부경대학교 Pukyong National University : 112

  • 2022-01-07Fecha de colección
  • 2022-02-15Actualizado
부경대학교 Pukyong National University : 112
  • Dirección web:www.pknu.ac.kr
  • Servidor IP:203.250.126.211
  • Descripción del lugar:

nombre de dominio:www.pknu.ac.krValuación

acerca de 5000~500000

nombre de dominio:www.pknu.ac.krfluir

422

nombre de dominio:www.pknu.ac.krBueno o malo

Ganar y perder. En vano la buena suerte trae mala suerte

sitio web:부경대학교 Pukyong National University : 112Pesos

1

sitio web:부경대학교 Pukyong National University : 112IP

203.250.126.211

sitio web:부경대학교 Pukyong National University : 112contenido

국립부경대학교PukyongNationalUniversity:111 varpeContext=""; varsUserId=""; varsUserName=""; varsUserNo=""; varsUserNum=""; varsUserLevel=""; functionsearchPost(){ newdaum.Postcode({ oncomplete:function(data){ //팝업에서검색결과항목을클릭했을때실행할코드를작성하는부분. //각주소의노출규칙에따라주소를조합한다. //내려오는변수가값이없는경우엔공백('')값을가지므로,이를참고하여분기한다. varfullAddr='';//최종주소변수 varextraAddr='';//조합형주소변수 //사용자가선택한주소타입에따라해당주소값을가져온다. if(data.userSelectedType==='R'){//사용자가도로명주소를선택했을경우 fullAddr=data.roadAddress; }else{//사용자가지번주소를선택했을경우(J) fullAddr=data.jibunAddress; } //사용자가선택한주소가도로명타입일때조합한다. if(data.userSelectedType==='R'){ //법정동명이있을경우추가한다. if(data.bname!==''){ extraAddr+=data.bname; } //건물명이있을경우추가한다. if(data.buildingName!==''){ extraAddr+=(extraAddr!==''?','+data.buildingName:data.buildingName); } //조합형주소의유무에따라양쪽에괄호를추가하여최종주소를만든다. fullAddr+=(extraAddr!==''?'('+extraAddr+')':''); } $(".zip").val(data.zonecode); $(".addr1").val(fullAddr); $(".addr2").focus(); } }).open(); } varfail_common_msg = "에러가발생했습니다!";varfail_common_sql = "sql에러가발생했습니다!errorcode:{0},errormsg:{1}";varinfo_nodata_msg = "해당데이터가없습니다.";varerrors_prefix = "";varerrors_suffix = "";varerrors_required = "{0}은필수입력값입니다.";varerrors_minlength = "{0}은{1}자이상입력해야합니다.";varerrors_maxlength = "{0}은{1}자이상입력할수없습니다.";varerrors_invalid = "{0}은유효하지않은값입니다.";varerrors_byte = "{0}은byte타입이어야합니다.";varerrors_short = "{0}은short타입이어야합니다.";varerrors_integer = "{0}은integer타입이어야합니다.";varerrors_long = "{0}은long타입이어야합니다.";varerrors_float = "{0}은float타입이어야합니다.";varerrors_double = "{0}은double타입이어야합니다.";varerrors_date = "{0}은날짜유형이아닙니다.";varerrors_range = "{0}은{1}과{2}사이의값이어야합니다.";varerrors_creditcard = "{0}은유효하지않은신용카드번호입니다.";varerrors_email = "{0}은유효하지않은이메일주소입니다.";varerrors_ihidnum = "유효하지않은주민등록번호입니다.";varerrors_korean = "{0}은한글을입력하셔야합니다.";/*varpopList=[];*///팝업Close기능functionclose_pop_allday(fl,popup_no){if(fl==true){//쿠키세팅(그냥닫기오늘안보기)setCookie("layerPopup"+popup_no,"Y",1);$("#layerPopup_"+popup_no).hide();}else{ //false로들어오면그냥숨기기만$("#layerPopup_"+popup_no).hide();}};$(function(){ /*for(vari=0;i1670){ //창가로크기가500미만일경우 $('.incQck').css('display','block') }else{ //창가로크기가500보다클경우 $('.incQck').css('display','none') } } $(window).resize(function(){ //창크기변화감지 if(''>1){ incQckToggle() } }); $(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 교수·학생·직원소통‘글로컬소통협의회’구성합의 국립부경대,‘글로컬대학’교수·학생·직원소통적극확대-‘글로컬소통협의회’구성합의…설명회및설문조사잇달아진행국립부경대학교(총장장영수)가글로컬대학30사업추진과관련해교수,학생,직원들이참여하는‘글로컬소통협의회’를구성해운영한다고3월 27일밝혔다. 