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From “Radders” in 1981 to “Kingdom of Crystal Skull” in 2008, the movie “Indiana Jones” uniquely imprinted the image of an archaeologist on the public. The archaeologist, wearing a fedora hat and wearing an old cross bag, is searching the world for the ark, the Holy Grail, and the remains of Nurhachi. Until the mid-20th century, archaeologists had a strong atmosphere like field workers, if not like Indiana Jones.

But 21st-century archaeologists are more like scientists and engineers using advanced technology at their disposal, surrounded by satellites, computer programs, and various experimental instruments.

A joint research team at Max Planck Institute of Human History and Archaeology at Exeter University in the U.K. announced on the 17th that it has developed a method to restore artifacts, bones, and plants that were discovered at the site using artificial intelligence (AI) and 3D printing technology. The results of the study were published in the April 16 issue of Floss One, an international journal published by the U.S. Public Science Library.

In the field of anthropology and archaeology, it is important to restore relics and remains made of plants as well as stones, ceramics, and metals excavated from the ruins and express them visually. This is because it not only brings the past to reality and shows it to researchers, students, and the public, but also allows them to grasp the level of culture or technology at the time. Until now, there has been a limitation in that it is not easy to reproduce the restoration technology as it was.

For this reason, digital photography and 3D scanning technologies are emerging as alternatives. The 3D scanner is an optimized technology for restoring buildings without design drawings because it can express artifacts as 3D data and combine digital images of various time and space based on it. In fact, Oxford University’s Digital Archaeology Research Institute restored the Syrian Palmyra Arc de Triomphe and Bell Temple arch model destroyed by IS with 3D scanner technology and exhibited it at Trafalgar Square in London in 2016. The problem is that restoring similar to the actual one is expensive and takes a long time to produce.

The research team developed restoration technologies called SOAP and HRP by utilizing computer graphics technology that makes video games and AI and 3D printing technologies with existing 3D spatial information and 3D scanning technologies. Using the two technologies, it is possible to accurately restore small parts even though they are not the actual size.

SOAP, a “small object and art photography,” is similar to a common digital photographic correction technology that supports the initial setup of digital cameras used by archaeologists in the field for digital restoration of artifacts. If HRP, a high-resolution photogram technology, is applied to relics taken at the site, it is possible to digitally reconstruct the appearance of the relics and even make them into small models through a 3D printer. The research team is known to have allowed related researchers to use the newly developed restoration technology freely.

Using this technology, it will also be possible to develop a 3D online artifact library that anyone can enjoy artifacts online. It has the advantage of being able to appreciate artifacts by moving them to a place or time point where they were originally located, rather than simply viewing them in three dimensions with AI technology.

“Science plays an important role in filling the void of imagination in traditional humanities such as archaeology,” said Felipe Rodriguez, a professor at Exeter University in the U.K., adding, “3D printing technology that shows past technologies and cultures at a glance like movies and photos will raise modern archaeology to the level of precision science.”

IDEND announced on the 18th that it will enter the fields of NFT (non-replaceable token) and Metabus (the three-dimensional virtual world mixed with reality), which are emerging as the hottest services in the economy as a whole.

Accordingly, IDND makes various industrial drawings such as 3D printing, 2D·3D, AR·VR, fashion design, and education into NFT. Analysts say that convenience and ease are expected to improve in terms of copyright protection, transactions, and management by applying NFT technology to industrial drawing areas where intellectual property (IP) infringement is frequent.

Since the virtual asset token millimeter (MM) of the millimeter project operated by IDEND is listed on the global virtual asset exchanges Bithumb, Gate IO, and MEXC, the intangible value of industrial design drawings is transformed into NFT, enabling businesses to buy and sell like stocks.

NFT, which has recently attracted more attention in the art field, is one of the blockchain technologies, and is a digital asset that has given high values such as ownership and transaction history. It refers to a service that guarantees original proof and trades ownership by giving originality to pictures, videos, and music that existed as digital files.

