The Experts below are selected from a list of 2991 Experts worldwide ranked by ideXlab platform
Daisy Veitch - One of the best experts on this subject based on the ideXlab platform.
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Where is the human waist? Definitions, manual compared to scanner measurements
Work, 2012Co-Authors: Daisy VeitchAbstract:Abstract. Where exactly is the human waist? How do definitions work for women who deviate from the conventional body shape? Does the measuring instrument matter? Waist is conventionally understood to be a measurable zone within the abdominal region of the torso, a zone of considerable importance. There needs to be a good consistent waist definition, one accurate and valid for everyone. Incorrect definition and measurement will result in technical errors, commercial wastage and customer dissatisfaction. This paper investigates the waist’s location and size from the point of view of Garment Construction for 90 adult women scanned and manually measured in a breast reduction study at Flinders Medical Center, South Australia. There are differing definitions of the location of the human waist as well as different measuring instruments. This study com-pares: Two definitions: ISO 8559, 2.1.11 and CAESAR, Waist Circumference Preferred. Two different instruments: the traditional tape measure, and software-extracted computer-aided anthropometry (CAA). Substantial discrepancies between the results from these two locations-definitions were found. The choice of instrument used seriously affects the measurement obtained. This study demonstrates three things: waist is not horizontal for a significant sub group of the population, CAA extracted waist measurements are not accurate (same as real values) or valid (measures the characte-ristic) for a sub group, and manually measured CAESAR Preferred Waist accurately and validly measured all individuals studied. There is a clear need to modify ISO waist definition for Garment Construction to include the full range of anatomical variation encountered amongst women. Keywords: ISO 8559, waist, body scanning, computer-aided anthropometry, Garment Construction
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Where is the human waist? Definitions, manual compared toscanner measurements.
Work (Reading Mass.), 2012Co-Authors: Daisy VeitchAbstract:Where exactly is the human waist? How do definitions work for women who deviate from the conventional body shape? Does the measuring instrument matter? Waist is conventionally understood to be a measurable zone within the abdominal region of the torso, a zone of considerable importance. There needs to be a good consistent waist definition, one accurate and valid for everyone. Incorrect definition and measurement will result in technical errors, commercial wastage and customer dissatisfaction. This paper investigates the waist's location and size from the point of view of Garment Construction for 90 adult women scanned and manually measured in a breast reduction study at Flinders Medical Center, South Australia. There are differing definitions of the location of the human waist as well as different measuring instruments. This study compares:• Two definitions:• ISO 8559, 2.1.11 and • CAESAR, Waist Circumference Preferred.• Two different instruments:• the traditional tape measure, and • software-extracted computer-aided anthropometry (CAA). Substantial discrepancies between the results from these two locations-definitions were found. The choice of instrument used seriously affects the measurement obtained. This study demonstrates three things:• waist is not horizontal for a significant sub group of the population,• CAA extracted waist measurements are not accurate (same as real values) or valid (measures the characteristic) for a sub group, and • manually measured CAESAR Preferred Waist accurately and validly measured all individuals studied. There is a clear need to modify ISO waist definition for Garment Construction to include the full range of anatomical variation encountered amongst women.
Dubravko Rogale - One of the best experts on this subject based on the ideXlab platform.
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technics of Garment Construction and modelling third amended and expanded edition
2010Co-Authors: Darko Ujevic, Dubravko Rogale, Marijan HrastinskiAbstract:Sveucilisni udžbenik napisan je s ciljem da se na sveobuhvatni sustavni nacin predstave razne tehnike konstruiranja, modeliranja i gradiranja (povecavanja i umanjivanja) odjece. Dat je uvod u konstrukciju i modeliranje odjece, elemente konstrukcijske pripreme, znacajke anatomske građe covjecjeg tijela, beskontaktno racunalno utvrđivanje tjelesnih mjera, racunalnu konstrukciju odjece, kao i konstrukciju i modeliranje ženske, muske i djecje odjece. Prikazane su i opisane tehnike i metode gradiranja (povecavanja i smanjivanja) muske, ženske i djecje odjece. Prikazan je utjecaj razvoja tehnike konstruiranja i modeliranja odjevnih predmeta na pojavu inteligentnih procesa proizvodnje i prodaje odjece. Opisana je automatizirana maloprodaja, globalna prodaja, kupovanje iz kuce, globalna proizvodnja, satelitske tvornice, racunalno simulirana odjeca i ljudski lik, virtualno okruženje, inteligentni tkalacki i sivaci strojevi, objektivno vrednovanje tekstilnih plosnih tvorevina, geneticki inženjering u tekstilu, estetsko oblikovanje tekstilnih tvorevina, odjeca po mjeri, te izrada, vrste i stupanj iskoristenja krojnih slika. U dodatku se nalaze tumac oznaka i simbola, mjere za žensku odjecu, grudnjake, musku odjecu, djevojcice i djecake.
