Raportului tehnico-științific aferent etapei II

7-079/2013 ITProtech

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Institutul National de Cercetare-Dezvoltare pentru Textile si Pielarie - Bucuresti

Proiect: Tehnologie de productie IT pentru imbracaminte

personalizata (ITProTech)

Faza predare: 2/3 Etapa de lucru: Etapa II. Proiectarea si dezvoltarea platformei tehnologice

de productie

Contract finantare nr.: 7-079/2013 Programul: Parteneriate in domenii prioritare/ CROSSTEXNET Domeniul: Proiect de Cercetare- Devzoltare tip ERA-NET Acronim proiect: ITProtech Autoritatea Contractanta: UEFISCDI Contractor: Institutul National de Cercetare Dezvoltare pentru Textile si Pielarie, INCDTP, Bucuresti Director General: dr. ing. Carmen GHITULEASA Director Stiintific: dr. ing. Lucretia MIU

Departament Cercetare Design si Antropometrie Sef Departament: dr. ing. Sabina OLARU Director proiect: dr. ing. Sabina OLARU

2014


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RAPORT STIINTIFIC SI TEHNIC IN EXTENSO

CUPRINS OBIECTIVE GENERALE................................................................................................. 4 OBIECTIVELE ETAPEI II................................................................................................ 4 REZUMATUL ETAPEI..................................................................................................... 5

DESCRIEREA TEHNICA SI STIINTIFICA

Capitolul 1. Proiectarea detaliata a sistemului conform specificatiilor....................... 7 1.1 Comerul electronic - alternativ modern i eficient a comerului clasic............. 7 1.2 Designul de baz al platformei tehnologice de productie....................................... 9 1.3 Mediul software de programare a platformei tehnologice de productie................. 16 Capitolul 2. Implementarea platformei tehnologice de productie............................... 24 2.1 Sectiunea ACASA/HOME...................................................................................... 27 2.2 Sectiunea CONSORTIU/CONSORTIUM.............................................................. 30 2.3 Sectiunea DESPRE INSTITUTIE/ABOUT INSTITUTION.................................. 37 2.4 Sectiunea DESPRE COMPANIE/ABOUT COMPANY........................................ 43 2.5 Sectiunea SERVICII/SERVICES............................................................................ 50 2.6 Sectiunea MODELE/MODELS.............................................................................. 61 2.6.1 Subsectiunea STIL CLASIC/CLASSIC STYLE.................................................. 64 2.6.2 Subsectiunea STIL ELEGANT-CHIC/ELEGANT-CHIC STYLE...................... 71 2.6.3 Subsectiunea STIL MILITAR/MILITARY STYLE............................................ 83 2.6.4 Subsectiunea STIL MINIMALIST/MINIMALIST STYLE................................ 94 2.7 Sectiunea COMANDA SI CONTACT/ ORDER AND CONTACT....................... 104 2.8 Aplicatia SYMCAD dezvoltata de TELMAT Instrusties....................................... 116 Capitolul 3. Testarea functionalitatii platformei tehnologice de productie................. 122 3.1 Testarea functionalitatii platformei in sectiunea INCDTP......................................... 122 3.2 Testarea functionalitatii platformei in sectiunea DAVO STAR IMPEX................ 127 3.3 Testarea functionalitatii platformei in sectiunea DIAMAN ART........................... 132 Capitolul 4. Proiectarea si dezvoltarea bazei de date cu modele si tipare................... 137 4.1 Proiectarea si realizarea bazei de date cu modele.................................................. 141 4.2 Proiectarea si realizarea bazei de date cu tipare..................................................... 145 4.2.1 Stabilirea caracteristicilor antropometrice/dimensiunilor de produs, necesare in

proiectare................................................................................................................ 147 4.2.2 Stabilirea valorilor adaosurilor compozitionale implicate in calcularea

dimensiunilor de produs.........................................................................................

148 4.2.3 Determinarea functiilor de variatie liniara a dimensiunilor antropometrice

secundare................................................................................................................

152 4.2.4 Elaborarea structurilor de baza privind algoritmii de proiectare.............................. 153 4.2.5 Verificarea tiparelor de baza......................................................................................... 161


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4.2.6 Verificarea tiparelor de model...................................................................................... 179 4.2.7 Gradarea tiparelor................................................................................................... 201 4.3 Caracterizarea bazei de date cu tipare.................................................................... 203 4.3.1 Influenta conformatiei asupra formei tiparelor...................................................... 203 4.3.2 Influenta variatiei diferite a dimensiunilor principale asupra formei tiparelor...... 207 4.3.3 Influenta inaltimii asupra formei tiparelor............................................................. 209 CONCLUZII............................................................................................................... 212 BIBLIOGRAFIE......................................................................................................... 214 ANEXA....................................................................................................................... 217


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OBIECTIVE GENERALE

Proiectul are ca scop principal realizarea de cercetri complexe, interdisciplinare, in vederea elaborarii unei tehnologii de producie IT pentru mbrcminte personalizata care va stabili o nou paradigm pentru realizarea si vizualizarea mbrcmintei.

Noutatea proiectului const n colectarea softwarelor i echipamentelor pe platforma IT, tehnologie de producie care va spori accesul IMM-urilor din industria de mbrcminte la tehnologii de creare a produselor personalizate pentru clienii lor, n funcie de tendinele modei. De asemenea, utilizarea platformei IT - tehnologie de producie va crete flexibilitatea i adaptabilitatea IMM-urilor, susinand dezvoltarea si competitivitatea economiei i societatii bazate pe cunoatere.

Obiectivele generale ale proiectului sunt urmatoarele: Definirea cerintelor tehnice ale platformei IT - tehnologia de producie pentru

proiectarea i realizarea mbrcmintei personalizate; Proiectarea si dezvoltarea bazei de date cu modele si tipare ale articolelor de

imbracaminte in functie de stilul clasic si tendintele modei; Proiectarea si dezvoltarea platformei - tehnologiei de productie IT pentru proiectarea si

realizarea imbracamintei, oferind utilizatorilor informatii si instrumente precum i un cadru de integrare;

Dezvoltarea de noi soluii tehnice pentru fabricarea de articole de mbrcminte personalizate, care s permit o reacie rapid la noile tendine.

OBIECTIVELE ETAPEI

Etapa II a proiectului se refer la proiectarea si dezvoltarea platformei tehnologice de productie pentru mbrcminte personalizata - ITProTech. In vederea proiectarii si dezvoltarii cat mai complexe si complete a sistemului au fost prevzute urmatoarele obiective:

Proiectarea detaliata a platformei tehnologice de productie; Implementarea platformei tehnologice de productie; Testarea functionalitatii platformei tehnologice de productie; Proiectarea si dezvoltarea bazei de date cu modele de mbrcminte i tipare n stil clasic i actual.


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REZUMATUL ETAPEI

Proiectul ITProTech creeza dou tehnologii noi i interdependente cu valoare adugat mare:

baz de date cu modele si tipare in stil clasic si in funcie de tendintele modei; platform/tehnologie de producie avansata pentru mbrcminte personalizata care

permite producia i distribuia de articole de mbrcminte la comand, la preuri rezonabile, n timp scurt i cu o inalta corespondenta.

Platform electronic tehnologie de productie ofer personalizarea permind clienilor s creeze produse individualizate prin intermediul internetului, selectnd produsele, facilitnd planificarea produciei i integrarea cu sistemele de business enterprise. n plus, o astfel de platform ofer un spaiu de lucru pentru a organiza activitile de proiectare personalizat cu modelarea integrat pentru designeri si inginerii de fabricaie.

Platforma ITProTech reprezinta un sistem modern de proiectare si productie a imbracamintei personalizate (individualizate) care utilizeaza simultan informatii din sfera sistemului productiei individualizate si a sistemului de serie. Cu toate ca ofera produse individualizate tipare/articole de imbracaminte, pentru construirea bazei de date a platformei s-a pornit de la standardul antropometric SR13545-2010 deoarece este un standard complex care prezinta urmatoarele puncte de plecare utile:

- ofera 220 de variante tipodimensionale pentru populatia adulta din Romania, - fiecare varianta este caracterizata de un numar suficient de mare si de variat, 89 de

dimensiuni secundare. Pe de alta parte sistemele de calcul si proiectare CAD permit extrapolarea si interpolarea

spre un numar suplimentar de alte corpuri tip, neprevazute de acest standard dar usor de construit din informatiile oferite de acesta.

n cadrul Etapei 2. Proiectarea si dezvoltarea platformei tehnologice de productie, echipa de cercetare a proiectului a evaluat mijloacele disponibile pentru atingerea obiectivelor de dezvoltare a platformei tehnologice de productie i subsistemele sale specifice, destinate personalizarii de masa a articolelor de mbrcminte. n acesta etapa, s-a dezvoltat si testat platforma tehnologica de productie conform configuraiei de baza i cerintelor sistemului identificate in etapa anterioara. Aceast platform tehnologie de producie conine baza de date cu modele de mbrcminte, clasificate pe stiluri vestimentare. Baza de date va fi actualizat periodic de catre productori implicati n sistem creand noi modele bazate pe nevoile si cerintele clientilor.

Avand in vedere problematica productiei de confectii personalizate, raportul stiintific este structurat pe patru capitole.

Capitolul 1. Proiectarea detaliata a sistemului conform specificatiilor a acestui raport prezinta activitatea desfurata in vederea proiectarii platformei tehnologice de producie ca aplicaie web n funcie de cerinele identificate. Activitatea de proiectare s-a realizat prin utilizarea de instrumente standardizate, limbaje formale specifice (HTML si PHP) pentru proiectarea i modelarea sistemelor informative, utilizate frecvent n sectorul IT.