국립부경대는26일교수회와총학생회,노동조합등학교구성원별대표단체들과의공식적인소통창구인‘글로컬소통협의회’구성에합의했다. 장영수총장은이날구성원들에게보낸서한문을통해“사업추진과정을여러분과더욱공유하고,소중한의견을들으면함께나아가겠다.”라면서,“글로컬소통협의회를통해다양한의견과말씀을경청하고,구성원여러분의의견을반영하여결정하겠다.”라고밝혔다. ‘글로컬소통협의회’는교수,학생,직원단체별로같은수의인원이참여해구성됐다.글로컬대학30사업주요추진사항에대한구성원별의견수렴및논의등역할을수행하며,27일부터글로컬사업본지정평가계획을제출할때까지운영될예정이다. 국립부경대는글로컬대학30사업추진설명회도잇달아연다.전구성원을대상으로다음주세차례에걸쳐설명회를열고,질의응답및의견수렴등을진행한다.설명회를모두마친뒤에는‘글로컬소통협의회’와협의후대학전구성원을대상으로사업추진에대한설문조사도진행할계획이다. 이와함께국립부경대는학생들이글로컬대학30사업추진에대해더욱자유롭게의견을낼수있도록도서관(청운관)앞에메모,쪽지등을남길수있는별도의공간도마련하기로했다. 교수·학생·직원소통‘글로컬소통협의회’구성합의 우리합격했어요 국립부경대, 교사·대학원·공무원 등 합격 소식 잇따라- 수해양산업교육·유아교육·법학·글로벌자율·해양생산시스템 등 성과최근 국립부경대학교 캠퍼스에 교사, 대학원, 공무원 등의 합격을 알리는 각 학부(과), 전공들의 현수막이 잇달아 내걸렸다.수해양산업교육과는 2024학년도 중등교사 임용시험 최종 합격자를 알렸다. 올해 합격자는 이무열(18학번·경남), 전홍은(18학번·경북), 김효영(17학번·부산), 이도훈(17학번·경북), 윤민호(16학번·경남), 최목은(16학번·경남), 이은정(14학번·경기), 김기탁(11학번·전남), 이선혜(04학번·부산) 등 9명이다.올해 공립 유치원 교사 임용시험 최종 합격자도 나왔다. 유아교육과 이채은(19학번·부산), 정혜린(19학번·경남) 등 2명이다. 이채은은 부산 수석으로 합격했다.법학과는 로스쿨(법학전문대학원) 등 합격 소식을 현수막으로 걸었다. 올해 부산대 로스쿨에 이태현(16학번), 동아대 로스쿨에 박재호(18학번) 등 2명이 합격하는 성과를 거뒀다. 지난해 김영석(17학번)의 검찰직 7급 합격 소식도 함께 알렸다.글로벌자율전공학부는 졸업생들의 우수 취업 소식을 취합해 알렸다. 김규민(18학번), 여현수(18학번), 유찬(18학번)은 LG전자, 권유정(16학번)은 한국증권거래소, 손서연(14학번)은 공인노무사에 합격했다. 카나야 아카네(20학번)는 일본 대기업 SANKYU에 합격했고, 서나영(16학번)은 미국 조지워싱턴대학교 박사과정에, 문데레레 라이사(17학번)는 캐나다 맥길대학교 박사과정에 합격했다.해양생산시스템관리학부도 공무원 임용 소식을 현수막에 올렸다. 국립수산과학원 해양수산연구사에 합격한 허겸(08학번)을 비롯, 국립수산과학원 선박직에 임형준(13학번), 어업관리단 선박항해직에 박충홍(12학번), 배효경(13학번), 방지훈(15학번), 문상윤(16학번), 김현희(18학번)가 합격했다.국립해양조사원 통신직에는 김건우(15학번), 해양경찰에는 조남정(14학번), 강민정(18학번), 노민선(18학번), 부산 지방직 공무원 9급(선박항해)에는 김지훈(16학번), 김세진(18학번), 관세청에는 김성현(18학번)이 각각 합격했다.  우리합격했어요 지역과함께39;블루푸드39;전문인력키운다 국립부경대·부산시·KMI등블루푸드생태계구축‘맞손’-19일지·산·학협력체계구축업무협약체결△ (왼쪽부터) 김형균부산테크노파크원장, 백형희한국식품연구원장, 한국푸드테크협의회이기원회장, 박형준시장, 장영수국립부경대총장, 한국해양수산개발원조정희부원장이기념촬영을하고있다. 국립부경대학교(총장장영수)가지역,산업계등과협력네트워크를구축하며블루푸드테크산업육성에나섰다. 국립부경대는3월19일오후부산시티호텔3층컨퍼런스홀에서부산시,한국해양수산개발원(KMI),한국식품연구원,(사)한국푸드테크협의회,(재)부산테크노파크등유관기관과‘블루푸드테크산업생태계조성을위한업무협약’을체결했다. 수산식품을지칭하는블루푸드는식품으로서수산물의우수한영양학적가치와생산과정중탄소발생이적다는환경적가치가강조된용어로,수산식품의소비,유통,생산전과정에인공지능,로봇,바이오등첨단기술을적용한것을블루푸드테크라고한다. 국립부경대등기관들은이번협약으로수산식품분야기업에대한푸드테크기술접목과지역을기반으로한블루푸드테크육성을위해관계기관간거버넌스및지산학협력네트워크구축에나선다. 이를위해△블루푸드테크산업생태계조성및지·산·학협력체계구축△블루푸드테크기술공동연구및프로그램개발협력△블루푸드테크분야신기술및글로벌트랜드자문및정보공유△블루푸드테크기반수산식품기업의육성을위한행정·재정·기술적지원△블루푸드테크산업의저변확대를위한학술대회및전시회등의협력에힘쓰기로했다. 국립부경대는이번협약으로지산학협력을비롯해블루푸드테크에특화한교육프로그램운영을통한맞춤형전문인력양성과산업화지원등에나설계획이다. 부산시는기업육성과산업인프라조성,네트워크운영등행정지원분야를맡고,한국해양수산개발원은블루푸드테크정책연구와수산식품산업활성화및산업화지원을맡는다. 