3d technology – Ebongeek http://www.ebongeek.com/ Sun, 17 Oct 2021 23:19:39 +0000 en-US hourly 1 https://wordpress.org/?v=5.8 http://www.ebongeek.com/wp-content/uploads/2021/10/icon-14-150x150.png 3d technology – Ebongeek http://www.ebongeek.com/ 32 32 Good Shepherd, Moravian in 3D tech rehab pact – Times News Online http://www.ebongeek.com/good-shepherd-moravian-in-3d-tech-rehab-pact-times-news-online/ http://www.ebongeek.com/good-shepherd-moravian-in-3d-tech-rehab-pact-times-news-online/#respond Sat, 16 Oct 2021 01:15:24 +0000 http://www.ebongeek.com/good-shepherd-moravian-in-3d-tech-rehab-pact-times-news-online/ Posted on October 15, 2021 8:59 PM The Good Shepherd Rehabilitation Network and Moravian University have announced the formation of a partnership between the two historic organizations to explore and develop educational and research opportunities that advance rehabilitation. While some elements of the partnership, including cross-training and education, the partnership will come to fruition with […]]]>

Posted on October 15, 2021 8:59 PM

The Good Shepherd Rehabilitation Network and Moravian University have announced the formation of a partnership between the two historic organizations to explore and develop educational and research opportunities that advance rehabilitation.

While some elements of the partnership, including cross-training and education, the partnership will come to fruition with the opening of the Good Shepherd – Moravian University 3D Experience, a 3D printing lab that will be located in the four building. floors and 76 beds of Good Shepherd. An inpatient rehabilitation hospital is expected to open in Upper Saucon Township in early 2023.

The Good Shepherd – Moravian University 3D Experience will be hosted in the experience center of the new rehabilitation hospital, to explore and research mega-trends in technology, including 3D printing, automation technology, wearable devices, l artificial intelligence, which have the potential to advance rehabilitation practices for people with stroke, spinal cord injury, brain injury and other disabilities.

The partnership is the first of its kind between Moravian and Good Shepherd, and focuses on several key objectives:

• Set up an innovative 3D printing center within a rehabilitation framework

• Create and execute a progressive research program

• Develop and serve as opinion leaders

• Provide advanced training and education for current and next generation rehabilitation professionals

• Influence the rehabilitation industry

“This partnership will have far-reaching impacts for our patients with disabilities, especially when it comes to considering and creating personalized solutions that can benefit one or more people,” said Michael Spigel, PT, MHA, President and CEO of Good Shepherd Rehabilitation. Network.

“The ability of our clinicians to create an idea on paper to potentially change the life of a person with a disability, take that idea in two dimensions and create a product in three dimensions through technical and clinical collaboration with Moravian, is incredible,” Spigel mentioned.

“In short, we design the future,” said Bryon L. Grigsby, president of the Moravian University.

“Our faculty is training the next generation of occupational and physiotherapists who will work in the field, and this opportunity allows us to explore ways to research new techniques and technologies in a hands-on environment,” said Grigsby.

“Good Shepherd is a leader in rehabilitation, and we are able to use the real practical nature of working with patients with these new products, to see how they work and to publish this information to the rest of the world,” said Grigsby.

Construction of the new Good Shepherd Rehabilitation Hospital is expected to begin later in 2021. A groundbreaking ceremony was held on September 22.

The rehabilitation hospital experience center will include three areas of intervention:

• 3D printing

• Automation, where people with disabilities and their family members can learn to control their environment through enabling and automating technologies, such as Google Home, Amazon Alexa, and other assistive technologies.

• Wearable devices and artificial intelligence

Good Shepherd Rehabilitation Network, a nationally recognized nonprofit rehabilitation leader, has more than 70 locations in Pennsylvania and New Jersey. Good Shepherd partners with Penn Medicine to provide rehabilitation and specialty services in the greater Philadelphia and New Jersey area through Good Shepherd Penn Partners.

Moravian University is the sixth oldest university in the United States, located in Bethlehem. Moravian University is a member of The New American Colleges and Universities, a national consortium of selective, small to medium-sized independent colleges and universities dedicated to the deliberate integration of liberal education, professional studies and the civic engagement.


Source link

]]>
http://www.ebongeek.com/good-shepherd-moravian-in-3d-tech-rehab-pact-times-news-online/feed/ 0
3D Technology Market Analysis by Region Analysis and Business Development, by 2026 http://www.ebongeek.com/3d-technology-market-analysis-by-region-analysis-and-business-development-by-2026/ http://www.ebongeek.com/3d-technology-market-analysis-by-region-analysis-and-business-development-by-2026/#respond Thu, 14 Oct 2021 20:44:05 +0000 http://www.ebongeek.com/3d-technology-market-analysis-by-region-analysis-and-business-development-by-2026/ The 3D Technology Market research report offers a comprehensive analysis of this business space. The major trends that define the 3D technology market during the analysis period are mentioned in the report along with other factors such as regional scope and regulatory outlook. Further, the document explains the impact of current industry trends on key […]]]>

The 3D Technology Market research report offers a comprehensive analysis of this business space. The major trends that define the 3D technology market during the analysis period are mentioned in the report along with other factors such as regional scope and regulatory outlook. Further, the document explains the impact of current industry trends on key market driving factors as well as key challenges.

