출산,노령화,생산가능인력축소,지방소멸,필수의료인력부족등의문제는디지털100세시대에맞도록사회적인식과교육인프라를재설계하여제2인생주기를사회전체가자각하고잘활용함으로써해결될수있다.”라고설명했다. ▷칼럼전문보기(클릭!) 『국가주도화폐창조』출간 국립부경대나희량교수,『국가주도화폐창조』출간-화폐·통화시스템의새롭고혁신적인대안제시국립부경대학교나희량교수(국제통상학부)가『국가주도화폐창조』(박영사)를지난3월 30일출간했다. 저자인나희량교수는최근다수의세계사적인경제위기가발생하면서재테크나일반적인경제학교과서의내용이나수준을넘어대안적인화폐·통화시스템을소개하는경제교양서에대한필요성이대두됨에따라이책을펴냈다. 저자는이책에서‘돈이없어서가난하고불행한사람들이있다면국가가직접돈을만들어서주면되지않을까?’라는경제와화폐에관한단순하지만본질적인의문에대해논의한다. 이책은△화폐에대한논의배경△화폐이야기△화폐이론고찰△화폐·통화시스템분석과국가주도화폐창조△국가주도화폐창조의적용가능성△우리나라와국가주도화폐창조등6개장으로구성됐다. 이책은화폐에대한기존통념과정책을비판적으로평가하면서,예상하지못한위기의상시화에대응하고국민의삶을지키기위해화폐·통화시스템의새롭고혁신적인대안을제시한다. 대표적으로현대화폐이론의‘부채의화폐화’,주권화폐이론의‘주권화폐’의필요성과가능성을모색하고,현대화폐이론과주권화폐이론은신자유주의의모순을완화하기위해화폐의긍정적역할을국가가십분활용할것을주장한다.현대화폐이론과주권화폐이론을‘국가주도화폐이론’의개념으로통합하고이를통한화폐발행을‘국가주도화폐창조’라고명명한다. 나희량교수는“이책이대학생을포함한일반인이이해할수있는교양서수준에서새로운화폐인식과화폐·통화시스템’의필요성을제시하고,이에대한일반독자의의문과관심에대답하는역할을하고자한다.”라고밝혔다. 나희량교수는한국은행조사역,포스코경영연구원지역연구센터연구위원,부산외대국제무역학과조교수,서울대아시아연구소객원연구원,스위스UniversityofBern,WorldTradeInstitute방문교수등을역임했다.국제경제,국제통상,아세안경제등을연구해왔으며최근에는화폐의본질과화폐·통화시스템의개혁방안에관한연구를진행중이다. ‘김수일기념상’수상 김윤태교수,‘김수일기념상’수상△ 김윤태교수(가운데)가상을받고기념촬영하고있다.국립부경대학교김윤태교수(해양공학과)가한국지반공학분야의큰상인‘김수일기념상’수상자로선정됐다. 김윤태교수는최근제주국제컨벤션센터에서열린한국지반공학회정기총회및봄학술대회에서제4회김수일기념상(학술부문)을수상하고,수상기념초청강연을펼쳤다. 김수일기념상은한국지반공학회회장을역임한바있는고김수일연세대명예교수를기리기위해지반공학자들이뜻을모아제정한상으로,지난2021년부터학술및기술부문에각1명씩수상자를선정해시상하고있다. 김윤태교수는한국지반공학회종신회원으로서연약지반과산사태등자연재난안전관련분야에서SCI급65편과등재지96편논문발표를비롯해저서편찬2권,특허등록16건,기술이전6건등지반공학분야의탁월한연구업적으로과학기술발전과학술진흥및후학양성에기여한공로로이상을받았다. 김윤태교수는지난2009년부터해양공학과지반시스템연구실산사태연구단을운영하며강효섭박사(국립재난안전연구원),AnantaM.SPradhan박사(네팔수자원연구개발센터),이지성박사(경남연구원),하용수박사(한국해양과학기술원),NguyenBaQuangVinh박사(호치민대연구교수),송창호(국립부경대해양공학과박사수료)등연구진들과함께산사태민감도,취약성등을연구하며국내외저명학술지에많은논문을싣는등활발한연구활동을펼치고있다. ‘디지털100세시대’를맞아 ‘중장년을위한과학기술대도입’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘중장년을위한과학기술대도입’이3월27일20면에실렸다. 이유태교수는이칼럼에서‘디지털100세시대’를맞아아날로그시대적인식에서벗어나중장년층도과학기술전문가로거듭날수있도록사회적인식과교육인프라를새롭게설계해야한다고주장했다. 그는“(중장년층이)의과학기술의발달로소일거리나일용직업이아닌전문직업인으로사는또하나의완전한인생주기가충분히가능한시대에이르렀다.”라면서,“지방에중장년이후삶에서새로운전문인으로탈바꿈할수있도록의료및과학기술대프로그램을도입하면추가적경제발전과지방소멸의두마리토끼를잡을수있다.”라고설명했다. 이유태교수는이같은인생주기에걸맞은대학은‘첨단과학기술인을양성할수있는대학’이어야한다며,“엄격한기준으로선발하여반도체,첨단공학,의료등에서분야별과학기술전문가를양성할수있도록하는프로그램을지방대학에도입해서새로운지방시대를열수있다.”라고밝혔다. 이유태교수는그효과로△세대통합△고급생산가능인력증가△국내총생산(GDP)증가△사회안정망과복지제고△선순환경제등을제시했다. ▷칼럼전문보기(클릭) “지자체가발전하고싶다면각분야전문가나서야” ‘전문가지방의원의중요성’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘전문가지방의원의중요성’이3월21일21면에게재됐다. 이유태교수는이칼럼에서“지방자치의원선거는국회의원선거에비할바아니다.”라면서도,“지방의원은현재내가사는고장에대해직접적인영향을미치는크고작은정책및사안을심의하고필요한조례를만들수있다.매의눈으로살필수있는전문지식이필요하다.”라고짚었다. 그는내가사는고장을위한지방의원선출의중요성을강조하며,“특권은없어도오롯이실질적인봉사를위해서전문지식을가진사람이지방자치의원을하게할수있어야한다.”라고설명했다. 이유태교수는이를위해봉사정신이투철해야하고열정또한있어야하며,본인이하는현업에서한발짝물러나서시간을낼수있어야한다고강조했다.그는“지자체가어제보다발전하고싶다면각분야의전문가가나서야하고전문가가봉사하나만을보고나설수있도록토양이만들어져야한다.”라고조언했다. 이유태교수는“지역국회의원과대등하게지방의원이그고장을위해서토론하고봉사하고같이노력을기울일때내고장이좋아지고국가또한발전할것.”이라면서,“결국은시민이주인이고시민이부산을바꿀힘을가지고있다.”라고밝혔다. ▷칼럼전문보기(클릭) 지속가능한e스포츠산업발전해법은? ‘e스포츠산업,실제는거품?’-김대환교수,칼럼게재 국립부경대학교김대환교수(해양스포츠전공)의칼럼‘e스포츠산업,실제는거품?’이3+4월호에실렸다. 김교수의칼럼은서울특별시체육회가발간하는이웹진의18,19면의‘요즘,스포츠’코너에‘산업기반의수익악화로인한e스포츠에대한부정적평가와개선방법’이라는부제와함께게재됐다. 김교수는이칼럼에서“전세계적으로e스포츠산업은최근10년간폭발적인성장을보여주었으며,이에따라다양한공공및민간영역에서e스포츠에대한투자가일어났다.”라면서,“장밋빛으로점철된e스포츠산업은과연앞으로도황금알을낳는거위가될수있는것일까?”라며의문을던졌다. 그는최근국내e스포츠산업규모의감소추세와e스포츠대회인리그오브레전드챔피언스코리아의적자기록등의사례를들며e스포츠산업의버블경고를전했다. 김교수는e스포츠산업의문제들로△이해관계자들의수익분배불균형△변동성이큰수익원에대한높은의존도△부실한유망주발굴체계등으로분석했다. 이같은부정적이슈들에대한대안으로△이해관계자간협력을통한개선된수익분배체계마련△구단의연봉샐러리캡제도의안착△공교육체계내풀뿌리기반마련등을제시했다. 김교수는“공교육체계내에서선수가육성되고이를통해아마추어리그가확대되어e스포츠의긍정적인문화와직업문화를자리잡게된다면e스포츠산업확장에도도움이될것.”으로기대했다. ▷칼럼전문보기(클릭) 반갑습니다|신임교원29명임용·워크숍개최 국립부경대,전임교원29명신규임용및워크숍개최△신임교원들이임명장을받고기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교는3월1일자로전임교원29명을신규임용했다. 장영수총장은3월4일오전대학본부2층회의실에서임명장수여식을하고이들에게임명장을수여했다. 이와함께3월6일,7일에는이들을대상으로동원장보고관1층동원아카데미홀과핵심역량도서관5층IT학습라운지에서2024학년도전기신임교원워크숍을개최했다. 이워크숍에서는신임교원들을대상으로장영수총장의특강을비롯해교육공무원징계관련주요내용안내,대학역사소개,혁신수업우수사례소개,교육과정안내,성과관리시스템소개,도서관안내,학술연구진흥사업및연구과제수주전략안내,에듀테크활용법소개,학생상담및소통방법안내,Smart-LMS실습교육및청렴교육등이진행됐다. 한편3월1일자로임용된2024학년도전기신임교원은김현정(영어영문학부),김혜진(경제학과),유정민(행정학전공),정승철(정치외교학과),박송이(물리학과),박혜경(경영학부),서해진(경영학부),신민주(경영학부),이홍석(전기공학전공),서기완(전기공학전공),정영(기계공학전공),공경주(기계시스템공학전공),권혁진(공업화학전공),권준영(나노융합공학전공),김동영(차세대반도체공학전공),이희두(소방공학과),김태윤(소방공학과),정찬원(재료공학전공),김종찬(토목공학전공),김현수(토목공학전공),김종훈(생물공학과),부가훈(자원생물학전공),남기전(환경공학전공),백지은(에너지자원공학과),김동재(정보통신공학전공),이주현(건축학전공),남윤태(시각디자인전공),김채현(디지털금융학과),최인오(스마트모빌리티공학과)등29명이다.  HerWon-Bin&OhYoung-Sam|Adolescentswhosmokeanddrinkalcoholaremorelikelytousedrugs Adolescentswhosmokeanddrinkalcoholaremorelikelytousedrugs-researchresultsfromtheresearchteamofprofessorHerWon-BinandOhYoung-SamatPKNU Reserchhasshownthatadolescentswhohe experiencedsmokingandalcoholaremorelikelytousedrugsthanthosewhohenot. TheteamofprofessorsHerWon-BinandOhYoung-SaminthedepartmentofsocialwelfareatPukyongNationalUniversity,foundoutthecorrelationbetweenadolescents'smoking,drinking,anddrugusebasedonthegatewaytheory. Thegatewaytheoryisoftenusedtoexplainthephenomenonwheretheuseofsafeorlegallypermitteddrugsleadstotheuseofstronger(moreaddictive)drugs.Itisinasimilarcontexttotheproverb,'hethatwillstealaneggwillstealanox'. Accordingtotheirstudy,thegroupwithexperienceusingnarcoticshadmoreexperiencewithsmokinganddrinkingatastatisticallysignificantlevelthanthegroupwithnoexperience.Lifetimeexperienceofusinge-cigarette(incl.vapepen)wastwiceashigh,lifetimeexperienceofsmokingwasapproximately1.54timeshigher,andlifetimeexperienceofdrinkingalcoholwasapproximately1.29timeshigher. Theresultsofthestudyshowedthatadolescentswhohadeversmokede-cigarettesatleastonceintheirliveswere2.42timesmorelikelytousenarcoticsthanadolescentswhohadnoexperienceatall. Additionally,theearlier(younger)onestartedsmokingcigarettesduringadolescence,thelikelihoodofusingnarcoticsincreasedby1.53timeseachyear,andtheearlieroneyearofstartingdrinking,thelikelihoodofusingnarcoticsincreasedby1.58times. Theresearchteamconductedthestudyusingtheresultsofthe17th(2021)onlinesurveyonadolescenthealthbehiorconductedbytheKoreadiseasecontrolandpreventionency(KDCA)on54,848middleandhighschoolstudentsfrom800schoolsnationwideandanalyzedtheresultsofthisstudyassupportingthegatewaytheorythattheuseofsoftdrugssuchassmokinganddrinkingleadstotheuseofharddrugssuchasnarcotics. Thepaper'Analyzingtherelationshipamongadolescentalcohol,smoking,anddruguse:utilizingthegatewaytheory’containingthisstudywaspublishedinthelatestissue(vol.31,no.2)ofbySoganguniversityinstituteofsocialscience. ProfessorOhYoung-Samsaid,"Iftheproblemofdruguseamongteenscannotbecompletelyeliminated,preventionandestablishmentofaresponsesystemaremoreimportantthanpunishment,"headded"Ibelievethatanaccurateunderstandingoftheactualsituationofteendrugabuseandtheestablishmentofaneffectivestrategyandsystemmustcomefirst,andthateffortsandinterestfromallindividualsandcommunities,includingthegovernment,schools,police,andsocialwelfareencies,areneeded." JungSung-Chul|Presentsaplantoimproveelectrolyteperformanceofall-solid-statebatteries PKNUresearchteampresentsaplantoimproveelectrolyteperformanceofall-solid-statebatteries-researchresultsofprof.JungSung-Chul'steampublishedintheinternationaljournaloftheRoyalsocietyofchemistry-thedisorderofanionsincreasesthestabilityofthesolidelectrolyte PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorJungSung-Chul(departmentofphysics)proposedamethodtoimprovetheperformanceofLi6PS5Cl,asulfide-basedsolidelectrolyteusedinsolid-statebatteries. InanabinitiocalculationstudyconductedbyprofessorJungSung-ChulwithphdstudentJeonTae-Gonandmaster'sresearcherChaKyeong-Hointhesamedepartment,hesucceededinquantitativelyidentifyingtheeffectofthedisorderedarrangementofSandClanionsinLi6PS5Cl,asolidelectrolyte,onthephysicalpropertiesofLi6PS5Cl. All-solid-statebatteriesarereceivingalotofattentionbecausetheycangreatlyincreasethestabilityandenergydensityofthebatterybyreplacingtheflammableliquidelectrolytewithanon-flammablesolidelectrolyte.Li6PS5Cl,basedontheargyroditestructure,hasexcellentionicconductivity,anditsrawmaterials,Li2S,LiCl,andP2S5,areeconomicalandeasytosynthesize,somanystudiesarebeingpursued. Inthisstudy,professorJung'steamfoundthatLi6PS5Clishighlystabilizedwhendisorderoccurscomparedtowhenthereisnoaniondisorder,andthestabilizedLi6PS5Clshowshighionicconductivity(upto4.6mScm1). Additionally,theresearchteamfoundthatwhenaniondisorderoccurs,someoftheLiionsmovefromaroundCltoclosetoS,andthatthisrearrangementofLicontributesdecisivelytoimprovingthestabilityandincreasingconductivityofLi6PS5Cl. ProfessorJungSung-Chulsaid,"IbelievethatthisstudysuggeststhatpreciselycontrollingtheionicdisorderofthesolidelectrolyteisanotherwaytoimprovetheelectrochemicalperformanceofnotonlyLi6PS5Clbutalsoothersolidelectrolytes." Thestudywasconductedthroughsupportfromthemid-careerresearcherprogramsupportedbytheMinistryofscienceandICTandtheLAMPprojecthostedbytheMinistryofeducation,andrecentlypublishedin(IF=11.9),arenownedinternationaljournalinthefieldsofchemistry,physics,andmaterialspublishedbytheRoyalsocietyofchemistryintheUK. △ Theresearchers(fromleft,JungSung-Chul,JeonTae-Gon,andChaKyeong-Ho). ParkWoon-Ik|Developed39;dualnanopatterningprocess39;forthefirsttime PKNUdeveloped'dualnanopatterningprocess'forthefirsttime-jointresearchwithBusannationaluniv.,Koreauniversity,POSTECH,andKICET△ ResearchersatPukyongNationalUniversity.Fromtheleft,professorParkWoon-Ik,Dr.ParkTae-Wan,mastercandidateKangYoung-Lim,andKangEun-Bininintegratedbachelorandmaster'sprogram. PukyongNationalUniversityannouncedthatprofessorParkWoon-Ik's(materialsscienceandengineeringmajor)researchteamwasthefirsttodevelopanadvancedconceptandtechnologyofdualnanopatterningprocessthatformsa20-nanoultra-finepatternonan8-inchwaferinthesemiconductorprocess. Withthedevelopmentofnext-generationelectronicdevices,thedevelopmentofnanopatterningprocessestoimplementhighlyintegratedsemiconductorcircuitsisessentialtoproducevariouselectronicdevices.Photolithographyismainlyusedasthecurrentrepresentativenanopatterningprocess,butresearchershebeendevelopingnewprocessestoreplaceitduetolimitationsinpatternresolution,expensiveequipment,andcomplicatedprocesssteps. 'Nanotransferprinting',whichexhibitshighpatternresolutionatalowcost,isconsideredoneofthenewalternativeprocesses,butthishasalsobeenpointedoutasadisadvanteinthatthepatternresolutionislargelydependentonthepatternsizeofthemastermold. Tosolvethisproblem,theresearchteamappliedamethodthatcombinedtheself-assemblyphenomenonofblockcopolymerscontainingsilicon(Si)withthenanotransferprintingprocessandfinallytheysucceededindevelopingadualnanopatterningprocesstoformregularlyaligned20-nanometersilica(SiOx)structuresonan8-inchwafer. ProfessorParkWoon-Iksaid,"Iexpectthatthedualnanopatterningprocesswillgreatlycontributetothedevelopmentofnext-generationsemiconductortechnologyinthefuturebecauseitcanimplementhighlyintegratedpatternswithmorecomplexcircuitsatacostthatisone-tenthofthatofexistingpatterningtechnologies." Thisresearchwasconductedthroughthebasicresearchlaboratory(BRL)andmid-careerresearcherprogramprovidedbytheNationalresearchfoundationofKorea(NRF)undertheMinistryofscienceandICT(MSIT),andthepapercontainingtheresearchresults,'directprintingofultrathinblockcopolymerfilmwithnano-in-micropatternstructures'waspublishedintheinternationalacademicjournal(IF:17.5)datedonAugust,21. TheresearchwasjointlyattendedbyprofessorParkWoon-Ik,Dr.ParkTae-Wan,mastercandidateKangYoung-Lim,andKangEun-Bininintegratedbachelorandmaster'sprogram,professorHwangGeon-TaeatPukyongNationalUniversity,professorKimGwang-Ho(directorofNRFglobalfrontierproject),professorKwonSe-Hun,professorLeeJung-WooandprofessorLeeSeoung-KifromBusannationaluniversity,professorNamSanfromKoreauniversity,professorChoiSi-YoungfromthePohanguniversityofscienceandtechnology(POSTECH),anddoctorJungHyun-SungfromKoreainstituteofceramicengineeringandtechnology(KICET). △ A20-nanomicrocircuitstructureformedonaflexibleandtransparentsubstratethroughadualnanopatterningprocess. LeeSeung-Hun|Discoveredattributeofantirustblackcopper Jointresearchteamofprof.LeeSeung-HunfromPKNUdevelopedachromaticcopperwithpreservingoxidationresistance-jointresearchbetweenPKNU,Busannationaluniv.,Sungkyunkwanuniv.,andMississippistatecollege△ Representativeimesoftheresearch(a)colorcontrolofporousnanostructuredcopperthinfilms,(b)Figure3dshowsachromaticcopperandtransmissionelectronmicroscopyofitsnanostructuredsurface,(c)Wettingpropertieschangeprocessaccordingtoporosityofcolorlesscopper  AjointresearchteamwithprofessorLeeSeung-Hun(dept.ofphysics)fromPukyongNationalUniversity(PresidentJangYoung-Soo)developedsingle-crystalcopperthatdoesnotrustandcanachievecontinuousachromaticcolorsfromgraytoblack. Thejointresearchteam,whichincludedresearchersfromPukyongNationalUniversity,Busannationaluniversity,Sungkyunkwanuniversity,andMississippistatecollege,identifiedthegrowthmechanismofcolorlesscopper,thecauseofoxidationresistance,andthespecificityofthegrowncoppersurfacethroughtheoryandexperiment. Thepaper'self-oxidationresistanceofthecurvedsurfaceofachromaticcopper'containingtheresultsofthisresearchwasintroducedintheworld-renownedacademicjournal(IF:29.4). Lastyear,professorJeongSe-Young(dept.Ofopticsandmechatronics)'sresearchteamatBusannationaluniversityattractedattentionbyproducingcopper(Cu)withanatomic-levelflatsurfaceandsuggestingamechanismtopreventthiscopperfrombeingoxidized.Thistime,theresearchteamrecentlydevelopedacoppergrowthtechnologythatcontrolsthegrowthconditionsofthincopperfilmstoachieveavarietyofachromaticcolorsfromlightgraytocompleteblack. Thejointresearchteamsuggestedthatthecolorofthisachromaticcopperisduetoitsnanostructure,andthatitcanheavarietyofachromaticcolorsasthedegreeoflightconfinementvariesdependingonthedensityandsizeofporeswithinthenanostructureandtheconnectivitybetweenpores. Althoughcolorlesscopperhasacomplexdendritestructuresimilartotheshapeoftreebranchesordendrites,oxidationdoesnotoccur.Theresearchteamfoundthatthesurfaceofthedendriticstructureismadeupofaseriesofsingleatomiclayers,andthat2to3surfacelayersmadeofatomsshrinktoabout20pm(picometre,onetrillionthofametre)duetosurfacetension,makingitdifficultforoxygenthatcausesoxidationtopenetratethroughthecoppersurfacelayer. ProfessorLee'sresearchteampaidintensiveattentiontotheapplicabilitythatthiscolorlesscoppercouldhe.Hesaid,"Hydrophobicityreferstothepropertyofnoteasilycombiningwithwatermolecules,andreferstoapropertythatisgenerallyobservedinorganicsubstances.Thischaracteristicisduetothefactthatlotusleesdonotgetweteasilyandthecarwaxcoating.Wethoughtthatnanostructureswithmanyfinepores,suchascolorlesscopper,couldhehighhydrophobicproperties." Byinvestigatingthewettingpropertiesofachromaticcopper,thePukyongNationalUniversityresearchteamofprofessorLeeSeung-Hun,NamGi-Deukinhismaster'sprogram,andprofessorParkSung-Heumconfirmedthatthewettingpropertiescanbeswitchedverystablyandreversiblyfromsuperhydrophobicitytosuperhydrophilepropertythroughpost-processing. Throughthisstudy,theyfoundthatstablewettabilityswitchingpropertieswerenotpossiblewithothercoppersandwereduetotheuniquestructuralpropertiesofachromaticcopper.Thepropertyofwettabilityswitchingcanbeutilizedinmicrofluidicdevicessuchasdropletpumpsandtweezers,aswellasfluidfiltersandmicroarray/librarytechnologies.Variousapplicationsareexpectedinthefuturethroughsynergybetweenthemetallicpropertiesofcoppermaterialsandthelight-trappingpropertiesofnanostructuresthatcreateachromaticcolors. ProfessorLeesaid,"Thisistheresultofeffortsobtainedthroughjointresearchbyexpertsinvariousfieldsrangingfrommaterialproduction,analysis,andtheory,andIbelieveitisaresultthatclearlyshowstheimportanceandinterestofnewmaterials." △Theresearchers.