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Computer-Aided Garment Construction Based On 3d Body Models Of Different Anthropometric Properties
2009Co-Authors: Slavenka Petrak, Dubravko Rogale, Irena ŠabarićAbstract:The paper describes a computer-aided Construction of Garment basic cut for defined types of the female body. An analysis of the variations of the Construction cut for an individual body type from the basic cut made according to rules of conventional Construction was performed. Initially, a 3D scanner was used to record a selected pattern of the female population of various figures and statures or body types. A comprehensive analysis of computer-aided body models was made, and characteristic body measurements needed for computer-aided Garment Construction were found. An investigation of the proportionality of individual body parts and variations from normal proportions was conducted. By intersecting the model by means of planes curves of characteristic body cross sections were found that additionally indicate the need for the customization of an individual cutting part. The definition of Construction properties, which are relevant for Garment fit and body-dependent, create prerequisites for determining characteristic measuring points and lines on 3D body model in which an customization of the cut for the selected body type is made. Based on all relevant parameters found a computer-aided Construction of basic cuts of the selected Garment was made to define types of female body. In this way prerequisites for the Construction and modeling of a Garment collection adapted to a certain body type were created. Computer graphic stations for the Construction preparation of the clothing industry were used and high quality and fit of the cut were achieved.
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computer based 3d Garment Construction
1. ZNANSTVENO-STRUČNO SAVJETOVANJE TEKSTILNA ZNANOST I GOSPODARSTVO, 2007Co-Authors: Slavenka Petrak, Dubravko RogaleAbstract:U radu je dat prikaz razvoja metode racunalne 3D konstrukcije temeljnog kroja odjevnog predmeta na racunalnom modelu tijela, a bez uporabe parametara materijala. Koncepcija metode temelji se na osam slijedno povezanih zahvata obrade, koji ukljucuju pocetnu analizu tijela modela, konstrukciju mreže pomocnih linija i povrsina, konstrukciju i oblikovanje 3D krivulja koje definiraju konture polovine 3D kroja odjevnog predmeta, zatim konstrukciju i modeliranje pomocnih 3D krivulja, izvođenje cjelovite mreže krivulja za formiranje 3D povrsina odjevnog predmeta, te zavrsno automatsko racunalno generiranje povrsinskog modela koji simulira 3D kroj odjevnog predmeta, uz izvođenje vizualizacije. Dodatno je izvedeno i razdvajanje povrsina prednjeg i stražnjeg dijela 3D kroja na pojedinacne 3D krojne dijelove, kao priprema za kasniju transformaciju 3D kroja u 2D kroj. The paper describes the development of the method for the 3D Construction of a basic Garment cut on a computer body model without using material parameters. The method concept is based on eight sequentially related processing interventions including the initial analysis of model body, the grid Construction of ancillary lines and surfaces, the Construction and creation of 3D curves defining contours of one half of the 3D Garment cut, followed by the Construction and modeling of ancillary 3D curves, the creation of an entire curves grid to generate 3D surfaces of a Garment and the final automatic computer based generation of a surface model simulating 3D cut of a Garment with visualization. Additionally, the surfaces of the frontal and back part of the 3D cut were created and separated into individual 3D cutting parts in preparation for the subsequent transformation of a 3D cut into a 2D cut.
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Systematic representation and application of a 3D computer‐aided Garment Construction method: Part II: spatial transformation of 3D Garment cut segments
International Journal of Clothing Science and Technology, 2006Co-Authors: Slavenka Petrak, Dubravko Rogale, Vinko Mandekić-botteriAbstract:Purpose – To establish a method of transforming the 3D cutting patterns constructed and modelled into 2D patterns, excluding the fabric parameters. Design/methodology/approach – Three methods have been developed for transforming 3D cutting part segments into 2D segments. They are based on the computer‐based application of the mathematical models developed. The mathematical models differ in their concepts and the application in a particular manner of transforming the 3D segments. Complex spatial matrix transformations have also been developed and used to further transform the 2D segments into the plane of chained 2D cutting pattern segments. Findings – Two‐dimensional cutting patterns have been defined for the 3D Garment model, initially constructed on a computer‐generated body model. Research limitations/implications – The method has been developed on an example of a 3D Garment basic cut Construction of a single article of clothing. However, the same principles can be applied and developed for any Garment basic cut. Practical implications – The mathematical models developed can be used in a new computer‐based application for the 3D Garment Construction and the development of the 2D cutting patterns, matched to individual physical characteristics. Originality/value – The most outstanding property of the method developed is the possibility of gradual transformation of 3D cuts into 2D ones, with no need to define physical‐mechanical properties of the fabric used and no need to introduce fabric drape. The newly created 2D cutting patterns are of outstanding quality and preciseness.