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O atenie deosebit a fost acordat funcionalitilor care au fost integrate n platforma tehnologic de producie i compartimentarea lor ulterioar ntre server i utilizare client. Interfaa cu clientul a fost proiectata pe principiile de interactiune, astfel nct s faciliteze la maxim utilizarea pentru consumatorul final.

Capitolul 2. Implementarea platformei tehnologice de productie a acestui raport vizeaza dezvoltarea prototipului platformei, n conformitate cu proiectarea realizata anterior. Prototipul platformei tehnologice de productie este alctuit dintr-o aplicaie web care este o extensie dinamic a serverului web. Aplicatia web este gzduita n ntregime pe server i are nevoie doar de un browser web generic pentru a fi exploatata. In acest fel, interaciunea dintre client (care ruleaz aplicatia web) i server implic generarea de coninut dinamic.

Implementarea platformei tehnologice de productie a implicat dezvoltarea aplicatiilor web pentru server si client, concentrndu-se n special cu privire la limitele de interfaare cu sisteme de baze de date, care colecteaz modelele in diverse stiluri vestimentare.

Capitolul 3. Testarea functionalitatii platformei tehnologice de productie a acestui raport prezinta activitatile prin care aplicatia web a fost testata pentru a verifica funcionarea corect a acesteia. Testarea a fost realizata n conformitate cu principiile de proiectare si cerinele funcionale, rezultand un raport de testare a functionalitatii.

Capitolul 4. Proiectarea si dezvoltarea bazei de date cu modele si tipare a acestui raport prezinta activitatea de elaborare a structurii si continutului bazei de date conform cerintelor definite in etapa anterioara a proiectului. Baza de date cu modele in stilul clasic si tendintele modei, structurate pe corpuri tip si categoria de produse: fuste, rochii, bluze, pantaloni, sacouri si pardesie a fost instalata pe serverul web. Baza de date a fost optimizata pentru a garanta un acces rapid la informaii, evitndu-se astfel orice ncetinire a performanelor interfatei web.

Practic, orice set de dimensiuni preluate de pe un corp uman se poate incadra la o varianta tipodimensionala bine definita. Sistemul este dinamic, perfectibil si cu posibilitati de dezvoltare permanenta, odata lansat. Orice comanda venita de la client poate produce un alt corp tip. Cele 220 de variante tipodimensionale ale SR 13545 reprezinta doar un nucleu care se va extinde treptat. Acest lucru este posibil deoarece in general, la baza sistemului se afla algoritmi pentru fiecare tip de produs, construiti din functii. Odata creat nucleul acestui sistem s-a generat o baza ampla de tipare de baza si de model clasificata dupa conformatii, inaltimi de corp si marimi, care se va dezvolta treptat pe masura informatiilor primite de la clienti.

Binenteles ca sistemul este flexibil si poate crea produse de imbracaminte total individualizate cu conditia ca clientul sa colaboreze foarte bine cu platforma in privinta procedurii de masurare care este specifica fiecarui tip de produs si se poate modifica usor de la un client la altul in functie de particulatitatile antropomorfologice.

Obiectivele etapei au fost indeplinite cu obtinerea tuturor rezultatelor, iar in etapa urmatoare a proiectului se vor efectua activitati de integrare si testare a platformei tehnologice de productie, management, diseminare si valorificare rezultatelor proiectului.


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CONCLUZII In etapa actuala, prin proiectarea si realizarea platformei tehnologice de productie personalizata a articolelor de imbracaminte au rezultat urmatoarele concluzii: 1) Datorita multitudinii de avantaje pe care le ofer Internet-ul pentru dezvoltarea unei afaceri, tot mai multe companii se strduiesc sa-i stabileasc prezena on-line. 2) Platforma tehnologica de productie reprezinta o tehnica noua care maximizeaza eficiena companiilor producatoare de confectii in integrarea rapida de noi produse i procese. 3) Platforma tehnologica de productie personalizata se adreseaza in primul rand clientilor romani si pune la dispozitia producatorilor romani de confectii Made-to-Measure o baza de tipare actuala si usor de accesat, in conformitate cu noile standarde antropometrice.

4) Analizand rezultatele obtinute in urma testarii fiecarei sectiuni ale platformei, se poate observa ca Platforma tehnologica de productie indeplineste cerintele din tema de cercetare si proiectare, fiind utila, eficienta si foarte necesara IMM-urilor ce doresc sa produca inclusiv confectii personalizate si clientilor doritori sa achizitioneze cele mai potrivite modele, realizate dupa dimensini masurate pe propriile corpuri. 5) Sistemul de functii care a stat la baza realizarii bazei cu tipare de baza si tipare de model este viabil, dinamic si cu potential extindere a bazei de date pentru un numar nedefinit de corpuri tip si tipuri de produse. Acest sistem se va dezvolta in functie de comenzile primite de la clienti. 6) Sistemul este flexibil pentru realizarea rapida a unor tipare individualizate care sa respecte cerintele privind dimensiunile de corp si modelul solicitat. Sistemul poate fi utilizat pentru elaborarea algoritmilor de proiectare conform noului standard antropometric SR 13545:2010. Sistemul poate fi utilizat pentru elaborarea standardelor de produs, dupa noul standard antropometric. 7) Alegerea acestui sistem de lucru pentru proiectarea si producerea imbracamintei individualizate a fost un compromis intre dorinta de a oferi acest serviciu si disponibilitatea redusa a populatie pentru masurarea corpului. A fost necesar sa cream o baza de date care sa permita asigurarea comenzilor atat in domeniul imbracamintei de serie cat si in domeniul imbracamintei individualizate, un sistem care sa evolueze cu usurinta simultan cu dezvoltarea metodelor de masurare a corpului uman si adaptabilitatea populatie la noile sisteme. 8) De asemenea, trebuie mentionat ca exista proiectanti de imbracaminte care nu stiu sa aplice regulile de proiectare individualizata sau nu stiu sa lucreze cu algoritmi de proiectare sau care nu stiu sa coreleze formulele de constructie cu sistemele antropomorfologice. In schimb, vad in spatiu putand cu usurinta sa transforme tiparele de baza de serie, in tipare de baza


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individualizate si apoi in tipare de model. Pentru acest tip de proiectanti o baza de tipare structurata pe corpuri tip este binevenita.


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BIBLIOGRAFIE

1 Avdanei M., Pintilie E., Viitorul industriei de confecii n Romnia-Sistem integrat de

imbrccminte individualizat (SIM), Simpozionul anual al specialitilor din industria de tricotaje-confecii, Iai, 2006.

2 Brumariu A., Filipescu E., etc., Perfecionarea tipologiei dimensionale a populaiei (pe grupe de sex i vrst), necesar proiectrii industriale a produsului de mbrcminte, Contract de cercetare tiinific nr. 24713/1955, Institutul Politehnic Iai.

3 Ciobanu M., Mitu S., Interpretarea statistic a unor msurtori antropometrice, Revista Industria Uoar, nr. 3,1979.

4 Choy R., Loker S., Mass customization of wedding gowns: design involvement on the Internet, Clothing and Textiles and Research Journal, no. 22, 2005, 7987

5 Colesca Sofia Elena, Aspecte ale proiectrii site-urilor WEB, Revista Economia, nr.2/2004, pag. 46-49

6 Diaconu M., Mitu S., Cercetri fotogrametrice experimentale pentru reconstrucia 3D a corpului uman i prelevarea msurtorilor necesare n proiectarea vestimentaiei personalizate, Simpozionul anual al specialitilor din industria de tricotaje-confecii, Buletinul simpozionului, pag 155, Iai, 2006.

7 Diaconu M., Pintilie E., Avdanei M., Diaconu M., Sistem integrat de producie a mbrcmintei personalizate pentru IMM-uri cu profil confecii textile, Revista Industria Textil nr.2, Bucureti, 2008.

8 Diaconu M., Mitu S., Pintilie E., Filipescu E. Metoda de evaluare antropo-morfologica a corpului uman scanat prin fotogrametrie in vederea proiectarii personalizate a imbracamintei, Simpozionul anual al specialitilor din industria de tricotaje-confecii Textilele Viitorului, Volumul de lucrari, pag 343, Iai, noiembrie 2008.

9 Filipescu E., etc., Asigurarea calitii mbrcmintei prin perfecionarea dimensionrii tiparelor de baz, Simpozion internaional, Optimizarea proceselor tehnologice, premis a creterii calitii produselor textile, Iasi, 9-10 mai, 2002.

10 Filipescu E., etc., Asigurarea calitii produselor de mbrcminte prin elaborarea tiparelor de baz flexibile, Volum Prezent i viitor n definirea i asigurarea calitii din industria de confecii, Iasi, 1998.

11 Filipescu E., Contribuii la optimizarea construciei mbrcmintei n vederea asigurrii corespondenei dimensionale a elementelor sistemului corp-mbrcminte n regim static i dinamic, tez de doctorat, Iasi, 1998.

12 Filipescu E., Niculescu C., Crde S., Tendine actuale n elaborarea sistemelor de mrimi pentru confecii, Simpozionul anual al specialitilor din industria de tricotaje-confecii, Iai, 2006.