(Fromleft)ProfessorLeeSeung-HunfromPukyongNationalUniversity(co-firstauthor),professorJeongSe-YoungfromBusannationaluniversity(correspondingauthor),andprofessorKimYoung-MinfromSungkyunkwanuniversity(correspondingauthor). HerWon-Bin&OhYoung-Sam|Reasonswhyweshouldtrytoquitsmokingatleastonce Teen-smokersshouldtrytoquitsmokingatleastonce,eveniftheyfail-researchresultfromprof.HerWon-Bin,andprof.OhYoung-Sam'steamatPKNUdrawsattentionfromtheacademia△Prof.HerWon-Bin,prof.OhYoung-Samandprof.JeongHye-JinAmongtheteen-smokers,thosewhotrytoquitsmokingatleastoncehadasignificantlylowerlevelsofaddictiontonicotinethanthegroupwhodonottry. ThisistheresultofastudyconductedbyajointresearchteamledbyprofessorsHerWon-BinandOhYoung-SamfromthedepartmentofsocialwelfareatPukyongNationalUniversityandprofessorJeongHye-JinfromthedepartmentofpublicadministrationatBusanNationalUniversitythroughasurveyof349teen-smokersundertheeof18whohadsmokingexperience. TheresearchteamutilizedanempiricalstudytargetingKoreanteenersbasedontheresearchresults(2019)ofthehealthandtobaccocontroldivisionofCalifornia,USAthatsmokerswhodidnottrytoquitsmokingbeforetheeof26arelikelytoremainsmokersforlife. Asaresultofcollectingsampledataintheformofaquestionnairesurvey,theereeoftherespondentswasabout16yearsold,andtheeredurationofsmokingwas2.6years.Theresearchteamanalyzedthembydividingthemintoagroupthathadtriedtoquitsmokingandagroupthathadnottried. Asaresultoftheirstudy,69%ofthenon-trialgroupwhohadnevertriedtoquitsmokingweremaleadolescents,whichwassignificantlyhigherthantheattemptgroup.Teenswhodidnotgotoschoolweremorelikelytobeinthegroupwhohadtriedtoquitsmokingatleastonce.Theresearchteamspeculatedthatthereasonforthelargenumberofout-of-schoolyouthinthetrialgroupwaseconomicfactorsortheeffectoftheyouthcenter'santi-smokingprogram. Theresearchteamsuggested,"Researchresultsshowthatnicotineaddictionincreasesifyoudonottrytoquitsmokingevenonce,"andadded,"Forteenerstobesuccessfulinquittingsmokinginthelongterm,eveniftheyfail,theyshouldtrytoquitsmokingassoonaspossible,practicequittingandbuildupthestaminatoquit." Theysaid,"Weexpectthattheresultsofthisstudywillhelpdesignanddevelopsmokingcessationprogramsthatconsidersmoking-relatedfactorsandcharacteristicsofeachgroup." Thepaper 「ExaminingPredictorsofNicotineDependenceinKoreanAdolescents:comparingeverquittersandneverquitters」 containingtheresultsofthisstudywasintroducedinaninternationaljournal,. AhnYe-Chan|Thebiggestchallengeofthyroidsurgeryfinallysolved Koreanresearchershesolvedtheproblemof'preservationoftheparathyroidglands',thebiggestchallengeinthyroidsurgery-ajointresearchbyPKNU,KosinUniv.&UNIST...obtainedMFDSapprovalandaUS,Chinapatent△professorAhnYe-Chan.ResearchersinKoreahesucceededinresolvingoneofthebiggestchallengesinthyroidsurgery,thepreservationoftheparathyroidglands. PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorAhnYe-ChanfromthedepartmentofbiomedicalengineeringdevelopedatechnologytopreservetheparathyroidglandduringthyroidsurgeryandcompletedFMDSapprovalaswellasinternationalpatentregistration. Thyroidcancer,whichisthemostcommoncancerinKorea,hasahighsurvivalrate,butpatientswhoheundergonethyroidsurgeryoftenexperiencesymptomssuchasnumbnessinthehandsandfeet,abnormalsensationsaroundthemouth,chesttightness,orbodyconvulsionsinthehandsorface. Thesesymptomsarethemostcommonandseriouscomplicationofthyroidsurgeryandarecausedbyhypofunctionoftheparathyroidgland.Sincethesizeoftheparathyroidglandisverysmall,itisdifficulttodistinguishitwiththenakedeyefromthesurroundingadiposetissueandeveniftheparathyroidglandisfound,preservingbloodflowtothistinyorganisnoteasyevenforexperiencedsurgeons,soithasbeenconsideredthebiggestchallengeinthyroidsurgery. Tosolvethisproblem,professorAhnYe-ChanatPukyongNationalUniversitydevelopeda'technologytodetectinvisibleparathyroidglandsusingnear-infraredautofluorescenceimingtopreserveparathyroidglandsduringthyroidsurgery'incollaborationwithprofessorLeeKang-DaefromthedepartmentofotorhinolaryngologyatKosinUniversityGospelHospitalandprofessorBaeSeong-CheolfromtheDepartmentofBiomedicalEngineeringandKimYi-GeunattheUlsanNationalInstituteofScienceandTechnology(UNIST). Basedonhighsensitivityandlownoiseperformance,near-infraredimingequipmentusingthistechnologydetectsveryweakparathyroidautofluorescencesignalswithoutturningoffthelights.Sincethesurgeoncancheckthepositionoftheparathyroidglandinrealtimeduringsurgery,theorgancanbepreservedaccordingly. FromFebruarytothe4thofthismonth,theresearchteamobtainedapprovalfromtheMinistryofFoodandDrugSafetyforthemanufactureandsaleofnear-infraredimingequipmentusingthistechnologywhileregisteringfourpatentsonthissourcetechnologyinsuccessionintheUSandoneinChina. ProfessorAhnYe-ChanatPukyongNationalUniversity,explainedthat,"byregisteringthistechnologyasapatentintheUSandChinaforsolvingoneofthebiggestchallengesinthyroidsurgery,wesecuredanopportunitytoentertheglobalmarket.IexpectthatitwillattractalotofattentionespeciallyintheChinesemarketwhereth부경대학교 Pukyong National University : 112enumberofthyroidsurgeriesisrapidlyincreasing." ShinDong-Yoon|Developed39;photovoltaic&LEDdisplayinone39; Newtechnologydevelopmentin'photovoltaic&LEDdisplayinone'-jointresearchbetweenPKNUandKoreainstituteofenergyresearchpublishedresearchpaperininternationalacademicjournalsandcompletedpatentregistrationA'high-efficiencysolarLEDdisplaymodule'hasbeendevelopedthatcanutilizesolarpowergenerationduringthedayandLEDdisplayatnightwithasinglemodule.  PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorShinDong-Yoon(dept.ofnanotechnologyeng.)andtheresearchteamofseniorresearcherKangKi-HwanfromthephotovoltaicresearchcenteratKoreainstituteofenergyresearchdevelopedanewsolardisplayconvergencetechnologythroughjointresearch.  