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systematic representation and application of a 3d computer aided Garment Construction method part ii spatial transformation of 3d Garment cut segments
International Journal of Clothing Science and Technology, 2006Co-Authors: Slavenka Petrak, Dubravko Rogale, Vinko MandekicbotteriAbstract:Purpose – To establish a method of transforming the 3D cutting patterns constructed and modelled into 2D patterns, excluding the fabric parameters. Design/methodology/approach – Three methods have been developed for transforming 3D cutting part segments into 2D segments. They are based on the computer‐based application of the mathematical models developed. The mathematical models differ in their concepts and the application in a particular manner of transforming the 3D segments. Complex spatial matrix transformations have also been developed and used to further transform the 2D segments into the plane of chained 2D cutting pattern segments. Findings – Two‐dimensional cutting patterns have been defined for the 3D Garment model, initially constructed on a computer‐generated body model. Research limitations/implications – The method has been developed on an example of a 3D Garment basic cut Construction of a single article of clothing. However, the same principles can be applied and developed for any Garment basic cut. Practical implications – The mathematical models developed can be used in a new computer‐based application for the 3D Garment Construction and the development of the 2D cutting patterns, matched to individual physical characteristics. Originality/value – The most outstanding property of the method developed is the possibility of gradual transformation of 3D cuts into 2D ones, with no need to define physical‐mechanical properties of the fabric used and no need to introduce fabric drape. The newly created 2D cutting patterns are of outstanding quality and preciseness.
Slavenka Petrak - One of the best experts on this subject based on the ideXlab platform.
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Analysis of Surface Segments Deviations Between Different Female Body Types Based on 3D Flattening Method
Advances in Simulation and Digital Human Modeling, 2020Co-Authors: Maja Mahnić Naglić, Slavenka PetrakAbstract:This paper presents research of female body characteristics using modern computer technology with specific application of research results in clothing engineering design and customization process. Based on anthropometric survey conducted on Croatian female population, different female body types and morphology parameters that determine affiliation to a particular type were defined. Survey was conducted using 3D scanning method, in static and dynamic body positions to gain an insight of body surface deformability in motion, important for providing high level of Garment fit. Using 3D flattening method, both scanned and parametric body models, customized according to particular body types, were separated into the discrete 2D surfaces determined by anatomical planes and characteristic bodily lines. Discrete body surfaces were analyzed in terms of contour shape and surface values, and differences in obtained parameters between different body types were determined. Contour shapes of flattened body segments were analyzed and compared with the standard Garment Construction and grading methodology.
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Computer-Aided Garment Construction Based On 3d Body Models Of Different Anthropometric Properties
2009Co-Authors: Slavenka Petrak, Dubravko Rogale, Irena ŠabarićAbstract:The paper describes a computer-aided Construction of Garment basic cut for defined types of the female body. An analysis of the variations of the Construction cut for an individual body type from the basic cut made according to rules of conventional Construction was performed. Initially, a 3D scanner was used to record a selected pattern of the female population of various figures and statures or body types. A comprehensive analysis of computer-aided body models was made, and characteristic body measurements needed for computer-aided Garment Construction were found. An investigation of the proportionality of individual body parts and variations from normal proportions was conducted. By intersecting the model by means of planes curves of characteristic body cross sections were found that additionally indicate the need for the customization of an individual cutting part. The definition of Construction properties, which are relevant for Garment fit and body-dependent, create prerequisites for determining characteristic measuring points and lines on 3D body model in which an customization of the cut for the selected body type is made. Based on all relevant parameters found a computer-aided Construction of basic cuts of the selected Garment was made to define types of female body. In this way prerequisites for the Construction and modeling of a Garment collection adapted to a certain body type were created. Computer graphic stations for the Construction preparation of the clothing industry were used and high quality and fit of the cut were achieved.