According to a recent new report on 3D Technology Market Size by Application (3D Printing Industry, Entertainment, Healthcare, and Others), By Types (3D Printing, 3D Display, 3D Camera, 3D Software, and others) , By Regional Outlook – Global Industry Analysis Report, Regional Outlook, Growth Potential, Price Trend, Competitive Market Share and Forecast, 2020-2025.

The COVID-19 pandemic has forced various governments to impose a strict lockdown which in turn has disrupted the operations and processes of several companies as well as manufacturing facilities, thus affecting the global economy. In addition, many companies across the world are facing labor shortage and raw material shortage due to the disease outbreak which is expected to change the growth of the technology market. 3D in the years to come.

Request a copy of this report @ https://www.nwdiamondnotes.com/request-sample/37997

Elaborate on the competitive landscape of the 3D technology market:

  • According to the document, the competitive spectrum of the 3D technology market includes companies such as GoPro, EnvisionTEC, Samsung Electronics, Canon Inc, ExOne, SLM Solutions, Auto Desk, Adobe Systems, Panasonic Corporation, Renishaw, Oracle, 3D Systems, LG Electronics, Sony Corporation, Microsoft, Sharp Corporation, Nikon Corporation, HannStar Display Corporation, Stratasys, Optomec, Samsung Electronics, Arcam Group and Google.
  • The study provides crucial information regarding production patterns of manufactured items, income generated as well as company profile, among others.
  • The report also highlights the market share held by each company and their respective gross margins.

An Overview of the Regional Scope of the 3D Technology Market:

  • The research report divides the geographic landscape of the 3D technology market into North America, Europe, Asia-Pacific, Latin America, Middle East and Africa.
  • It provides a comprehensive analysis of the regional contribution in terms of the projected growth rate of each geography over the forecast period.
  • The profits generated by each region and its individual production volume as well as the market share of each province are cited in the document.
  • The report also provides data regarding pricing models, profit margins, value and consumption projections, which can further help stakeholders and investors to make timely decisions.

Other Information Mentioned In The 3D Technology Market Report:

  • Citing the product type, the report divides the market into 3D printing, 3D display, 3D camera, 3D software, and others.
  • The document provides data relating to volume and revenue projections for each type of product.
  • Important information regarding the production models, growth rate and market share of each product fragment during the study period is given in the study.
  • In addition, a comparative assessment regarding the pricing model of the product is provided in the report.
  • According to the scope, the report categorizes the 3D technology market into 3D printing industry, entertainment, healthcare, and others.
  • The report works out the market share of each application segment and its respective growth estimates over the projected period.

Key questions answered in the report: –

  • Business analysis of 3D technology market including size, share, major drivers, growth opportunities and trends 2020-2027
  • 3D Technology Market Consumption Analysis, Overview of Guidelines and Forecast of Trends Coming Till 2027
  • Sales, Price, Revenue and Market Share Outlook for Top Companies in the 3D Technology Market
  • 3D Technology Market Revenue, Key Players, Supply-Demand, Investment Feasibility, and Forecast 2027
  • Analytical overview, growth factors, demand and trends.
  • 3D Technology Market by Technology, Industry Opportunity Analysis and Forecast, 2020-2025.
  • Analysis covering market size, growth drivers, demand, trends and forecast.
  • Presentation of 3D technology, analysis of raw materials, market drivers and opportunities
  • In-depth research on market size, trends, emerging growth factors and forecast.

The 3D Technology Market report answers some important questions, including:

  • Which regulatory authorities have authorized the application of 3D technology in industry xx?
  • How will the global 3D technology market grow during the forecast period?
  • Which end-use industry is set to become the number one consumer of 3D technology by 2025?
  • What manufacturing techniques are involved in producing the 3D Technology Market?
  • Which regions are the 3D Technology market players targeting to channel their production portfolio?

Request customization on this report @ https://www.nwdiamondnotes.com/request-for-customization/37997


Source link

]]>
http://www.ebongeek.com/3d-technology-market-analysis-by-region-analysis-and-business-development-by-2026/feed/ 0
Builders’ Merchants News – W. Howard 3D Technology Offers Custom Profile Options http://www.ebongeek.com/builders-merchants-news-w-howard-3d-technology-offers-custom-profile-options/ http://www.ebongeek.com/builders-merchants-news-w-howard-3d-technology-offers-custom-profile-options/#respond Wed, 13 Oct 2021 10:09:21 +0000 http://www.ebongeek.com/builders-merchants-news-w-howard-3d-technology-offers-custom-profile-options/ W. Howard Group customers can now create custom profiles of any skirting board, architrave, window panel, door liner or any other MDF product. W. Howard Group has installed an advanced 3D printer that can be used to create complex 3D models; which means customers can see, touch and feel any unique profile concept right from […]]]>

W. Howard Group customers can now create custom profiles of any skirting board, architrave, window panel, door liner or any other MDF product.

W. Howard Group has installed an advanced 3D printer that can be used to create complex 3D models; which means customers can see, touch and feel any unique profile concept right from the start of the design to ensure they are completely satisfied with it before making a purchase.

The 3D model is created from a digital file, layering extremely thin layers of additives until the object is complete. This technology means that W. Howard Group can create a physical model of any profile faster and using fewer materials than traditional jig manufacturing methods, making it better for the environment, cheaper and more. convenient for W.Howard Group customers.