ThejointresearchteamsucceededinconvergingasolarmoduleandanLEDdisplaymodule,whiledramaticallyloweringthereductioninelectricityproductionefficiencyofthesolarmoduleby3%. Unlikeexistingsolarmodulesthatonlyproduceelectricity,itisexpectedtobeabletoutilizenotonlyelectricitygenerationbutalsomediaplaybackfunctionswhenthisdevelopedmoduleisinstalledontheouterwallofabuilding. ExistingLEDdisplaymodulesexcessivelyblocksunlightreachingthesolarmodule,reducingthesolarmodule'selectricityproductionefficiencyby23%,sotherewasalimittothefusionofthesetwomodules.Inaddition,sincethelifetimeoftheLEDdisplayisshorterthanthatofthesolarmodule,therehasbeenaproblemthateventhesolarmodulemustbereplacedwhenitmalfunctions. Theresearchteamsolvedtheseproblemsbyapplyingalatticestructure.ByinstallingLEDsattheintersectionsofgrids,solarlightreachestheemptyareasofthegridswithoutinterferingwiththesolarmodules,developingdetachablesolarLEDdisplaymodules. Especiallywhenalattice-typestructureisapplied,anotherproblemarisesinthatelectricityproductionefficiencydecreasesduetoalatticeshadowwhensunlightisincidentonthemoduleatanangleaccordingtothealtitudeofthesun.Inresponse,theresearchteamsolvedthisproblembyinstallingareflectoronthewallofthelatticestructuretoreflectsunlightbacktothesolarmodule. AsaresultofthesimulationaftertheresearchteaminstalledthismoduleinabuildinginSeoul,itwasshownthattheLEDdisplaymodulecouldbeoperatedforupto22hoursatnightwiththeelectricityproducedduringtheday. Followingthepublicationofthepaper'grid-typeLEDmediafacadewithreflectivewallsforbuilding-integratedphotovoltaicswithvirtuallynoshadingloss',whichcontainstheresultsofthisresearch,intheinternationaljournal(IF:11.2),theresearchteamhasrecentlyobtainedpatentonit. ProfessorShinDong-Yoonsaid,"IexpectthatthemoduletechnologydevelopedthroughthisresearchcanbeagreathelpinmaintainingtechnologicalcompetitivenessnotonlyinKorea'sphotovoltaicindustrybutalsoindisplayandconstruction-relatedindustries." KimDae-Seok|DevelopautonomoussoftrobotsusingLCE AutonomoussoftrobotsusingLCEdevelopedbyPKNUgettingattention-prof.KimDae-Seokpublishedapaperininternationaljournal, △Figureshowingtheself-actuateddriveoftheLCEfilamentstructureconnectedintheformofaloop. AteamledbyprofessorKimDae-Seok(polymerEngineering)fromPukyongNationalUniversityhasdevelopedasoftrobotthatmovesautonomouslyusinganewmaterialcalledliquidcrystalelastomer(LCE),drawingattentionfromtheacademicworld.ThroughjointresearchwithKimYoung-Bininmaster'sdegree,whoiscurrentlyenrolledinthesamedepartment,andprofessorShuYang(dept.ofmaterialsengineering)fromtheuniversityofPennsylvania,professorKimdevelopedasoftrobotthatrealizesautonomousandsustainablemovementbyutilizingthefilamentstructureofLCE,areactivepolymermaterial. Softrobotsrefertorobotsmadeofflexiblematerials,notmetal,sothattheycanbeusedinareascloselyrelatedtohumanlifeorindangerousconditionsinsteadofhumans. LCE,whichcanbeappliedforsoftrobots,isasmartmaterialthattransformsitsshapeinresponsetoexternalstimulisuchasheat,light,andelectromneticfields,andhasattractedattentioninthesoftmaterial-baseddrivesystems.However,therewasalimitationthattheprocessofcontractionandrelaxationaccordingtostimulationwasverydull,fromseveralsecondstoseveraltensofseconds,andtheoutput,whichistheintensityofmovement,wasalsolow. TheresearchteamledbyprofessorKimproducedafilamentwithLCEandthenconnectedthefilamentstoeachothertodesignanewloop-typeactuator,anewgeometricconnectionstructurethatdidnotexistbefore. Asaresultoftheresearchteamapplyingthermalstimulationtothisactuator,themotionofeachfilamentcontractingandrelaxingaffectedotherconnectedfilamentsandsucceededininducingamotionphenomenoninwhichtheactuatorrotatesroundandround.Theresearchteamnamedthisphenomenon'snap-through'. Thisactuatorisexpectedtobeusedasadrivingdeviceforvariousdevicessuchassoftrobotsinthefuture,asitcancontinuouslyproducemuchfasterandhigheroutputthanwhenstimulatingtheexistingLCEitself.Inaddition,sinceitcanbedrivenwithasmallthermalstimulus,ithasbeenshownthatenergycanbesedifdriveninaplacewhereheatlossoccurs. ProfessorKimDae-Seoksaid,"SynthesisofnewmaterialsisstillimportantinmanufacturingLCE-basedsoftrobots,butitismeaningfulthatwehedemonstratedthatcompletelynewphysicalphenomenacanbeinducedonlybystudyingthestructuringandgeometricmodelsofwell-establishedmaterials." Thepaper'autonomous,untetheredgait-likesynchronizationoflobedloopsmadefromliquidcrystalelastomerfibersviaspontaneoussnap-through'containingtheresultsofthisresearchwasrecentlypublishedintheinternationaljournal(IF:14.98). 증명서발급 친절하게안내해드리겠습니다.설명글입니다. 바로가기 Smart-LMS 친절하게안내해드리겠습니다.설명글입니다. 바로가기 수강신청 친절하게안내해드리겠습니다.설명글입니다. 바로가기 학사일정 친절하게안내해드리겠습니다.설명글입니다. 바로가기 등록금안내 친절하게안내해드리겠습니다.설명글입니다. 바로가기 발전기금 친절하게안내해드리겠습니다.설명글입니다. 바로가기 일시정지 일시정지 일시정지 부산최초의대학/부경대역사갤러리 재적생수23,489 국제협력대학48개국258개 국제교류본부 도서관 입학본부 진로취업길라잡이 학부대학 교수학습지원센터 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 건축창학100주년맞았다 국립부경대,‘건축창학100주년기념식’개최-3일미래관…교수·학생·동문모여학과100년역사기념△ 건축창학 100주년기념식참석자들이단체기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교건축공학과와건축학전공은5월 3일오전미래관2층소민홀에서‘건축창학100주년기념식’을개최했다. 이날기념식에는건축공학과와건축학전공교수,학생을비롯해김영복부총장,김영진공과대학장,송하주정보융합대학장,이수용명예교수,서영옥총동창회장,박진철대한건축학회장,전신규·박만식·김석조부경건축동문회전임회장등이참석했다. 국립부경대의건축공학과와건축학전공은100년전인1924년에개설된가구과(家具科)에서시작됐다.우리나라건축분야학과의효시이기도한이학과는이후1933년건축과,2000년에는건축공학부로개편된후2011년건축공학,건축학두학과로분리됐다. 이날기념식참석자들은100주년기념영상관람과축하떡커팅식등을통해건축창학100년역사를함께기념했다. 김영복부총장은이날“두학과는우리대학이특성화종합국립대학으로발전하는데크게기여한것은물론,우리나라건축분야교육과연구분야를선도해왔다.앞으로도두학과가창의적인전문인재를키워우리대학은물론,지역과국가,세계의발전에이바지하는건축분야교육의명문으로더욱활약하기를바란다.”라고말했다.  정보융합대‘Dean’sList’뽑았다 정보융합대학,2024-1‘Dean’sList’시상식개최-2일동원장보고관…우수학생27명시상 △ ‘Dean’sList’수상학생들이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교정보융합대학(학장송하주)은5월2일동원장보고관1층에서2024학년도1학기‘Dean’sList’시상식을개최했다. 정보융합대학은학업성적이우수한학생을격려하고학업동기부여를위해2022년부터우수학생을‘Dean’sList’로선정해시상하고있다. 이날‘Dean’sList’로선정된송정아학생(빅데이터융합전공)등정보융합대학소속학생27명이상패와포상금을받았다. 정보융합대학은수상학생들의이름과상패를정보융합홈페이지명예의전당메뉴인‘HallofFame’에싣고있다. 학생모니터링단이뛴다 국립부경대, 국립대학육성사업 학생모니터링단 발대식 개최- 3기 오리엔테이션 및 운영 시작△모니터링단학생들이발대식에서기념촬영하고있다.ⓒ사진이성져(대외홍보팀)국립부경대학교는 4월 30일 오전 동원장보고관 1층 학생취업설명회실에서 ‘2024년 국립대학육성사업 3기 학생 모니터링단 발대식 및 오리엔테이션’을 개최했다.국립부경대는 학생이 직접 프로그램에 참여해 모니터링을 통한 피드백을 제공하고, 우수사업을 발굴하기 위해 지난해부터 학생모니터링단을 운영하고 있다.이날 발대식을 한 3기 소속 학생 10명은 5월부터 8월까지 4개월간 국립대학육성사업 프로그램 개선의견을 제시하거나, 동영상이나 SNS 콘텐츠를 제작하는 등 모니터링 및 홍보활동을 펼친다.국립부경대는 학생모니터링단을 지속적으로 운영하며 구성원의 참여와 소통을 확대하고 우수성과를 공유 확산하는 등 사업 추진 효과를 극대화하고 있으며, 이 같은 노력으로 지난해 교육부의 국립대학육성사업 인센티브 평가에서 A등급을 받은 바 있다. (주)놀잇과손잡았다 국립부경대교육기부거점지원센터-(주)놀잇업무협약-알파세대위한늘봄학교교육기부프로그램개발협력△ 이상길센터장(왼쪽)과최다은대표가협약을하고기념촬영하고있다. 국립부경대학교경상권교육기부거점지원센터(센터장이상길)와㈜놀잇(대표최다은)은경상권역의교육환경개선과교육기부활성화를위한업무협약을체결했다. 양기관은지난19일웨스틴조선호텔부산에서업무협약을맺고△각기관의교육인프라를활용한교육기부활성화사업운영△경상권학생들의창의융합인성교육활성화를위한공동교육프로그램운영△지역사회아동을위한소셜플랫폼및교육지원운영등에협력하기로했다. 국립부경대경상권교육기부거점지원센터는올해‘늘봄학교초1맞춤형프로그램운영사업’운영기관으로선정되면서초등학교1학년대상맞춤형프로그램발굴과확산을위해㈜놀잇과협력체계구축및확대에나섰다. ㈜놀잇은66만유튜브채널다니유치원으로활동하고있는최다은대표를중심으로 저학년아동을위한참여형소셜네트워크서비스를통해의사소통및사회성증진기회를제공하고있다. 양기관은이번협약으로초등학교1학년을대상으로한다양한프로그램을개발하고,지역사회의다양한배경의아동들을지원하며함께성장하는데도움이될것으로기대하고있다. 내방|육군53사단사단장 강관범육군53사단장,국립부경대방문△강관범사단장(왼쪽)이장영수총장과기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 강관범육군53사단사단장이4월29일국립부경대학교를방문했다. 강관범사단장은이날오후국립부경대대학본부3층총장실을찾아장영수총장을예방했다. 이어강관범사단장은동원장보고관3층리더십홀에서국립부경대육군？해군학군단학군사관후보생을대상으로특강을진행했다. 내방|바누아투장관 밥로우만바누아투장관,국립부경대방문△밥로우만장관(왼쪽)이장영수총장과기념촬영하고있다.ⓒ사진이성재(대외홍보팀)밥로우만(BobLaughman)바누아투관광통상산업부장관이4월24일국립부경대학교를방문했다. 밥로우만장관일행은이날오후국립부경대대학본부3층총장실을찾아장영수총장을예방했다. 바누아투는남태평양의섬나라다.국립부경대학교는올해한국과태평양도서국간의협력네트워크를구축하기위한해양수산부의‘원양협력국교류및인력양성사업’에선정된바있다. ‘초1늘봄학교’체계적지원나서 국립부경대,‘초1늘봄학교’체계적지원나서-참여학교학교장워크숍및강사연수개최△ 늘봄학교지원사업참여학교학교장워크숍기념촬영사진.국립부경대학교(총장장영수)가‘늘봄학교지원사업참여학교학교장워크숍’과‘늘봄학교초1맞춤형프로그램운영사업사전강사연수’를잇달아개최했다. 