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Video article 3:40
The Latest Technology, a Super Heat-Resistant Alloy, Reduced the Fuel Consumption of Airplanes by a Whopping 100 Million Yen! Introducing the Manufacturing Process and Research of the New Material Developed by a Japanese Research Institute!
Life & Business- 47 plays
- YouTube
A New, Super Heat Resistant Alloy That Has Improved Fuel Efficiency in Airplanes! This video "World-Record Super Heat-Resistant Alloy That Has Improved the Fuel Efficiency of Aircrafts!" (ジェット機の燃費向上を実現した世界記録の超耐熱合金), created by "nimspr," introduces the amazing processing technology of a Japanese research institution. Burning at higher temperatures reduces fuel consumption. To combat this, aircrafts, jets, and automobile makers are required to develop special material. NIMS, introduced in the video, has developed a super heat resistant alloy that can resist extremely high temperatures and currently holds the world record for super heat-resistant alloys. How Is the Superalloy Used? Photo:Airplane NIMS’ superalloy is used in the latest Boeing 787, shown at 0:21 in the video. As you can see from 0:45 in the video, ordinary metals are poly-crystalline when made in a mold, but the superalloy shown in the video is mono-crystalline with no grains, making it resistant to heat. This super heat-resistant alloy is used in turbine blades- the hottest part on all aircraft parts. By using the superalloy, it's possible to save 100 million yen per year, per aircraft. The heat resistant titanium alloy by NIMS is also highly resistant to rust. On top of that, it is incredibly light, making it a highly valued material. A Look at the New Superalloy Source :YouTube screenshot In addition to titanium, which is shown in the video, there are other kinds of materials, such as iron, cobalt, nickel, aluminum, tantalum, chromium, molybdenum and tungsten. Research institutions across japan have spent a long time researching how to combine these materials to create the perfect metal. The experimental data collected by NIMS over several decades was used to create superalloys. Summary of the New Superalloy Source :YouTube screenshot NIMS Materials Strength Standard and Technology Group conducts research on high fatigue tests which check creep properties and fatigue characteristics for superalloys. They also focus on the recycling of materials, the design of end mills for cutting superalloys, as well as promoting low-cost, high-performance development through the establishment of material design methods. This can be seen at 1:53 in the video. It'll be exciting to see what Japan's research institutes will come up with in the future! -
Video article 2:00
Japan's Science and Technology Is Second to None! Let's Hear What the Engineers Have in Store for Japan's Future!
Life & Business- 23 plays
- YouTube
This video, titled "Japan's Science and Technology Connecting the World - For a Sustainable Future" (世界をつなぐ日本の科学技術—持続可能な未来のために), was released by Japan's Ministry of Foreign Affairs. This video features interviews with Japanese engineers who are active in the fields of both medicine and engineering. Starting with the IPS cells introduced by Professor Shinya Yamanaka, a surgeon, to AI-powered robots, chemistry is essential for enriching life and living. It is not an exaggeration to say that Japan is a good place to live today because of the many scientists in addition to those featured in this video. In this video, you can hear the thoughts of these scientists, so I highly recommend you to watch it. -
Video article 5:14
Learn the Depths of Science by Experimenting With Familiar Materials! For Future Scientists|#14 A Return to Superhydrophobia!
Life & Business- 21 plays
- YouTube
This video, titled "For Future Scientists|#14 A Return to Superhydrophobia!" ( 未来の科学者たちへ #14「超撥水ふたたび」), was released by "nimspr." This is the 14th episode of the popular "For Future Scientists" series, "A Return to Superhydrophobia," in which you can learn about basic science using everyday objects. As you can see from the title "A return," the previous episode was about the theory and experiments of super hydrophobia, but this time, two easy to understand experiments are conducted to show how super hydrophobia works in real life. Both experiments can be done with easily obtainable materials. For super water-repellent coatings, water-repellent sprays and paints sold at home improvement stores could be used as substitutes. If you're interested in trying these experiments out, be sure to give them a try, as it's easier to learn through hands on experiences! -
Video article 1:55
The Airplanes of the Future Are Powered by Electricity! Electric Airplanes Are Getting a Lot of Attention as a Resource- and Eco-Friendly Hybrid Vehicle!