한국식품연구원은푸드테크연구및산업화지원을,한국푸드테크협의회는연구,정책과제개발,저변확대에나서고,부산테크노파크는지산학협력과정책사업기획및운영,산업화를지원한다. 한편이날협약식에이어블루푸드테크산업육성을위한차세대경영인기업간담회도열렸다. 지역과함께39;블루푸드39;전문인력키운다 일시정지 23,570재적생수 국제교류본부 도서관 진로취업길라잡이 학부대학 교수학습지원센터 공지사항 비교과안내 학사안내 등록장학채용초빙 더보기 ###채용설명회개최안내:[동원]4/3(수)16:00~,동원장보고관1층### 2024-03-28 ###채용설명(상담)회개최안내:[HD현대이엔티]4/3(수)13:00~,동원장보고관1층### 2024-03-25 글로컬대학예비지정신청서다운로드안내 2024-03-25 「(상반기공채대비)대기업직무적성검사특강」참여자모집안내 2024-03-25 (부산광역시자원봉사센터)2024제6기부산해외자원봉사단모집홍보 2024-03-21 [39;너와1년동행39;청년1인가구일상플러스사업]안내 2024-03-28 한국문화재재단국가유산도서보급안내 2024-03-28 24년4월심리검사일정안내(학생상담센터) 2024-03-26 2024년국립부경대학교창업동아리모집공고 2024-03-22 [교수학습지원센터]2024-1학기선배멘토링프로그램멘토선발결과 2024-03-28 [교수학습지원센터]2024학년도신입생대상「기초학력증진프로그램」참여안내 2024-01-30 제4회비교과참여수기공모전수상작안내 2024-01-26 ♥비교과서포터즈(비즈bee-s)♥방학갓생-진로.심리상담팀이추천하는비교과프로그램 2024-01-15 ♥비교과서포터즈(비즈bee-s)♥꿀비천국-1월취업.창업주요프로그램소개 2024-01-11 2024-1학기학부1차폐강교과목알림 2024-02-27 2024-1학기온라인공개강좌학점인정사전승인신청안내 2024-02-27 2024학년도신입생입학식행사안내 2024-02-19 2024학년도1학기휴업일에대한보강수업일안내 2024-02-13 [2024학년도1학기타대학학생의국립부경대학교교류수학및수강신청안내](수정) 2024-01-16 2024-1학기프로젝트기반창업실습교과목안내사항 2024-01-10 2024-1학기예비수강신청안내(강의편람및교과목목록포함) 2024-01-10 ★2024년대학생청소년교육지원사업멘토모집공고(3.28.(목)~4.5.(금))★ 2024-03-22 2024년1학기중소기업취업연계장학금(희망사다리Ⅰ유형)신규장학생신청안내(~3/2918:00까지기간연장) 2024-02-29 2024-1학기재(복)학생등록금납부안내 2024-01-19 현대차정몽구스칼러십2024장학생모집안내 2024-03-26 2024학년도동원프론티어장학금최종합격자명단공고 2024-03-26 2024년도(재)구미시장학재단장학생선발안내 2024-03-26 2024년상반기서울은평구민장학생선발공고 2024-03-21 [채용공고]대학공무직(전임연구원)채용공고 2024-03-22 [채용공고]대학공무직(전임연구원,사무원,입학사정관,미화원)채용공고 2024-03-22 [채용공고]수산과학대학해양생산시스템관리학부기간제계약직(조교급)채용공고(기한연장) 2024-03-21 [서류합격]청년인턴서류전형합격자발표및면접전형안내 2024-03-20 [채용공고]미래융합대학융합인재개발학부평생교육·상담학전공기간제계약직(조교급)채용공고 2024-03-15 [최종합격자공고]학부대학기간제계약직(조교급)합격자발표 2024-03-14 2024년제1회국립부경대학교국가공무원경력경쟁채용(시설9급)최종합격자명단공고 2024-03-14 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 디지털금융학과공동강의실문열었다 국립부경대-동서대디지털금융학과공동강의실개소-25일동서대센텀캠퍼스△장영수총장이공동강의실개소식에서인사말을하고있다.ⓒ사진이성(대외홍보팀)국립부경대학교(총장장영수)와동서대학교(총장장제국)는3월25일해운대동서대센텀캠퍼스에서디지털금융학과공동강의실개소식을열었다. 장영수총장과장제국총장은이날오후동서대센텀캠퍼스2층디지털금융학과공동강의실인프로메테우스룸에서디지털금융학과학생들이참석한가운데개소식을하고,한국은행이상형부총재보초청특강을진행했다. 국립부경대와동서대는부산시전략산업이자첨단분야인디지털금융산업을이끌우수인재양성을위해공동학과인디지털금융학과를올해신설한데이어,공동강의실도마련해이날개소했다. 동북아10개大차세대육성대학원생포럼열린다 국립부경대,제8회차세대육성대학원생포럼연다-한·중·일등동북아10개대학대학원생참가…28~29일미래관 국립부경대학교인문한국플러스(HK+)사업단(단장김창경)은오는3월 28∼29일이틀간미래관2층소민홀에서‘제8회차세대육성대학원생포럼’을개최한다. 이번포럼에서는‘동북아해역인문네트워크의다이너미즘’을주제로동북아10개대학의차세대대학원생들이참여해동북아해역인문학의역동성에대한국내외적교류와성과를공유하기위해발표와토론을펼칠예정이다. 이들은국내국립부경대,서울대,제주대를비롯해국외중국해양대,상해사범대,하문대,대만해양대,도쿄해양대,도쿄대,교토대등에서해양관련연구를진행하고있는우수차세대연구자들이다. 이포럼에서차세대연구자들은이틀간△동북아해역네트워크와문화적표상△동북아해역네트워크와문물교류△동북아해역네트워크와이문화경험등3개세션과라운드테이블에서자신들의연구성과를공유하고,이를통해동북아해역인문학의역동성에대한참신한시각을제시할예정이다. 김창경HK+사업단단장은“차세대육성대학원생포럼은동북아시아해역인문학에대해많은관심을가지고연구를진행하고있는동북아시아신진연구자들에게폭넓은학술교류의기회를제공하고있으며,앞으로도국내외학문후속연구자간의지속적학문교류의장이되기를기대한다.”라고전했다. 