IDND will also join hands with DYD, a KOSDAQ-listed company, to enter the NFT-based virtual real estate market. The plan is to make 3D architectural drawings into NFTs and use them on metabus platforms.

In particular, it plans to design and sell theme parks on Metabus real estate platforms with NFT, architectural drawings protected by intellectual property rights. In addition, the concert hall, virtual house design, and interior NFT props will be introduced. 메타버스 관련주 총정리

CEO Shin Shin-chul said, “We plan to provide real estate NFT services ranging from general interior to professional construction drawings to Metabus platform users. We will stand as a global intellectual property sharing blockchain platform that creates new markets and paradigms in the ecosystem.”

The 3D printing market report in the oil and gas sector includes demand-side strategic analysis and uses technology to triangulate supply-side analysis. This report not only provides forecasts and forecasts, but also provides a clear evaluation of these statistics in terms of market change. For business owners, authorities and investors, these insights combine data-based research approaches with qualitative sessions. Information and data will also help customers neutralize their concerns. Various visions of 3D printing market reports in the oil and gas sectors are based on the broad cycle of primary and secondary studies conducted by analysts throughout the research process. Predictors and professional consultants can be trusted by running global statistical customer analysis tools and market forecasting procedures to achieve results. The 3D printing market report survey in the oil and gas sector provides a detailed survey of the numerous customer journeys applicable to the market and its sub-sector. It provides a variety of customer perspectives on products and services.

Fast prototyping, reduced delivery lead times, significant downtime, and cost-effective benefits of 3D printing are key factors driving the growth of 3D printing in the oil and gas markets.

3D printing is the process of constructing physical objects in a digital framework using a printer. The advantages of 3D printing, such as rapid prototyping and small batch production, have boosted the demand for 3D printing in the oil and gas industries.

Sample copy of 3D printing market report in oil and gas sector:

In addition, the 3D printing market analysis report in the oil and gas sector focuses on explaining appropriate corporate measurement items such as market size, expected opportunities, and prospects. It will help you grow your brand and understand the characteristics of your customers’ purchases. It is the best tool for making sound business decisions and serves as a perfect guide for business players to strengthen their presence in the market and expand their product portfolio. The 3D printing market report in the oil and gas sector continues to discuss market-related concepts such as sales patterns, market development, market share and price structure. It will also further improve the product delivery. It consists of tips on how to track sales growth and follow several promotional techniques and objectives. Priority is given to the entire market environment and organized data is captured here. 석유 관련 주식

The major companies in the global oil and gas 3D printing market are:

In order to create a safe working and usage environment for 3D printing, the government has decided to conduct regular surveys on utilization institutions every year.

The government jointly prepared measures to strengthen the safety of 3D printing and announced them on the 8th. This measure is designed to create a working environment in which 3D printing users use equipment and materials with low emission of harmful substances in a safe way.

According to the government, 3D printing poses health risks if fine particles and volatile organic compounds (VOC) are released during the process of applying high heat to materials (filaments), and 3D printing is carried out without sufficient safety measures.

In fact, according to a number of domestic and foreign literature, there are a total of 90 types of VODs, including styrene (ABS), lactated (PLA), and caprolactam (nylon), etc.

Considering this situation, the government has been pushing for safety measures such as mandatory ▲ 3D printing safety education ▲ actual investigation and work environment improvement consulting ▲ safety technology R&D ▲ mandatory display of precautions on public procurement 3D printing equipment.

However, there are still many areas where safety management at 3D printing sites will be improved, so it plans to establish strengthened safety measures this time to systematically implement and manage them. The following summarizes the main contents of the government’s measures to strengthen safety.

◇ Safety inspection every year through a fact-finding survey…Recommendation to refrain from using insufficient institutions
First of all, the government decided to conduct an annual survey so that 3D printing safety work and usage culture can be settled on the site. It plans to conduct safety inspections on institutions using 3D printing, and institutions with insufficient safety refrain from using it.