13 Filipescu E., Brumariu A, Crde S., Indicatori dimensionali de caracterizare a formei exterioare a corpului//Creativitate Tehnologie Marketing, Materialele I-lui Simpozion


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Universitar, Chiinu, 26-27 iunie 1996. 14 Filipescu E., Brumariu A., Indicatori de apreciere a corespondenei corp-produs

vestimentar, a 10-a Conferin romn de textile-pielrie, Iai, 14-16 octombrie, 1992 15 Kamali N., Loker S., Mass customization: on-line consumer involvement in product design,

Journal of Computer-Mediated Communication, http://www.ascusc.org/jcmc/vol7/issue4/ loker.html, 2002

16 Lee S-E., Chen C,J., "Mass-customization Methodology for an Apparel Industry whith a Future", Journal of Industrial Technology, National Association of Industrial Technology U.S. State of Oklahoma ,Volume 16, Number 1, November 1999.

17 Lee H., Damhorst M. L., Campbell J.R., Loker S., Parsons J. L., Consumer satisfaction with a mass customized Internet apparel shopping site, International Journal of Consumer Studies ISSN 1470-6423, no. 35 (2011), pp. 316329

18 Mitu S., Mitu M., Bazele tehnologiei confeciilor textile, vol 1,2, Performantica, Iasi, 2005.

19 Pintilie E., Avdanei M., Diaconu M., Noi perspective pentru proiectarea mbrcmintei n contextul mbrcmintei personalizate, A XIIIa Conferin Romn de Textile i Pielrie, CORTEP 2007, Universitatea Tehnic Gh. Asachi, Facultatea de Textile-Pielrie i Management Industrial, Buletinul Institutului Politehnic, tomul LIII, fas.5, vol I, pag. 706, Iai, 18-20 septembrie, 2007.

20 Pintilie E., Avdanei M., Viitorul industriei de confecii n Romnia-Sistem de mbrcminte individualizat (SIM), Simpozionul specialitilor din industria confecii-tricotaje Creterea competitivitii industriei de tricotaje-confecii n perspectiva aderrii Romniei la UE Iai, octombrie 2006.

21 Radu RDESCU, Valeriu CIORGAN, Proiectarea unei librrii virtuale, Proceedings Conferina Naional de nvmnt Virtual - VIRTUAL LEARNING VIRTUAL REALITY, ediia a III-a, 2005, pag. 1-8

22 Rasband J., Liechty E., Fabulos Fit, speed fitting and alteration, Ediia 2, Fairchild Publications, Inc., New York, 1994.

Romeo Margea, Site-uri web dinamice cu Joomla! 1.5, editie online, ISBN 978-973-0-11808-7, Timisoara 2011

23 Tseng M., Piller T., Advances in Mass Customization and Personalization, Centric Enterprise, Springer Verlag New York Inc., 2003.

24 Ulrich P.V., Anderson-Connell L.J, Wu W., Consumer co-desing of apparel for mass customization, Journal of Fashion marketing and Management, no. 7, (2003), pp. 398412

25 Winifred A., Metric Pattern Cutting for Menswear, Ediia 3, Blackwell Science Ltd., Oxford, 1998.

Winifred A., Fabric,Form and Flat Pattern Cutting, Ediia 3, Blackwell Science Ltd., Oxford, 1996.

26 Zulch G., Koruca H. I., Borkircher M., Simulation-supported change process for product


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customization A case study in a garment company, Computers in Industry, no. 62 (2011), pp. 568577

27 SR 13545:2010 Imbracaminte. Dimensiunile corpurilor si marimi de confectii pentru femei. 28 EN 13402-2: Size designation of clothes, Partea 2 Primary and secondary dimensions.

29 EN 13402-3 Desemnarea mrimilor mbrcmintei Partea 3: Mrimi i intervale

30 STAS 12830-90 Imbrcminte pentru femei/Dimensiunile corpurilor, Institutul Romn de Standardizare, Ministerul Industriei Uoare.


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ANEXA RAPORT ASUPRA DEPLASARILOR IN STRAINATATE

PRIVIND ACTIVITATEA DE DISEMINARE

n continuare se vor prezenta puncte din demersul de promovare a rezultatelor etapei

actuale de cercetare si perspectivele de colaborare: Publicarea articolului Virtual fitting innovative technology for customize

clothing design, autori Olaru Sabina, Spnachi Elena, Filipescu Emilia, Salistean Adrian, in revista cotata ISI Procedia Engineering vol. 69, 2014, ISSN 1877-7058, pag. 555-564. Anexat se afla articolul publicat.

Prezentarea posterului IT PRODUCTION TECHNOLOGY FOR CUSTOM GARMENT, autori Olaru Sabina, Diaconu Manuela, Niculescu Claudia, Mocenco Alexandra, Popescu Georgeta, Alexandru Luca Dan, la Conferinta Industrial Technologies 2014 Smart Growth through Research and Innovation - INDTECH2014, 9-11 Aprilie 2014, Atena, Grecia. Anexate se afla programul conferintei si posterul prezentat.

Organizarea intalnirii de lucru cu partenerii Telmat Industries cu participarea membrilor echipei de cercetare Gilbert DUDKIEWICZ (TELMAT Industrie), Jean-Loup RENNESSON (TELMAT Industrie), Pascal KEITER (TELMAT Industrie), Sabina OLARU (INCDTP), Georgeta Popescu (INCDTP), in Soultz, Franta, 10 Iunie 2014. Programul intalnirii, lista de prezenta si minuta intalnirii se afla anexate.

Prezentarea posterului Methods for Assessing the Model Family Economics, autori Filipescu Emilia, Olaru Sabina, Spnachi Elena, la 15th Romanian Textiles and Leather Conference CORTEP 2014, 4 - 6 Septembrie 2014, Poiana Braov, Romania. Anexat se afla programul conferintei.

Publicarea articolului Methods for Assessing the Model Family Economics, autori Filipescu Emilia, Olaru Sabina, Spnachi Elena, in Proceedings of 15th Romanian Textiles and Leather Conference CORTEP 2014, ISSN-L 2285-5378, pag. 381-384. Anexat se afla articolul publicat.

Sustinerea referatului Tehnologie de productie IT pentru imbracaminte personalizata ITProTech, autori Olaru Sabina, Mocenco Alexandra, Popescu Georgeta, Luca Dan, Salistean Adrian, la Seminarul De la idee si concept la transfer tehnologic in cercetarea stiintifica din textile-pielarie organizat cu ocazia Expozitiei Internationale de Tesaturi, Imbracaminte, Pielarie, Blanarie, Incaltaminte si Marochinerie, Accesorii - MODEXPO 2014, la Romexpo, Pavilion C5, Bucuresti, 26 Septembrie 2014. Anexat se afla programul seminarului.

Sustinerea referatului Tehnologie de productie IT pentru imbracaminte personalizata ITProTech, autori Olaru Sabina, Mocenco Alexandra, Popescu Georgeta, Luca Dan, Adrian Salistean, la Conferinta Clusterele entitati suport pentru promovarea produselor romanesti prin inovarea de produse si servicii in industria textila si de imbracaminte din cadrul International Fair Romanian


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Fashion Trends and Brands 2014, 14-16 Octobrie 2014, Bucuresti. Anexat se afla programul conferintei.

Prezentarea posterului Tehnologie de productie IT pentru imbracaminte personalizata ITProTech, autori Olaru Sabina, Mocenco Alexandra, Popescu Georgeta, Salonul Cercetarii, RomExpo, 15-18 Octombrie 2014, Bucuresti.

Organizarea intalnirii de lucru cu partenerii Telmat Industries cu participarea membrilor echipei de cercetare Jean-Loup RENNESSON (TELMAT Industrie), Daniela ANTON (SC DAVO STAR SRL), Marilena DRAGOTA (SC DAVO STAR SRL), Marius DIACONU (SC DIAMAN ART SRL), Manuela DIACONU (SC DIAMAN ART SRL), Sabina OLARU (INCDTP), Lucretia MIU (INCDTP), Georgeta Popescu (INCDTP), Alexandra MOCENCO (INCDTP), Cosmina PRISECARU (INCDTP) si Alexandru LUCA (INCDTP), in Bucuresti, 30 Octombrie 2014. Programul intalnirii, lista de prezenta si minuta intalnirii se afla anexate.

Prezentarea posterului Applied 3D Virtual Try-On for Bodies with Atypical Characteristics, autori Olaru Sabina, Filipescu Emilia, Avdanei Manuela, Mocenco Alexandra, Popescu Georgeta, Slitean Adrian, la 25th DAAAM International Symposium on Intelligent Manufacturing and Automation, 2014, 26-29 Noiembrie 2014, Viena, Austria. Anexate se afla programul conferintei si posterul prezentat.

Publicarea articolului Applied 3D Virtual Try-On for Bodies with Atypical Characteristics, autori Olaru Sabina, Filipescu Emilia, Avdanei Manuela, Mocenco Alexandra, Popescu Georgeta, Slitean Adrian, in revista cotata ISI Procedia Engineering 2015 in cursul lunii martie 2015. Anexat se afla varianta draft a articolului.

Crearea site-ului propriu al proiectului in limbile Romana si Engleza http://www.itprotech.eu/.