내방|식품공학과동문들 식품공학과동문들,입학50주년기념모교방문△식품공학과동문들이장영수총장과기념촬영하고있다.ⓒ사진이성(대외홍보팀)국립부경대학교식품공학과동문들이3월13일모교방문행사를열었다. 이명숙명예교수를비롯해식품공학과74학번동문10여명은올해입학50주년을맞아이날오전모교인국립부경대를방문하고,대학본부3층총장실을찾아장영수총장을예방했다. 동문들은장영수총장과환담한뒤대외홍보대사블루학생들의안내로캠퍼스투어를진행하며식품가공공장,양어장,동원장보고관,학술정보관,수상레저관,창의관,청운관,백경광장등을찾아달라진캠퍼스모습을둘러봤다. 이어웅비관의식품공학과연구실을방문하는등학과시설을견학하고,학내식당에서식사및간담회를진행했다. 39;빅데이터로바라본부산39;세미나열려 국립부경대지역문화정보융합연구소,세미나개최-빅데이터활용부산지역문제해결방안모색-급성심정지환자발생지역과제세동기보급위치간불균형확인-동구침수위험지역예측모델과피해축소위한대안제시△세미나전경.  국립부경대학교지역문화정보융합연구소(소장오창호교수)는지난3월 6일창의관에서세미나를개최했다. 빅데이터를통해부산지역의문제를살펴보고해결방안을모색하는이번세미나에서는‘부산시제세동기현황분석과정책실현(김동근데이토리랩연구원)’,‘부산시침수문제와피해축소를위한도약(심서진데이토리랩연구원)’등주제발표가열렸다. 이발표에따르면부산을비롯해전국급성심정지환자가계속증가하는가운데부산의제세동기보급률은전국최하위수준으로나타났다.특히심정지환자발생위치와제세동기보급위치간불균형을데이터로확인하고이를시각화해분석했다.이와함께지형적으로침수피해가많이발생할수밖에없는동구의침수이력데이터와침수에영향을미치는영향요인도출을통해위험도가높은지역을시뮬레이션한결과도밝혔다. 주제발표에이어김정환국립부경대교수의사회로노법래국립부경대교수,류민호동아대교수,박세익부산일보부장,최혜민부산테크노파크연구원의토론이진행됐다.노법래교수는“데이터를통해지역사회문제를정의하고분석한것에서그치지않고이를해결하기위한다양한방법을제안하고실현하기위해고민했다는점을높이평가한다.”라고말했다. 이번세미나는데이토리랩(DatoryLab)이매년발간하는세번째사례집출판을기념해개최됐다.데이토리랩을지도하는김정환교수(휴먼ICT융합전공)는“다양한공공데이터와민간데이터를결합해부산지역의현안과사례를발굴하는작업을계속해더건강한부산을,더단단한데이터생태계를만드는데기여하겠다.”라고밝혔다. 오창호소장은“올해연구소에서다양한세미나와사업을준비하고있다.데이터를통해부산의문화,관광,콘텐츠산업의면면을들여다보고기술을활용해각산업이성장하는데기여하고논의할수있는장을만들겠다.”라고말했다. 한편사례집은데이토리랩홈페이지(datorylab.pknu.ac.kr)에서확인할수있다. 내방|김영규한국원양산업협회회장 김영규한국원양산업협회회장,국립부경대방문△김영규회장(왼쪽)과장영수총장이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 김영규한국원양산업협회회장이3월12일국립부경대학교를방문했다. 지난2월한국원양산업협회신임회장으로선임된김영규회장은이날오전대학본부3층총장실을찾아취임인사를하고환담했다. 국립부경대동문(어업학과75학번)인김영규회장은해양수산부어업자원국장,국립수산과학원장등을거친정통파수산공무원출신으로한국수산회장을역임했다. ChatGPT활용진로·취업전략프로그램열려 국립부경대,‘ChatGPT를활용한진로·취업전략프로그램’개최-50여명참가…생성형인공지능활용특강및실습교육제공△ 국립부경대,‘ChatGPT를활용한진로·취업전략프로그램’ 전경. 국립부경대학교(총장장영수)는최근동원장보고관1층에서‘ChatGPT를활용한진로·취업전략프로그램’을개최했다. 국립부경대대학일자리플러스센터(센터장김태규)주관으로열린이프로그램은산업등다양한분야에서ChatGPT등생성형인공지능(AI)활용이확산함에따라학생들이취업과취업계획수립에이를적용할수있도록돕기위해마련됐다. 이번프로그램에는재학생과휴학생은물론,미취업졸업생등50여명이참석한가운데3일에걸쳐ChatGPT를활용한희망직무및기업분석방법,자기소개서와면접질문별프롬프트작성법특강과실습등교육이진행됐다. 참가자들은△자기탐색과진로설정△GPT인사이트△GPT경험/직무역량파악△GPT활용실습△입사지원서UP△면접UP등교육을통해올해채용트렌드를이해하고,자기이해를바탕으로한취업전략을수립했다. 한편국립부경대대학일자리플러스센터는이번프로그램을비롯해AI플랫폼을활용한취업캠프등첨단기술과최신채용트렌드를적용한다양한취업지원프로그램을기획,운영하고있다. 시각디자인전공장학금시상식개최 시각디자인전공,교수·동문·기업장학금시상식개최-재학생18명선발해장학금수여△ 시각디자인전공장학금시상식사진. 국립부경대학교정보융합대학조형학부시각디자인전공(주임교수김성필)은지난3월 5일오후디자인관1층강의실에서‘김선화명예교수·박혜지동문발전재단장학금’과‘로렌츄컴퍼니장학금’시상식을개최했다. ‘김선화명예교수·박혜지동문발전재단장학금’은김선화명예교수가퇴임을앞두고제자들을위해써달라며기부한2,000만원과박혜지동문(05학번)이후배들을위해기부한200만원으로조성됐다. 이날시각디자인전공김성필,홍동식,남윤태교수가성적우수재학생15명에게총412만5천원의장학금을전달했다.장학금수혜자는4학년신지섭,이아란,강수지,정다빈,고준규,3학년박정현,안명철,이채은,손수부경대학교 Pukyong National University : 112련,배호연,2학년박나현,김부경,하혜림,하윤,윤한희등15명이다. ‘로렌츄컴퍼니장학금’은추세은로렌츄컴퍼니대표가지난학기에국립부경대시각디자인전공윤태수교수의수업으로함께진행한프로젝트팀의성과를격려하기위해기부했으며,4학년신지섭,강수지,정다은등3명이총80만원의장학금을받았다. 한편시각디자인전공은지난해2학기부터학기마다교수·동문·기업장학금을수여하며재학생들의학교생활을지원하고있다. 39;첨단디지털금융39;아이티센그룹과맞손 국립부경대-아이티센그룹,부산디지털금융산업발전위해협약-산학연계금융교육협력등…첨단디지털금융전문인력양성△ 장영수총장(오른쪽)과최중근부사장이협약을맺고기념촬영하고있다.