Life & Business- 17 plays
- YouTube
This video, titled "The Japan Aerospace Exploration Agency (JAXA)|Promoting the Practical Application of Electric Planes. It was released by "ikinamo Japan." In this video, the Japan Aerospace Exploration Agency (JAXA) introduces an electric propulsion system for an aircraft that they have on display. As electric vehicles are becoming more commonplace, they are aiming for the practical application of electric planes, as there is a demand for emission-free. Electric planes, which use electric motors and are good for resources and the environment, are attracting attention from around the world for their practical use. This video introduces the benefits of electric planes and the future of electric planes with video footage, so if you're interested in learning more, be sure to check it out. -
Video article 5:40
The Japanese Experiment Module "Kibo," the Keystone of the International Space Station! Introducing Japan's Cutting-Edge Space Research Technology!
Life & Business- 58 plays
- YouTube
The Japanese Experiment Module “Kibo,” the Largest on the International Space Station The video "2019-2020 JAXA Manned Space Activities - "Kibo" and Beyond" (2019-2020 JAXA 有人宇宙活動~「きぼう」その先へ) uploaded by “JAXA,” introduces the Japanese experiment module “Kibo” of the International Space Station. The area known as Low Earth Orbit (LFO) (less than 2,000 km from the Earth), is said to be the gateway to space, and is where various satellites fly. As you can see from 0:33 in the video, Kibo, one of the largest space experiment facilities, was completed in 2009 on the International Space Station. It orbits at an altitude of about 400 kilometers. In terms of size, it is approximately 108.5 meter x 72.8 meters, weighs 420 tons, and flies at speed of about 27,000 km/h (~16,777 Mph). “Kounotori,” the cargo transporter, was also successfully launched, and Kounotori 8 has achieved a 100% mission success rate. Experiments Involving Kibo Source :YouTube screenshot The Japanese Experiment Module “Kibo” is “doing things for society that can only be done in space.” At Cell Biology Experiment Facility (CBEF), they are researching the effects of gravity on living things. This is shown at 1:37 in the video. In the fall of 2019, CBEF-L, which can equip larger devices, was also added. The Electrostatic Levitation Furnace (ELF) is a material testing device that melts materials by making them float, and can examine materials that are difficult to examine on the ground, such as glass and ceramics. The J-SSOD is a mechanism that releases small satellites using Kibo's airlock and robotic arm. The Small Optical Link for International Space Station (SOLISS), developed in collaboration with a private company, conducts experiments using optical disk technology to enable future inter-satellite and space-to-ground high-capacity communications. Beyond Low Earth Orbit Photo:Mars We're currently entering an era where exploring the moon and mars is possible. Environmental Control and Life Support System (ECLSS) technology is a system for purifying water and air. A water reclamation system based on Japan's outstanding water treatment technology is also being put to the test. The new H-II Transfer Vehicle (HTV-X) is Japan's original spacecraft that will improve Kounotori's transportation capability, and will allow for in-orbit missions that the Japanese sector is aiming for, with the goal of launching by 2021. The Astronauts of Kibo Source :YouTube screenshot There are Japanese astronauts working on the Japanese Experiment Module as well. Noguchi Soichi has maintained the Japanese Experiment Module Kibo and has conducted various experiments. He is responsible for operating the Inter-orbit Communication System (ICS), communicating with the ground through HD images, and preparing for spacecrafts and supply vehicles that visit the ISS. He also interacts with the ground by posting information, pictures, and videos on social media sites, such as Twitter. Doi Takao was in charge of installing and maintaining a storage module for “Kibo.” He organized cargo transfer between the space shuttle and the ISS as a loadmaster (cargo transfer supervisor). Hoshide Akihiko was selected for a long duration mission to the ISS in 2020 and he will lead as a captain at the end on the mission. Summary Photo:Satellite The Japanese Experiment Module "Kibo" is a key facility of the ISS. We are proud to say that Japanese technology is at the forefront of space activities. Let's think back to the Japanese engineers and astronauts who continue to play an active role in space, through this video! 【Official Website】JAXA https://global.jaxa.jp/projects/iss_human/kibo/ -
Video article 7:42
HTV "Kounotori" 8 With a 100 Percent Success Rate! A Look at Japan's High-Precision Technology, Which Holds the Key to the Future of Space Research!