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INSTITUTUL NATIONAL DE CERCETARE - DEZVOLTARE PENTRU TEXTILE SI PIELARIE- BUCURESTI

Contractul nr.: 7-079/2013 program Parteneriate in domenii prioritare/CROSSTEXNET Proiect: Tehnologie de productie IT pentru imbracaminte personalizata (ITProTech)

RAPORT DE TESTARE PRIVIND FUNCTIONALITATEA PLATFORMEI TEHNOLOGICE DE PRODUCTIE

Nr. 2515/27.11.2014

Incheiat astazi 27.11.2014, in cadrul testarii functionalitatii Platformei tehnologice de productie realizata in cadrul proiectului Tehnologie de productie IT pentru imbracaminte personalizata (ITProTech) finantat in cadrul programului Parteneriate in domenii prioritare/CROSSTEXNET, contractul nr. 7-079/2013. La testare au participat: Dr. ing. Olaru Sabina Director proiect, INCDTP Ing. Luca Dan Alexandru Specialist IT, INCDTP Ing. Georgeta Popescu Cercetator, INCDTP Art. Pl. Mocenco Alexandra Cercetator, INCDTP Ing. Daniela Anton Responsabil proiect, SC DAVO STAR IMPEX SRL Ec. Daniel Anton Specialist IT, SC DAVO STAR IMPEX SRL Dr. ing. Manuela Diaconu Responsabil proiect, SC DIAMAN ART SRL Dr. ing. Marius Diaconu Proiectant, SC DIAMAN ART SRL

Dup implementarea tuturor paginilor de web ale platformei tehnologice de productie, nainte de publicarea pe Internet, s-a realizat testarea site-ului. Testarea s-a efectuat de catre fiecare partener in parte, in sectiunea aferenta de site, in limba romana si limba engleza. In vederea testarii functionalitatii platformei tehnologice de productie au fost efectuate urmatoarele activitati:

1. Accesarea site-ului www.itprotech.eu; 2. Intrarea in sectiunea INCDTP, varianta limba romana si limba engleza; 3. Generarea unei comenzi fictive, utilizand o adresa de client verificabila; 4. Introducerea in comanda a atasamentelor sub forma de fotografii si arhiva; 5. Verificarea corectitudinii mesajelor generate de platforma, receptionate de INCDTP si

de catre client; 6. Accesarea site-ului www.itprotech.eu; 7. Intrarea in sectiunea DAVO STAR IMPEX, varianta romana si varianta engleza; 8. Generarea unei comenzi fictive, utilizand o adresa de client verificabila; 9. Introducerea in comanda a atasamentelor sub forma de fotografii si arhiva;

http://www.itprotech.eu/http://www.itprotech.eu/

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10. Verificarea corectitudinii mesajelor generate de platforma, receptionate de DAVO STAR IMPEX si de catre client;

11. Accesarea site-ului www.ITProTech.eu; 12. Intrarea in sectiunea Diaman Art, varianta limba Romana si limba Engleza; 13. Generarea unei comenzi fictive, utilizand o adresa de client verificabila; 14. Introducerea in comanda a atasamentelor sub forma de fotografii si arhive; 15. Verificarea corectitudinii mesajelor generate de platforma, receptionate de societatea

Diaman Art si de catre client. In continuare se prezinta rezultatele utilizarii platformei tehnologice de productie pentru

fiecare partener, cu evidentierea complexitatii structurii.

Testarea paginii in limba romana, sectiunea INCDTP 1. Editarea comenzii

2. Finalizarea comenzii

http://www.itprotech.eu/

3

3. Confirmarea comenzii la client

4. Primirea comenzii pe [email protected]

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Testarea paginii in limba engleza, sectiunea INCDTP 1. Editarea comenzii


5



6

Testarea paginii in limba romana, sectiunea DAVO STAR IMPEX

1. Editarea comenzii

7




8

Testarea paginii in limba engleza, sectiunea DAVO STAR IMPEX 1. Editarea comenzii


9



10

Testarea paginii in limba romana, sectiunea DIAMAN ART 1. Editarea comenzii

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Testarea paginii in limba engleza, sectiunea DIAMAN ART 1. Editarea comenzii

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In urma analizei si evaluarii rezultatelor obtinute la testarea functionalitatii Platforma tehnologica de productie se pot trage urmatoarele concluzii:

Platforma tehnologica de productie prezint caracteristicile si indeplineste cerintele prezentate in Raportul Stiintific si tehnic aferent fazei 1/2013;

Formularul de comanda si contact al platformei tehnologice de productie este unul flexibil solicitand minimul de date necesare referitoare la utilizatorii aplicatiei;

Formularul de comanda asigura clientului o accesare usoara a produsului dorit si stocarea rapida a urmatoarelor informatii utile proiectantului: - produsul dorit de client, prin editarea codului de catre acesta pe interfata

platformei; - dimensiunile principale ale clientului, care permite proiectantului sa-l incadreze la

varianta tipodimensionala potrivita si sa selecteze din baza de date a site-ului tiparul indicat pentru confectionarea produsului;

- evaluarea corpului clientului de catre proiectant, in baza informatiilor trimise si a fotografiilor incarcate pe site de catre client sau a fisierului rezultat in urma scanarii; proiectantul va stabili daca este necesar sa solicite clientului dimensiuni suplimentare si sa modifice tiparul variantei tipodimensionale selectate;

Preluarea dimensiunilor corporale ale clientului poate fi fcut in doua moduri moduri:

- prin scanare automata 3D, solufie foarte precisa dar costisitoare deci mai pulinindicatd companiilor mici;

- prin preluare manuala pe baza informatiilor trimise clientului privind masurareacorecta a corpului.

Analizand rezultatele obtinute pentru fiecare sectiune a platformei, se poate concluzionaca Platforma tehnologica de productie indeplineste cerintele din tema de cercetare si proiectare,fiind utila, eficienta si foarte necesara IMM-urilor ce doresc sa produca inclusiv confectiipersonalizate si clientilor doritori sa achizitioneze cele mai potrivite modele, realizale iltpadimensini masurate pe propriile corpuri.

Evaluarea favorabila a participantilor si performantele testate ale platformei tehnologicede productie, consemnate in Raportului stiintific si tehnic aferent fazei 212014 demonstreazafunctionalitatea si utilitatea Platforma tehnologica de productie.

Semnaturi

Nume Prenume Functie Semnatura

Dr. ins. Olaru Sabina Director proiect, INCDTP dIng. Luca Dan Alexandru Specialist IT,INCDTP f*-Ing. Georgeta Popescu Cercetator, INCDTP

Art. Pl. Mocdnbo Alexandrai t . . 1 l

Cercetator, INCDTP (4rtnResponsabil proiect, SC DAVO STAR IMPEX SRL

Ec, Daniel Anton Specialist IT, SC DAVO,STAR IMPEX SRL a*f f4Dr, ing,J\4anuela Diaconu Responsabil proiect, SC DIAMAN ART SRL

\ / q^D1, in8,Marius Diaconu Director, SC DIAMAN ART SRL tbtMt-

15

Procedia Engineering 69 ( 2014 ) 555 564

Available online at www.sciencedirect.com

1877-7058 2014 The Authors. Published by Elsevier Ltd.Selection and peer-review under responsibility of DAAAM International Viennadoi: 10.1016/j.proeng.2014.03.026

ScienceDirect

24th DAAAM International Symposium on Intelligent Manufacturing and Automation, 2013

Virtual Fitting Innovative Technology for Customize Clothing Design

Olaru Sabinaa*, Spnachi Elenab, Filipescu Emiliac, Salistean Adriana

aNational R&D Institute for Textiles and Leather, Bucharest, 030508, Romania bSC Gemini CAD Systems SRL, Iasi, Romania

cFaculty of Textile, Leather and Industrial Management,Gheorghe Asachi Technical University, Iasi, Romania

Abstract

The study proposes an innovative methodology for the clothing design activity, which allows the designer to adapt basic patterns developed for type bodies in the actual body form of a certain subject, using simulation in virtual environment of body-garment fitting. For the application of this innovative technology, the paper provides theoretical and practical information on: Development of two methods for morphological assessment of subjects in order to obtain the information required in patterns design for clothing based on concrete body form of potential users; Methodology to adapt basic patterns developed for a body type to the concrete form of subjects, applying simulation technology of body-product fitting in virtual environment. The present paper is the case study on completion of basic patterns, for " women dress" by applying innovative simulation in 3D virtual space, on the correspondence between designed product and actual body of the subject. 2014 The Authors. Published by Elsevier Ltd. Selection and peer-review under responsibility of DAAAM International Vienna.

Keywords: virtual; simulation; clothing; design

1. Introduction

In the classic technology of clothing design using industrial system, the basic patterns are designed for bodies that make up the dimensional typology model for a given population. Defining basic and model patterns shall follow the practical manufacturing of the product, laborious process that involves high costs of labor and raw materials.

* Corresponding author. Tel.: +40213404928; fax: +40213405515.

E-mail address: [email protected]

2014 The Authors. Published by Elsevier Ltd.Selection and peer-review under responsibility of DAAAM International Vienna

http://crossmark.crossref.org/dialog/?doi=10.1016/j.proeng.2014.03.026&domain=pdfhttp://crossmark.crossref.org/dialog/?doi=10.1016/j.proeng.2014.03.026&domain=pdf

556 Olaru Sabina et al. / Procedia Engineering 69 ( 2014 ) 555 564

Current requirement for achieving garments in very small series or customized clothing determine the adaptation of actual design process to dynamic markets and requirements of potential users.

Currently, widespread use in the clothing industry of CAD systems to design patterns along with database resulting from 3D scanning technology of the human body, are prerequisites to extend virtual modeling of the dimensional correspondence body-dress in the work of finalizing the 2D patterns after the concrete dimensions of subjects [1, 2].

CAD systems performance for clothing determines the whole process of patterns design to develop more quickly and at a quality level that allows manufacturers quickly renewing collections. In this respect, it is necessary in the design of clothing to reconsider the preplanning stages, steps to develop research directed toward morphological characterization of the human body and adaptation of base patterns on actual body shape through the use of 3D virtual simulation techniques for body-product fitting [3, 4].