ⓒ사진이성재(대외홍보팀)국립부경대학교(총장장영수)와아이티센그룹(회장강진모)은부산의전략산업인디지털금융산업의발전을위해3월 8일산학협력협약을체결했다. 장영수총장과최중근아이티센그룹부사장은이날오전국립부경대대학본부3층총장실에서협약식을하고,디지털금융산업의발전과안정적인성장기반을확보하기위해교육과연구분야의교류를강화하고,상호협력을확대하기로했다. 이에따라양기관은△산학연계형금융교육지원을통한부산지역디지털금융분야전문인력육성△아이티센그룹사내전문가의산학연계교육과정개발및운영지원△아이티센그룹재직자대상석·박사급학위과정교육지원△디지털금융분야연구활성화를위한연구및협력과제지원,공동학술대회및포럼등개최△대학내혁신성장기업대상상장설명회및맞춤형컨설팅등지원에협력하기로했다. 국립부경대는글로컬대학도약을위해올해디지털금융학과등첨단학과를잇달아신설한데이어,이번협약으로아이티센그룹과맞춤형기술혁신연구와협력과제발굴등에협력하며기업에서실질적으로필요로하는미래핵심인재육성에힘을모을계획이다. 이와함께국립부경대는스마트양식등해양수산분야의첨단기술을활용해아이티센그룹과부산디지털자산거래소(BDX)의토큰증권(STO)에접목을추진하는등대학교육의경쟁력을키우고,부산의글로벌허브도시도약을위한시너지효과도낼것으로기대하고있다. 아이티센그룹은이번협약으로디지털금융분야미래핵심인재확보와함께부산지역의일자리를창출하고,부산시가글로벌디지털금융도시로도약하는데기여할수있을것으로전망했다. ‘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.  해운산업DX위한협약 국립부경대교원창업기업팀리부뜨,KLCSM과해운산업DX위한협약체결 국립부경대학교교원창업기업팀리부뜨(대표최성철교수)와KLCSM(대표권오길)은해운·항만산업의디지털트랜스포메이션(DX)을위한전략적협약을체결했다고밝혔다. 인공지능(AI)기술을선도하는기업팀리부뜨와국내대표선박관리사인KLCSM은이번협약을통해해운·선박산업에다양한AI자동화사업을추진하고,지속적인협력관계구축및산업발전을위해노력하기로했다. 이번협약으로KLCSM에도입되는팀리부뜨의‘askyour.work’는대규모언어모델(LLM)과광학문자인식(OCR)기술을바탕으로개발된솔루션으로,KLCSM과의첫프로젝트인전표자동화처리업무를혁신적으로바꿔줄것으로기대되고있다. ‘askyour.work’는단순반복업무프로세스를자동화하고,휴먼에러를줄이면서도효율성을극대화하는강점을가진생성형AI기반서비스로,KLCSM의기존시스템과업무프로세스에맞춤화돼제공될예정이다. 두기업의이번협약으로각전문분야에서축적한기술력과경험을결합해해운산업계의지속가능한AI자동사무시스템의개발과확장도기대된다. KLCSM권오길대표는“이번협약은해운·선박산업에생성형AI가가져올변화의실현에중요한발걸음이며,나아가선박의운영에대한효율성이높아질것.”이라고기대했다. 팀리부뜨최성철대표는“이번공동협력을통해프로젝트를성공적으로수행해미래의해양·선박산업에발빠르게생성형AI를도입하기위해최선을다하겠다.”라고밝혔다. 한편교원창업기업인팀리부뜨는부산정보산업진흥원,부산창조경제혁신센터,부산테크노파크,기술보증기금등부산의관련기관으로부터창업1년차부터연구개발(R&D)지원금등을확보해빠르게성장하고있으며,또다른서비스인무역에특화된메일링플랫폼‘askyour.trade’베타버전을오는4월출시할예정이다. △팀리부뜨-KLCSM협약식사진. “이상기후는더이상예외가아니다” ‘트럼프리턴즈,기후변화대응은’-이지웅교수,칼럼게재 국립부경대학교이지웅교수(경제학과)의칼럼‘트럼프리턴즈,기후변화대응은’이2월28일62~63면에실렸다. 기후변화,에너지경제학분야전문가인이지웅교수는이칼럼에서전지구적인화두인세계기후변화대응현황을진단하고,이상기후로인한재난예방의중요성을강조했다. 이지웅교수는오는11월미대선에서트럼프가백악관에입성하고,보수성향의싱크탱크인헤리티지재단이발표한보고서‘프로젝트2025’를따른다면그파급효과는가늠조차어렵다고전망했다. 그는“(이보고서는)다음행정부에서는모든재생에너지관련보조금지원을끝내고,에너지효율기준을없애며석유와천연가스생산을극대화해야한다고보고서는주장한다.그리고파리협정은물론이거니와그근간이되는유엔기후변화협약까지탈퇴할것을제안한다.”라고밝혔다. 이에따라이지웅교수는“우리는파리협정의‘2℃’목표(지구기온상승폭을산업화이전대비2℃이내로막겠다는목표)를달성할수있을까.트럼프의재선이아니더라도그리긍정적이지는않다.”라며,“전세계온실가스배출은여전히증가추세이며,당분간은그추세가현격히바뀔이유를찾기힘들다는점.”이라고전망했다. 그렇다면지금중요한것은무엇일까?그는“평균온도2℃이상상승을상수로두고지금부터준비해야한다는것.”이라면서,“매년겪고있는전세계이상기후는더이상예외가아니다.폭염,폭서,폭우,폭설로인한피해를최소화할수있도록기후탄력적인프라로의전환을서둘러야한다.”라고제시했다. 이어“정부와지자체,기업은공급망과생산시설을수시로점검하고,폭우나폭설로출퇴근이나등교가어려워질때각자가차분히대처할수있는시스템을만들어야한다.2022년강남지역홍수,2023년오송지하차도사고는앞으로도반복될것이고,그피해를예방하는것은우리의몫이다.”라고경고했다. 퇴직교원정부포상수여 국립부경대,2024년2월퇴직교원정부포상수여식개최△퇴직교원정부포상수여식참석자들이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교(총장장영수)는2월28일대학본부3층총장실에서2024년퇴직교원정부포상수여식을개최했다. 2월28일퇴직교원은박매란(영어영문학부),오준일(영어영문학부),오희선(패션디자인학과),문병기(물리학과),조낙은(응용수학과),성덕현(경영학부),최태영(경영학부),문명준(공업화학전공),한규택(기계공학전공),강대민(기계공학전공),장성록(안전공학전공),남기우(재료공학전공),정연태(디스플레이반도체공학전공),정두회(토목공학전공),박동준(통계·데이터사이언스전공),김부일(전기전자소프트웨어공학전공),곽진석(교양교육원)등17명이다. 