Presentation made for Ing.Franceschi's speech during the first International 3d Body scanning conference held in Lugano.
Cad Modelling Ergonomics was chosen as one of the companies that had relevance and had the opportunity to make a brief presentation of its activity and results
This document provides an overview of computer-aided design (CAD) and computer-aided manufacturing (CAM) tools and software. It defines design and discusses popular design approaches. CAD is defined as using computers to assist in product design, while CAM uses computers to control manufacturing operations. The need for CAD/CAM is explained in terms of increasing productivity, quality, and optimization. Popular CAD software like AutoCAD, CATIA, Pro/ENGINEER, Siemens NX, Solid Edge, and SolidWorks are described. CAM and CAE software such as MasterCAM, DELCAM, EdgeCAM, Work NC, HyperMesh, ANSYS, and SIMULIA are also summarized. The document concludes with the syllabus for
The document provides an introduction to CAD/CAM (computer aided design and computer aided manufacturing). It discusses the need for CAD/CAM due to factors like global competition, demand for new products with enhanced features, and short product life cycles. It also describes developments in computers that have enabled the growth of CAD/CAM technologies. CAD is defined as using computers to assist in the design process, while CAM uses computers to plan and control manufacturing operations. The document outlines the benefits of CAD/CAM including improved productivity, quality, communication and databases of standardized parts.
This document provides a summary of the history and developments in 3D body scanning technologies. It discusses early developments like stereoscopes in the 1830s and photographic techniques to capture human form and motion. It then outlines the major technologies used in modern 3D body scanners like laser scanning, white light scanning, image processing, and millimeter wave radar. Applications discussed include fashion, medical, security, and more. The document concludes with examples of companies providing 3D body scanning solutions.
Three-dimensional body scanning technologies were developed to help the apparel industry more accurately determine consumers' sizes and measurements. Historically, tailors used measuring tapes which could be inaccurate and invasive. 3D scanning works by using lasers, light patterns, or cameras to quickly capture a detailed 3D model of the body. This provides hundreds of precise measurements digitally to help customize clothing fits. The data can also be used for mass customization, where consumers select virtual garments matched to their 3D body scan. 3D scanning has improved clothing fits and is now used widely in the apparel industry.
1. 3D body scanners can capture a person's body shape through scanning and create a 3D model file that can be modified, saved, or 3D printed.
2. Scanners use various technologies like lasers, cameras, and sensors to generate a point cloud of body measurements from which custom garments can be produced.
3. Applications include virtual fashion try-ons for online shopping, custom clothing production, medical uses like prosthetics and orthotics, and more precise anthropometric studies.
The document provides an overview of additive manufacturing (AM), also known as 3D printing. It discusses the evolution of AM from its origins in the 1980s to recent developments. The key differences between AM and conventional CNC machining are described, including differences in the manufacturing process, materials used, precision, speed of production, and versatility. AM builds objects up in layers while CNC machining cuts material away. CNC machining generally allows for more durable, precise parts at larger scales and higher speeds of production than typical AM processes.
This document provides an overview of computer-aided design (CAD) and computer-aided manufacturing (CAM) tools and software. It defines design and discusses popular design approaches. CAD is defined as using computers to assist in product design, while CAM uses computers to control manufacturing operations. The need for CAD/CAM is explained in terms of increasing productivity, quality, and optimization. Popular CAD software like AutoCAD, CATIA, Pro/ENGINEER, Siemens NX, Solid Edge, and SolidWorks are described. CAM and CAE software such as MasterCAM, DELCAM, EdgeCAM, Work NC, HyperMesh, ANSYS, and SIMULIA are also summarized. The document concludes with the syllabus for
The document provides an introduction to CAD/CAM (computer aided design and computer aided manufacturing). It discusses the need for CAD/CAM due to factors like global competition, demand for new products with enhanced features, and short product life cycles. It also describes developments in computers that have enabled the growth of CAD/CAM technologies. CAD is defined as using computers to assist in the design process, while CAM uses computers to plan and control manufacturing operations. The document outlines the benefits of CAD/CAM including improved productivity, quality, communication and databases of standardized parts.
This document provides a summary of the history and developments in 3D body scanning technologies. It discusses early developments like stereoscopes in the 1830s and photographic techniques to capture human form and motion. It then outlines the major technologies used in modern 3D body scanners like laser scanning, white light scanning, image processing, and millimeter wave radar. Applications discussed include fashion, medical, security, and more. The document concludes with examples of companies providing 3D body scanning solutions.