In this context, the present study is the case study on completion of basic patterns, for "women dress" by applying innovative simulation in 3D virtual space, on the correspondence between designed product and actual body of the subject. For this purpose, a methodology is proposed which allows the clothing designer the use of all facilities offered by the current performance of CAD systems, at a high technical level.

To implement the proposed methodology, we started from the idea that there are people which differ by their body size from the standard, within limits that allow the designer to adapt the type of patterns developed for bodies in the concrete form of the wearer. In this respect, the role of the designer is very important in two ways:

Complex morphological characterization of tested body to assess deviations between the actual and standardized body;

Adoption of optimal solution for remodeling patterns, during the virtual simulation, interactive stage between technical specialist and CAD system.

In this context, the research objectives were:

Developing and implementing morphological characterization of women, essential step in establishing scientific database needed for innovative use of simulation techniques in virtual environment of body-product fitting;

Application of the methodology for patterns validation, patterns developed for a certain body using "virtual fitting".

To address the objectives of the paper, we used the primary database (the values of anthropometric sizes), resulting from anthropometric investigation by 3D scanning method of adult women population in Romania. Primary data was processed mathematically (one-dimensional statistical method) and compared with the corresponding values given in the literature [5].

2. The theoretical methods developed for morphological analysis of subjects

In the activity of creating clothing in customized system, it is very important that the designer assesses quickly and accurately the customers morphology in order to design patterns, with maximum efficiency.

To address this overall objective, we have developed two methods to allow more complete characterization of the shape of the human body to design clothing [6,7]:

development of a specific algorithm for calculating, in the electronic system, which, based on a relatively small number of anthropometric sizes taken from a certain subject, the designer must have information that would allow its classification to a body type (size, heights groups, conformation) and to basic morphological indicators (stature, proportions, vertical balance and shoulder position);

complex morphological characterization of the human body by calculating averages and inter-dimensional ranges of introduced indicators for assessing torso curves and prominences, on front and back side.

Table 1 presents anthropometric sizes that were selected for practical application of morphological evaluation methods proposed in the paper.


Table 1. Selected anthropometric sizes.

No. Significance of anthropometric size Symbol

1 Body height Ic 2 Bust circumference Pb 3 4th bust circumference PbIV 4 Waist circumference Pt 5 Hips circumference Ps 6 Shoulders length Lu 7 Thorax length from neck to waist Ltf 8 Vertical arch of the back Avs 9 Shoulders inclination angle 10 Back width between acromial points (distance between shoulders) Du 11 Distance from cervical point to a reference plane, placed behind the subject D1 12 Distance from scapula projection to a reference plane, placed behind the subject D2 13 Distance from back waist point to a reference plane, placed behind the subject D3 14 Distance from buttock point to a reference plane, placed behind the subject D4 15 Distance from clavicular point to a reference plane, placed behind the subject D5 16 Distance from breast point to a reference plane, placed behind the subject D6 17 Distance from the front waist point to a reference plane, placed behind the subject D7 18 Distance from the maximum abdomen point to a reference plane, placed behind the subject D8

Some of these anthropometric sizes have been used to identify the body type which may or may not fit with a

certain subject, while others have been used for the calculation of the morphological indicators for complex evaluation of the body shape (Table 2).

Table 2. Calculation of morphological indicators.

No. Significance of indicator Calculation equation

1 Body stature (Pc) D1D2 (cm) 2 Back waist depth (Ats) D3D2 (cm) 3 Buttocks prominence (Pfes) D3D4 (cm) 4 Shoulders height u=Lu*sin (cm) 5 Vertical balance (Ev) LtfAvs (cm) 6 Thoracic perimeter index (Ipt); (Pb/Ic )*100 (%) 7 Bust prominence (Pbust) D6D5 8 Waist depth compared to bust prominence (Atf) D6D7 9 Abdomen prominence compared to bust prominence (Pabd) D6D8 10 Abdomen prominence compared to waist prominence (Pabd-t) D8D7

2.1. Mathematical model for primary morphological evaluation of the body shape

In order to develop the mathematical model was necessary to create a database enabling automated evaluation of morphological features of test subjects.

Framing subjects from one body type (size, group heights, conformation) and basic morphological indicators (stature, proportions, vertical balance and shoulder position) required:

selection of anthropometric sizes allowing the specific calculations for morphological characterization (Table 1);


taking information from anthropometric standard necessary for framing the subject in a standardized body type, on groups of sizes, heights and conformation [8];

morphological characterization of selection subjects by calculating averages and inter-dimensional ranges, on the selection under study (volume of selection n = 675 subjects, adult women aged between 20 and 65 years) to assess: posture (Pc) on types of stature, back waist depth (Ats) on types of stature, buttocks prominence (Pfes), shoulder height (u), vertical balance (Ev1) and thoracic perimeter (Ipt).

The body stature or body position (Pc), the back waist depth (first waist depth) Ats and the buttocks prominence (second waist depth) Pfes have the following interpretation:

Tense stature: Pc < 4,69; Ats < 2,9; Pfes < 3,49; Normal stature: Pc = 6,2 1,5; Ats = 4,51,5; Pfes = 51,5; Crooked stature: Pc > 7,71; Ats > 6,1; Pfes > 6,51.

The interpretation of shoulders height (u) is: Shoulders lifted, u < 5,19; Shoulders in normal position, u = 5,9 0,75; Shoulders descend, u > 6,7.

Vertical balance (Ev) offers information about thorax position: Leaned forward, Ev < -0,21; Normal vertical balance, Ev = 1.82; Leaned back, Ev > 3,81.

Thoracic perimeter index (Ipt) offers information about the thorax type: Narrow thorax, Ipt < 56,9; Average thorax, Ipt = 603; Large thorax, Ipt = 663; Round thorax, Ipt > 69.

The mathematical model was developed to assess the overall exterior body shape, but for a complex evaluation is proposed a comparative analysis between the morphological indicators of a random subject and standardized values of the body type that fits the selected subject by the principal dimensions (height body, bust circumference and hips circumference).

2.2. Complex evaluation of human body by comparative method

In order to characterize the body shape by this method were introduced along with the above mentioned indicators (Pc, Ats and Pfes), the indicators characterizing the body prominence in the frontal plane, on its anterior part. For these indicators, averages and ranges are presented that have resulted from a mathematical processing of anthropometric values for the selection under study. In this analysis method, the calculated values for random test subject will be compared with those from the overall selection, values and body types specified in anthropometric standard [6].

The first additional indicator is the bust prominence (Pbust), characterizing the bust type:

Less prominent bust, Pbust < 9; Bust with normal prominence, Pbust = 10,51,5; Bust prominent, Pbust > 12,1.

The waist depth compared to bust prominence (Atf) offers information about the prominence type: Waist is more prominent than bust, Atf < 0; Waist is as prominent as bust, Atf = 0; Bust is more prominent than waist, Atf > 0.

Abdomen prominence compared to bust prominence (Pabd) gives information about the prominence type:


Abdomen is more prominent than bust, Pabd < 0; Abdomen is as prominent as bust, Pabd = 0; Bust is more prominent than abdomen, Pabd > 0.

The last indicator is the abdomen prominence compared to waist prominence (Pabd-t) characterizing the prominence type:

Abdomen is more prominent than waist, Pabd-t < 0; Abdomen is as prominent as waist, Pabd-t = 0; Waist is more prominent than abdomen, Pabd-t > 0.

3. Experimental part

The case study is focus on the simulation of the correspondence between human body and designed product, making use of the morphological research on women body, in order to design patterns for different bodies for which we know the anthropometric values, resulting from 3D scanning.

For example, we retrieved from the database (resulting from 3D scanning) a certain body, the selection criterion was that the subject, the main dimensions to fit the body type C from the anthropometric standard (Ic=160 cm, Pb=100 cm and Ps=104 cm). Figure 1 shows the scanned body image of studied subject.

Fig. 1. Image of scanned subject.

For basic pattern design for this particular body, by simulating in 3D environment the correspondence between the body and the product were followed the following stages:

body type research on which the main dimensions fit this subject, being the requirement for the selection of subjects that frame in group C conformation (Ic=160 cm, Pb=100 cm and Ps=104 cm);

developing basic pattern for the dress [9] for representative type body that frames the subjects by using the Modaris Expert, LECTRA;

morphological characterization of the subject by the two testing methods developed for determining the deviation of the shape of its body to the body type that is covered;


simulation in 3D environment of the correspondence between the test subject body shape and the product made with based patterns designed for body type;

analyze the discrepancies between body and product by using the Map of tensions; developing and implementing technical solutions for remodeling the initial patterns in order to adapt them to

specific morphological features of the tested subject; re-simulation of body-product correspondence after patterns adjustment.

3.1. Morphological characterization of the subject using the developed mathematical model

For the subject studied, the noted above algorithm was followed for morphological assessment using developed mathematical model [5]. For example, the type of stature that fits the subject is showed in Figure 2.

Figure 2 presents the values of the test subjects specific anthropometric required its framing in a standard body type and the main indicators characterizing the morphological body shape introduced in the structure of the mathematical model developed according to theoretical information specified in 2.1.

Fig. 2. Assignment of subject to the type of stature.

Using the mathematical model, after processing the initial data (actual values of anthropometric sizes) showed that the test subject:

Frame in standardized body type: 160-100-104; has normal stature, after posture morphological indicator; shoulders have a normal position; after the indicator vertical balance, the body is bent backwards; thorax is medium developed.