Simon Fleet, Group Commercial Director, said: “This latest investment in our technology and manufacturing processes is the next step in our development plans as we continue to grow the business. Any client looking to create a bespoke profile for a special project can come and see us and we will print a 3D model for them to review.

“It gives them confidence that the profile is exactly what they want before they order them for manufacturing. It’s another way to go the extra mile to support our customers, and we’re sure they’ll appreciate this extra service.


Source link

]]>
http://www.ebongeek.com/builders-merchants-news-w-howard-3d-technology-offers-custom-profile-options/feed/ 0
Cuckold on the integration of 3D technology in food production http://www.ebongeek.com/cuckold-on-the-integration-of-3d-technology-in-food-production/ http://www.ebongeek.com/cuckold-on-the-integration-of-3d-technology-in-food-production/#respond Tue, 12 Oct 2021 14:05:11 +0000 http://www.ebongeek.com/cuckold-on-the-integration-of-3d-technology-in-food-production/ Today, additive manufacturing is not only used for the creation of prototypes using thermoplastics. Advances in the development of new materials have allowed this technology to be implemented in a wide variety of industries. This is also the case in the gastronomy sector. More and more companies are looking for solutions to 3D print food […]]]>

Today, additive manufacturing is not only used for the creation of prototypes using thermoplastics. Advances in the development of new materials have allowed this technology to be implemented in a wide variety of industries. This is also the case in the gastronomy sector. More and more companies are looking for solutions to 3D print food in a simpler way or without the use of animals. One of these companies is the Spanish company Cocuus, which has developed its own additive and subtractive manufacturing solutions for use with food. To learn more about the company and its implementation of these cutting-edge technologies, we caught up with one of the founding partners, Patxi Larumbe.

3DN: Can you briefly introduce yourself and your relationship with 3D printing?

We are a company that has been designing 3D printers for 20 years. People have known about 3D printers for 6 or 7 years, but we’ve been in this business a lot longer. We are therefore people present in the genesis of 3D printing since its inception. For my part, I am Patxi Larumbe, Strategic Director of the company and one of the founding partners, along with Daniel Rico. Regarding engineering, I am an expert in CAD CAM CAR systems, robotics, industrial laser cutting systems.

cuckold

The team behind Cocuus

I built the laboratory at Cizur Menor to devote myself to researching laser applications in industry, education and gastronomy as I am expert in almost all processes applicable in the use of lasers. This includes CO2, fiber, ruby, diodes and UV diodes, calculation of optics for process optimization, beam and optic alignments, use of DSP boards, robotics, stepper motors. pas, servomotors, pilots, Cartesian axes, delta and systems with galvos. In addition, I have knowledge in the field of show laser lighting. Such as programming systems with ILDA standard, programming arduinos and marlin and GBRL firmware, stereolithography systems.

3DN: How did the idea to create Cocuus come about?

When the 3D printing patent expired, after 20 years, we decided that we weren’t going to make 3D printers that print plastic like everyone else does. So we decided to focus on 3D food printing. That’s because we thought at the time, and rightly so, that this would be an area with less competition. Food 3D printing is something that is done by very few companies in the world.

And like in the best companies, it all starts with a few “maker” meetings, at tables crowded with boards of arduino and cans of beer. It was the seed of a friendship and an alliance that would eventually cause us to quit our jobs and bet on entrepreneurship, something very difficult to do, but it is that same initiative and the same belief. in what we do that got us here, even though we still have a long way to go.

Photo credits: Cuckold

The first laser machine we assembled was used to cook our friends’ dinner, creating different dishes that surprised both with their novelty and the potential that such technology would have in the catering market. And from there was born the interest to provide chefs with new working tools, both for cutting the basic product, for molds or for changing textures or making engravings and drawings on food.

3DN: Can you explain Cocuus’ 3D food printing technology?

We use this 3D technology in several areas and with different approaches. The first is the use of disruptive 3D technology based on subtractive printing instead of additive printing, which is completely different from what we have in the world. What we do is we use laser machines that are a little bigger than the size of an oven, and we put the food in there and shape it into cuts. Leftovers are salvageable and we also found out how different foods react to such an intense beam.

Additionally, we find that caterers, chefs, caterers, and event companies are very drawn to the options it presents for branding or engraving on food. And as we do these projects, we love what we do more and more. I remember a project with kids at school when the dining room staff said, “The kids don’t even look at the fruit. We carved apple turtles with our machines and at the end of the event there was only one left.

Then we decided that we were missing color in our products and applied it through edible inkjet printing. To be clear: we use a paper printer with edible inks, but instead of printing on paper, we paint on a donut, on a cake, or on the coffee or beer foam.

Cuckold

Drawing made with a laser engraver on an apple (photo credits: Cocuus)

And with the pandemic, we had to put this type of product aside for a bit because there was no event of any kind and the hospitality industry suffered a lot during that time so it was going to be difficult to offer one of these services. We therefore focused on the development of geriatric and hospital 3D printing, to produce food that is a replica that is easier to consume but whose appearance looks a lot like real food dishes, for people unable to chew and having swallowing or dysphagia problems.

Finally, we are now fully engaged in bioprinting, which consists of printing mimetic products of appearance and texture as close as possible to meat and fish products, but using as raw material either vegetable protein products or cells. cultivated in bioreactors.

3DN: What are the main advantages of this mode of production? What are the limits ?