정부포상대상자는조낙은(황조근정훈장),오희선(홍조근정훈장),강대민(홍조근정훈장),한규택(녹조근정훈장),문병기(녹조근정훈장),문명준(녹조근정훈장),최태영(옥조근정훈장),박매란(옥조근정훈장),박동준(옥조근정훈장),오준일(옥조근정훈장),정연태(근정포장),정두회(대통령표창),성덕현(대통령표창)등이다. 한국산림행정학회회장선출 국립부경대허용훈명예교수,(사)한국산림행정학회회장선출 국립부경대학교허용훈명예교수(행정학전공)가지난2월 20일국립세종수목원에서열린(사)한국산림행정학회동계학술대회및정기총회에서학회회장으로선출됐다.임기는지난1월부터1년간이다. 허용훈회장은현재대통령소속농어업?농어촌특별위원회미래산림특별위원으로활동하고있으며,지난해에이어올해(사)한국산림행정학회회장으로재선출됐다. 산림청산하비영리법인인(사)한국산림행정학회는산림행정의효과성제고를위해임학전공자를비롯해행정학,법학,사회과학전공자와4차산업혁명시대의AI,빅데이터전공자들이융합연구를수행하는전국규모융합학회다. 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.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 일시정지 일시정지 일시정지 부산최초의대학/부경대역사갤러리 재적생수23,489 국제협력대학48개국258개 국제교류본부 도서관 입학본부 진로취업길라잡이 학부대학 교수학습지원센터 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 디지털금융학과공동강의실문열었다 국립부경대-동서대디지털금융학과공동강의실개소-25일동서대센텀캠퍼스△장영수총장이공동강의실개소식에서인사말을하고있다.ⓒ사진이성(대외홍보팀)국립부경대학교(총장장영수)와동서대학교(총장장제국)는3월25일해운대동서대센텀캠퍼스에서디지털금융학과공동강의실개소식을열었다. 장영수총장과장제국총장은이날오후동서대센텀캠퍼스2층디지털금융학과공동강의실인프로메테우스룸에서디지털금융학과학생들이참석한가운데개소식을하고,한국은행이상형부총재보초청특강을진행했다. 국립부경대와동서대는부산시전략산업이자첨단분야인디지털금융산업을이끌우수인재양성을위해공동학과인디지털금융학과를올해신설한데이어,공동강의실도마련해이날개소했다. 동북아10개大차세대육성대학원생포럼열린다 국립부경대,제8회차세대육성대학원생포럼연다-한·중·일등동북아10개대학대학원생참가…28~29일미래관 국립부경대학교인문한국플러스(HK+)사업단(단장김창경)은오는3월 28∼29일이틀간미래관2층소민홀에서‘제8회차세대육성대학원생포럼’을개최한다. 이번포럼에서는‘동북아해역인문네트워크의다이너미즘’을주제로동북아10개대학의차세대대학원생들이참여해동북아해역인문학의역동성에대한국내외적교류와성과를공유하기위해발표와토론을펼칠예정이다. 이들은국내국립부경대,서울대,제주대를비롯해국외중국해양대,상해사범대,하문대,대만해양대,도쿄해양대,도쿄대,교토대등에서해양관련연구를진행하고있는우수차세대연구자들이다. 이포럼에서차세대연구자들은이틀간△동북아해역네트워크와문화적표상△동북아해역네트워크와문물교류△동북아해역네트워크와이문화경험등3개세션과라운드테이블에서자신들의연구성과를공유하고,이를통해동북아해역인문학의역동성에대한참신한시각을제시할예정이다. 김창경HK+사업단단장은“차세대육성대학원생포럼은동북아시아해역인문학에대해많은관심을가지고연구를진행하고있는동북아시아신진연구자들에게폭넓은학술교류의기회를제공하고있으며,앞으로도국내외학문후속연구자간의지속적학문교류의장이되기를기대한다.”라고전했다. 내방|식품공학과동문들 식품공학과동문들,입학50주년기념모교방문△식품공학과동문들이장영수총장과기념촬영하고있다.ⓒ사진이성(대외홍보팀)국립부경대학교식품공학과동문들이3월13일모교방문행사를열었다. 이명숙명예교수를비롯해식품공학과74학번동문10여명은올해입학50주년을맞아이날오전모교인국립부경대를방문하고,대학본부3층총장실을찾아장영수총장을예방했다. 동문들은장영수총장과환담한뒤대외홍보대사블루학생들의안내로캠퍼스투어를진행하며식품가공공장,양어장,동원장보고관,학술정보관,수상레저관,창의관,청운관,백경광장등을찾아달라진캠퍼스모습을둘러봤다. 이어웅비관의식품공학과연구실을방문하는등학과시설을견학하고,학내식당에서식사및간담회를진행했다. 39;빅데이터로바라본부산39;세미나열려 국립부경대지역문화정보융합연구소,세미나개최-빅데이터활용부산지역문제해결방안모색-급성심정지환자발생지역과제세동기보급위치간불균형확인-동구침수위험지역예측모델과피해축소위한대안제시△세미나전경.  국립부경대학교지역문화정보융합연구소(소장오창호교수)는지난3월 6일창의관에서세미나를개최했다. 빅데이터를통해부산지역의문제를살펴보고해결방안을모색하는이번세미나에서는‘부산시제세동기현황분석과정책실현(김동근데이토리랩연구원)’,‘부산시침수문제와피해축소를위한도약(심서진데이토리랩연구원)’등주제발표가열렸다. 이발표에따르면부산을비롯해전국급성심정지환자가계속증가하는가운데부산의제세동기보급률은전국최하위수준으로나타났다.특히심정지환자발생위치와제세동기보급위치간불균형을데이터로확인하고이를시각화해분석했다.이와함께지형적으로침수피해가많이발생할수밖에없는동구의침수이력데이터와침수에영향을미치는영향요인도출을통해위험도가높은지역을시뮬레이션한결과도밝혔다. 주제발표에이어김정환국립부경대교수의사회로노법래국립부경대교수,류민호동아대교수,박세익부산일보부장,최혜민부산테크노파크연구원의토론이진행됐다.노법래교수는“데이터를통해지역사회문제를정의하고분석한것에서그치지않고이를해결하기위한다양한방법을제안하고실현하기위해고민했다는점을높이평가한다.”라고말했다. 이번세미나는데이토리랩(DatoryLab)이매년발간하는세번째사례집출판을기념해개최됐다.