Three-dimensional body scanning technologies were developed to help the apparel industry more accurately determine consumers' sizes and measurements. Historically, tailors used measuring tapes which could be inaccurate and invasive. 3D scanning works by using lasers, light patterns, or cameras to quickly capture a detailed 3D model of the body. This provides hundreds of precise measurements digitally to help customize clothing fits. The data can also be used for mass customization, where consumers select virtual garments matched to their 3D body scan. 3D scanning has improved clothing fits and is now used widely in the apparel industry.
1. 3D body scanners can capture a person's body shape through scanning and create a 3D model file that can be modified, saved, or 3D printed.
2. Scanners use various technologies like lasers, cameras, and sensors to generate a point cloud of body measurements from which custom garments can be produced.
3. Applications include virtual fashion try-ons for online shopping, custom clothing production, medical uses like prosthetics and orthotics, and more precise anthropometric studies.
The document provides an overview of additive manufacturing (AM), also known as 3D printing. It discusses the evolution of AM from its origins in the 1980s to recent developments. The key differences between AM and conventional CNC machining are described, including differences in the manufacturing process, materials used, precision, speed of production, and versatility. AM builds objects up in layers while CNC machining cuts material away. CNC machining generally allows for more durable, precise parts at larger scales and higher speeds of production than typical AM processes.
Presented the 28th October 2015 at the 6th International Conference and Exhibition on body Scanning Technologies 2015, Hometrica Consulting, Lugano, Switzerland.
The access to the 3D representation of people’s body shape has multiple applications to consumer goods which performance is related to human body dimensions or shape. This is the case of wearables such as clothing, footwear, headgear, orthotics, or equipment/environments such as furniture, transports or workstations. Some of the existing and potential applications of 3D human representations include personalisation, virtual try-on or size allocation for wearables or product configuration/adjustment for equipment/environments.
However, the cost of 3D scanners is high; the devices are too bulky for homes and retail stores; and its proper use requires expertise to get the relevant parameters from the 3D object (e.g. measurements). These three barriers are currently hindering the massive spreading of 3D scanners as consumer good or as typical in-store appliance.
This paper describes an array of approaches for realistically estimating human 3D shapes (i.e. full bodies or feet) using a regular smartphone or just entering a set of parameters (e.g. age, gender and self-taken measurements). The proposed approaches are based on data-driven 3D reconstructions, using parameterised shape spaces created from large 3D human body or feet databases. The algorithm finds the combination of shape parameters that best matches either the silhouettes extracted from the images or the body measurements entered.
Despite not being actual body scanners, these solutions are easy-to-use and can provide enough accuracy for applications such as virtual try-on, made-to-measure or size allocation of certain types of wearables. Moreover, they can be distributed to the final consumer or to the points of sale at a really reduced cost (or even for free), thus overcoming the main barriers to the massive spreading of its use in e-commerce, new retail experiences, new production pipelines or new business models.
In order to illustrate these technologies, some examples of application to different contexts (i.e. virtual worlds, e-commerce and personalisation) are presented: virtual try-on of female fashion (VisuaLook), size allocation for childrenswear (KIDSIZE), personalised comfort insoles (Sunfeet) and personalised shoes (Feetz).
1. The document proposes a project to develop a real-time face detection and security system for ATM machines that uses face recognition technology to authenticate users instead of passwords or PINs.
2. It discusses using algorithms like Haar Cascade and high resolution cameras to capture and analyze facial images to compare against an enrolled user database for authentication.
3. The project aims to provide a more convenient and secure authentication method for ATM users while enhancing security and mitigating risks of card theft or fraud compared to traditional systems.
Integris - The Company, The People, The SolutionsNicola Procopio
The document describes Integris, a company that provides data analytics and cognitive computing solutions. It discusses Integris' offices in Italy, its employees, and its main solutions - Explora Text for text analysis, Explora Process for process mining, and Explora Speech for speech transcription and analysis. It also outlines Integris' use of technologies like Apache Spark, machine learning algorithms, and following the CRISP-DM process for data mining projects.
This document summarizes information about PRODINTEC, a private non-profit organization located in Asturias, Spain that aims to enhance business competitiveness through technological advances. It provides technical support from invention to market, including product design, engineering, and manufacturing process development. PRODINTEC has various facilities and equipment for activities like rapid prototyping, 3D printing, microinjection, and testing. It works with companies and research groups in industries like biotechnology, biomedicine, and medical devices to help innovators develop new products.