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computer based 3d Garment Construction
1. ZNANSTVENO-STRUČNO SAVJETOVANJE TEKSTILNA ZNANOST I GOSPODARSTVO, 2007Co-Authors: Slavenka Petrak, Dubravko RogaleAbstract:U radu je dat prikaz razvoja metode racunalne 3D konstrukcije temeljnog kroja odjevnog predmeta na racunalnom modelu tijela, a bez uporabe parametara materijala. Koncepcija metode temelji se na osam slijedno povezanih zahvata obrade, koji ukljucuju pocetnu analizu tijela modela, konstrukciju mreže pomocnih linija i povrsina, konstrukciju i oblikovanje 3D krivulja koje definiraju konture polovine 3D kroja odjevnog predmeta, zatim konstrukciju i modeliranje pomocnih 3D krivulja, izvođenje cjelovite mreže krivulja za formiranje 3D povrsina odjevnog predmeta, te zavrsno automatsko racunalno generiranje povrsinskog modela koji simulira 3D kroj odjevnog predmeta, uz izvođenje vizualizacije. Dodatno je izvedeno i razdvajanje povrsina prednjeg i stražnjeg dijela 3D kroja na pojedinacne 3D krojne dijelove, kao priprema za kasniju transformaciju 3D kroja u 2D kroj. The paper describes the development of the method for the 3D Construction of a basic Garment cut on a computer body model without using material parameters. The method concept is based on eight sequentially related processing interventions including the initial analysis of model body, the grid Construction of ancillary lines and surfaces, the Construction and creation of 3D curves defining contours of one half of the 3D Garment cut, followed by the Construction and modeling of ancillary 3D curves, the creation of an entire curves grid to generate 3D surfaces of a Garment and the final automatic computer based generation of a surface model simulating 3D cut of a Garment with visualization. Additionally, the surfaces of the frontal and back part of the 3D cut were created and separated into individual 3D cutting parts in preparation for the subsequent transformation of a 3D cut into a 2D cut.
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Systematic representation and application of a 3D computer‐aided Garment Construction method: Part II: spatial transformation of 3D Garment cut segments
International Journal of Clothing Science and Technology, 2006Co-Authors: Slavenka Petrak, Dubravko Rogale, Vinko Mandekić-botteriAbstract:Purpose – To establish a method of transforming the 3D cutting patterns constructed and modelled into 2D patterns, excluding the fabric parameters. Design/methodology/approach – Three methods have been developed for transforming 3D cutting part segments into 2D segments. They are based on the computer‐based application of the mathematical models developed. The mathematical models differ in their concepts and the application in a particular manner of transforming the 3D segments. Complex spatial matrix transformations have also been developed and used to further transform the 2D segments into the plane of chained 2D cutting pattern segments. Findings – Two‐dimensional cutting patterns have been defined for the 3D Garment model, initially constructed on a computer‐generated body model. Research limitations/implications – The method has been developed on an example of a 3D Garment basic cut Construction of a single article of clothing. However, the same principles can be applied and developed for any Garment basic cut. Practical implications – The mathematical models developed can be used in a new computer‐based application for the 3D Garment Construction and the development of the 2D cutting patterns, matched to individual physical characteristics. Originality/value – The most outstanding property of the method developed is the possibility of gradual transformation of 3D cuts into 2D ones, with no need to define physical‐mechanical properties of the fabric used and no need to introduce fabric drape. The newly created 2D cutting patterns are of outstanding quality and preciseness.
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systematic representation and application of a 3d computer aided Garment Construction method part ii spatial transformation of 3d Garment cut segments
International Journal of Clothing Science and Technology, 2006Co-Authors: Slavenka Petrak, Dubravko Rogale, Vinko MandekicbotteriAbstract:Purpose – To establish a method of transforming the 3D cutting patterns constructed and modelled into 2D patterns, excluding the fabric parameters. Design/methodology/approach – Three methods have been developed for transforming 3D cutting part segments into 2D segments. They are based on the computer‐based application of the mathematical models developed. The mathematical models differ in their concepts and the application in a particular manner of transforming the 3D segments. Complex spatial matrix transformations have also been developed and used to further transform the 2D segments into the plane of chained 2D cutting pattern segments. Findings – Two‐dimensional cutting patterns have been defined for the 3D Garment model, initially constructed on a computer‐generated body model. Research limitations/implications – The method has been developed on an example of a 3D Garment basic cut Construction of a single article of clothing. However, the same principles can be applied and developed for any Garment basic cut. Practical implications – The mathematical models developed can be used in a new computer‐based application for the 3D Garment Construction and the development of the 2D cutting patterns, matched to individual physical characteristics. Originality/value – The most outstanding property of the method developed is the possibility of gradual transformation of 3D cuts into 2D ones, with no need to define physical‐mechanical properties of the fabric used and no need to introduce fabric drape. The newly created 2D cutting patterns are of outstanding quality and preciseness.