Life & Business- 32 plays
- YouTube
The Introductory Video of HTV “Kounotori” 8 This video, released by JAXA, is titled "H-2 Transfer Vehicle: Kounotori 8 (HTV 8) Mission Summary." The H-2 transfer vehicle Kounotori 8 (HTV 8), featured in the video, is an unmanned vehicle developed in Japan that delivers supplies to the International Space Station (ISS). It has a 100 percent mission success rate and boasts one of the world's largest resupply capacities. This article will tell you everythign you need to know about Kounotori 8! Kounotori 8 Source :YouTube screenshot HTV Kounotori 8 started its demonstration tests for the development of the new Space Station Replenisher (HTV-X) in order to expand space utilization and to transport equipment to test future space exploration technologies. As you can see from 0:58 in the video, the H-IIB rocket was launched from the Tanegashima Space Center in September 2019, approaching the ISS that orbits the earth at an altitude of 400 meters above ground and a speed of about 8 kilometers per second. The attitude control sensor of the former HTV "Kounotori 6" controlled its attitude using the earth as its axis. The Kounotori 8, on the other hand, uses a star tracker (stellar sensor), controlling its attitude based on stars’ positions. You can see how it works from 1:46 in this video. In the technical verification, the loading capacity was increased by about 30 percent through the use of a new supply rack to enhance the transport capacity of the vessel. The Resupply Mission of Kounotori 8 Source :YouTube screenshot As seen at 2:29 in the video, Kounotori 8 is captured by the robotic arm of the ISS and begins it's 34-day resupply mission. It carries not only food but also transportation equipment for the ISS’s planetary exploration, such as new batteries and SOLISS, (Small Optical Link for International Space Station). From 3:35, you can see a video of the global camera equipped with SOLISS. Moreover, Kounotori 8 was also equipped with CBEF-L (Cell Biology Experiment Facility-Left), a device to study biological cultures in space, and "Hourglass" a gravity dependency investigating device. A microsatellite was also injected into orbit at the Japanese Experiment Module "Kibo." Summary of Kounotori 8 Source :YouTube screenshot From 5:11 in the video, you can see Kounotori 8 completing its 34-day mission and re-entering the earth's atmosphere. Kounotori's resupply mission to the ISS was a success thanks to Japan's high-precision space technology! 【Official Website】 HTV "Kounotori" 8 Fun! Fun! JAXA! https://fanfun.jaxa.jp/countdown/htv8/ -
Video article 6:31
Traveling in Japan for the First Time Is Easy With a Translator! As Long as You Have This, You Can Easily Experience Kimono Rental, Gourmet Food, and Sightseeing All by Yourself!
Travel- 28 plays
- YouTube
This video, titled "Traveling Japan with only an instant translator | ili," was released by "internationally ME." The translator shown in this video is called ili, and it's a very handy tool for traveling abroad. You don't need to be connected to the internet at all, and it's a one-way translator that automatically translates the words you speak into the language you want to translate. It's small enough to fit in your pocket, and can be used with Japanese, Chinese, English, and Korean. In the video you can see someone using ili in Asakusa, Japan. Be sure to check it out! -
Video article 5:00
What Does the Future Have in Store for Us? The State-Of-The-Art Technology in the Super Smart Society, "society5.0", Proposed by the Government!