국립부경대경상권교육기부거점지원센터(센터장이상길)는지난4월 19일웨스틴조선호텔부산에서‘늘봄학교지원사업참여학교학교장워크숍’을개최했다. 늘봄학교초1맞춤형프로그램을체계적으로운영하기위한이행사는부산,울산,경남,대구,경북지역23개초등학교의교장,교감25명이참석한가운데프로그램안내와운영사례발표등으로진행됐다. 이날김보경한국과학창의재단선임연구원의‘2024년늘봄학교운영방향’을비롯해최다은주식회사놀잇대표의‘알파세대말하기능력레벨업프로그램놀잇’,왕서현부산석포초교장의‘2023·2024늘봄학교교육기부모델학교운영사례’,이애영·이정희부산통합심리상담센터원장의‘교육기부프로그램사례(초1심리·정서프로그램개발)’등발표가열렸다. 이에앞서국립부경대경상권교육기부거점지원센터는지난3월에는같은장소에서늘봄학교초1맞춤형프로그램운영사업에참여하는강사35명을대상으로사전연수프로그램도개최했다. 국립부경대는올해‘늘봄학교초1맞춤형프로그램운영사업’운영기관으로선정된이후경상권교육기부거점지원센터를주관으로민관참여형늘봄학교지원체계를구축하며초등학교1학년대상맞춤형프로그램발굴과확산에힘쓰고있다.  대기업직무적성검사특강열려 국립부경대,대기업직무적성검사특강개최-2024상반기채용대비…학생·졸업생등131명참가△동원장보고관에서열린 대기업직무적성검사특강교육전경. 국립부경대학교(총장장영수)는2024년상반기대기업채용이본격시작됨에따라‘대기업직무적성검사특강’을개최했다. 국립부경대는학생역량개발과와대학일자리플러스센터(센터장김태규)주관으로지난 4월 2일과3일,9일세차례에걸쳐동원장보고관에서학생과미취업졸업생등매회영역별40명이상참가한가운데특강을열었다. 국립부경대는학생들이대기업취업을준비할때특히어려워하는직무적성검사를체계적으로준비하고실전감각을키울수있도록이번특강을마련했다. 이번특강참가학생들은세차례에걸쳐수리,추리,언어/지각영역별문제유형파악및풀이등교육을이수하며취업역량을키웠다. 한편부경대대학일자리플러스센터는고용노동부의대학일자리센터플러스사업운영기관으로,부경대재학생과지역청년들의다양한진로,취업지원프로그램과서비스를제공하고있다. 34;미래수산부국위한준비를서둘러야34; ‘수산부국(水産富國)을위한도전과제’-김도훈교수,칼럼게재 김도훈교수(해양수산경영경제학부)의해양수산칼럼‘수산부국(水産富國)을위한도전과제’가4월15일21면에실렸다. 김도훈교수는“국제적으로수산업은새로운성장산업으로빠르게발전하고있다.미래학자들이이미예측한바와같이국제적으로식량위기가고조됨에따라인류의미래식량문제를해결할수단으로수산업에대한투자가활발하게이뤄지고있다.”라고설명했다. 김도훈교수는그사례로사우디아라비아는새우와어류의대규모양식업을도모하고있고,미국캐나다남아공등은최첨단4차산업기술을적용한대규모양식업을확대하고있다고있다는점을들었다. 그는“여기에는단순노동자가아닌최첨단기술을보유한유능한젊은인재들이몰려들고있다.”라고강조했다. 김도훈교수는미래수산부국을위한준비를서둘러야한다며△수산업에대한미래산업으로서의인식전환△과거전통산업에서4차산업과연계한최첨단산업으로탈바꿈△글로벌규범에부응하는산업이될것△현수준유지의지원산업이아닌경쟁력있는산업으로재편등을강조했다. ▷칼럼전문보기(클릭) “중장년층들도과학기술전문가로거듭날수있어야” ‘중장년위한과학기술프로그램도입’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘중장년위한과학기술프로그램도입’이4월15일22면에실렸다. 이유태교수는이칼럼에서“반도체기술,첨단과학,의료등분야에서의전문교육은현재까지는20대위주로이루어져왔다.20대에전문교육을받고일정한직업을가지고살다가은퇴후취미여가활동을보내는하나의인생주기에익숙해져있다.”라고지적했다. 지금은의과학기술의발달로전문직업인으로서활약할수있는두번째인생주기가가능한시대라면서이유태교수는이두번째인생주기를더욱생산적으로활용하는방법으로“중장년층들도과학기술전문가로거듭날수있게사회인식기반과교육인프라를재설계하는것.”을제시했다. 이를위해“두번째인생주기에서의대학은첨단과학기술인을양성할수있는대학이어야한다.”라고밝혔다. 이유태교수는“과학기술을배울수있는열정과소양을가진사람들을엄격한기준으로선발하여반도체,첨단공학,의료등에서분야별과학기술전문가를양성할수있도록하는프로그램을지방대학에도입해서새로운지방시대를열수있다.”라고전망했다. 그는그효과로“저출산,노령화,생산가능인력축소,지방소멸,필수의료인력부족등의문제는디지털100세시대에맞도록사회적인식과교육인프라를재설계하여제2인생주기를사회전체가자각하고잘활용함으로써해결될수있다.”라고설명했다. ▷칼럼전문보기(클릭!) 『국가주도화폐창조』출간 국립부경대나희량교수,『국가주도화폐창조』출간-화폐·통화시스템의새롭고혁신적인대안제시국립부경대학교나희량교수(국제통상학부)가『국가주도화폐창조』(박영사)를지난3월 30일출간했다. 저자인나희량교수는최근다수의세계사적인경제위기가발생하면서재테크나일반적인경제학교과서의내용이나수준을넘어대안적인화폐·통화시스템을소개하는경제교양서에대한필요성이대두됨에따라이책을펴냈다. 저자는이책에서‘돈이없어서가난하고불행한사람들이있다면국가가직접돈을만들어서주면되지않을까?’라는경제와화폐에관한단순하지만본질적인의문에대해논의한다. 이책은△화폐에대한논의배경△화폐이야기△화폐이론고찰△화폐·통화시스템분석과국가주도화폐창조△국가주도화폐창조의적용가능성△우리나라와국가주도화폐창조등6개장으로구성됐다. 이책은화폐에대한기존통념과정책을비판적으로평가하면서,예상하지못한위기의상시화에대응하고국민의삶을지키기위해화폐·통화시스템의새롭고혁신적인대안을제시한다. 대표적으로현대화폐이론의‘부채의화폐화’,주권화폐이론의‘주권화폐’의필요성과가능성을모색하고,현대화폐이론과주권화폐이론은신자유주의의모순을완화하기위해화폐의긍정적역할을국가가십분활용할것을주장한다.현대화폐이론과주권화폐이론을‘국가주도화폐이론’의개념으로통합하고이를통한화폐발행을‘국가주도화폐창조’라고명명한다. 나희량교수는“이책이대학생을포함한일반인이이해할수있는교양서수준에서새로운화폐인식과화폐·통화시스템’의필요성을제시하고,이에대한일반독자의의문과관심에대답하는역할을하고자한다.”라고밝혔다. 나희량교수는한국은행조사역,포스코경영연구원지역연구센터연구위원,부산외대국제무역학과조교수,서울대아시아연구소객원연구원,스위스UniversityofBern,WorldTradeInstitute방문교수등을역임했다.국제경제,국제통상,아세안경제등을연구해왔으며최근에는화폐의본질과화폐·통화시스템의개혁방안에관한연구를진행중이다. ‘김수일기념상’수상 김윤태교수,‘김수일기념상’수상△ 김윤태교수(가운데)가상을받고기념촬영하고있다.국립부경대학교김윤태교수(해양공학과)가한국지반공학분야의큰상인‘김수일기념상’수상자로선정됐다. 김윤태교수는최근제주국제컨벤션센터에서열린한국지반공학회정기총회및봄학술대회에서제4회김수일기념상(학술부문)을수상하고,수상기념초청강연을펼쳤다. 김수일기념상은한국지반공학회회장을역임한바있는고김수일연세대명예교수를기리기위해지반공학자들이뜻을모아제정한상으로,지난2021년부터학술및기술부문에각1명씩수상자를선정해시상하고있다. 김윤태교수는한국지반공학회종신회원으로서연약지반과산사태등자연재난안전관련분야에서SCI급65편과등재지96편논문발표를비롯해저서편찬2권,특허등록16건,기술이전6건등지반공학분야의탁월한연구업적으로과학기술발전과학술진흥및후학양성에기여한공로로이상을받았다. 김윤태교수는지난2009년부터해양공학과지반시스템연구실산사태연구단을운영하며강효섭박사(국립재난안전연구원),AnantaM.SPradhan박사(네팔수자원연구개발센터),이지성박사(경남연구원),하용수박사(한국해양과학기술원),NguyenBaQuangVinh박사(호치민대연구교수),송창호(국립부경대해양공학과박사수료)등연구진들과함께산사태민감도,취약성등을연구하며국내외저명학술지에많은논문을싣는등활발한연구활동을펼치고있다. ‘디지털100세시대’를맞아 ‘중장년을위한과학기술대도입’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘중장년을위한과학기술대도입’이3월27일20면에실렸다. 이유태교수는이칼럼에서‘디지털100세시대’를맞아아날로그시대적인식에서벗어나중장년층도과학기술전문가로거듭날수있도록사회적인식과교육인프라를새롭게설계해야한다고주장했다. 그는“(중장년층이)의과학기술의발달로소일거리나일용직업이아닌전문직업인으로사는또하나의완전한인생주기가충분히가능한시대에이르렀다.”라면서,“지방에중장년이후삶에서새로운전문인으로탈바꿈할수있도록의료및과학기술대프로그램을도입하면추가적경제발전과지방소멸의두마리토끼를잡을수있다.”라고설명했다. 이유태교수는이같은인생주기에걸맞은대학은‘첨단과학기술인을양성할수있는대학’이어야한다며,“엄격한기준으로선발하여반도체,첨단공학,의료등에서분야별과학기술전문가를양성할수있도록하는프로그램을지방대학에도입해서새로운지방시대를열수있다.”라고밝혔다. 이유태교수는그효과로△세대통합△고급생산가능인력증가△국내총생산(GDP)증가△사회안정망과복지제고△선순환경제등을제시했다. ▷칼럼전문보기(클릭) “지자체가발전하고싶다면각분야전문가나서야” ‘전문가지방의원의중요성’-이유태교수,칼럼게재 국립부경대학교이유태교수(경영학부)의칼럼‘전문가지방의원의중요성’이3월21일21면에게재됐다. 이유태교수는이칼럼에서“지방자치의원선거는국회의원선거에비할바아니다.”라면서도,“지방의원은현재내가사는고장에대해직접적인영향을미치는크고작은정책및사안을심의하고필요한조례를만들수있다.매의눈으로살필수있는전문지식이필요하다.”라고짚었다. 그는내가사는고장을위한지방의원선출의중요성을강조하며,“특권은없어도오롯이실질적인봉사를위해서전문지식을가진사람이지방자치의원을하게할수있어야한다.”라고설명했다. 이유태교수는이를위해봉사정신이투철해야하고열정또한있어야하며,본인이하는현업에서한발짝물러나서시간을낼수있어야한다고강조했다.그는“지자체가어제보다발전하고싶다면각분야의전문가가나서야하고전문가가봉사하나만을보고나설수있도록토양이만들어져야한다.”라고조언했다. 이유태교수는“지역국회의원과대등하게지방의원이그고장을위해서토론하고봉사하고같이노력을기울일때내고장이좋아지고국가또한발전할것.”이라면서,“결국은시민이주인이고시민이부산을바꿀힘을가지고있다.”라고밝혔다. ▷칼럼전문보기(클릭) 지속가능한e스포츠산업발전해법은? ‘e스포츠산업,실제는거품?’-김대환교수,칼럼게재 국립부경대학교김대환교수(해양스포츠전공)의칼럼‘e스포츠산업,실제는거품?’이3+4월호에실렸다. 김교수의칼럼은서울특별시체육회가발간하는이웹진의18,19면의‘요즘,스포츠’코너에‘산업기반의수익악화로인한e스포츠에대한부정적평가와개선방법’이라는부제와함께게재됐다. 김교수는이칼럼에서“전세계적으로e스포츠산업은최근10년간폭발적인성장을보여주었으며,이에따라다양한공공및민간영역에서e스포츠에대한투자가일어났다.”라면서,“장밋빛으로점철된e스포츠산업은과연앞으로도황금알을낳는거위가될수있는것일까?”라며의문을던졌다. 그는최근국내e스포츠산업규모의감소추세와e스포츠대회인리그오브레전드챔피언스코리아의적자기록등의사례를들며e스포츠산업의버블경고를전했다. 김교수는e스포츠산업의문제들로△이해관계자들의수익분배불균형△변동성이큰수익원에대한높은의존도△부실한유망주발굴체계등으로분석했다. 이같은부정적이슈들에대한대안으로△이해관계자간협력을통한개선된수익분배체계마련△구단의연봉샐러리캡제도의안착△공교육체계내풀뿌리기반마련등을제시했다. 김교수는“공교육체계내에서선수가육성되고이를통해아마추어리그가확대되어e스포츠의긍정적인문화와직업문화를자리잡게된다면e스포츠산업확장에도도움이될것.”으로기대했다. ▷칼럼전문보기(클릭) 반갑습니다|신임교원29명임용·워크숍개최 국립부경대,전임교원29명신규임용및워크숍개최△신임교원들이임명장을받고기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교는3월1일자로전임교원29명을신규임용했다. 장영수총장은3월4일오전대학본부2층회의실에서임명장수여식을하고이들에게임명장을수여했다. 이와함께3월6일,7일에는이들을대상으로동원장보고관1층동원아카데미홀과핵심역량도서관5층IT학습라운지에서2024학년도전기신임교원워크숍을개최했다. 이워크숍에서는신임교원들을대상으로장영수총장의특강을비롯해교육공무원징계관련주요내용안내,대학역사소개,혁신수업우수사례소개,교육과정안내,성과관리시스템소개,도서관안내,학술연구진흥사업및연구과제수주전략안내,에듀테크활용법소개,학생상담및소통방법안내,Smart-LMS실습교육및청렴교육등이진행됐다. 한편3월1일자로임용된2024학년도전기신임교원은김현정(영어영문학부),김혜진(경제학과),유정민(행정학전공),정승철(정치외교학과),박송이(물리학과),박혜경(경영학부),서해진(경영학부),신민주(경영학부),이홍석(전기공학전공),서기완(전기공학전공),정영(기계공학전공),공경주(기계시스템공학전공),권혁진(공업화학전공),권준영(나노융합공학전공),김동영(차세대반도체공학전공),이희두(소방공학과),김태윤(소방공학과),정찬원(재료공학전공),김종찬(토목공학전공),김현수(토목공학전공),김종훈(생물공학과),부가훈(자원생물학전공),남기전(환경공학전공),백지은(에너지자원공학과),김동재(정보통신공학전공),이주현(건축학전공),남윤태(시각디자인전공),김채현(디지털금융학과),최인오(스마트모빌리티공학과)등29명이다.  