The main advantage that we offer to the market is that every time we evaluate a project, it must have industrial projection and scaling. We are not tackling anything that cannot be done very quickly and industrially. Unlike our competitors, we make machines that produce products very quickly. And we are also developing machines that can be fed with different ingredients so that with slight modifications they can be used to produce cell-based products as well as herbal products.

In terms of limitations, there will certainly be certain types of food that will not be reproducible, but the biggest limitation or obstacle may come from not being able to properly transmit the benefits globally:

  • The mode of production will have to change to support the population because there will not be enough protein;
  • This method has a lower CO2 emission, and therefore a lower impact on the climate;
  • There will be no mistreatment or animal death;
  • It will be possible to develop foods with an even better nutritional level.
Cuckold

Photo credits: Cuckold

3DN: Where do you see 3D food printing in the coming years?

We need to assess what 3D printing is. If we talk about 3D printing as taking dough and turning it into an object, then most of the future of 3D printing is in the hands of global production. What we believe is that there are definitely going to be factories where the chops come out and the cows don’t come in. You can find more information on our website HERE.

What do you think of Cocuus’ 3D food printing? Let us know in a comment below or on our Facebook and Twitter pages. Don’t forget to sign up for our free weekly newsletter, with all the latest 3D printing news delivered straight to your inbox!



Source link

]]>
http://www.ebongeek.com/cuckold-on-the-integration-of-3d-technology-in-food-production/feed/ 0
Regional 3D Technology Market Outlook, Competitive Strategies and Forecast to 2025 http://www.ebongeek.com/regional-3d-technology-market-outlook-competitive-strategies-and-forecast-to-2025/ http://www.ebongeek.com/regional-3d-technology-market-outlook-competitive-strategies-and-forecast-to-2025/#respond Fri, 01 Oct 2021 12:21:42 +0000 http://www.ebongeek.com/regional-3d-technology-market-outlook-competitive-strategies-and-forecast-to-2025/ The 3D Technology Market research report is a detailed study of the 3D Technology industry which specializes in identifying the growth potential of the 3D Technology market and potential opportunities in the market. Secondary research data comes from government publications, interviews with experts, journals, surveys and trusted journals. The recorded data spans a decade followed […]]]>

The 3D Technology Market research report is a detailed study of the 3D Technology industry which specializes in identifying the growth potential of the 3D Technology market and potential opportunities in the market. Secondary research data comes from government publications, interviews with experts, journals, surveys and trusted journals. The recorded data spans a decade followed by systematic review to conduct an in-depth study of influencers in the 3D technology market.

The latest 3D Technology market research report includes an in-depth analysis of important factors such as growth catalysts, restraints and limitations, and opportunities influencing the revenue stream of the industry over the anticipated period. It also reviews historical data and current trends for a more accurate assessment of market potential.

According to expert analysts, the sector is poised to accumulate substantial returns over the estimated 2020-2025 period, registering a XX% CAGR throughout.

Request a copy of this report @ https://www.nwdiamondnotes.com/request-sample/24807

The research literature precisely exposes market segmentation to determine all profitable prospects in the business sphere. In addition, it involves a detailed study of the competitive landscape with recent data on acquisitions, partnerships, mergers and other major developments. Through this, the report offers a clear understanding of the winning strategies deployed by the major competitors to help stakeholders formulate action plans that will generate solid profits in the years to come.

Key Features of the 3D Technology Market Report:

  • Total sales, returns and market share accounts
  • Current and upcoming industry trends
  • Profitable prospects
  • Growth rate assessments for the market
  • Advantages and disadvantages of using direct and indirect sales channels
  • A registration of the main distributors, resellers and sellers

3D Technology Market Segments Covered In The Report:

Geographic fragmentation: North America, Europe, Asia-Pacific, South America, Middle East and Africa.

  • National assessment of each regional market
  • Acquired sales, accumulated returns and accumulated industry shares by each geographic area
  • Assessment of revenue share and growth rate for each regional market over the estimated period

Types of products: 3D printing, 3D display, 3D camera, 3D software and others

  • Price model for each type of product
  • Market share assessment taking into account the sales and returns garnered by each product segment

Application spectrum: 3D printing industry, entertainment, health and others

  • Product price assessment taking into account the scope of application
  • Revenue and sales accumulated by each type of application during the forecast period

Competitive dashboard: The main players covered by 3D technology are:, Stratasys, EnvisionTEC, Arcam Group, 3D Systems, SLM Solutions, Renishaw, Samsung Electronics, Optomec, ExOne, LG Electronics, Nikon Corporation, Canon Inc, Sharp Corporation, Microsoft, GoPro, Sony Corporation, HannStar Display Corporation, Google, Samsung Electronics, Panasonic Corporation, Oracle, Auto Desk and Adobe Systems

  • Commercial summary of listed companies
  • Product and service offerings from the main players
  • Information on pricing models, total revenue, sales, gross margins and market share of each company
  • SWOT analysis of large companies
  • Assessment of commercialization rate and market concentration rate
  • Detailed study of the commercial strategies deployed by leading companies

Research objectives:

  • To understand the structure of 3D Technology market by identifying its various subsegments.
  • Focuses on the leading global 3D technology players, to define, describe and analyze the value, market share, market competition landscape, SWOT analysis and development plans over the next few years.
  • To analyze the 3D Technology with respect to individual growth trends, prospects, and their contribution to the total market.
  • Share detailed information on the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry specific challenges and risks).
  • To project the size of 3D Technology submarkets, with respect to key regions (along with their respective key countries).
  • Analyze competitive developments such as extensions, agreements, new product launches and acquisitions in the market.
  • To draw up a strategic profile of the main players and to analyze in depth their growth strategies.
  • To draw up a strategic profile of the main players and to analyze in depth their growth strategies.