The document describes a face recognition system that uses OpenCV to identify known and unknown faces from images and videos in real-time. The system detects faces, extracts facial features, compares the features to a database of known faces to recognize individuals, and stores details of unknown faces for attendance tracking purposes. It aims to automate attendance management more efficiently than manual methods. The system achieves high accuracy around 85% and could improve security and convenience for applications like online education, virtual meetings, and residential security.
The invention consists of a method for the reconstruction of a CAD model with parametric and associative properties starting from: a scan of a real object, and from a CAD template of the object (parametric-associative) in order to simplify the reverse engineering processes.
Smartoperations is a spin-off company from www.smartoperations.it that provides data science as a service (DSaaS) to develop business solutions for operations, service, and asset management. They apply a Data2Action methodology developed with a Swiss university to build dashboards and decision tools from raw data. Smartoperations has been in business since 2008 conducting research in maintenance engineering, reliability analysis, and service innovation. They have over 500k euros in annual revenue and customers in industries like printing, facilities management, utilities, healthcare, and oil and gas.
A prototype of IOT Car Parking System that allows drivers to effectively find the vacant parking spaces is been designed and implemented in this report . By periodically learning the parking status from the sensor networks deployed in parking lots, the drivers are allowed to access this information with their personal communication devices and exactly know which parking slots are vacant. This particular application uses internet of things for accessing the information with their mobile phones. This system has the potential to simplify the operations of parking systems, as well as alleviate traffic congestion caused by parking searching and would definitely make people follow the traffic rules and ensure safety. The developed system is reliable, low cost and user friendly
This document outlines the curriculum and syllabus for the M.E. CAD/CAM program at Anna University in Chennai, India. It includes the course requirements and electives for each of the four semesters. The first semester covers topics like advanced numerical methods, computer applications in design, integrated mechanical design, and finite element analysis. The second semester focuses on design for manufacturing, additive manufacturing, and integrated product development. The third semester is dedicated to elective courses and a project phase. The final semester involves completing the project work. The document also provides the course codes, titles, credit hours and syllabus for each course.
The document discusses several recent developments in apparel engineering technology, including 3D printing clothing, interactive fabrics, and smart textiles. It describes new machines that increase automation and efficiency, such as automatic cutting and spreading machines. It also covers advances in CAD/CAM software, digital pattern making, virtual design, and networked sewing production management systems that connect machinery. The latest technologies aim to speed up production, reduce costs, and enable new design and manufacturing capabilities in the apparel industry.
IRJET - 3D Virtual Dressing Room ApplicationIRJET Journal
This document describes a 3D virtual dressing room application that was developed using the Microsoft Kinect sensor. The application aims to address issues with traditional dressing rooms like wasting time trying on clothes, limited variety, and privacy concerns. The proposed approach uses Kinect to extract the user from the video stream, align 3D cloth models to the user's body, and apply skin color detection to handle occlusions. The body joints are used for positioning, scaling, and rotating the cloth models. The models are then overlaid on the user in real-time. The document discusses related work on virtual dressing rooms and 3D alignment of clothes to user models. It also outlines the methodology, including using Kinect's image and depth streams to develop
Full color brochure on programmable logic controllers PLC with HMI embedded in an OPLC, with software included. A guide arm pair selection and purchase the most appropriate architecture for your control and industrial automation projects.
Folleto a todo color en controladores lógicos programables PLC con HMI integrado en un OPLC , con software incluido. Una guia de selección y compra de la arquitectura más adecuada para su proyecto de control y automatización industrial.
An AI Assistant for Home Automation
Using Natural Language
2016
81 ITROB12 Design and Development of a Low Cost
Modular Robot for Education and Research
2015
82 ITROB13 Design and Development of a Low Cost
Modular Robot for Education and Research
2015
WE CAN ALSO IMPLEMENT YOUR OWN CONCEPT/IDEA
BRANCH OFFICE : SPIRO GROUP OF COMPANIES FOR ECE, EEE, E&I, E&C MECHANICAL,CIVIL,
BIO-MEDICAL, IT, CSE, MSC, MCA, BSC(CS), B.COM(CS) #257, Sapthagiri Complex, 2nd
Floor,
Face Mask Detection and Contactless Body Temperature SensingIRJET Journal
This document presents a proposed system to detect if individuals are wearing face masks and measure their body temperature using CCTV cameras at grocery stores. The system aims to help reduce the spread of COVID-19 by notifying store owners if an unmasked individual or someone with a high temperature is detected. It uses computer vision and deep learning techniques like convolutional neural networks to identify faces and determine if a mask is worn correctly. An infrared thermometer would also measure temperatures and alert authorities by email if thresholds are exceeded. The researchers hope this system can be implemented in other public areas to enforce mask and distancing rules and control viral transmission through early detection of potential cases.