HerWon-Bin&OhYoung-Sam|Adolescentswhosmokeanddrinkalcoholaremorelikelytousedrugs Adolescentswhosmokeanddrinkalcoholaremorelikelytousedrugs-researchresultsfromtheresearchteamofprofessorHerWon-BinandOhYoung-SamatPKNU Reserchhasshownthatadolescentswhohe experiencedsmokingandalcoholaremorelikelytousedrugsthanthosewhohenot. TheteamofprofessorsHerWon-BinandOhYoung-SaminthedepartmentofsocialwelfareatPukyongNationalUniversity,foundoutthecorrelationbetweenadolescents'smoking,drinking,anddrugusebasedonthegatewaytheory. Thegatewaytheoryisoftenusedtoexplainthephenomenonwheretheuseofsafeorlegallypermitteddrugsleadstotheuseofstronger(moreaddictive)drugs.Itisinasimilarcontexttotheproverb,'hethatwillstealaneggwillstealanox'. Accordingtotheirstudy,thegroupwithexperienceusingnarcoticshadmoreexperiencewithsmokinganddrinkingatastatisticallysignificantlevelthanthegroupwithnoexperience.Lifetimeexperienceofusinge-cigarette(incl.vapepen)wastwiceashigh,lifetimeexperienceofsmokingwasapproximately1.54timeshigher,andlifetimeexperienceofdrinkingalcoholwasapproximately1.29timeshigher. Theresultsofthestudyshowedthatadolescentswhohadeversmokede-cigarettesatleastonceintheirliveswere2.42timesmorelikelytousenarcoticsthanadolescentswhohadnoexperienceatall. Additionally,theearlier(younger)onestartedsmokingcigarettesduringadolescence,thelikelihoodofusingnarcoticsincreasedby1.53timeseachyear,andtheearlieroneyearofstartingdrinking,thelikelihoodofusingnarcoticsincreasedby1.58times. Theresearchteamconductedthestudyusingtheresultsofthe17th(2021)onlinesurveyonadolescenthealthbehiorconductedbytheKoreadiseasecontrolandpreventionency(KDCA)on54,848middleandhighschoolstudentsfrom800schoolsnationwideandanalyzedtheresultsofthisstudyassupportingthegatewaytheorythattheuseofsoftdrugssuchassmokinganddrinkingleadstotheuseofharddrugssuchasnarcotics. Thepaper'Analyzingtherelationshipamongadolescentalcohol,smoking,anddruguse:utilizingthegatewaytheory’containingthisstudywaspublishedinthelatestissue(vol.31,no.2)ofbySoganguniversityinstituteofsocialscience. ProfessorOhYoung-Samsaid,"Iftheproblemofdruguseamongteenscannotbecompletelyeliminated,preventionandestablishmentofaresponsesystemaremoreimportantthanpunishment,"headded"Ibelievethatanaccurateunderstandingoftheact부경대학교 Pukyong National University : 112ualsituationofteendrugabuseandtheestablishmentofaneffectivestrategyandsystemmustcomefirst,andthateffortsandinterestfromallindividualsandcommunities,includingthegovernment,schools,police,andsocialwelfareencies,areneeded." JungSung-Chul|Presentsaplantoimproveelectrolyteperformanceofall-solid-statebatteries PKNUresearchteampresentsaplantoimproveelectrolyteperformanceofall-solid-statebatteries-researchresultsofprof.JungSung-Chul'steampublishedintheinternationaljournaloftheRoyalsocietyofchemistry-thedisorderofanionsincreasesthestabilityofthesolidelectrolyte PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorJungSung-Chul(departmentofphysics)proposedamethodtoimprovetheperformanceofLi6PS5Cl,asulfide-basedsolidelectrolyteusedinsolid-statebatteries. InanabinitiocalculationstudyconductedbyprofessorJungSung-ChulwithphdstudentJeonTae-Gonandmaster'sresearcherChaKyeong-Hointhesamedepartment,hesucceededinquantitativelyidentifyingtheeffectofthedisorderedarrangementofSandClanionsinLi6PS5Cl,asolidelectrolyte,onthephysicalpropertiesofLi6PS5Cl. All-solid-statebatteriesarereceivingalotofattentionbecausetheycangreatlyincreasethestabilityandenergydensityofthebatterybyreplacingtheflammableliquidelectrolytewithanon-flammablesolidelectrolyte.Li6PS5Cl,basedontheargyroditestructure,hasexcellentionicconductivity,anditsrawmaterials,Li2S,LiCl,andP2S5,areeconomicalandeasytosynthesize,somanystudiesarebeingpursued. Inthisstudy,professorJung'steamfoundthatLi6PS5Clishighlystabilizedwhendisorderoccurscomparedtowhenthereisnoaniondisorder,andthestabilizedLi6PS5Clshowshighionicconductivity(upto4.6mScm1). Additionally,theresearchteamfoundthatwhenaniondisorderoccurs,someoftheLiionsmovefromaroundCltoclosetoS,andthatthisrearrangementofLicontributesdecisivelytoimprovingthestabilityandincreasingconductivityofLi6PS5Cl. ProfessorJungSung-Chulsaid,"IbelievethatthisstudysuggeststhatpreciselycontrollingtheionicdisorderofthesolidelectrolyteisanotherwaytoimprovetheelectrochemicalperformanceofnotonlyLi6PS5Clbutalsoothersolidelectrolytes." Thestudywasconductedthroughsupportfromthemid-careerresearcherprogramsupportedbytheMinistryofscienceandICTandtheLAMPprojecthostedbytheMinistryofeducation,andrecentlypublishedin(IF=11.9),arenownedinternationaljournalinthefieldsofchemistry,physics,andmaterialspublishedbytheRoyalsocietyofchemistryintheUK. △ Theresearchers(fromleft,JungSung-Chul,JeonTae-Gon,andChaKyeong-Ho). ParkWoon-Ik|Developed39;dualnanopatterningprocess39;forthefirsttime PKNUdeveloped'dualnanopatterningprocess'forthefirsttime-jointresearchwithBusannationaluniv.,Koreauniversity,POSTECH,andKICET△ ResearchersatPukyongNationalUniversity.Fromtheleft,professorParkWoon-Ik,Dr.ParkTae-Wan,mastercandidateKangYoung-Lim,andKangEun-Bininintegratedbachelorandmaster'sprogram. PukyongNationalUniversityannouncedthatprofessorParkWoon-Ik's(materialsscienceandengineeringmajor)researchteamwasthefirsttodevelopanadvancedconceptandtechnologyofdualnanopatterningprocessthatformsa20-nanoultra-finepatternonan8-inchwaferinthesemiconductorprocess. Withthedevelopmentofnext-generationelectronicdevices,thedevelopmentofnanopatterningprocessestoimplementhighlyintegratedsemiconductorcircuitsisessentialtoproducevariouselectronicdevices.Photolithographyismainlyusedasthecurrentrepresentativenanopatterningprocess,butresearchershebeendevelopingnewprocessestoreplaceitduetolimitationsinpatternresolution,expensiveequipment,andcomplicatedprocesssteps. 'Nanotransferprinting',whichexhibitshighpatternresolutionatalowcost,isconsideredoneofthenewalternativeprocesses,butthishasalsobeenpointedoutasadisadvanteinthatthepatternresolutionislargelydependentonthepatternsizeofthemastermold. Tosolvethisproblem,theresearchteamappliedamethodthatcombinedtheself-assemblyphenomenonofblockcopolymerscontainingsilicon(Si)withthenanotransferprintingprocessandfinallytheysucceededindevelopingadualnanopatterningprocesstoformregularlyaligned20-nanometersilica(SiOx)structuresonan8-inchwafer. ProfessorParkWoon-Iksaid,"Iexpectthatthedualnanopatterningprocesswillgreatlycontributetothedevelopmentofnext-generationsemiconductortechnologyinthefuturebecauseitcanimplementhighlyintegratedpatternswithmorecomplexcircuitsatacostthatisone-tenthofthatofexistingpatterningtechnologies." Thisresearchwasconductedthroughthebasicresearchlaboratory(BRL)andmid-careerresearcherprogramprovidedbytheNationalresearchfoundationofKorea(NRF)undertheMinistryofscienceandICT(MSIT),andthepapercontainingtheresearchresults,'directprintingofultrathinblockcopolymerfilmwithnano-in-micropatternstructures'waspublishedintheinternationalacademicjournal(IF:17.5)datedonAugust,21. TheresearchwasjointlyattendedbyprofessorParkWoon-Ik,Dr.ParkTae-Wan,mastercandidateKangYoung-Lim,andKangEun-Bininintegratedbachelorandmaster'sprogram,professorHwangGeon-TaeatPukyongNationalUniversity,professorKimGwang-Ho(directorofNRFglobalfrontierproject),professorKwonSe-Hun,professorLeeJung-WooandprofessorLeeSeoung-KifromBusannationaluniversity,professorNamSanfromKoreauniversity,professorChoiSi-YoungfromthePohanguniversityofscienceandtechnology(POSTECH),anddoctorJungHyun-SungfromKoreainstituteofceramicengineeringandtechnology(KICET). △ A20-nanomicrocircuitstructureformedonaflexibleandtransparentsubstratethroughadualnanopatterningprocess. LeeSeung-Hun|Discoveredattributeofantirustblackcopper Jointresearchteamofprof.LeeSeung-HunfromPKNUdevelopedachromaticcopperwithpreservingoxidationresistance-jointresearchbetweenPKNU,Busannationaluniv.,Sungkyunkwanuniv.,andMississippistatecollege△ Representativeimesoftheresearch(a)colorcontrolofporousnanostructuredcopperthinfilms,(b)Figure3dshowsachromaticcopperandtransmissionelectronmicroscopyofitsnanostructuredsurface,(c)Wettingpropertieschangeprocessaccordingtoporosityofcolorlesscopper  