Life & Business- 99 plays
- YouTube
Check out the Introduction Video of the Super Smart Society "society5.0" "Super Smart Society: Opening the Future Society 5.0(超スマート社会 未来を開くSociety 5.0)" produced by jstsciencechannel is a video about "Society5.0". Society5.0 is a super smart society based on the Science and Technology Master Plan recommended by the Ministry of Education, Culture, Sports, Science and Technology and Japan Business Federation. The government has stated that it will begin efforts to realize a super-smart society led by science, and innovation, following the hunting, agricultural, industrial, and information society. Ultra-Smart Society "society5.0" Initiative 1: Smart Factories Source :YouTube screenshot The Internet connection of things, which is used in all aspects of industry and life, is called IoT. It is expected that new values will be created one after another by integrating the real world and cyberspace through communication. For example, in the industrial field, smart production systems (smart factories) that connect artificial intelligence sensors and big data on production lines, like the 4th Industrial Revolution recommended in Germany, are attracting attention. This can be seen at 0:30 in the video. Ultra-Smart Society "society5.0" Initiative 2: Ultra-Compact Mobility Source :YouTube screenshot Intelligent transportation system is one of the initiatives of Society5.0. At Asuka Village in Nara Prefecture, they are conducting a demonstration test of the “MICHIMO” rental service of “micro-miniature mobility” for tourists. You can watch a video of a commentary on the ruins of the Ishibutai Tomb being checked on a terminal mounted on an electric vehicle. In addition, the management of electric vehicles can be easily performed with the “Charging/Authentication System”. In addition, experiments on the uniform automatic driving of buses and trucks are already underway. The aim is to improve the efficiency of road transport and reduce traffic accidents. This can be seen from 1:18 in the video. Ultra-Smart Society "society5.0" Initiative 3: Community-Based Comprehensive Care System Source :YouTube screenshot The super-smart society "Society5.0" is also useful for medical care and health management. Innovative systems that can be used in medicine are being developed one after another, such as a cuffless blood pressure measurement using a chair, and a system that can take electrocardiogram measurements while sleeping with an electrode device sewn in pajamas or a bed cover. Data can be sent in real time to physicians at remote locations, and while currently patients currently need to visit hospitals for a checkup, with this system, they are protected by the network and can be informed that something is wrong before they even know it. This can be seen from 2:49 in the video. Summary of "society5.0" Source :YouTube screenshot In addition to being introduced in the video, Society 5.0 is expected to be used in artificial energy and for mass data in the fields of energy and disaster prevention, as well as in education and corporate sites. Through the efforts of the Cabinet Office and the Japan Business Federation, “Society5.0” will lead to new that will continue to be developed society. Are you looking forward to seeing what kind of technology will be created in the coming years? -
Video article 1:16
Japan's Space Development Started in 1955 With Pencil-Sized Rockets That Were Just 20 cm Long! Since Then, Japan’s Space Development Technology Has Advanced at an Explosive Pace, and It Now Leads the World With Its Cutting-Edge Technology!
Life & Business History- 44 plays
- YouTube
More Than 60 Years of Space Development at JAXA The video this time is titled "JAXA - The History of Japanese Space Exploration" (JAXA-日本の宇宙開発史ハイライト-), released by "JAXA | Japan Aerospace Exploration Agency." By looking up at the starry sky, many people ponder their own thoughts... we've been gazing up at the sky as a source of wisdom since ancient times. There was a time in Japan, too, when Onmyodo (the way of Yin and Yang) played an active role in politics by reading the movements of the stars and predicting good fortune. There's truly an inseparable link between humans and the cosmos. It is often misunderstood that Japan lags behind Europe and the United States in space development, but in fact, Japan has devoted more than 60 years to space development and is now one of the most successful countries in the world. JAXA plays a central role in Japan's space development. In this article, we’ll introduce the history of JAXA's space development. Be sure to follow along with the video! The History of Jaxa's Space Development Photo:Moon landing JAXA is the core organization for space development in Japan. It was established at the Tanegashima Space Center (TNSC) in 2003 through a merger between the Institute of Space and Astronautical Science (ISAS), the National Aerospace Laboratory (NAL), and the National Space Development Agency of Japan (NASDA). The three predecessor organizations were all privately funded space development agencies, but after being reborn as JAXA, they became the core organization supporting the Japanese government's space development research. The latest Japanese space probes have the world's leading technology. Here are some of JAXA's accomplishments that have left their mark on history. ・In 2007, the world's first high-definition image