For example, in the case of schools, if insufficient is detected in the 3D printing laboratory, the safety environment will be improved, and apps that collect and manage 3D printing usage information will also be developed and distributed to check the safety usage status of teachers in charge.

The safety guidelines for 3D printing will also be revised. The guidelines plan to provide harmful substances that can be released during 3D printing and information on their human body effects.

In addition, a 3D printing safety center is installed at the Information and Communication Industry Promotion Agency to provide stable information and safety consulting to users. The 3D Printing Support Center (Mapo 3D-FAB) will be used as an exemplary model for the safety environment.

◇ Expansion of materials and equipment that emit less harmful substances
It will also revise procurement standards for 3D printing materials. The purpose is to allow materials that have passed the test and verification of harmful substances released during 3D printing work to be used in schools and public institutions.

In particular, it is difficult to make the certification system mandatory as the causal relationship between 3D printing and certain diseases has not been proven yet, so it plans to induce similar effects by strengthening procurement standards and using materials registered by public institutions.

In addition, the government will provide guidelines for creating a safe 3D printing working environment, while revising the “Three-Dimensional Printing Industry Promotion Act” to strengthen the responsibilities of operators and others.

In addition, it plans to ensure a safe working environment when participating in R&D tasks and demonstration projects using 3D printing.

A government official said, “We will implement and inspect the plan so that there is no disruption by operating a joint public-private 3D printing safety response team with related ministries and safety experts to secure the safety of 3D printing users.”

Source: Safety Journal (http://www.anjunj.com)

Strengthen the overall safety of using 3D printing, such as working environment, equipment, materials, and usage methods –

 The government is an equipment that produces fewer harmful substances by 3D printing users.In order to create a working environment that uses materials in a safe way, related ministries jointly prepared 3D printing safety reinforcement measures and announced on March 8.

In 3D printing, fine particles and volatile organic compounds are released during the process of applying high heat to the material (filament), and there is a risk of health if 3D printing is performed without sufficient safety measures.

Accordingly, the government has been pushing for safety measures such as mandatory 3D printing safety education, 실 consulting on actual condition investigation and work environment improvement, 안전 safety technology R&D, and 공공 mandatory display of precautions on public procurement 3D printing equipment.
However, since safety management at sites using 3D printing is still to be improved, the government has decided to systematically implement and manage stronger safety measures than before.

The main contents are as follows.
First, it provides guidelines for safe use of 3D printing and establishes a support system.
First of all, the “3D Printing Safety Guidelines” are completely revised to clearly guide how to safely use 3D printing.
In addition, it plans to provide safety information and safety consulting to users by installing a 3D printing safety center at the National Information and Communication Industry Promotion Agency (NIPA).

Second, measures are taken to ensure that the safe use of 3D printing is brought to the site.
To this end, it plans to conduct an annual survey to check the safety of institutions using 3D printing, and recommend institutions with insufficient safety to refrain from using it.
In the case of schools that have confirmed that 3D printing safety is insufficient through a survey, the safety environment of 3D printing laboratories will be improved.
In addition, 3D printing usage information was collected to check the safety usage status of teachers in charge of 3D printing.It plans to develop and distribute apps that it manages.

Third, it will expand the distribution of 3D printing materials and equipment with low emission of harmful substances.
In addition, harmful substances are tested during 3D printing.The school revised the 3D printing material procurement specifications so that materials that have passed the verification can be procured.Public institutions will take measures to use procured goods.

Fourth, improve the system for strengthening 3D printing safety and expand publicity.
The 3D Printing Industry Promotion Act is revised to provide safe working environment guidelines to 3D printing businesses and to give them the obligation to create them.
In addition, in order to participate in R&D tasks and demonstration projects using 3D printing in the future, a safe working environment must be established.

The above measures are promoted through channels mainly used by 3D printing users such as purchasing routes (Nara Marketplace, etc.) and video platforms.We plan to push ahead with the plan.

The government plans to operate a joint public-private “3D Printing Safety Response Team” with related ministries and safety experts to ensure the safety of 3D printing users and further promote the 3D printing industry based on safety.