ENGIM is a young and dynamic company born in 2006 for the will of two young entrepreneurs from Modena.
ENGIM has developed several projects for Nexmagroup, from the quality system's management to VOIP distibuted infrastructures.
The company has a highly-qualified staff with great experience in problem solving for SME, expecially in the production and management field.
ENGIM is a young and dynamic company born in 2006 for the will of two young entrepreneurs from Modena.
ENGIM has developed several projects for Nexmagroup, from the quality system's management to VOIP distibuted infrastructures.
The company has a highly-qualified staff with great experience in problem solving for SME, expecially in the production and management field.
A decision theory approach to support action plans in cooker hoods manufacturingnextsrl
This document describes a decision theory approach using a Bayesian network model to support action planning in the manufacturing of cooker hoods. The approach involves 4 phases: 1) defining quality control settings with control limits, 2) developing a Bayesian network topology to represent causal relationships between potential problems, 3) assigning weights to the causal links in the network, and 4) defining potential action plans to address problems. A case study applies this approach to an automatic assembly line for cooker hood frames, using the Bayesian network to diagnose potential causes when quality issues are detected and determine the best action plan.
ACCESS CONTROL SYSTEM USING FACE MASK DETECTION USING ARTIFICIAL INTELLIGENCEIRJET Journal
This document describes a research project that aims to develop an access control system using artificial intelligence to detect whether people are wearing face masks. The system uses computer vision and a trained machine learning model to analyze images in real-time and determine if a face has a mask. If a person without a mask is detected, the system will prevent them from accessing the controlled area by activating a servo motor. The researchers trained the model using a dataset of images labeled as with or without masks. They tested the accuracy of the model on new images and were able to correctly identify masked and unmasked faces. The goal of the project is to help enforce mask wearing in public spaces and prevent the spread of COVID-19.
Presented the 28th October 2015 at the 6th International Conference and Exhibition on body Scanning Technologies 2015, Hometrica Consulting, Lugano, Switzerland.
The access to the 3D representation of people’s body shape has multiple applications to consumer goods which performance is related to human body dimensions or shape. This is the case of wearables such as clothing, footwear, headgear, orthotics, or equipment/environments such as furniture, transports or workstations. Some of the existing and potential applications of 3D human representations include personalisation, virtual try-on or size allocation for wearables or product configuration/adjustment for equipment/environments.
However, the cost of 3D scanners is high; the devices are too bulky for homes and retail stores; and its proper use requires expertise to get the relevant parameters from the 3D object (e.g. measurements). These three barriers are currently hindering the massive spreading of 3D scanners as consumer good or as typical in-store appliance.
This paper describes an array of approaches for realistically estimating human 3D shapes (i.e. full bodies or feet) using a regular smartphone or just entering a set of parameters (e.g. age, gender and self-taken measurements). The proposed approaches are based on data-driven 3D reconstructions, using parameterised shape spaces created from large 3D human body or feet databases. The algorithm finds the combination of shape parameters that best matches either the silhouettes extracted from the images or the body measurements entered.
Despite not being actual body scanners, these solutions are easy-to-use and can provide enough accuracy for applications such as virtual try-on, made-to-measure or size allocation of certain types of wearables. Moreover, they can be distributed to the final consumer or to the points of sale at a really reduced cost (or even for free), thus overcoming the main barriers to the massive spreading of its use in e-commerce, new retail experiences, new production pipelines or new business models.
In order to illustrate these technologies, some examples of application to different contexts (i.e. virtual worlds, e-commerce and personalisation) are presented: virtual try-on of female fashion (VisuaLook), size allocation for childrenswear (KIDSIZE), personalised comfort insoles (Sunfeet) and personalised shoes (Feetz).
1. The document proposes a project to develop a real-time face detection and security system for ATM machines that uses face recognition technology to authenticate users instead of passwords or PINs.
2. It discusses using algorithms like Haar Cascade and high resolution cameras to capture and analyze facial images to compare against an enrolled user database for authentication.
3. The project aims to provide a more convenient and secure authentication method for ATM users while enhancing security and mitigating risks of card theft or fraud compared to traditional systems.
Integris - The Company, The People, The SolutionsNicola Procopio
The document describes Integris, a company that provides data analytics and cognitive computing solutions. It discusses Integris' offices in Italy, its employees, and its main solutions - Explora Text for text analysis, Explora Process for process mining, and Explora Speech for speech transcription and analysis. It also outlines Integris' use of technologies like Apache Spark, machine learning algorithms, and following the CRISP-DM process for data mining projects.