An Liang - One of the best experts on this subject based on the ideXlab platform.
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effect of bonding and washing on electronic textile stretch sensor properties
International Symposium on Wearable Computers, 2019Co-Authors: An Liang, Rebecca J Stewart, Rachel Freire, Nick BryankinnsAbstract:Knit e-textile sensors can be used to detect stretch or strain, and when integrated directly into wearable Garments, they can be used to detect movement of the human body. However, before they can reliably be used in real-world applications, the Garment Construction technique and the effects of wear due to washing need to be considered. This paper presents a study examining how thermal bonding and washing affects piezo-resistive textile sensors. Three textile strain sensors are considered all using Technik-tex P130B as the conductive material: i) conductive fabric only, ii) conductive fabric bonded to on one side to Eurojersey fabric, and iii) conductive fabric with Eurojersey bonded on top and bottom of the conductive fabric. The sensors' performance is evaluated using a tensile tester while monitoring their electrical resistance before and after washing. The findings show that a single layer of bonding is the ideal Construction and that after three wash cycles the sensor remains reliable.
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UbiComp/ISWC Adjunct - Effect of bonding and washing on electronic textile stretch sensor properties
Proceedings of the 2019 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2019 ACM International Symposi, 2019Co-Authors: An Liang, Rebecca J Stewart, Rachel Freire, Nick Bryan-kinnsAbstract:Knit e-textile sensors can be used to detect stretch or strain, and when integrated directly into wearable Garments, they can be used to detect movement of the human body. However, before they can reliably be used in real-world applications, the Garment Construction technique and the effects of wear due to washing need to be considered. This paper presents a study examining how thermal bonding and washing affects piezo-resistive textile sensors. Three textile strain sensors are considered all using Technik-tex P130B as the conductive material: i) conductive fabric only, ii) conductive fabric bonded to on one side to Eurojersey fabric, and iii) conductive fabric with Eurojersey bonded on top and bottom of the conductive fabric. The sensors' performance is evaluated using a tensile tester while monitoring their electrical resistance before and after washing. The findings show that a single layer of bonding is the ideal Construction and that after three wash cycles the sensor remains reliable.
Marijan Hrastinski - One of the best experts on this subject based on the ideXlab platform.
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technics of Garment Construction and modelling third amended and expanded edition
2010Co-Authors: Darko Ujevic, Dubravko Rogale, Marijan HrastinskiAbstract:Sveucilisni udžbenik napisan je s ciljem da se na sveobuhvatni sustavni nacin predstave razne tehnike konstruiranja, modeliranja i gradiranja (povecavanja i umanjivanja) odjece. Dat je uvod u konstrukciju i modeliranje odjece, elemente konstrukcijske pripreme, znacajke anatomske građe covjecjeg tijela, beskontaktno racunalno utvrđivanje tjelesnih mjera, racunalnu konstrukciju odjece, kao i konstrukciju i modeliranje ženske, muske i djecje odjece. Prikazane su i opisane tehnike i metode gradiranja (povecavanja i smanjivanja) muske, ženske i djecje odjece. Prikazan je utjecaj razvoja tehnike konstruiranja i modeliranja odjevnih predmeta na pojavu inteligentnih procesa proizvodnje i prodaje odjece. Opisana je automatizirana maloprodaja, globalna prodaja, kupovanje iz kuce, globalna proizvodnja, satelitske tvornice, racunalno simulirana odjeca i ljudski lik, virtualno okruženje, inteligentni tkalacki i sivaci strojevi, objektivno vrednovanje tekstilnih plosnih tvorevina, geneticki inženjering u tekstilu, estetsko oblikovanje tekstilnih tvorevina, odjeca po mjeri, te izrada, vrste i stupanj iskoristenja krojnih slika. U dodatku se nalaze tumac oznaka i simbola, mjere za žensku odjecu, grudnjake, musku odjecu, djevojcice i djecake.
