![activate lectra modaris activate lectra modaris](https://softzone17.com/wp-content/uploads/2021/10/3D-Prototyping.png)
Developers quickly learned that their research could not be undertaken in isolation and that inkjet printing for textiles required an integrated systems approach. When our industry first began its exploration of digital printing for textiles, development was required in diverse areas of specialty including hardware, software, and ink chemistry. It is apparent that currently available technology and systems are the result of ongoing research and development efforts. Maguire King, in Digital Printing of Textiles, 2006 18.2.2 Technology development and integration These customised garments can be inserted into normal production lines as an additional ‘size’ and produced like every other garment of the same style. CAD alteration systems will enable the creation of garments, customised for fit, very quickly and accurately.
![activate lectra modaris activate lectra modaris](http://signheavenly.weebly.com/uploads/1/2/3/9/123935027/103648106.jpg)
Developments in information technology have increased the probability of mass customisation (defined as the mass production of customised goods by Davis 44) being adopted as an acceptable business strategy. The mass production strategies of the past decades have categorised whole populations by a relatively small number of sizing systems which have made it virtually impossible to meet the needs of those individuals who have special fitting requirements.
![activate lectra modaris activate lectra modaris](https://www.lectra.com/sites/default/files/styles/769x565/public/2019-04/modaris-and-quick-estimate-cover.jpg)
These preparatory activities are laborious in the beginning, but ultimately allow the automatic alteration of existing garment patterns 43. Although each system has a different interface to the others, the basic underlying theory is the same. Most apparel CAD systems (Gerber Technologies, Lectra Systems, Investronica, Assyst, PAD and Optitex) have several preparatory activities in common which will allow automatic pattern alterations based on individual measurements. Although CAD systems cannot learn by experience, once the heuristics have been developed within a CAD system, it can process the information and perform the functions more rapidly, accurately and consistently than the most experienced pattern marker. Nevertheless, computer systems do not have the ‘experience’ or background knowledge which experienced pattern markers have to accomplish rapid alterations. Kwong, in Clothing Appearance and Fit, 2004 10.2.6 Pattern alteration using computer-aided design (CAD) programsĮxperienced pattern markers have developed a set of heuristics that enable them to make pattern changes rapidly.
#Activate lectra modaris pdf#
Select the required model or piece as explained in Section 5.2 and when sent to plot it will be converted to a PDF file. In the Activity management field (see Fig. This particular conversion takes place in JustPrint, see Chapter 5, Section 5.4.2.
![activate lectra modaris activate lectra modaris](https://cdn.slidesharecdn.com/ss_thumbnails/prf3-201026221531-thumbnail-4.jpg)
PDF files (portable document format) are useful for attaching to an email as a small scale illustration of a pattern or piece to send to someone who doesn't use specialist pattern-making software, but may need to see the pattern shape such as a Garment Technologist. Designers can use this for developing prints or placement embellishments.
#Activate lectra modaris full#
They become an illustration rather than a pattern but can be kept to true full scale. For example, it can be amended, graded and used in a layplanning program.ĭXF files can be opened in illustration programs, in which case they are for the outline shape only, and no further work can be carried out on the pattern. Once converted and imported by another system, the model can be used exactly as in the Lectra system. Stott, in Pattern Cutting for Clothing Using CAD, 2012 10.1.1 File typesĪAMA is a DXF type file that retains the complexity of the whole pattern. Modaris 3D Fit can also provide a tension map. Virtual 3D prototyping ensures the quality of a garment and its look and fit in all graded sizes, reduces the number of physical prototypes necessary to finalize a model, and makes communication more fluid among the actors in product development (, 2008, June 12). With Modaris 3D Fit, the look and fit of a garment can be verified, and its style and that of entire collections can be validated. Lectra’s virtual 3D prototyping solution, Modaris 3D Fit, enables patternmakers, designers, developers, and sales and marketing teams to simulate and visualize their models in 3D on a virtual mannequin, including the colors, motifs, and fabrics originally created in 2D. Lim, in Computer Technology for Textiles and Apparel, 2011 14.7.3 Lectra Systems, Incįounded in 1973, Lectra Systems, Inc., one of the leading CAD/CAM suppliers to the apparel industry, provides made-to-measure solutions that offer a wide range of pattern, color, fabric, and fit ( Lectra Systems, 2008).