AjointresearchteamwithprofessorLeeSeung-Hun(dept.ofphysics)fromPukyongNationalUniversity(PresidentJangYoung-Soo)developedsingle-crystalcopperthatdoesnotrustandcanachievecontinuousachromaticcolorsfromgraytoblack. Thejointresearchteam,whichincludedresearchersfromPukyongNationalUniversity,Busannationaluniversity,Sungkyunkwanuniversity,andMississippistatecollege,identifiedthegrowthmechanismofcolorlesscopper,thecauseofoxidationresistance,andthespecificityofthegrowncoppersurfacethroughtheoryandexperiment. Thepaper'self-oxidationresistanceofthecurvedsurfaceofachromaticcopper'containingtheresultsofthisresearchwasintroducedintheworld-renownedacademicjournal(IF:29.4). Lastyear,professorJeongSe-Young(dept.Ofopticsandmechatronics)'sresearchteamatBusannationaluniversityattractedattentionbyproducingcopper(Cu)withanatomic-levelflatsurfaceandsuggestingamechanismtopreventthiscopperfrombeingoxidized.Thistime,theresearchteamrecentlydevelopedacoppergrowthtechnologythatcontrolsthegrowthconditionsofthincopperfilmstoachieveavarietyofachromaticcolorsfromlightgraytocompleteblack. Thejointresearchteamsuggestedthatthecolorofthisachromaticcopperisduetoitsnanostructure,andthatitcanheavarietyofachromaticcolorsasthedegreeoflightconfinementvariesdependingonthedensityandsizeofporeswithinthenanostructureandtheconnectivitybetweenpores. Althoughcolorlesscopperhasacomplexdendritestructuresimilartotheshapeoftreebranchesordendrites,oxidationdoesnotoccur.Theresearchteamfoundthatthesurfaceofthedendriticstructureismadeupofaseriesofsingleatomiclayers,andthat2to3surfacelayersmadeofatomsshrinktoabout20pm(picometre,onetrillionthofametre)duetosurfacetension,makingitdifficultforoxygenthatcausesoxidationtopenetratethroughthecoppersurfacelayer. ProfessorLee'sresearchteampaidintensiveattentiontotheapplicabilitythatthiscolorlesscoppercouldhe.Hesaid,"Hydrophobicityreferstothepropertyofnoteasilycombiningwithwatermolecules,andreferstoapropertythatisgenerallyobservedinorganicsubstances.Thischaracteristicisduetothefactthatlotusleesdonotgetweteasilyandthecarwaxcoating.Wethoughtthatnanostructureswithmanyfinepores,suchascolorlesscopper,couldhehighhydrophobicproperties." Byinvestigatingthewettingpropertiesofachromaticcopper,thePukyongNationalUniversityresearchteamofprofessorLeeSeung-Hun,NamGi-Deukinhismaster'sprogram,andprofessorParkSung-Heumconfirmedthatthewettingpropertiescanbeswitchedverystablyandreversiblyfromsuperhydrophobicitytosuperhydrophilepropertythroughpost-processing. Throughthisstudy,theyfoundthatstablewettabilityswitchingpropertieswerenotpossiblewithothercoppersandwereduetotheuniquestructuralpropertiesofachromaticcopper.Thepropertyofwettabilityswitchingcanbeutilizedinmicrofluidicdevicessuchasdropletpumpsandtweezers,aswellasfluidfiltersandmicroarray/librarytechnologies.Variousapplicationsareexpectedinthefuturethroughsynergybetweenthemetallicpropertiesofcoppermaterialsandthelight-trappingpropertiesofnanostructuresthatcreateachromaticcolors. ProfessorLeesaid,"Thisistheresultofeffortsobtainedthroughjointresearchbyexpertsinvariousfieldsrangingfrommaterialproduction,analysis,andtheory,andIbelieveitisaresultthatclearlyshowstheimportanceandinterestofnewmaterials." △Theresearchers.(Fromleft)ProfessorLeeSeung-HunfromPukyongNationalUniversity(co-firstauthor),professorJeongSe-YoungfromBusannationaluniversity(correspondingauthor),andprofessorKimYoung-MinfromSungkyunkwanuniversity(correspondingauthor). HerWon-Bin&OhYoung-Sam|Reasonswhyweshouldtrytoquitsmokingatleastonce Teen-smokersshouldtrytoquitsmokingatleastonce,eveniftheyfail-researchresultfromprof.HerWon-Bin,andprof.OhYoung-Sam'steamatPKNUdrawsattentionfromtheacademia△Prof.HerWon-Bin,prof.OhYoung-Samandprof.JeongHye-JinAmongtheteen-smokers,thosewhotrytoquitsmokingatleastoncehadasignificantlylowerlevelsofaddictiontonicotinethanthegroupwhodonottry. ThisistheresultofastudyconductedbyajointresearchteamledbyprofessorsHerWon-BinandOhYoung-SamfromthedepartmentofsocialwelfareatPukyongNationalUniversityandprofessorJeongHye-JinfromthedepartmentofpublicadministrationatBusanNationalUniversitythroughasurveyof349teen-smokersundertheeof18whohadsmokingexperience. TheresearchteamutilizedanempiricalstudytargetingKoreanteenersbasedontheresearchresults(2019)ofthehealthandtobaccocontroldivisionofCalifornia,USAthatsmokerswhodidnottrytoquitsmokingbeforetheeof26arelikelytoremainsmokersforlife. Asaresultofcollectingsampledataintheformofaquestionnairesurvey,theereeoftherespondentswasabout16yearsold,andtheeredurationofsmokingwas2.6years.Theresearchteamanalyzedthembydividingthemintoagroupthathadtriedtoquitsmokingandagroupthathadnottried. Asaresultoftheirstudy,69%ofthenon-trialgroupwhohadnevertriedtoquitsmokingweremaleadolescents,whichwassignificantlyhigherthantheattemptgroup.Teenswhodidnotgotoschoolweremorelikelytobeinthegroupwhohadtriedtoquitsmokingatleastonce.Theresearchteamspeculatedthatthereasonforthelargenumberofout-of-schoolyouthinthetrialgroupwaseconomicfactorsortheeffectoftheyouthcenter'santi-smokingprogram. Theresearchteamsuggested,"Researchresultsshowthatnicotineaddictionincreasesifyoudonottrytoquitsmokingevenonce,"andadded,"Forteenerstobesuccessfulinquittingsmokinginthelongterm,eveniftheyfail,theyshouldtrytoquitsmokingassoonaspossible,practicequittingandbuildupthestaminatoquit." Theysaid,"Weexpectthattheresultsofthisstudywillhelpdesignanddevelopsmokingcessationprogramsthatconsidersmoking-relatedfactorsandcharacteristicsofeachgroup." Thepaper 「ExaminingPredictorsofNicotineDependenceinKoreanAdolescents:comparingeverquittersandneverquitters」 containingtheresultsofthisstudywasintroducedinaninternationaljournal,. AhnYe-Chan|Thebiggestchallengeofthyroidsurgeryfinallysolved Koreanresearchershesolvedtheproblemof'preservationoftheparathyroidglands',thebiggestchallengeinthyroidsurgery-ajointresearchbyPKNU,KosinUniv.&UNIST...obtainedMFDSapprovalandaUS,Chinapatent△professorAhnYe-Chan.ResearchersinKoreahesucceededinresolvingoneofthebiggestchallengesinthyroidsurgery,thepreservationoftheparathyroidglands. PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorAhnYe-ChanfromthedepartmentofbiomedicalengineeringdevelopedatechnologytopreservetheparathyroidglandduringthyroidsurgeryandcompletedFMDSapprovalaswellasinternationalpatentregistration. Thyroidcancer,whichisthemostcommoncancerinKorea,hasahighsurvivalrate,butpatientswhoheundergonethyroidsurgeryoftenexperiencesymptomssuchasnumbnessinthehandsandfeet,abnormalsensationsaroundthemouth,chesttightness,orbodyconvulsionsinthehandsorface. Thesesymptomsarethemostcommonandseriouscomplicationofthyroidsurgeryandarecausedbyhypofunctionoftheparathyroidgland.Sincethesizeoftheparathyroidglandisverysmall,itisdifficulttodistinguishitwiththenakedeyefromthesurroundingadiposetissueandeveniftheparathyroidglandisfound,preservingbloodflowtothistinyorganisnoteasyevenforexperiencedsurgeons,soithasbeenconsideredthebiggestchallengeinthyroidsurgery. Tosolvethisproblem,professorAhnYe-ChanatPukyongNationalUniversitydevelopeda'technologytodetectinvisibleparathyroidglandsusingnear-infraredautofluorescenceimingtopreserveparathyroidglandsduringthyroidsurgery'incollaborationwithprofessorLeeKang-DaefromthedepartmentofotorhinolaryngologyatKosinUniversityGospelHospitalandprofessorBaeSeong-CheolfromtheDepartmentofBiomedicalEngineeringandKimYi-GeunattheUlsanNationalInstituteofScienceandTechnology(UNIST). Basedonhighsensitivityandlownoiseperformance,near-infraredimingequipmentusingthistechnologydetectsveryweakparathyroidautofluorescencesignalswithoutturningoffthelights.Sincethesurgeoncancheckthepositionoftheparathyroidglandinrealtimeduringsurgery,theorgancanbepreservedaccordingly. FromFebruarytothe4thofthismonth,theresearchteamobtainedapprovalfromtheMinistryofFoodandDrugSafetyforthemanufactureandsaleofnear-infraredimingequipmentusingthistechnologywhileregisteringfourpatentsonthissourcetechnologyinsuccessionintheUSandoneinChina. ProfessorAhnYe-ChanatPukyongNationalUniversity,explainedthat,"byregisteringthistechnologyasapatentintheUSandChinaforsolvingoneofthebiggestchallengesinthyroidsurgery,wesecuredanopportunitytoentertheglobalmarket.IexpectthatitwillattractalotofattentionespeciallyintheChinesemarketwherethenumberofthyroidsurgeriesisrapidlyincreasing." ShinDong-Yoon|Developed39;photovoltaic&LEDdisplayinone39; Newtechnologydevelopmentin'photovoltaic&LEDdisplayinone'-jointresearchbetweenPKNUandKoreainstituteofenergyresearchpublishedresearchpaperininternationalacademicjournalsandcompletedpatentregistrationA'high-efficiencysolarLEDdisplaymodule'hasbeendevelopedthatcanutilizesolarpowergenerationduringthedayandLEDdisplayatnightwithasinglemodule.  PukyongNationalUniversity(PresidentJangYoung-Soo)announcedthataresearchteamledbyprofessorShinDong-Yoon(dept.ofnanotechnologyeng.)andtheresearchteamofseniorresearcherKangKi-HwanfromthephotovoltaicresearchcenteratKoreainstituteofenergyresearchdevelopedanewsolardisplayconvergencetechnologythroughjointresearch.  ThejointresearchteamsucceededinconvergingasolarmoduleandanLEDdisplaymodule,whiledramaticallyloweringthereductioninelectricityproductionefficiencyofthesolarmoduleby3%. Unlikeexistingsolarmodulesthatonlyproduceelectricity,itisexpectedtobeabletoutilizenotonlyelectricitygenerationbutalsomediaplaybackfunctionswhenthisdevelopedmoduleisinstalledontheouterwallofabuilding. ExistingLEDdisplaymodulesexcessivelyblocksunlightreachingthesolarmodule,reducingthesolarmodule'selectricityproductionefficiencyby23%,sotherewasalimittothefusionofthesetwomodules.Inaddition,sincethelifetimeoftheLEDdisplayisshorterthanthatofthesolarmodule,therehasbeenaproblemthateventhesolarmodulemustbereplacedwhenitmalfunctions. Theresearchteamsolvedtheseproblemsbyapplyingalatticestructure.ByinstallingLEDsattheintersectionsofgrids,solarlightreachestheemptyareasofthegridswithoutinterferingwiththesolarmodules,developingdetachablesolarLEDdisplaymodules. Especiallywhenalattice-typestructureisapplied,anotherproblemarisesinthatelectricityproductionefficiencydecreasesduetoalatticeshadowwhensunlightisincidentonthemoduleatanangleaccordingtothealtitudeofthesun.Inresponse,theresearchteamsolvedthisproblembyinstallingareflectoronthewallofthelatticestructuretoreflectsunlightbacktothesolarmodule. AsaresultofthesimulationaftertheresearchteaminstalledthismoduleinabuildinginSeoul,itwasshownthattheLEDdisplaymodulecouldbeoperatedforupto22hoursatnightwiththeelectricityproducedduringtheday. Followingthepublicationofthepaper'grid-typeLEDmediafacadewithreflectivewallsforbuilding-integratedphotovoltaicswithvirtuallynoshadingloss',whichcontainstheresultsofthisresearch,intheinternationaljournal(IF:11.2),theresearchteamhasrecentlyobtainedpatentonit. ProfessorShinDong-Yoonsaid,"IexpectthatthemoduletechnologydevelopedthroughthisresearchcanbeagreathelpinmaintainingtechnologicalcompetitivenessnotonlyinKorea'sphotovoltaicindustrybutalsoindisplayandconstruction-relatedindustries." KimDae-Seok|DevelopautonomoussoftrobotsusingLCE AutonomoussoftrobotsusingLCEdevelopedbyPKNUgettingattention-prof.KimDae-Seokpublishedapaperininternationaljournal, △Figureshowingtheself-actuateddriveoftheLCEfilamentstructureconnectedintheformofaloop. AteamledbyprofessorKimDae-Seok(polymerEngineering)fromPukyongNationalUniversityhasdevelopedasoftrobotthatmovesautonomouslyusinganewmaterialcalledliquidcrystalelastomer(LCE),drawingattentionfromtheacademicworld.ThroughjointresearchwithKimYoung-Bininmaster'sdegree,whoiscurrentlyenrolledinthesamedepartment,andprofessorShuYang(dept.ofmaterialsengineering)fromtheuniversityofPennsylvania,professorKimdevelopedasoftrobotthatrealizesautonomousandsustainablemovementbyutilizingthefilamentstructureofLCE,areactivepolymermaterial. Softrobotsrefertorobotsmadeofflexiblematerials,notmetal,sothattheycanbeusedinareascloselyrelatedtohumanlifeorindangerousconditionsinsteadofhumans. LCE,whichcanbeappliedforsoftrobots,isasmartmaterialthattransformsitsshapeinresponsetoexternalstimulisuchasheat,light,andelectromneticfields,andhasattractedattentioninthesoftmaterial-baseddrivesystems.However,therewasalimitationthattheprocessofcontractionandrelaxationaccordingtostimulationwasverydull,fromseveralsecondstoseveraltensofseconds,andtheoutput,whichistheintensityofmovement,wasalsolow. TheresearchteamledbyprofessorKimproducedafilamentwithLCEandthenconnectedthefilamentstoeachothertodesignanewloop-typeactuator,anewgeometricconnectionstructurethatdidnotexistbefore. Asaresultoftheresearchteamapplyingthermalstimulationtothisactuator,themotionofeachfilamentcontractingandrelaxingaffectedotherconnectedfilamentsandsucceededininducingamotionphenomenoninwhichtheactuatorrotatesroundandround.Theresearchteamnamedthisphenomenon'snap-through'. Thisactuatorisexpectedtobeusedasadrivingdeviceforvariousdevicessuchassoftrobotsinthefuture,asitcancontinuouslyproducemuchfasterandhigheroutputthanwhenstimulatingtheexistingLCEitself.Inaddition,sinceitcanbedrivenwithasmallthermalstimulus,ithasbeenshownthatenergycanbesedifdriveninaplacewhereheatlossoccurs. ProfessorKimDae-Seoksaid,"SynthesisofnewmaterialsisstillimportantinmanufacturingLCE-basedsoftrobots,butitismeaningfulthatwehedemonstratedthatcompletelynewphysicalphenomenacanbeinducedonlybystudyingthestructuringandgeometricmodelsofwell-establishedmaterials." Thepaper'autonomous,untetheredgait-likesynchronizationoflobedloopsmadefromliquidcrystalelastomerfibersviaspontaneoussnap-through'containingtheresultsofthisresearchwasrecentlypublishedintheinternationaljournal(IF:14.98). 증명서발급 친절하게안내해드리겠습니다.설명글입니다. 바로가기 Smart-LMS 친절하게안내해드리겠습니다.설명글입니다. 바로가기 수강신청 친절하게안내해드리겠습니다.설명글입니다. 바로가기 학사일정 친절하게안내해드리겠습니다.설명글입니다. 바로가기 등록금안내 친절하게안내해드리겠습니다.설명글입니다. 바로가기 발전기금 친절하게안내해드리겠습니다.설명글입니다. 바로가기 PRCampus Youtube Facebook 뉴스레터 인스타그램 BLOG 캠퍼스DroneVR Youtube Facebook 뉴스레터 인스타그램 BLOG 캠퍼스DroneVR TOP 주요사이트 학생 kcu바로가기 ocu바로가기 국제학생증 부경구글맵스 비교과신청바로가기 수강신청 실무전산 실용영어(글로벌어학교육센터) 인터넷휴ㆍ복학 총동창회 경영자배상책임보험 학사정보안내 교직원 KORUS KORUSVPN 나라배움터 맞춤형복지포털 생활공감정책제안방 웹메일 홈페이지빌더 (구)홈페이지빌더 대학정보알림 교육수요자만족도 규정집 대학자체평가 재정현황 정보공시(대학알리미) 정책실명제(국민신청실명제) 평의원회 현업공무원지정및초과근무수당 교내주요사이트 공동실험실습관 연구분석장비센터 공학교육혁신센터 교수회 국립대학육성사업 대학발전기금 도서관 드래곤밸리기업지원종합시스템 디지털스마트부산아카데미사업단 링크플러스사업단 박물관 보건진료소   부경대학교기록포털 부경대학교디딤돌시스템 산학협력단 소비자생활협동조합 인문한국플러스(HK+)사업단 장애학생지원센터 정보전산원 직장어린이집 체육진흥원 평생교육원 학생생활관 해양어류지원기탁기관 교외주요사이트 개인정보보호포털 교육부 한국교육시설안전원 국립대학육성사업발전협의회 병무청 부산지역국립대학혁신네트워크 정부민원포털민원24 중앙교육연수원 한국교직원공제회 개인정보처리방침 이메일무단수집금지 대학행정서비스헌장 정보공개방 정책실명제 NEWSLetter신청 행정예고 청렴센터 대연캠퍼스()부산광역시남구용소로45TEL:FAX: 용당캠퍼스()부산광역시남구신선로365TEL:FAX: (C)2021PUKYONGNATIONALUNIVERSITY.ALLRIGHTSRESERVED.