This document summarizes information about PRODINTEC, a private non-profit organization located in Asturias, Spain that aims to enhance business competitiveness through technological advances. It provides technical support from invention to market, including product design, engineering, and manufacturing process development. PRODINTEC has various facilities and equipment for activities like rapid prototyping, 3D printing, microinjection, and testing. It works with companies and research groups in industries like biotechnology, biomedicine, and medical devices to help innovators develop new products.
The document describes a face recognition system that uses OpenCV to identify known and unknown faces from images and videos in real-time. The system detects faces, extracts facial features, compares the features to a database of known faces to recognize individuals, and stores details of unknown faces for attendance tracking purposes. It aims to automate attendance management more efficiently than manual methods. The system achieves high accuracy around 85% and could improve security and convenience for applications like online education, virtual meetings, and residential security.
The invention consists of a method for the reconstruction of a CAD model with parametric and associative properties starting from: a scan of a real object, and from a CAD template of the object (parametric-associative) in order to simplify the reverse engineering processes.
Smartoperations is a spin-off company from www.smartoperations.it that provides data science as a service (DSaaS) to develop business solutions for operations, service, and asset management. They apply a Data2Action methodology developed with a Swiss university to build dashboards and decision tools from raw data. Smartoperations has been in business since 2008 conducting research in maintenance engineering, reliability analysis, and service innovation. They have over 500k euros in annual revenue and customers in industries like printing, facilities management, utilities, healthcare, and oil and gas.
A prototype of IOT Car Parking System that allows drivers to effectively find the vacant parking spaces is been designed and implemented in this report . By periodically learning the parking status from the sensor networks deployed in parking lots, the drivers are allowed to access this information with their personal communication devices and exactly know which parking slots are vacant. This particular application uses internet of things for accessing the information with their mobile phones. This system has the potential to simplify the operations of parking systems, as well as alleviate traffic congestion caused by parking searching and would definitely make people follow the traffic rules and ensure safety. The developed system is reliable, low cost and user friendly
This document outlines the curriculum and syllabus for the M.E. CAD/CAM program at Anna University in Chennai, India. It includes the course requirements and electives for each of the four semesters. The first semester covers topics like advanced numerical methods, computer applications in design, integrated mechanical design, and finite element analysis. The second semester focuses on design for manufacturing, additive manufacturing, and integrated product development. The third semester is dedicated to elective courses and a project phase. The final semester involves completing the project work. The document also provides the course codes, titles, credit hours and syllabus for each course.
The document discusses several recent developments in apparel engineering technology, including 3D printing clothing, interactive fabrics, and smart textiles. It describes new machines that increase automation and efficiency, such as automatic cutting and spreading machines. It also covers advances in CAD/CAM software, digital pattern making, virtual design, and networked sewing production management systems that connect machinery. The latest technologies aim to speed up production, reduce costs, and enable new design and manufacturing capabilities in the apparel industry.
IRJET - 3D Virtual Dressing Room ApplicationIRJET Journal
This document describes a 3D virtual dressing room application that was developed using the Microsoft Kinect sensor. The application aims to address issues with traditional dressing rooms like wasting time trying on clothes, limited variety, and privacy concerns. The proposed approach uses Kinect to extract the user from the video stream, align 3D cloth models to the user's body, and apply skin color detection to handle occlusions. The body joints are used for positioning, scaling, and rotating the cloth models. The models are then overlaid on the user in real-time. The document discusses related work on virtual dressing rooms and 3D alignment of clothes to user models. It also outlines the methodology, including using Kinect's image and depth streams to develop
Full color brochure on programmable logic controllers PLC with HMI embedded in an OPLC, with software included. A guide arm pair selection and purchase the most appropriate architecture for your control and industrial automation projects.
Folleto a todo color en controladores lógicos programables PLC con HMI integrado en un OPLC , con software incluido. Una guia de selección y compra de la arquitectura más adecuada para su proyecto de control y automatización industrial.