of the moon by the Lunar Explorer KAGUYA. (Video: 0:47〜) ・In 2009, the Japanese Experiment Module "Kibo" was completed. (Video: 0:53〜) ・In 2010, the planetary probe "Hayabusa" returned to Earth after successfully collecting surface samples from an asteroid. (Video: 0:58〜) ・In 2019, "Hayabusa2," an observation rocket, successfully touched down on the asteroid Ryugu. (Video : 1:00〜) JAXA has accomplished many great feats in the 17 years since it was founded. Japan's Space Development Before the Birth of JAXA Source :YouTube screenshot Japan's space development began in 1955 with the development of the Pencil Rocket, a very small rocket, as introduced in the beginning of the video. Just ten years after the war, Japan had already begun its domestic reconstruction and space development. In 1970, Japan's first satellite, "OHSUMI," was successfully launched. In 1985, Halley's comet was observed by "Suisei," in 1992, Mamoru Mohri became the first Japanese person to fly in space aboard a space shuttle, and in 1994, the Japan-made H-II rocket was successfully launched. Japan has a long history of great achievements even before the birth of JAXA. Summary of JAXA and Japan's Space Development Photo:Rocket It is said that Japan's space development had been attracting a great deal of attention after its Pencil launch test in 1955. The Pencil Rocket was nicknamed the "baby rocket" because of its extremely small size, with three types being developed: the S-type, T-type and R-type. At that time, the Pencil Rocket was already moving at close to the speed of sound, and the orbital data was utilized for the later Kappa Rockets. Back then it was thought to be impossible for Japan to develop a sounding rocket that could operate at an altitude of more than 100 km, but Japan succeeded in doing so using domestic technology alone. Although the U.S. and the Soviet Union have been the major space powers, Japan's technological prowess has been adopted by other countries for their rocket development. In particular, the latest engine technology of "Hayabusa" and remote-control technology will be a great asset to the history of space development to come. 【Official Website】JAXA|Japan Aerospace Exploration Agency https://global.jaxa.jp/ -
Video article 2:10
This Robot Is Sinking Shots Left and Right! Its Smooth, Light Movement Is Just Like That of a Professional Basketball Player!
Sports- 39 plays
- YouTube
The Basketball Robot, CUE4, in Action! This video, titled "CUE4, a Basketball Robot Powered by Cutting Edge AI Technology, Takes on the World's First 3-Point Contest! B.LEAGUE ALL-STAR 2020 IN HOKKAIDO" (最先端の AI テクノロジーを結集したバスケットボールロボットCUE4が世界初3ポイントコンテストに挑戦! B.LEAGUE ALL-STAR 2020 IN HOKKAIDO), released by "B.LEAGUE," introduces the latest basketball robot. The first thing you see when you play the video is the amazing sight of an AI basketball robot making a spectacular shot. Let's take a look at this basketball robot, which moves with the dexterity of a professional basketball player! The Basketball Robot, "CUE4" Source :YouTube screenshot CUE4, the basketball robot sinking shots left and right, was created by a group of Toyota volunteers, and is an AI technology robot filled with the wisdom of its development team. CUE4 is the fourth robot in the CUE series, and joined Alvark Tokyo, a professional basketball team in the B1 professional basketball league, in 2018 as a professional basketball player. CUE4 made a whopping 12 successful shots in the few minutes shown in the video. What Kind of Activities Is CUE4 Used For Source :YouTube screenshot This video shows footage from the B-League All-Star game held at the Hokkaido Prefectural Sports Center. CUE4, a basketball robot wearing a team uniform, makes a spectacular shot at the half-time show, as shown in the video. It uses an avant-garde system in which sensors determine the location of the hoop and artificial intelligence takes a series of shots. In the video, the robot grabs the balls lined up next to it and makes free throws with impressive form. You can also see it smoothly glide across the court at 0:39 in the video, exciting the fans! His fluid movements are like those of a real professional basketball player! CUE4, the first robot to play professional basketball, made headlines when he was loaned to the Levanga Hokkaido in 2020. CUE4's uniform number is "94". CUE4 Certified in the Guinness Book of World Records! Photo:Guinness CUE4 was registered in the Guinness Book of World Records under the category "most consecutive free throws made by a humanoid robot." The previous record was held by his predecessor, CUE3. In the future, the team aims to improve the power, speed and accuracy of CUE4 so that it may take on the 3-point contest. Summary of the Basketball Robot, CUE 4 Source :YouTube screenshot CUE4, featured in the video, is a professional basketball robot developed by a team at Toyota. The video, which is only about 2 minutes long, has been played over 1 million times in the months since its release. Check out the amazing skills of CUE4 as he sinks shots left and right! 【Official website】B.LEAGUE https://translation2.j-server.com/LUCBLEAGUE/ns/tl.cgi/https://www.bleague.jp/?SLANG=ja&TLANG=en&XMODE=0&XJSID=0 -
Video article 1:10
Learn About the History of Automobiles at the Toyota Commemorative Museum of Industry and Technology in Nagoya, Aichi! From Classic Cars to the Latest Technology, There's Plenty to See!