Key questions answered in the report:

  • What is the growth potential of the 3D technology market?
  • Which product segment will take the lion’s share?
  • Which regional market will emerge as a pioneer in the years to come?
  • Which application segment will experience strong growth?
  • What growth opportunities might arise in the 3D technology industry in the years to come?
  • What are the most significant challenges facing the 3D technology market in the future?
  • Who are the leading companies in the 3D technology market?
  • What are the main trends that are positively impacting the growth of the market?
  • What growth strategies are players planning to stay in the 3D technology market?

Request customization on this report @ https://www.nwdiamondnotes.com/request-for-customization/24807


Source link

]]>
http://www.ebongeek.com/regional-3d-technology-market-outlook-competitive-strategies-and-forecast-to-2025/feed/ 0
Revolutionary 3D CAD Technology Launched – Metrology and Quality News http://www.ebongeek.com/revolutionary-3d-cad-technology-launched-metrology-and-quality-news/ http://www.ebongeek.com/revolutionary-3d-cad-technology-launched-metrology-and-quality-news/#respond Tue, 21 Sep 2021 07:00:00 +0000 http://www.ebongeek.com/revolutionary-3d-cad-technology-launched-metrology-and-quality-news/ Nextech AR Solutions Corp. (“Nextech), a leading and diverse provider of augmented reality (“ AR ”) experience technologies and services, has announced the launch of its revolutionary CAD-to-POLY solution. The Company now integrates technology into its services to create optimized 3D meshes suitable for 3D and AR applications. Due to the global CAD market dominated […]]]>

Nextech AR Solutions Corp. (“Nextech), a leading and diverse provider of augmented reality (“ AR ”) experience technologies and services, has announced the launch of its revolutionary CAD-to-POLY solution. The Company now integrates technology into its services to create optimized 3D meshes suitable for 3D and AR applications. Due to the global CAD market dominated by large manufacturers of; automotive, aerospace, industrial machinery, civil and construction, electrical and electronics, pharmaceutical, healthcare, consumer goods and others, the company believes that this technology gives the company a leading edge in the market (according to BIS Research ) of 11 billion Canadian dollars. and extends its augmented reality business beyond e-commerce.

The Company has filed a provisional patent covering the conversion of CAD files into 3D models. The ability to convert CAD models to 3D models means dramatically improved scalability associated with Nextech’s 3D models for e-commerce, with the creation of photorealistic, fully textured 3D models from raw CAD models and reference images.

CEO Evan Gappelberg commented on the technology: “Most modern products ever built have been made from reference CAD models. Think about it, that represents billions of products around the world, and Nextech has invented an easy way to turn them into 3D models. Instead of using 2D images to create 3D models, we now have the ability to go straight to the source, where the products are actually designed by engineers (CAD files) and turn them into perfect 3D models, to large scale. Our new CAD to POLY solution is based on technology that will prove to be the holy grail of scaling 3D content.

Currently, CAD is a function of product engineering. Industrial designers, working for product manufacturers, use CAD software (eg, AutoCAD, SolidWorks, etc.) to design many products of the modern world. To use these CAD files for commercial purposes, the CAD file must be converted to a 3D model which is a digital replica of the physical product.

Nima Sarshar, CTO of Nextech AR, commented on the issues with meshes natively exported from CAD, “Nextech solved all of these issues by redesigning the process of converting CAD files to 3D meshes from scratch. Rather than relying on native CAD conversion, we created CAD conversion technology from scratch, creating new techniques rooted in computational geometry, computer vision, and physics. When given a CAD file, we can now create fully textured and lightweight 3D models to scale that can be used for real-time AR and 3D visualization.

Computer generated imagery requires 3D meshes

While highly desirable for manufacturing design, this poses a problem when the same 3D CAD drawings are going to be used for computer generated imaging (CGI). 3D CGI is almost exclusively based on the concept of tessellated surfaces (which are hollow and not solid). In fact, there is no concept of a solid in most CGI design tools; everything is surface. Additionally, renderers that render 3D CGI objects require tessellated meshes for optimization of ray scattering and shading. This is how almost all 3D modeling and rendering software works. Therefore, in order to be able to use a CAD design for CGI purposes (for example, to allow customers to view the product in 3D on their mobile or desktop websites), a 3D CAD model must be translated into a polygonal mesh. This global operation is called CAD to POLY or C2P. A detailed overview of the process can be read at Automatically transform 3D CAD designs into CGI ready 3D models

For more information: www.nextechar.com

HOME PAGE LINK


Source link

]]>
http://www.ebongeek.com/revolutionary-3d-cad-technology-launched-metrology-and-quality-news/feed/ 0
3D technology that gave the turtle a unique shell, now used to check its progress http://www.ebongeek.com/3d-technology-that-gave-the-turtle-a-unique-shell-now-used-to-check-its-progress/ http://www.ebongeek.com/3d-technology-that-gave-the-turtle-a-unique-shell-now-used-to-check-its-progress/#respond Tue, 14 Sep 2021 03:34:00 +0000 http://www.ebongeek.com/3d-technology-that-gave-the-turtle-a-unique-shell-now-used-to-check-its-progress/ The turtle is considered one of a kind and will live its days at the birch aquarium due to issues with its posterior fins. SAN DIEGO – A turtle that lives in San Diego is believed to be the only one of its kind in the world, with a shell imprinted with three-dimensional technology. That […]]]>

The turtle is considered one of a kind and will live its days at the birch aquarium due to issues with its posterior fins.