An AI Assistant for Home Automation
Using Natural Language
2016
81 ITROB12 Design and Development of a Low Cost
Modular Robot for Education and Research
2015
82 ITROB13 Design and Development of a Low Cost
Modular Robot for Education and Research
2015
WE CAN ALSO IMPLEMENT YOUR OWN CONCEPT/IDEA
BRANCH OFFICE : SPIRO GROUP OF COMPANIES FOR ECE, EEE, E&I, E&C MECHANICAL,CIVIL,
BIO-MEDICAL, IT, CSE, MSC, MCA, BSC(CS), B.COM(CS) #257, Sapthagiri Complex, 2nd
Floor,
Face Mask Detection and Contactless Body Temperature SensingIRJET Journal
This document presents a proposed system to detect if individuals are wearing face masks and measure their body temperature using CCTV cameras at grocery stores. The system aims to help reduce the spread of COVID-19 by notifying store owners if an unmasked individual or someone with a high temperature is detected. It uses computer vision and deep learning techniques like convolutional neural networks to identify faces and determine if a mask is worn correctly. An infrared thermometer would also measure temperatures and alert authorities by email if thresholds are exceeded. The researchers hope this system can be implemented in other public areas to enforce mask and distancing rules and control viral transmission through early detection of potential cases.
ENGIM is a young and dynamic company born in 2006 for the will of two young entrepreneurs from Modena.
ENGIM has developed several projects for Nexmagroup, from the quality system's management to VOIP distibuted infrastructures.
The company has a highly-qualified staff with great experience in problem solving for SME, expecially in the production and management field.
ENGIM is a young and dynamic company born in 2006 for the will of two young entrepreneurs from Modena.
ENGIM has developed several projects for Nexmagroup, from the quality system's management to VOIP distibuted infrastructures.
The company has a highly-qualified staff with great experience in problem solving for SME, expecially in the production and management field.
A decision theory approach to support action plans in cooker hoods manufacturingnextsrl
This document describes a decision theory approach using a Bayesian network model to support action planning in the manufacturing of cooker hoods. The approach involves 4 phases: 1) defining quality control settings with control limits, 2) developing a Bayesian network topology to represent causal relationships between potential problems, 3) assigning weights to the causal links in the network, and 4) defining potential action plans to address problems. A case study applies this approach to an automatic assembly line for cooker hood frames, using the Bayesian network to diagnose potential causes when quality issues are detected and determine the best action plan.
ACCESS CONTROL SYSTEM USING FACE MASK DETECTION USING ARTIFICIAL INTELLIGENCEIRJET Journal
This document describes a research project that aims to develop an access control system using artificial intelligence to detect whether people are wearing face masks. The system uses computer vision and a trained machine learning model to analyze images in real-time and determine if a face has a mask. If a person without a mask is detected, the system will prevent them from accessing the controlled area by activating a servo motor. The researchers trained the model using a dataset of images labeled as with or without masks. They tested the accuracy of the model on new images and were able to correctly identify masked and unmasked faces. The goal of the project is to help enforce mask wearing in public spaces and prevent the spread of COVID-19.
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdfMalak Abu Hammad
Discover how MongoDB Atlas and vector search technology can revolutionize your application's search capabilities. This comprehensive presentation covers:
* What is Vector Search?
* Importance and benefits of vector search
* Practical use cases across various industries
* Step-by-step implementation guide
* Live demos with code snippets
* Enhancing LLM capabilities with vector search
* Best practices and optimization strategies
Perfect for developers, AI enthusiasts, and tech leaders. Learn how to leverage MongoDB Atlas to deliver highly relevant, context-aware search results, transforming your data retrieval process. Stay ahead in tech innovation and maximize the potential of your applications.
#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Full-RAG: A modern architecture for hyper-personalizationZilliz
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
Best 20 SEO Techniques To Improve Website Visibility In SERPPixlogix Infotech
Boost your website's visibility with proven SEO techniques! Our latest blog dives into essential strategies to enhance your online presence, increase traffic, and rank higher on search engines. From keyword optimization to quality content creation, learn how to make your site stand out in the crowded digital landscape. Discover actionable tips and expert insights to elevate your SEO game.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
This keynote will reveal how Deloitte leverages Neo4j’s graph power for groundbreaking digital twin solutions, achieving a staggering 100x performance boost. Discover the essential role knowledge graphs play in successful generative AI implementations. Plus, get an exclusive look at an innovative Neo4j + Generative AI solution Deloitte is developing in-house.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
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Driving Business Innovation: Latest Generative AI Advancements & Success Story
Presentazione lugano 2010
1. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
BODY–SCANFIT®: THE FIRST 3D PORTABLE FULL BODY
SCANNER SYSTEM. FROM THE REAL TO THE DIGITAL
WORLD IN JUST 4 SECONDS.