데이토리랩을지도하는김정환교수(휴먼ICT융합전공)는“다양한공공데이터와민간데이터를결합해부산지역의현안과사례를발굴하는작업을계속해더건강한부산을,더단단한데이터생태계를만드는데기여하겠다.”라고밝혔다. 오창호소장은“올해연구소에서다양한세미나와사업을준비하고있다.데이터를통해부산의문화,관광,콘텐츠산업의면면을들여다보고기술을활용해각산업이성장하는데기여하고논의할수있는장을만들겠다.”라고말했다. 한편사례집은데이토리랩홈페이지(datorylab.pknu.ac.kr)에서확인할수있다. 내방|김영규한국원양산업협회회장 김영규한국원양산업협회회장,국립부경대방문△김영규회장(왼쪽)과장영수총장이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 김영규한국원양산업협회회장이3월12일국립부경대학교를방문했다. 지난2월한국원양산업협회신임회장으로선임된김영규회장은이날오전대학본부3층총장실을찾아취임인사를하고환담했다. 국립부경대동문(어업학과75학번)인김영규회장은해양수산부어업자원국장,국립수산과학원장등을거친정통파수산공무원출신으로한국수산회장을역임했다. ChatGPT활용진로·취업전략프로그램열려 국립부경대,‘ChatGPT를활용한진로·취업전략프로그램’개최-50여명참가…생성형인공지능활용특강및실습교육제공△ 국립부경대,‘ChatGPT를활용한진로·취업전략프로그램’ 전경. 국립부경대학교(총장장영수)는최근동원장보고관1층에서‘ChatGPT를활용한진로·취업전략프로그램’을개최했다. 국립부경대대학일자리플러스센터(센터장김태규)주관으로열린이프로그램은산업등다양한분야에서ChatGPT등생성형인공지능(AI)활용이확산함에따라학생들이취업과취업계획수립에이를적용할수있도록돕기위해마련됐다. 이번프로그램에는재학생과휴학생은물론,미취업졸업생등50여명이참석한가운데3일에걸쳐ChatGPT를활용한희망직무및기업분석방법,자기소개서와면접질문별프롬프트작성법특강과실습등교육이진행됐다. 참가자들은△자기탐색과진로설정△GPT인사이트△GPT경험/직무역량파악△GPT활용실습△입사지원서UP△면접UP등교육을통해올해채용트렌드를이해하고,자기이해를바탕으로한취업전략을수립했다. 한편국립부경대대학일자리플러스센터는이번프로그램을비롯해AI플랫폼을활용한취업캠프등첨단기술과최신채용트렌드를적용한다양한취업지원프로그램을기획,운영하고있다. 시각디자인전공장학금시상식개최 시각디자인전공,교수·동문·기업장학금시상식개최-재학생18명선발해장학금수여△ 시각디자인전공장학금시상식사진. 국립부경대학교정보융합대학조형학부시각디자인전공(주임교수김성필)은지난3월 5일오후디자인관1층강의실에서‘김선화명예교수·박혜지동문발전재단장학금’과‘로렌츄컴퍼니장학금’시상식을개최했다. ‘김선화명예교수·박혜지동문발전재단장학금’은김선화명예교수가퇴임을앞두고제자들을위해써달라며기부한2,000만원과박혜지동문(05학번)이후배들을위해기부한200만원으로조성됐다. 이날시각디자인전공김성필,홍동식,남윤태교수가성적우수재학생15명에게총412만5천원의장학금을전달했다.장학금수혜자는4학년신지섭,이아란,강수지,정다빈,고준규,3학년박정현,안명철,이채은,손수련,배호연,2학년박나현,김부경,하혜림,하윤,윤한희등15명이다. ‘로렌츄컴퍼니장학금’은추세은로렌츄컴퍼니대표가지난학기에국립부경대시각디자인전공윤태수교수의수업으로함께진행한프로젝트팀의성과를격려하기위해기부했으며,4학년신지섭,강수지,정다은등3명이총80만원의장학금을받았다. 한편시각디자인전공은지난해2학기부터학기마다교수·동문·기업장학금을수여하며재학생들의학교생활을지원하고있다. 39;첨단디지털금융39;아이티센그룹과맞손 국립부경대-아이티센그룹,부산디지털금융산업발전위해협약-산학연계금융교육협력등…첨단디지털금융전문인력양성△ 장영수총장(오른쪽)과최중근부사장이협약을맺고기념촬영하고있다.ⓒ사진이성재(대외홍보팀)국립부경대학교(총장장영수)와아이티센그룹(회장강진모)은부산의전략산업인디지털금융산업의발전을위해3월 8일산학협력협약을체결했다. 장영수총장과최중근아이티센그룹부사장은이날오전국립부경대대학본부3층총장실에서협약식을하고,디지털금융산업의발전과안정적인성장기반을확보하기위해교육과연구분야의교류를강화하고,상호협력을확대하기로했다. 이에따라양기관은△산학연계형금융교육지원을통한부산지역디지털금융분야전문인력육성△아이티센그룹사내전문가의산학연계교육과정개발및운영지원△아이티센그룹재직자대상석·박사급학위과정교육지원△디지털금융분야연구활성화를위한연구및협력과제지원,공동학술대회및포럼등개최△대학내혁신성장기업대상상장설명회및맞춤형컨설팅등지원에협력하기로했다. 국립부경대는글로컬대학도약을위해올해디지털금융학과등첨단학과를잇달아신설한데이어,이번협약으로아이티센그룹과맞춤형기술혁신연구와협력과제발굴등에협력하며기업에서실질적으로필요로하는미래핵심인재육성에힘을모을계획이다. 이와함께국립부경대는스마트양식등해양수산분야의첨단기술을활용해아이티센그룹과부산디지털자산거래소(BDX)의토큰증권(STO)에접목을추진하는등대학교육의경쟁력을키우고,부산의글로벌허브도시도약을위한시너지효과도낼것으로기대하고있다. 아이티센그룹은이번협약으로디지털금융분야미래핵심인재확보와함께부산지역의일자리를창출하고,부산시가글로벌디지털금융도시로도약하는데기여할수있을것으로전망했다. ‘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. 그는최근국내e스포츠산업규모의감소추세와e스포츠대회인리그오브레전드챔피언스코리아의적자기록등의사례를들며e스포츠산부경대학교 Pukyong National University : 112업의버블경고를전했다. 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,부경대학교 Pukyong National University : 112대학역사소개,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.  