SAN DIEGO –

A turtle that lives in San Diego is believed to be the only one of its kind in the world, with a shell imprinted with three-dimensional technology.

That was about five years ago.

Now, similar 3D technology is used to scan the loggerhead. She went from 90 to 200 pounds, but she still has the same 3D printed corset that goes over her shell.

Aquarist Kaelie Spencer pointed out the sea-safe epoxy that is now covered in algae, which is really the only way to know this turtle has a printed shell.

She also showed News 8 what the turtle’s fins should look like, but instead her hind fins are tucked under her and she can’t move them. That’s why she will live at the Birch Aquarium for the rest of her life – maybe another 75 years.

“She doesn’t have the muscle strength to go out into the wild without those posterior fins,” Spencer said.

The turtle was rescued from a power station in New Jersey where it was discovered to be suffering from scoliosis. His spine forced his shell to grow into his reproductive organs, so they replaced the lump known as the scale.

They carefully took the special turtle out of the water for its scan. Thanks to the naturalists who helped guide her through a basket, they were then able to see how she was doing in a way that had never been done at Birch Aquarium before. This is done using a structured 3D scan in blue light by the Digital Media Lab of the Geisel Library at UC San Diego in collaboration with the UCLA Library.

“What’s great about this technology is that it allows us to map how much it’s growing and how much that scale might change,” Spencer said.

The scan is fast, it’s harmless, and they covered her eyes to keep her calm.

“She often hides her head. You can see her whole body, but if she hides her head, she’ll think, “you can’t see me.” Like a kid playing hide and seek, ”Spencer said.

But on the scan, they can see it – all the furrows and curves that make it unique. And they were able to put her back in the water in about 20 to 30 minutes, which is much faster than taking her to another facility for a scan.

The latest scan is superimposed on his scanner from a few years ago to check for growth and changes. What they found is that the turtle is not yet growing out of its splint, which in this case is a good thing. The prosthesis still holds.

“We didn’t really know that. This is the first time this has been done, so we were very pleasantly surprised to see how much it stayed in place and how much it helped her,” Spencer said. .

3D scans have been used on other marine species like coral, shark jaws, egg sacks, birds, and they also use it on starfish and sea urchins; complex and fragile creatures can still be studied and their images can be saved and shared in digital form.

“The 3D technology is mind blowing,” said Spencer. “The possibilities are truly endless.”

And they have proven to be lifesaving for a one-of-a-kind turtle whose life began with many challenges.

“It’s wonderful that we were able to provide her with a home forever and a better quality of life for her by doing cutting-edge science,” said Spencer.

WATCH RELATED: Local Turtle Receives Unique ‘Wetsuit Therapy’ – February 2021


Source link

]]>
http://www.ebongeek.com/3d-technology-that-gave-the-turtle-a-unique-shell-now-used-to-check-its-progress/feed/ 0
Ghana receives latest training in 3D technology for neurosurgery http://www.ebongeek.com/ghana-receives-latest-training-in-3d-technology-for-neurosurgery/ http://www.ebongeek.com/ghana-receives-latest-training-in-3d-technology-for-neurosurgery/#respond Fri, 10 Sep 2021 07:00:00 +0000 http://www.ebongeek.com/ghana-receives-latest-training-in-3d-technology-for-neurosurgery/ Ghanaian neurosurgeons were introduced to the UpSurgeOn Academy training platform, which aims to enhance the traditional approach to teaching neurosurgery through the use of three-dimensional (3D) technologies applied to surgical simulation . The latest global training technology breaks down the challenges of surgery into various brain boxes, which were real-time 3D printed images of the […]]]>

Ghanaian neurosurgeons were introduced to the UpSurgeOn Academy training platform, which aims to enhance the traditional approach to teaching neurosurgery through the use of three-dimensional (3D) technologies applied to surgical simulation .

The latest global training technology breaks down the challenges of surgery into various brain boxes, which were real-time 3D printed images of the brain, showing real-time situations and pathologies in the brain.

It also comes with software downloaded to a mobile phone or tablet to allow the learner to scan any part of the brain, and also freely interact with the models through a combination of virtual reality and these. simulated brain boxes offering surgeons the operating experience.

It is, however, important for people to know that there is a slight difference between a neurosurgeon and a neurologist even though they are both physicians who specialize in treating medical problems affecting the central nervous system, which controls most of the functions of the body. body and mind. composed of the brain and spinal cord.

While neurosurgeons focus on the surgical aspect of treatment and often serve as consultants to other health specialists due to their practical knowledge and high skills with the human nervous system, the neurologist uses alternative forms to treat patients with illnesses and conditions such as headaches, Alzheimer’s disease, sleep disturbances, pain and brain tumors.

It is therefore very important to always know the difference between doctors when trying to diagnose a particular medical condition.

Dr Teddy Totimeh, neurosurgeon at the University of Ghana Medical Center (UGMC), where the training takes place, told the Ghana News Agency (GNA) in Accra that the technology is revolutionary as it will replace the use corpses (dead bodies), which were traditionally used for hands-on learning in medical schools.