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technics of Garment Construction and modelling second edition
2004Co-Authors: Darko Ujevic, Dubravko Rogale, Marijan HrastinskiAbstract:Sveucilisni udžbenik napisan je s ciljem da se na sbeobuhvatni sustavni nacin predstave razne tehnike konstruiranja i modeliranja odjece. Dat je uvod u konstrukciju i modeliranje odjece, elementi konstrukcijske pripreme, znacajke anatomske građe covjecjeg tijela, beskontaktno racunalno utvrđivanje tjelesnih mjera, racunalna konstruzkcija odjece, kao i konstrukcija i modeliranje ženske, muske i djecje odjece. Prikazan je utjecaj razvoja tehnike konstruiranja i modeliranja odjevnih predmeta na pojavu inteligentnih procesa proizvodnje i prodaje odjece. Opisana je automatizirana maloprodaja, globalna prodaja, kupovanje iz kuce, globalna proizvodnja, satelitske tvornice, racunalno simulirana odjeca i ljudski lik, virtualno okruženje, inteligentni tkalacki i sivaci strojevi, objektivno vrednovanje tekstilnih plosnih tvorevina, geneticki inženjering u tekstilu, estetsko oblikovanje tekstilnih tvorevina, odjeca po mjeri, te izrada, vrste i stupanj iskoristenja krojnih slika. U dodatku se nalaze tumac oznaka i simbola, mjere za žensku odjecu, grudnjake, musku odjecu, djevojcice i djecake.
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technics of Garment Construction and modelling
2000Co-Authors: Darko Ujevic, Dubravko Rogale, Marijan HrastinskiAbstract:Udžbenik je podijeljen u 13 povezanih strukovnih poglavlja. Uvodna poglavlja obrađuju važnije odrednice te znacajke konstrukcije i modeliranja odjece, kao i problematiku sustava te oznacivanja odjevnih velicina muske, ženske i djecje odjece. Zatim su obrađene nove metode beskontaktnog racunalnog utvrđivanja tjelesnih mjera uz primjnu prikaza racunalne simulacije modela ljudskog tijela. Opisane su najvažnije znacajke anatomske građe covjecjeg tijela i priprema krojnih dijelova za racunalnu obradu, zatim konstrukcija i modeliranje karakteristicnih modela ženske gornje odjece, modeliranje ženskog rublja, konstruiranje i modeliranje muske gornje odjece kao i muskog rublja. U nastavku je obrađena konstrukcija i modeliranje djecje i radne odjece te je prikazana konstrukcija odjece iz pletiva. Opisana je i izrada tehnoloske dokumentacije u konstrukcijskoj pripremi odjevne industrije. Na kraju udžbenika opisan je utjecaj razvoja novih tehnika konstruiranja i modeliranja odjevnih predmeta na pojavu inteligentnih procesa proizvodnje i prodaje odjece.
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Garment Construction and modelling
1999Co-Authors: Darko Ujevic, Dubravko Rogale, Marijan HrastinskiAbstract:U knjizi su u 11 poglavlja i pet dodataka obrađene tehnike konstruiranja i modeliranja odjece. U prvom poglavlju nacinjen je uvod u konstrukciju i modeliranje odjece te opisan konstruktorski i modelatorski pribor. U drugom poglavlju opisani su elementi konstrukcijske pripreme, a u trecem anatomske znacajke građe covjecjeg tijela. U cetvrtom poglavlju opisani su racunalni sustavi za racunalnu konstrukciju odjece, konfiguracije, elementi sustava, priprema krojnih dijelova za racunalnu obradu, definiranje modela odjevnog predmeta i metode racunalne izrade krojnih slika. U petom poglavlju je na 24 vrste ženskih odjevnih predmeta gornje odjece opisana konstrukcija i modeliranje krojeva, a u sestom poglavlju konstrukcija i modeliranje ženskog rublja. Konstrukcija muske gornje odjece opisana je na 10 karakteristicnih odjevnih predmeta, a u poglavlju osam konstrukcija i modeliranje muskog rublja. U poglavlju devet obrađena je konstrukcija djecje odjece na devet karakteristicnih predmeta za djevojcice i djecake. Konstrukcija i modeliranje radne odjece opisana je u poglavlju 10 za sedam vrsta radnih odjevnih predmeta,a u poglavlju 11 obrađena je konstrukcija i modeliranje odjece od pletiva. U dijelu Dodataka dati su tumac oznaka i simbola, kao i tjelesne mjere za žensku i musku odjecu te tjelesne mjere za djevojcice i djecake.