This characterization of the subject body shape is not enough to clothing design in customized system. For full characterization of individual body shape and constitution of the database required for patterns completion in correlation with the concrete particulars of the subject body is necessary to extend the morphological analysis by assessing the degree of curvature and prominence in sagital plane. Therefore is necessary to use the second method - complex morphological analysis of the subject.

3.2. Complex morphological analysis of the subject

For a more comprehensive characterization of the tested subject, to store information necessary to base pattern design and to ensure the best possible fitting between body and garment, it was used the complex method of assessing the subjects body shape as specified in paragraph 2.2. For subject tested (S), values of the indicators were calculated for assessing body prominences and depth on the front and the rear.

Table 3 presents comparative values of these indicators calculated on account of anthropometric standard [4] and calculated with the values of anthropometric test subject. Morphological analysis of the subject has been extended to


some curved dimensions, important to assess vertical balance and degree of back vertical development in the transverse plane, on some indicators of global proportions and on transversal proportions through the differences between main circumferences.

Table 3. Indicators for prominence and depths assessing projections for studied subject.

Evaluation indicator Values according to the anthropometric standard (cm) Values od the subject (cm)

Difference (cm)

Body stature (Pc) 7 7,6 -0,6 Back waist depth (Ats) 3,7 3,7 +0,4 Buttocks prominence (Pfes) 5,2 5,3 +0,3 Bust prominence (Pbust) 9 8,8 +0,2 Waist depth compared to bust prominence (Atf) 1 0,8 +0,2

Abdomen prominence compared to bust prominence (Pabd) 0,7 1 - 0,3 Abdomen prominence compared to waist prominence (Pabd-t) 0,3 -0,2 +0,1 LT 39,6 41,9 -2,3 Avs 43,0 44,4 -1,4 Ltf 45,2 46,7 -1,5 e = Ltf - LT 5,6 4,8 +0,8 e = Ltf - Avs 2,2 2,3 -0,1 Thoracic perimeter index (Ipt) 62,5 62,1 +0,4 Indicators of shoulders width (Ilu) 27,7 29,2 -1,5 Ps - Pb 4,0 5,4 -1,4 Pb - Pt 16 5,1 +10,9 Ps - Pt 20 10,5 +9,5 PbIII - PbIV 15,0 16,2 -1,2

According to this analysis, the following can be concluded:

for the three curved dimensions LT , Ltf and Avs, the subject has greater values than the standardized ones for that reason the vertical balance is within normal limits;

the pattern made for the body type will not ensure correct correspondence between the subject and designed product from the bust line to the upper contour lines for both the front and the rear, from the waistline to the neck the body length is greater than that of the body type;

the subject has medium developed thorax but with broad shoulders; the subject has a much higher value for Pt, compared to standard, which is reflected in the large deviations

between differences that are recorded involving waist circumference.

4. Simulation in virtual 3D environment of body-product correspondence

Simulation in 3D environment of the correspondence between design product and the human body is an innovative technique to improve the design process of clothing. This technique has many advantages among which a crucial role is the rapid renewal of models and the reduced costs of practical prototypes manufacturing. Simulation in the 3D virtual environment was performed using 3D CAD system OPTITEX PDS, basic patterns were made with the Modaris Expert, LECTRA.

The main steps of the simulation in virtual 3D space of the correspondence between the body and the product are the following:

visualization of cut parts (import of basic patterns made for the body type and application of assembly directions);

mannequin parameterization;


simulation of sewing for product parts; visualization of the body-product system; analysis of virtual correspondence (tension map).

Figure 3 shows the main steps of the body-product fitting simulation in 3D virtual environment.

Fig. 3. Steps of the simulation process.

From Figure 3 (tension map) is found that at the waist level in the back and abdomen, the product is considered undersized because the subject has a greater value for the waist circumference than the body type. The morphological analysis of this subject and the results obtained from simulation in 3D environment indicate the directions of changing the basic pattern, developed for average body of conformation type C, due to the concrete shape of the studied subject.

The largest deviation of this subject is the value for the waist circumference; the subject has a waist circumference with 9 cm higher than the standard. In these conditions, also the contour length on abdomen back part of the subject is greater than the body type.

The subject presents a dorsal kyphosis, evidenced by the increase in back length from the cervical point to the waist line and the increasing of back vertical spring by 1.5 cm.

Knowing these dimensional differences between the subject's body and the body type, visualized in the simulation, allows the adoption of optimal solutions to remedy the initial basic patterns.

Thus, it is necessary to resize the pattern on the waist line and increasing the contour on the front symmetry line, more specifically increase the front pattern in the vertical direction on the whole surface, from the waist line to the termination line with an amount required by the abdomen prominence.

Figure 4 shows the steps to adapt the front pattern to the peculiarities of the studied subject.

Fig. 4. Steps of front pattern processing.


At this stage, the basic pattern was divided into four distinct areas based on experience in pattern design and in strict correspondence with obtaining the final effect, that of increasing in the longitudinal direction of front pattern. To process this element, the principles of parallel and radial arrangement were used.

The final version of the element patterns (Figure 5) is obtained by tracing the contour line termination and the side seam, contour shrinks to the bottom with 1.5 cm.

Adapting the back pattern (Figure 5) involves changing the superior contour lines imposed by the dorsal kyphosis. For this purpose, both the radial and parallel arrangement were used to increase the contour on back symmetry line and the depth of blade dart, solution needed to transform patterns to the rounded form of the back (dorsal kyphosis ).

Figure 5 shows the preparation of back element (the surface from the bust line to the superior contour lines), the delimitation of areas a and b. Area a will be translated with 1.5 cm up and area b will pivot around the point O. the effect imposed by body shape will be achieved and the final form of back basic pattern.

Fig. 5. Steps of back pattern processing.

After the adjustment of the basic patterns on studied subjects body features, a re-simulation was performed by following the same steps. Figure 6 shows the result of this simulation.

Figure 6 shows that the changes to the original basic patterns have been routed correctly because they provide a good correlation with analyzed subjects body shape. This is argued by the absence of red color which, as noted, the pattern shows a under-dimensions in certain areas.

Fig. 6. Visualization of body-product correspondence after adjustment of basic patterns on analyzed subjects body shape.

It can be concluded that the correct modeling principles have been used for the adaptation of basic patterns to to analyzed body shape.


5. Conclusion

The paper brings contributions to development of the clothing design technology by simulating the body- product correspondence in the 3D environment, taking into account the body shape.

The current research proposes and exemplifies an integrated technology for clothing design from systematization of morphological indicators characterizing the body shape, as initial information required in 2D clothing design, to performing virtual fitting by simulating the body-product correspondence in 3D environment, for completion of the initial pattern geometry in accordance to the body shape.

The concrete results of this research can be summarized as follows:

Development of morphological indicators for assessing female body shape: stature, conformation, proportions and specific indicators to characterize the depth and prominences of trunk on its front and back side. For these indicators, the mean and range of variation were calculated which allows qualitative comparison of a subject's body shape with some basic morphological types, information of great importance to the work of clothing design according to individual measures of potential users.

Morphological characterization of women body shape, the development of two methods that exploit information from 3D body scanning for inventory the features of tested subject.

2D design of dress basic pattern the body type: 160-100-104, for which the main dimensions fit the tested subject.

Simulation in 3D environment of the correspondence between the product originally designed for the body type and specific form of the tested body.

Observation and analysis of dimensional correspondence between body and product, using the Tensions map specific for the simulation technique.

Apply techniques of remodeling the original patterns in correspondence with the particular tested subjects concrete body shape by image analysis through visualization of the body-product system and of the tensions map.

The methodology presented in this paper can easily be used in designing clothes for women, taking into account the concrete form of the body as it provides specific information regarding:

Morphological analysis of adult women to specify: body type that fits (or not) , the type of stature, conformation, total proportions, shape and prominence of the trunk on the front and rear.

Application of simulation algorithms on body-product system in the virtual 3D environment. Development of technical solutions to remodeling patterns in correlation with the concrete form of the body.

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[3] Yuwei M., Mok P.Y., Xiaogang J., Computer aided clothing pattern design with 3D editing and pattern alteration, Computer-Aided Design, no. 44 (2012), pp. 721-734 .

[4] Simmons K.P, & Istook, C.L., Body measurement technique: Comparing 3D body scanning and anthropometric methods for apparel applications, Journal of Fashion Marketing and Management 7(3), 2003, pp. 306-332.

[5] Filipescu E., Contributions to individual clothing 2D and 3D modeling in virtual space, Editura POLITEHNIUM, Iasi, 2011, ISBN 978-973-621-380-9 .

[6] Olaru, S., Mocenco, A., Teodorescu, M., Niculescu, C., Salistean, A., Shape categories for the Romanian female population and specific clothing recommendations, Industria Textila 62 (3), pp. 155-160.

[7] Olaru, S., Filipescu E., Niculescu, C., Morphological indicators for characterization of women thorax and basin shape, for garment design in customised system, Industria Textila 62 (6), pp. 289-295.

[8] Standard - SR 13545:2010 Clothing. Womens Body Measurement and Garment Sizes. [9] Filipescu E. and Avadanei M, Structura si proiectarea confectiilor textile, Ed. Performantica, Iasi, 2007, pp. 67-75.