He explained that using corpses for hands-on training presented challenges and limitations as there was no possibility to create different scenarios or environments that learners could practice with, meaning it all depended on chance. until the surgeon walks into the theater to carry the knowledge and skills learned about a patient for life, and that’s where confidence slowly built up in dealing with the different types of cases presented.

Dr Totimeh said the benefits of these latest 3D technologies include the fact that through these simulations the learner was able to create several repeated scenarios using the standard operating equipment used in the theater for surgeries for their practice. in order to gain the desired experience and the ability to perform a particular type of surgery.

“The advantage here is that it ensures a risk-free environment as no one’s safety is compromised, and this is done in a relaxed situation, where the trainees can gain a lot of experience as they can practice over and over again”, he added.

Dr Totimeh, said the first training in Ghana had five neurosurgery residents as learners, in addition to neurology consultants who will want to deepen their skills and expose themselves to all kinds of surgeries that were not traditionally performed. in the country, and the processes will also be streamed live on the UGMC’s Facebook page for the benefit of others, including the West African Neurosurgeon Community, to watch as well.

Dr Abass Adam, President of the Ghana Academy of Neurosurgeons (GNAS), said Ghana is very fortunate to have been selected by the UpSurgeOn Academy as part of its location to showcase this technology, as well as for the global training program to stimulate learning.

He said this technology allowed surgeons to acquire a lot of skills in a very short time that they would not otherwise have taken many years to acquire, and suggested that this was a good opportunity for Ghana to acquire new skills. urgently these brain boxes rather than returning them after training. .

“For two weeks that we’ve been working on these brain boxes together, I don’t think we’ve had to turn the boxes around. It is something revolutionary for participation in the training of neurosurgeons in Ghana if we are able to acquire this facility, ”he said.

Dr Adam said the training has three stages consisting of the knowledge and skills of using the software and brain boxes and then the hybrid stage where the two had to be mixed to perform surgery by addressing the pathology or the disease. cause and effect of the disease in any part of the brain as in real time situations.

He said that neurosurgeons young and old can learn many skills and apply them to various pathological situations such as an aneurysm.

An aneurysm is a medical condition that causes areas of an artery in the brain, the back of the knee, or the intestine to swell and weaken, among others, and studies show their treatment ranges from watchful waiting. to emergency surgery.

Dr Agyen Mensah, neurosurgeon and treasurer of GANS, said that although it has a particular interest in neurovascular surgery, Ghana currently lacks the capacity in this area, with no particular health facility being sufficiently equipped to treat neurovascular surgery. patients with pathologies such as an aneurysm.

He said the aneurysm could cause the brain to rupture leading to stroke or intestinal hemorrhage, and both could be fatal with the current lack of knowledge and care, noting that large numbers of patients in Ghana are died almost immediately after complaining of the severe head attack. or upset stomach.

“We have started to set up surveys and have noticed that on average nationwide no less than 20 cases of aneurysm are recorded in a month”, and that could be catastrophic because many people can suffer from disease but may not have knowledge or research. for medical care, he said.

Dr Mensah warned that the disease could happen to anyone, regardless of their social or economic status, without warning, and it can be a disaster for a country like Ghana which does not have a specific treatment center. for this type of disease, and that is why the GANS considered it crucial for the acquisition of these brain boxes for the improvement of the expertise of neurosurgeons, for a better delivery of health care.

Universal Health Coverage (UHC) 2030, highlights the contributions of all health professionals in the perspective of achieving the Sustainable Development Goals (SDGs), so to accelerate progress there must be an increase in national resources for public financing of health in the most equitable and sustainable way.

In the Abuja Declaration signed by the heads of state of African Union countries in 2001, they pledged to allocate at least 15% of annual budgets to improving the health sector, but the expenditure of the government in the health sector remain a challenge.

Other studies show that weaknesses in health systems manifested themselves with the onset of the COVID-19 pandemic, which has crippled many people and continues to threaten even the seemingly strong systems of worthy nations around the world.

Equity is at the heart of UHC. Therefore, all roadmaps to achieve the 2030 goals must include the most vulnerable people who struggle to access even basic services and who would be pushed further into poverty trying to meet a basic need.


Source link

]]>
http://www.ebongeek.com/ghana-receives-latest-training-in-3d-technology-for-neurosurgery/feed/ 0
Vizoo presents xTex 3D technology at MUNICH FABRIC START | New http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start-new/ http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start-new/#respond Wed, 25 Aug 2021 11:00:00 +0000 http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start-new/ Munich, Germany, 25 August 2021 / PRNewswire-PRWeb / – With the increasing shift from traditional physical sampling to 3D materials in the apparel and footwear industry, the demand for high quality photorealistic materials has skyrocketed. Vizoo’s participation gives fabric suppliers more insight into the game-changing 3D material creation workflow. Vizoo’s booth will be in Hall […]]]>

Munich, Germany, 25 August 2021 / PRNewswire-PRWeb / – With the increasing shift from traditional physical sampling to 3D materials in the apparel and footwear industry, the demand for high quality photorealistic materials has skyrocketed. Vizoo’s participation gives fabric suppliers more insight into the game-changing 3D material creation workflow.