Local PR- 39 plays
- YouTube
愛知にあるトヨタ産業技術記念館をご紹介! 愛知にあるトヨタ産業技術記念館では自動車や繊維について学べたり、見て楽しめたりする施設です。 とても評判がいい人気の観光スポットになっており、最近では外国人観光客も増え、注目されています。 日本の代表的な企業であるトヨタの歴史に興味がある人、自動車や繊維を作るときの技術を知りたい人、ものづくりに興味がある人など、さまざまな人が楽しめる施設です。 この記事では、トヨタ産業記念館についての概要や、おすすめの動画などについて説明したいと思います。 愛知にあるトヨタ産業技術記念館とはどんな施設? 愛知県に位置するトヨタ産業技術記念館は、自動車の技術と繊維の機械技術が展示されている博物館です。 また、トヨタ産業技術記念館はトヨタテクノミュージアムとも呼ばれています。 自動車館と繊維機械館があり、それぞれでトヨタのものづくりのこだわりや情熱を感じることができます。 施設内に、ものづくりに対するこだわりや哲学などが書かれており、自動車や繊維に興味がない人でも学べるところがたくさんあります。 トヨタの歴史や考え方を学べる、まさにトヨタ博物館です。 無料のガイドツアーを利用すれば、より深く自動車や繊維の技術について知ることができます。 ぜひガイドツアーを利用してみてください。 愛知にあるトヨタ産業技術記念館の感想は? 愛知にあるトヨタ産業技術記念館は評判のいい口コミや感想がたくさんあります。 トヨタのものづくりのこだわりが知れる。自動車と繊維の機械技術を学べる。サービスの質がいいなど、魅力たっぷりのトヨタ産業技術記念館。 トヨタミュージアムショップもオリジナルの食品や自動車のグッズなどのお土産が売られており、評判のいい店です。 愛知にあるトヨタ産業技術記念館の料金やアクセスなど 愛知にあるトヨタ産業技術記念館を見学するときの料金や、交通アクセス、見学するときの所要時間などについて説明します。 ・料金 大人500円 中高生300円 小学生200円 ・交通アクセス 所在地 愛知県名古屋市西区則武新町4-1-35 名古屋本線「栄生駅」から徒歩3分 名古屋駅から「なごや観光ルートバス”メーグル”」に乗り「トヨタ産業技術記念館」で下車 ・滞在時間 2時間~3時間 トヨタ産業技術記念館や自動車に興味がある人はこちらの動画がおすすめ 愛知県観光協会が制作するトヨタテクノミュージアムを紹介している動画です。 繊維の機械技術や昔の自動車が紹介されており、とても興味深い動画です。 自動車や繊維などのものづくりに興味がある人はぜひ見てください! -
Video article 5:05
Ibaraki Prefecture: A Tourist Attraction With Everything From Nature to the Latest in World-Class Space Technology. An In-Depth Look at Ibaraki's Cuisine and History!