Day 1: April 9th

Time Alexandra Trianti Hall Nikos Skalkotas Hall Hall MC 2 Hall MC 3 Muses Foyer

9:00 AM

PLENARY 1: Re-

industrialisation and

smart growth through

research and innovation

in Europe

IndustryTech

Exhibition

11:00 AM

Coffee Break, Exhibition Opening at Muses Foyer

11:30 AM

Session 1: Innovating

products for regional

growth in Europe: Co-

evolution of products,

processes and systems

Session 5: Biotechnology

as driver for sustainability

and new industries

Session 3: Fostering EU

competence and

competitiveness through

innovation and smart

specialisation

WS1: NANOfutures IndustryTech

Exhibition

13:15 PM

Lunch Break

14:45 pm

Session 4: Producing

better with less

resource-efficient

factories

Session 10:

Nanotechnology

advances and how nano-

enabled products change

our world and daily life

Session 6: From a

research idea to a

finished product

experiences from large

companies and SMEs in

the value chain

WS2: Manufuture IndustryTech

Exhibition

16:15 pm

Coffee Break

17:00 pm

Session 7: Advanced

processes for efficient,

high quality and agile

manufacturing

Session 8: Sustainable

healthcare made possible

with advanced materials

and nanotechnologies

Session 9: Ensuring

availability and security of

water and food supplies

New business

WS3: EuMaT IndustryTech

Exhibition

http://www.industrialtechnologies2014.eu/session/1-innovating-products-for-regional-growth-in-europe-co-evolution-of-products-processes-and-systems/http://www.industrialtechnologies2014.eu/session/1-innovating-products-for-regional-growth-in-europe-co-evolution-of-products-processes-and-systems/http://www.industrialtechnologies2014.eu/session/1-innovating-products-for-regional-growth-in-europe-co-evolution-of-products-processes-and-systems/http://www.industrialtechnologies2014.eu/session/1-innovating-products-for-regional-growth-in-europe-co-evolution-of-products-processes-and-systems/http://www.industrialtechnologies2014.eu/session/1-innovating-products-for-regional-growth-in-europe-co-evolution-of-products-processes-and-systems/http://www.industrialtechnologies2014.eu/session/5-processing-industry-and-biotech-processes/http://www.industrialtechnologies2014.eu/session/5-processing-industry-and-biotech-processes/http://www.industrialtechnologies2014.eu/session/5-processing-industry-and-biotech-processes/http://www.industrialtechnologies2014.eu/session/3-fostering-eu-competence-and-competitiveness-through-innovation-and-smart-specialisation/http://www.industrialtechnologies2014.eu/session/3-fostering-eu-competence-and-competitiveness-through-innovation-and-smart-specialisation/http://www.industrialtechnologies2014.eu/session/3-fostering-eu-competence-and-competitiveness-through-innovation-and-smart-specialisation/http://www.industrialtechnologies2014.eu/session/3-fostering-eu-competence-and-competitiveness-through-innovation-and-smart-specialisation/http://www.industrialtechnologies2014.eu/session/3-fostering-eu-competence-and-competitiveness-through-innovation-and-smart-specialisation/http://www.industrialtechnologies2014.eu/session/ws1-title/http://www.industrialtechnologies2014.eu/session/4-socially-economically-and-environmentally-sustainable-manufacturing/http://www.industrialtechnologies2014.eu/session/4-socially-economically-and-environmentally-sustainable-manufacturing/http://www.industrialtechnologies2014.eu/session/4-socially-economically-and-environmentally-sustainable-manufacturing/http://www.industrialtechnologies2014.eu/session/4-socially-economically-and-environmentally-sustainable-manufacturing/http://www.industrialtechnologies2014.eu/session/10-nanotechnology-scientific-advances-and-how-they-change-our-world-and-daily-life-n/http://www.industrialtechnologies2014.eu/session/10-nanotechnology-scientific-advances-and-how-they-change-our-world-and-daily-life-n/http://www.industrialtechnologies2014.eu/session/10-nanotechnology-scientific-advances-and-how-they-change-our-world-and-daily-life-n/http://www.industrialtechnologies2014.eu/session/10-nanotechnology-scientific-advances-and-how-they-change-our-world-and-daily-life-n/http://www.industrialtechnologies2014.eu/session/10-nanotechnology-scientific-advances-and-how-they-change-our-world-and-daily-life-n/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/from-a-research-idea-to-a-finished-product-how-do-entrepreneurs-succeed-c/http://www.industrialtechnologies2014.eu/session/ws2-title/http://www.industrialtechnologies2014.eu/session/7-advanced-processes-for-efficient-high-quality-and-agile-manufacturing-p/http://www.industrialtechnologies2014.eu/session/7-advanced-processes-for-efficient-high-quality-and-agile-manufacturing-p/http://www.industrialtechnologies2014.eu/session/7-advanced-processes-for-efficient-high-quality-and-agile-manufacturing-p/http://www.industrialtechnologies2014.eu/session/7-advanced-processes-for-efficient-high-quality-and-agile-manufacturing-p/http://www.industrialtechnologies2014.eu/session/8-advance-materials-and-technologies-for-a-more-effective-healthcare-n/http://www.industrialtechnologies2014.eu/session/8-advance-materials-and-technologies-for-a-more-effective-healthcare-n/http://www.industrialtechnologies2014.eu/session/8-advance-materials-and-technologies-for-a-more-effective-healthcare-n/http://www.industrialtechnologies2014.eu/session/8-advance-materials-and-technologies-for-a-more-effective-healthcare-n/http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/ws3-title/

opportunities for

European industry

18:30 pm

Welcome Reception at Megaron, IndustryTech Exhibition open

In addition, the posters will be displayed in Megaron for the whole conference day duration.

The Greek Showcase and the FutureFlash! innovation showcase will take place at the exhibition area.

Day 2: April 10th

Time Alexandra Trianti Hall Nikos Skalkotas Hall Hall MC 2 Hall MC 3 Muses Foyer

9:00 AM

PLENARY 2: New

technologies impacting

everyday life

IndustryTech

Exhibition

10:30 AM

Coffee Break

11:15 AM

Session 12:

Competence-building,

education and skills for

industrial competitiveness

Session 2: Low-carbon

energy enabling

sustainable production

and technology

leadership across Europe

Session 11: Integration

of industrial and materials

research communities

along the value chains:

the innovation way to

future sustainable

products

Session 17: The smart

manufacturing systems of

the future: flexible,

adaptive and safe

IndustryTech

Exhibition

12:45 PM

Lunch Break

14:15 pm

Session 15: Innovation

and up-scaling: From

clusters to demonstrators

and pilot lines

Session 16: Safety of

advanced materials and

processes

Session 13: Innovative

technologies for energy

efficient buildings

Session 14: Advanced

technologies for cleaner

transport lightweight

and low emission

IndustryTech

Exhibition

15:45 Coffee Break

http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/9-ensuring-availability-and-security-of-water-and-food-supplies-m/http://www.industrialtechnologies2014.eu/session/12-competence-building-education-and-skills-for-industrial-competitiveness-c/http://www.industrialtechnologies2014.eu/session/12-competence-building-education-and-skills-for-industrial-competitiveness-c/http://www.industrialtechnologies2014.eu/session/12-competence-building-education-and-skills-for-industrial-competitiveness-c/http://www.industrialtechnologies2014.eu/session/12-competence-building-education-and-skills-for-industrial-competitiveness-c/http://www.industrialtechnologies2014.eu/session/2-secure-clean-and-efficient-energy-generation-storage-and-distribution/http://www.industrialtechnologies2014.eu/session/2-secure-clean-and-efficient-energy-generation-storage-and-distribution/http://www.industrialtechnologies2014.eu/session/2-secure-clean-and-efficient-energy-generation-storage-and-distribution/http://www.industrialtechnologies2014.eu/session/2-secure-clean-and-efficient-energy-generation-storage-and-distribution/http://www.industrialtechnologies2014.eu/session/2-secure-clean-and-efficient-energy-generation-storage-and-distribution/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/11-natural-resources-and-sustainable-growth-m/http://www.industrialtechnologies2014.eu/session/17-the-smart-manufacturing-systems-of-the-future-flexible-adaptive-and-safe-p/http://www.industrialtechnologies2014.eu/session/17-the-smart-manufacturing-systems-of-the-future-flexible-adaptive-and-safe-p/http://www.industrialtechnologies2014.eu/session/17-the-smart-manufacturing-systems-of-the-future-flexible-adaptive-and-safe-p/http://www.industrialtechnologies2014.eu/session/17-the-smart-manufacturing-systems-of-the-future-flexible-adaptive-and-safe-p/http://www.industrialtechnologies2014.eu/session/15-innovation-and-upscaling-from-clusters-to-demonstrators-and-pilot-lines-c/http://www.industrialtechnologies2014.eu/session/15-innovation-and-upscaling-from-clusters-to-demonstrators-and-pilot-lines-c/http://www.industrialtechnologies2014.eu/session/15-innovation-and-upscaling-from-clusters-to-demonstrators-and-pilot-lines-c/http://www.industrialtechnologies2014.eu/session/15-innovation-and-upscaling-from-clusters-to-demonstrators-and-pilot-lines-c/http://www.industrialtechnologies2014.eu/session/16-safety-of-advanced-materials-and-processes-n/http://www.industrialtechnologies2014.eu/session/16-safety-of-advanced-materials-and-processes-n/http://www.industrialtechnologies2014.eu/session/16-safety-of-advanced-materials-and-processes-n/http://www.industrialtechnologies2014.eu/session/13-innovative-material-technologies-for-energy-efficient-buildings-m/http://www.industrialtechnologies2014.eu/session/13-innovative-material-technologies-for-energy-efficient-buildings-m/http://www.industrialtechnologies2014.eu/session/13-innovative-material-technologies-for-energy-efficient-buildings-m/http://www.industrialtechnologies2014.eu/session/14-advanced-materials-for-cleaner-transport-lightweight-and-low-emission-m/http://www.industrialtechnologies2014.eu/session/14-advanced-materials-for-cleaner-transport-lightweight-and-low-emission-m/http://www.industrialtechnologies2014.eu/session/14-advanced-materials-for-cleaner-transport-lightweight-and-low-emission-m/http://www.industrialtechnologies2014.eu/session/14-advanced-materials-for-cleaner-transport-lightweight-and-low-emission-m/

pm

16:30 pm

PLENARY 3: Improving

Europes competitiveness

through regional

development

IndustryTech

Exhibition

19:00 pm

Busses from Megaron to the Greek Night dinner at Piraeus


The Greek Showcase and the FutureFlash! innovation showcase will take place at the exhibition area.