Vizoo’s booth will be in Hall 2 Booth C12 where the professional xTex A4 3D scanner will be on display. Vizoo 3D experts will perform a live demonstration for visitors. To examine the process of creating digital twins, visitors are encouraged to bring their own materials to perform free sample analyzes. Through direct experience, they can assess the performance of xTex technology.

Vizoo will be exhibiting with several 3D fashion technology providers, all of which are FABRIC.ID partners of Munich Fabric Start. This initiative will provide accessible, fast and high quality service to help fabric suppliers digitize their products.

XTex technology is not limited to technological know-how. With more automatic instant rendering features available in its version 2.4, such as new renderer scenes, material rotation, and mirrored mosaic effects, xTex technology has become more accessible to users of the clothing industry. These advanced features allow newbies to 3D, especially material suppliers, to create their render quickly and easily with just one click in the software.

Martin Semsch, the founder and CEO of Vizoo is invited to participate in the FABRIC.ID – DIGITIZE YOUR FABRIC innovation panel with other leading suppliers of 3D fashion technologies to share their views on 3D solutions and their implementation in the clothing industry. “We are honored to showcase our technology at this remarkable international event. By combining our skills and knowledge with our partners, creating a digital twin of a fabric is now possible for every brand and supplier, ”said Martin.

About Vizoo

Vizoo is the leading provider of solutions for the physically accurate scanning of material samples. Since 2013, automotive, clothing, footwear and home fashion brands have benefited from Vizoo’s xTex system to digitize their material processes and create digital twins of physical material samples. To date, the company has developed an extensive network of over 300 customers and distributes its systems in over 40 countries around the world. To learn more, please visit https://www.vizoo3d.com/.

About Munich Fabric Start

Munich Fabric Start is a leading international trade fair for fashion fabrics and accessories. Each season the Munich based event presents an exclusive range of approximately 1,800 basic haute couture collections from more than 1,000 suppliers in more than 35 countries. The bi-annual event presents the latest developments and trends in fabrics, prints, wovens, accessories, innovations and sustainable materials, smart textiles and technologies, complemented by various expert workshops, seminars and trend presentations. More information is available here: https://www.munichfabricstart.com/en/

Media contact

Renate eder, Vizoo GmbH, +49 8937917647, renate.eder@vizoo3d.com

SOURCE Vizoo GmbH


Source link

]]>
http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start-new/feed/ 0
Vizoo presents xTex 3D technology at MUNICH FABRIC START http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start/ http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start/#respond Wed, 25 Aug 2021 07:00:00 +0000 http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start/ By combining our skills and knowledge with our partners, the creation of a digital twin of a fabric is now possible for each brand and supplier. MUNICH, Germany (PRWEB) 25 August 2021 With the increasing shift from traditional physical sampling to 3D materials in the apparel and footwear industry, the demand for high quality photorealistic […]]]>

By combining our skills and knowledge with our partners, the creation of a digital twin of a fabric is now possible for each brand and supplier.

With the increasing shift from traditional physical sampling to 3D materials in the apparel and footwear industry, the demand for high quality photorealistic materials has skyrocketed. Vizoo’s participation gives fabric suppliers more insight into the game-changing 3D material creation workflow.

Vizoo’s booth will be in Hall 2 Booth C12 where the professional xTex A4 3D scanner will be on display. Vizoo 3D experts will perform a live demonstration for visitors. To examine the process of creating digital twins, visitors are encouraged to bring their own materials to perform free sample analyzes. Through direct experience, they can assess the performance of xTex technology.

Vizoo will be exhibiting with several 3D fashion technology providers, all of which are FABRIC.ID partners of Munich Fabric Start. This initiative will provide accessible, fast and high quality service to help fabric suppliers digitize their products.

XTex technology is not limited to technological know-how. With more automatic instant rendering features available in its version 2.4, such as new renderer scenes, material rotation, and mirrored mosaic effects, xTex technology has become more accessible to users of the clothing industry. These advanced features allow newbies to 3D, especially material suppliers, to create their render quickly and easily with just one click in the software.

Martin Semsch, founder and CEO of Vizoo is invited to participate in the FABRIC.ID – DIGITIZE YOUR FABRIC innovation panel with other 3D fashion technology providers to share their views on 3D solutions and their implementation in the garment industry. “We are honored to showcase our technology at this remarkable international event. By combining our skills and knowledge with our partners, creating a digital twin of a fabric is now possible for every brand and every supplier, ”said Martin.

About Vizoo

Vizoo is the leading provider of solutions for the physically accurate scanning of material samples. Since 2013, automotive, clothing, footwear and home fashion brands have benefited from Vizoo’s xTex system to digitize their material processes and create digital twins of physical material samples. To date, the company has developed an extensive network of over 300 customers and distributes its systems in over 40 countries around the world. To learn more, please visit https://www.vizoo3d.com/.

About Munich Fabric Start

Munich Fabric Start is a leading international trade fair for fashion fabrics and accessories. Each season, the Munich-based event showcases an exclusive range of approximately 1,800 basic haute couture collections from over 1,000 suppliers from over 35 countries. The bi-annual event presents the latest developments and trends in fabrics, prints, wovens, accessories, innovations and sustainable materials, smart textiles and technologies, complemented by various expert workshops, seminars and trend presentations. More information is available here: https://www.munichfabricstart.com/en/

###

Share the article on social media or by email:


Source link

]]>
http://www.ebongeek.com/vizoo-presents-xtex-3d-technology-at-munich-fabric-start/feed/ 0