해운산업DX위한협약 국립부경대교원창업기업팀리부뜨,KLCSM과해운산업DX위한협약체결 국립부경대학교교원창업기업팀리부뜨(대표최성철교수)와KLCSM(대표권오길)은해운·항만산업의디지털트랜스포메이션(DX)을위한전략적협약을체결했다고밝혔다. 인공지능(AI)기술을선도하는기업팀리부뜨와국내대표선박관리사인KLCSM은이번협약을통해해운·선박산업에다양한AI자동화사업을추진하고,지속적인협력관계구축및산업발전을위해노력하기로했다. 이번협약으로KLCSM에도입되는팀리부뜨의‘askyour.work’는대규모언어모델(LLM)과광학문자인식(OCR)기술을바탕으로개발된솔루션으로,KLCSM과의첫프로젝트인전표자동화처리업무를혁신적으로바꿔줄것으로기대되고있다. ‘askyour.work’는단순반복업무프로세스를자동화하고,휴먼에러를줄이면서도효율성을극대화하는강점을가진생성형AI기반서비스로,KLCSM의기존시스템과업무프로세스에맞춤화돼제공될예정이다. 두기업의이번협약으로각전문분야에서축적한기술력과경험을결합해해운산업계의지속가능한AI자동사무시스템의개발과확장도기대된다. KLCSM권오길대표는“이번협약은해운·선박산업에생성형AI가가져올변화의실현에중요한발걸음이며,나아가선박의운영에대한효율성이높아질것.”이라고기대했다. 팀리부뜨최성철대표는“이번공동협력을통해프로젝트를성공적으로수행해미래의해양·선박산업에발빠르게생성형AI를도입하기위해최선을다하겠다.”라고밝혔다. 한편교원창업기업인팀리부뜨는부산정보산업진흥원,부산창조경제혁신센터,부산테크노파크,기술보증기금등부산의관련기관으로부터창업1년차부터연구개발(R&D)지원금등을확보해빠르게성장하고있으며,또다른서비스인무역에특화된메일링플랫폼‘askyour.trade’베타버전을오는4월출시할예정이다. △팀리부뜨-KLCSM협약식사진. “이상기후는더이상예외가아니다” ‘트럼프리턴즈,기후변화대응은’-이지웅교수,칼럼게재 국립부경대학교이지웅교수(경제학과)의칼럼‘트럼프리턴즈,기후변화대응은’이2월28일62~63면에실렸다. 기후변화,에너지경제학분야전문가인이지웅교수는이칼럼에서전지구적인화두인세계기후변화대응현황을진단하고,이상기후로인한재난예방의중요성을강조했다. 이지웅교수는오는11월미대선에서트럼프가백악관에입성하고,보수성향의싱크탱크인헤리티지재단이발표한보고서‘프로젝트2025’를따른다면그파급효과는가늠조차어렵다고전망했다. 그는“(이보고서는)다음행정부에서는모든재생에너지관련보조금지원을끝내고,에너지효율기준을없애며석유와천연가스생산을극대화해야한다고보고서는주장한다.그리고파리협정은물론이거니와그근간이되는유엔기후변화협약까지탈퇴할것을제안한다.”라고밝혔다. 이에따라이지웅교수는“우리는파리협정의‘2℃’목표(지구기온상승폭을산업화이전대비2℃이내로막겠다는목표)를달성할수있을까.트럼프의재선이아니더라도그리긍정적이지는않다.”라며,“전세계온실가스배출은여전히증가추세이며,당분간은그추세가현격히바뀔이유를찾기힘들다는점.”이라고전망했다. 그렇다면지금중요한것은무엇일까?그는“평균온도2℃이상상승을상수로두고지금부터준비해야한다는것.”이라면서,“매년겪고있는전세계이상기후는더이상예외가아니다.폭염,폭서,폭우,폭설로인한피해를최소화할수있도록기후탄력적인프라로의전환을서둘러야한다.”라고제시했다. 이어“정부와지자체,기업은공급망과생산시설을수시로점검하고,폭우나폭설로출퇴근이나등교가어려워질때각자가차분히대처할수있는시스템을만들어야한다.2022년강남지역홍수,2023년오송지하차도사고는앞으로도반복될것이고,그피해를예방하는것은우리의몫이다.”라고경고했다. 퇴직교원정부포상수여 국립부경대,2024년2월퇴직교원정부포상수여식개최△퇴직교원정부포상수여식참석자들이기념촬영하고있다.ⓒ사진이성재(대외홍보팀) 국립부경대학교(총장장영수)는2월28일대학본부3층총장실에서2024년퇴직교원정부포상수여식을개최했다. 2월28일퇴직교원은박매란(영어영문학부),오준일(영어영문학부),오희선(패션디자인학과),문병기(물리학과),조낙은(응용수학과),성덕현(경영학부),최태영(경영학부),문명준(공업화학전공),한규택(기계공학전공),강대민(기계공학전공),장성록(안전공학전공),남기우(재료공학전공),정연태(디스플레이반도체공학전공),정두회(토목공학전공),박동준(통계·데이터사이언스전공),김부일(전기전자소프트웨어공학전공),곽진석(교양교육원)등17명이다. 정부포상대상자는조낙은(황조근정훈장),오희선(홍조근정훈장),강대민(홍조근정훈장),한규택(녹조근정훈장),문병기(녹조근정훈장),문명준(녹조근정훈장),최태영(옥조근정훈장),박매란(옥조근정훈장),박동준(옥조근정훈장),오준일(옥조근정훈장),정연태(근정포장),정두회(대통령표창),성덕현(대통령표창)등이다. 한국산림행정학회회장선출 국립부경대허용훈명예교수,(사)한국산림행정학회회장선출 국립부경대학교허용훈명예교수(행정학전공)가지난2월 20일국립세종수목원에서열린(사)한국산림행정학회동계학술대회및정기총회에서학회회장으로선출됐다.임기는지난1월부터1년간이다. 허용훈회장은현재대통령소속농어업?농어촌특별위원회미래산림특별위원으로활동하고있으며,지난해에이어올해(사)한국산림행정학회회장으로재선출됐다. 산림청산하비영리법인인(사)한국산림행정학회는산림행정의효과성제고를위해임학전공자를비롯해행정학,법학,사회과학전공자와4차산업혁명시대의AI,빅데이터전공자들이융합연구를수행하는전국규모융합학회다. 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.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 대학발전기금 도서관 드래곤밸리기업지원종합시스템 링크플러스사업단 박물관 보건진료소 부경대학교기록포털 디지털스마트부산아카데미사업단   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.

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