LUGANO 20/10/2010 3D Body Scanning Technologies International Conference
2. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
AGENDA:
ABOUT US
CASE STUDY
BODY-SCANFIT®
THEORY OF BODY-SHAPES
MADE TO MEASURE
MASS CUSTOMIZATION
FORMAX®
RE-THINKING BODY
SCANNER
3. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
ABOUT US
Cad Modelling Ergonomics is an Italian s.m.e.
founded in 1968 by Silvio Quattrocolo
specialized in providing and developing
anthropometric technologies
4. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
CASE STUDY
To prove the efficiency of our
system we decided to use
Korux Body Scanner by
3dOuest since it was made
respecting our guidelines and
needs related to the particular
application field.
5. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
BODY-SCANFIT®
• Body-Scanfit® is
Cad Modelling
Ergonomic’s PC-
based Body Scanner
System (case study:
Korux Body Scanner)
• It allows no contact
acquisition of body
measurements
• It is portable, quick
and easy to use
6. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
The output includes both
point clouds and polygon
meshes (STL) obtained by
advanced data processing
routines. Point clouds can
be saved in different
outputs. Among them .bin,
.txt, .wrml
7. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FEATURES
• Versatile capturing procedure
• Fast data collection
• Safe process
• High resolution
• Flexible optical configuration
8. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FEATURES
• Fast capturing of geometrical data for CAD
modelling
• Comparison between ph. geometries and
nominal data
• Virtual Prototyping
• Digital storing
• Rapid replication of body parts
9. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
IT’S PORTABLE !!!
• Body-Scanfit® is
composed by a software,
a know-how and Korux
portable body scanner, it
fits easily inside a
standard size suitecase.
• All the components are
carefully stored and
packed
• Really easy to carry from
a location to another for
quick data collection
10. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
USER FRIENDLY
• It is really easy to set
up Body-Scanfit® ,
you just need a space
of 3,5 m x 3,5 m and
a PC.
• Even non
professionals can
set up and manage
the system.
• Allows innocuos
scanning of the
human body in just 4
seconds
11. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
STARTING
• Once the acquisition
columns and the rest
of the device are
setted (it takes only
10 min), you can
operate calibration in
10 seconds.
12. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
YOU ARE READY TO SCAN!!!
13. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
DATA ACQUISITION
After the scanning, the
data are acquired,
stored in a database
and elaborated by a
software to create a
Virtual 3D model
and to extract
measures
14. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WHAT DO I DO WITH
MEASURES?
There are several path that you can walk,
for sure you need an important theoretical
base to work with. We developed our
system in accordance to one specific
theory:
15. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
THE THEORY OF BODY-SHAPES
In 1978, Silvio Quattrocolo, our founder, created
the Theory of Body-shapes. Starting from the
idea that humans are characterized by body
shapes and not by geometrical measures based
on a non-existing mathematical relation between
them.
16. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
When Mr Quattrocolo was still studying to
become a tailor and a designer, he realized that
the fit given to clothes was not respecting the
real anatomies of individuals. Clothing
Industries were producing for unreal
anatomies.
There was a lack of culture in the Industry.
17. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
And he knew that
“to create garments he
needed a perfect knowledge
of the volumes and of the
body the garments would
have to fit”.
He also knew that it couldn’t exist a
mathematical ratio between individuals. It had
to be an analytical relation.
He needed to collect empirical data to learn
from statistics.
18. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
Thanks to a huge amount of
anthropometric data collected
throughout the world in many years,
Silvio Quattrocolo set up a
Theory of Body-shapes:
He realized that every man or woman
could be classified in a Morphological
Family having a set of anthropometric
measures in common.
He was able to identify 6 main
Families for men and 9 main
Families for women.
19. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
Silvio Quattrocolo abandoned
the concept of sizes, cut, extra
long, small etc. and started to
think of clothes through
Shapes…
20. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
SO?
• The fashion industry
designed a serial
garment for a man
that was not born in
series
• We need to rethink
the system adopting
the idea of
Morphological
Families
21. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
22. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
Combinig this theory with Body-
ScanFit® we can fulfill 2 main
tasks
• Made to Measure
(with TC2 software)
• Mass Customization
(with Fx-Fit software)
23. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
TC2 Software
• Allows you to extract
several customizable
measures in just a
few seconds
• Managing the
measures you will
easily be able to
create a Made-to-
Measure garment
24. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
TC2
TC2 software permits
you to check any body
measurement,
automatically it will give
you over 90
measurements, but
you will have the
opportunity to
customize the
measurements list
according to your
needs at any time.
25. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
Thanks to this
software you will be
able to:
• recognize the
subject’s
morphological
family,
• Combine analysis of
the top and of the
bottom part of the
body.
• Couple the body with
a Formax®.
26. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
DISCOVERING FX-FIT
Knowing that Body-
Scanfit® is our
anthropometric
classification system
based on Korux, the
unique portable 3D
body scanner that you
can combine with
different software, Fx-
Fit is…
27. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
• A software really easy
to use once you set
up the scanner
• A software for mass
customization that
can add quality and
value to your
business finding the
right body shape of
the scanned subject
28. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
Combining linear measures spotted by TC2 with
the volumes extracted by Korux body scanner, Fx-
Fit is able to guarantee right and fast practical
solutions
29. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
Using really
complex
algorithms Fx-Fit
software
identifies a
certain body
shape and
conformation
30. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
Fx-Fit functions go far behind this, the next level
consists in spotting and calculating the possible
grading of the volumes in possible sizes.
Different sizes for a same body-shape
31. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
There is also a further
level: Fx-Fit identifies
a certain body shape
for the top, and one
for the bottom part
showing the concrete
Formax® solution.
32. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
Fx-Fit It is the only
software in the world
able to provide this kind
of solutions.
33. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FX-FIT
• FX-Fit is a unique software that helps
producers of mass customized products in
their job.
• The software classifies any body
processed into a specific body shape
category highlighting the proper fitting
needs to respect, in order to customize
existing models.
34. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
Body-ScanFit® + FX-FIT
Anthropometric Classification System
4” Body-scanning
System
Human Morphologies
DB
COMPARISON
Identification of the Conformation of Individuals
for the definition of the best fit criterias and ideal
Formax®
35. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WHAT IS A FORMAX®?
• A Formax® is an
anthropometric mannequin
representing the real
shapes and conformations
of the population according
to the Theory of
Conformations
• A Formax® is a perfect tool
for Quality control, Fitting
and Ergonomics
36. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WHY DO I NEED A FORMAX®?
If you work among
Clothing field that is a
simple answer…
The unsold garment
stock is a huge
problem for the
Fashion Industry. It is
not a matter of design
or of retail strategy and
a lot of money gets
wasted!
37. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
I DON’T KNOW ANYTHING
ABOUT FASHION…
Well, a Formax® is indicated for many
business fields, you might be a Professor,
a Doctor, an Engineer or a quality tester,
no matter what is your sector if you need
to shape anything over real body sizes,
this is for sure your irreplaceable quality
tool!
38. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
APPLICATION FIELDS
• Collections development
• Pattern design
• Quality control and Fit-Tests
• Fit standardization
• Proportion verification
• Styling and drape
• Ergonomic tests even in
extreme conditions and
contest
39. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
FORMAX®: REAL BODY-SHAPES FOR
THE REAL MARKET
The FORMAX® family is the fundamental solution that helps
model makers in defyining the right volumes for garments
and not only this.
Many companies have chosen to use Formax® for their
quality, ergonomic tests and product prototyping among
different business
40. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WHERE DID KORUX GO?
Korux is part of a virtuous cycle
41. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
BODY SCAN-FIT® + FX-FIT
ANTHROPOMETRIC CLASSIFICATION SYSTEM
4” Body-scanning
System
Human Morphologies
DB
COMPARISON
Identification of the Conformation of Individuals
for the definition of the best fit criteria and ideal
Formax®
42. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WILL IT GET OBSOLETE?
• NO!!Body ScanFit® is a unique complete
system basing its effectiveness on a
fundamental theory and not only on a
technology which continuously evolves
and changes. It is a dynamic system that
can be improved both in its hardware and
in its software.
43. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
WHAT CAN I DO WITH JUST A
BODY SCANNER?
NOT MUCH!
Technology with-out
culture is just cold
technology, if there is
no comparison with
a conceptual path the
acquired data
becomes just
numbers.
44. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
This is why Fx-Fit
point of strengh is not
the simple body
scanner technology,
but the theory and
the actions that take
place before and
after the scanning.
45. Cad Modelling Ergonomics s.r.l. 50121 Firenze (Italy) Piazza Beccaria, 6 Tel. +39 055 2476261-2 Fax. +39 055 2346733
info@cadmodelling.it – www.cadmodelling.it – P.IVA 05583270482 – CCIA Area Firenze 558113 – ID IT 05583270482
THE END
THANK YOU FOR YOUR ATTENTION, HOPE
TO SEE YOU AT OUR STAND FOR A DEMO!
info@cadmodelling.it