Day 3: April 11th

Time Alexandra

Trianti

Hall

Nikos

Skalkotas

Hall Hall MC 2 Hall MC 3

Hall MC

3.2 Hall MC

3.3 Hall MC

3.4 Hall MC

3.5 Crowne

Plaza 2 Crowne

Plaza 3

Muses

Foyer

9:00 AM

PLENARY

4: Horizon

2020, NMP

and

Regional

Funds

Research

Strategies

IndustryTe

ch

Exhibition

11:00 AM

Coffee Break

11:30 AM

Industrial

Technologie

s for

Schools

WS5: Smart

Specialisati

on

WS6:

Factories of

the Future:

Capitalising

on Results

WS7:

Innovation

Business

WS12: Self

assembly &

Nanocompo

sites

WS13: Raw

Materials

WS14:

Nano-

science in

the

Southeaster

n Europe

WS15:

Simulation /

Forecasting

WS20:

NANOREG

WS21:

Materials

Nano

IndustryTe

ch

Exhibition

13:00 PM

Lunch Break

14:00 pm

WS8:

Buildings

WS23:

Additive

manufacturi

ng

impacting

industry

WS10:

Nanomedici

ne

WS11:

From Mass

Production

to

Customisati

on and

Personalisa

tion: The

New Era of

Manufacturi

ng

WS16:

Graphene

WS17:

Multiscale

Modelling

WS22:

Advanced

Materials &

Nanotechno

logy for

Energy:

KETs

challenges

in

Photovoltaic

s

WS19:

Energy

Consuming

Industries

IndustryTe

ch

Exhibition

14:30 pm

IndustryTech exhibition closes

16:00 pm

Industrial Technologies 2014 ends


The Greek Showcase and the FutureFlash! innovation showcase will take place at the exhibition area during its opening.

http://www.industrialtechnologies2014.eu/session/ws4title/http://www.industrialtechnologies2014.eu/session/ws4title/http://www.industrialtechnologies2014.eu/session/ws4title/http://www.industrialtechnologies2014.eu/session/ws4title/http://www.industrialtechnologies2014.eu/session/ws5-title/http://www.industrialtechnologies2014.eu/session/ws5-title/http://www.industrialtechnologies2014.eu/session/ws5-title/http://www.industrialtechnologies2014.eu/session/ws6-title/http://www.industrialtechnologies2014.eu/session/ws6-title/http://www.industrialtechnologies2014.eu/session/ws6-title/http://www.industrialtechnologies2014.eu/session/ws6-title/http://www.industrialtechnologies2014.eu/session/ws6-title/http://www.industrialtechnologies2014.eu/session/ws7-title/http://www.industrialtechnologies2014.eu/session/ws7-title/http://www.industrialtechnologies2014.eu/session/ws7-title/http://www.industrialtechnologies2014.eu/session/ws12-self-assembly-nanocomposites/http://www.industrialtechnologies2014.eu/session/ws12-self-assembly-nanocomposites/http://www.industrialtechnologies2014.eu/session/ws12-self-assembly-nanocomposites/http://www.industrialtechnologies2014.eu/session/ws12-self-assembly-nanocomposites/http://www.industrialtechnologies2014.eu/session/ws13-raw-materials/http://www.industrialtechnologies2014.eu/session/ws13-raw-materials/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws14-nano-science-in-the-southeastern-europe/http://www.industrialtechnologies2014.eu/session/ws15-simulation-forecasting/http://www.industrialtechnologies2014.eu/session/ws15-simulation-forecasting/http://www.industrialtechnologies2014.eu/session/ws15-simulation-forecasting/http://www.industrialtechnologies2014.eu/session/ws20-nanoreg/http://www.industrialtechnologies2014.eu/session/ws20-nanoreg/http://www.industrialtechnologies2014.eu/session/ws21-materials-nano/http://www.industrialtechnologies2014.eu/session/ws21-materials-nano/http://www.industrialtechnologies2014.eu/session/ws21-materials-nano/http://www.industrialtechnologies2014.eu/session/ws8-title/http://www.industrialtechnologies2014.eu/session/ws8-title/http://www.industrialtechnologies2014.eu/session/ws10-title/http://www.industrialtechnologies2014.eu/session/ws10-title/http://www.industrialtechnologies2014.eu/session/ws10-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws11-title/http://www.industrialtechnologies2014.eu/session/ws16-buildings/http://www.industrialtechnologies2014.eu/session/ws16-buildings/http://www.industrialtechnologies2014.eu/session/ws17-multiscale-modelling/http://www.industrialtechnologies2014.eu/session/ws17-multiscale-modelling/http://www.industrialtechnologies2014.eu/session/ws17-multiscale-modelling/http://www.industrialtechnologies2014.eu/session/ws19-energy-consuming-industries/http://www.industrialtechnologies2014.eu/session/ws19-energy-consuming-industries/http://www.industrialtechnologies2014.eu/session/ws19-energy-consuming-industries/http://www.industrialtechnologies2014.eu/session/ws19-energy-consuming-industries/

ITProTech IT PRODUCTION TECHNOLOGY FOR

CUSTOM GARMENT

Page 1 of 1

Agenda

ITProTech Working meeting Soultz, 10th June 2014

TELMAT 10th June 2014

9:30 15 Welcome address, roll call of participants, meetings objectives INCDTP

9:45 15 Brief presentation of the ITProtech project INCDTP

10:00 15 Brief presentation of the background of TELMAT partner TELMAT

10:15 15 Brief presentation of the background of INCDTP partner INCDTP

10:30 15 Brief presentation of the background of DAVO partner INCDTP

for DAVO

10:45 15 Brief presentation of the background of DIAMAN ART partner INCDTP

for DIAMAN

11:00 15 Coffee break

11:15 15 Workpackages overview Introduction of WP1 by WP leader (DAVO), followed by discussion

INCDTP for DAVO

11:30 15 Introduction of WP2 by WP leader (INCDTP), followed by discussion INCDTP

11.45 15 Introduction of WP3 by WP leader (TELMAT), followed by discussion TELMAT

12.00 20 Next actions (reporting), conclusions and end of the meeting All

12:20 60 Lunch

13:20 60 Visit at TELMAT premises All

Start Timing Subject Moderator / Speakers

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ITProtech meeting Soultz, 10 June 2014

Subject: MINUTES OF THE MEETING & next steps

Author: INCDTP

Status: Final

Update: 25 June 2014


10th June 2014 TELMAT offices in Soultz

Participants: Gilbert DUDKIEWICZ (TELMAT Industrie), Jean-Loup RENNESSON (TELMAT Industrie), Pascal KEITER (TELMAT Industrie), Sabina OLARU (INCDTP), Georgeta Popescu (INCDTP).

9.30 Welcome address, roll call of participants, meeting objectives Mr. Gilbert Dudkiewicz opened the meeting welcoming all participants in France and in Soultz office, Mrs. Sabina Olaru thanks the host for warm hospitality and assistance provided and then she briefly presented the activities conducted by the Romanian partners. She focused on two major challenges, namely 1) Combine the efforts to develop the technology platform and 2) ITProTech to deliver results to companies and clients over the next 12 months (ref. enclosed presentations).

9.45 - Brief presentation of the ITProtech project

Mrs. Sabina Olaru presented the overall ITProTech approach including the financing programme, contract number, project starting data, project ending data, partners, general objective, novelty elements and expected exploitable results.

10.00 - Brief presentation of the background of TELMAT partner

Mr. Jean-Loup Rennesson presented the organisation providing insights on the own competences and features as well as summarising the interests and expectations from the ITProTech project. TELMAT has four areas of activity: Telecom, Internet security, Integration of IT systems and 3D Vision (including 3D Body Scanning technologies).

10.15 - Brief presentation of the background of INCDTP partner

Mrs. Sabina Olaru presented INCDTP as the only institute which has expertise and R&D facilities in the field of textiles, clothing and leather processing. INCDTP has a 60 years tradition. She also presented the textile-clothing and leather-footwear industry that employs an important share of labor force 218.350 employees in 2011 (textiles, clothing, leather, footwear), which represents around 20% of total employees, gathers 1499 companies in textiles, 4480 in clothing and 1572 in leather-footwear, contributes


with 3,39% in gross domestic product (GDP). There are 4 clusters in this field in Romania, the institute is member of all of them. There were presented ongoing project that the INCDTP is implementing in different fields of research. 10.30 - Brief presentation of the background of DAVO partner Mrs. Sabina Olaru presented DAVO STAR IMPEX SRL, a family-run enterprise whose main activity is offering integrated services for the clothing industry to world-wide spread companies activating in this specific field. As a proof of its constant i

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