[Source] South Korea Policy Briefing (www.Korea).kr)

Edmic Bio (CEO Ha Dong-heon) is a company that develops a “long-term chip platform” used to develop new drugs and prescribe patient-specific drugs with 3D bioprinting technology.

Admic Bio is a company that develops long-term chips based on 3D bio-printing, bio-ink, and micro-current technology. The photo shows Ha Dong-hun, CEO of Edmic Bio. Edmic Bio is provided
Admic Bio is a company that develops long-term chips based on 3D bio-printing, bio-ink, and micro-current technology. The photo shows Ha Dong-hun, CEO of Edmic Bio. Edmic Bio is provided
Organ chips are platforms that implement organs in the body outside the body and conduct various experiments. In order to develop new drugs, non-clinical trials such as cells and animals are conducted, but non-clinical trials are different from the actual human environment, so there is a problem that the accuracy falls below 8%.

Organ chips are implemented similarly to actual organs, and three factors are essential to increase accuracy: “long-term physical environment,” “long-term biochemical environment,” and “long-term flow environment.”

Edmic Bio is a company with all the essential elements ▲ More than 15 years of 3D bioprinting research experience ▲ The world’s first organization and long-term bio-ink capable of 3D printing and has technology to create an environment close to the actual long-term.

Edmic Bio implements long-term chips based on 3D bio-printing ▲ bio-ink extracted directly from tissues and organs that simulate the physical environment of ▲ organs and micro-fluidic technologies that help efficient experiments with the flow environment.

Through this, animal testing can be replaced in the process of developing new drugs, and several anticancer drugs can be tested with cancer chips using patients’ cancer cells, and the results can be provided to patients to expect better prognosis.

Edmic Bio aims to implement a “patient-tailored drug prescription platform.” After cancer cells in cancer patients are made into organ chips, effective combinations of various drugs are found to enable more accurate prescription and treatment.

Edmic Bio has also secured a technological foundation comparable to a global organ chip company by receiving DNA transplants from Pohang University of Science and Technology.

Global Global 3D Printing Biomaterial Market Data includes company profiles, product images and specifications, capacity, production, price, cost, revenue and contact information. Upstream raw materials and equipment, and downstream demand evaluation are also provided.

Global 3D printing biomaterial market growth patterns and marketing channels are investigated. Finally, evaluate the feasibility of the most recent investment proposal and provide overall analysis results.

Download the free sample report: https://www.marketquest.biz/sample-request/66932

The study focuses on the most recent skilled aspects of 3D printing, such as analysis of bio-material industry production networks, product launch events, growth and risk factors worldwide. It includes production methods, quantities, product standards, major sourcing, major suppliers, customers, organizational structure, and global location research.

Type segments include:

ceramic
polymer
composite material
Applications include:

hospital
clinic
Research Institute
Guitar
Areas covered in the report:

North America (USA, Canada and Mexico)
Europe (Germany, France, Britain, Russia, Italy and other Europe)
Asia-Pacific (China, Japan, Korea, India, Southeast Asia and Australia)
South America (Brazil, Argentina, Colombia and other South America)
Middle East and Africa (Saudi Arabia, UAE, Egypt, South Africa, Middle East and the rest of Africa)
Based on a five-year record, the study includes the size and growth of the current 3D printing biomaterial market, as well as an overview of major players/manufacturers.

EnvisionTEC
Biobots
RegenHU
Cellink
Organovo
3Dynamic System
Poetis
Full Report Access: https://www.marketquest.biz/report/66932/global-biomaterials-for-3d-printing-market-2021-by-manufacturers-regions-type-and-application-forecast-to-2026

Collection and analysis of market data information using primary and secondary sources. The primary sources include demand and supply experts, while the secondary sources include annual reports, presentations, press releases, journals and paid databases. Primary and secondary sources are used to verify the global market size. The primary sources include demand and supply experts, while the secondary sources include annual reports, presentations, press releases, journals and paid databases.

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