Local PR Travel Food & Drink- 126 plays
- YouTube
Introducing Ibaraki Prefecture - A Tourist Destination Full of Attractions This video, titled "[Revised Version] Ibaraki Prefecture PR Video "Outlook IBARAKI" Japanese Version" (【改訂版】茨城県PR映像「Outlook IBARAKI」 日本語版), was released by "いばキラTV - IBAKIRA TV -." Ibaraki Prefecture is an area where you can enjoy beautiful, Instagram-worthy scenery such as Fukuroda Falls, one of Japan's three most famous waterfalls, Mt. Tsukuba, on the list of "Top 100 Mountains in Japan," and the beautiful Kasumigaura Lake, the second largest lake in Japan. The Beauty of Ibaraki The population of Ibaraki is about 3 million and this prefecture lets people enjoy the four seasons of Japan. It takes 70 minutes to get to Mito City, the capital of Ibaraki Prefecture, from central Tokyo by the Joban Line. Kairakuen Garden, a sightseeing spot in Mito, is famous for its Ume flowers and when they’re in full bloom, the place is overflowing with visitors. Ibaraki Prefecture is an important region supporting Japan in agriculture and industry, and has a well-developed land, sea, and air transportation network, with the Port of Ibaraki and the Port of Kashima, as well as Ibaraki Airport, connecting the prefecture to countries around the world. Ibaraki has a historically deep culture, and you can find traditional Japanese culture, such as Kashima-Jingu Shrine, one of the oldest shrines in Japan, as well as traditional crafts. Ibaraki Prefecture supports Japan in various fields such as industry, agriculture, animal husbandry, cuisine and space technology. Check Out Ibaraki's Melons! Photo:Melon Ibaraki Prefecture is a major producer of fruits and vegetables, and Ibaraki's chestnuts, rice, Chinese cabbage and lotus root, boast the No. 1 market share in Tokyo. It is also the top producer of melons in Japan! “Ibaraking” is a famous melon because of its large size and elegant sweetness. This melon is introduced at past 1:40 in the video. You can tell how delicious it is just by watching. In addition to melons, you can enjoy chestnuts and pears in the fall, so it is recommended that you visit Ibaraki in each of the four seasons. Although it’s not well known, Mt. Tsukuba and the Northern part of the prefecture have an enriched hot spring where you can enjoy a relaxing time after a meal or sightseeing. Photo:Monkfish hot pot Try Out the Local Specialties in Ibaraki! Ibaraki is a reservoir for various seafood, such as mackerel and sardine. A standard dish during the winter in Ibaraki is monkfish hot pot. The annual "Monkfish Cleaning" event at Oarai Sun Beach has become a popular winter event, so much so that it has become a hot topic in the news. The livestock industry is prosperous as well. There's Hitachi beef which is famous throughout the world, and Rose Pork, with a quality of meat that ranks among the best in Japan! In this article's video, "Outlook IBARAKI," you can learn more about monkfish, Hitachi beef, and popular sightseeing and dining spots in Ibaraki. Speaking of local gourmet, in Ibaraki there's the “Mito roast pork burger,” “Kasama Inarizushi,” Clam rice, and of course locally produced sake. If you're going to Ibaraki be sure to try some of these out. They're all delicious. Ibaraki - A World Class Research City in Japan Photo:Tsukuba Space Center Ibaraki: One of the World's Leading Cities for Research and Education in Japan In addition to being famous for its cuisine and tourism, Ibaraki is also a hub for research and development. It is located 45 minutes from the center of Tokyo by the Tsukuba Express. There are research institutes from 29 countries, including the Tsukuba Space Center, which is famous for space development, and about 20,000 scientists support the world's most advanced research. It is one of the world's leading Japanese research cities, home to four Nobel Prize winners associated with Tsukuba! Bronze statues of Nobel Prize winners are introduced around 2:48 in the video. Major Japanese companies such as Hitachi, Komatsu, Canon, and Nippon Steel & Sumitomo Metal have their main factories here, and the robotics industry is particularly active in the industrial sector, where various robots are being developed and put to practical use. Ibaraki's Remarkable Sports Ibaraki Prefecture is known for its cuisine, tourism and research and development. In addition, Ibaraki Prefecture is also attracting attention in the field of sports. J-League powerhouse Kashima Antlers, named after Japan's oldest shrine, the Kashima Shrine, is loved by residents of Ibaraki Prefecture. Additionally, the Ibaraki National Athletic Meet was held in 2019. It’s the largest event and athletes from all over Japan gather to show their hard training. Summary of Ibaraki There are also many other attractive sightseeing spots in Ibaraki, such as Hitachi Seaside Park, where you can enjoy the seasonal flowers, as well as many gourmet foods. Check out the video, full of the attractions of Ibaraki, such as nature, industry, agriculture, livestock farming, gourmet food, space development, and more! This article can't convey all of the amazing things Ibaraki has in store for you, so be sure to check out the video to get a better idea of what there is to do! 【Official Website】Ibaraki Prefecture https://www.pref.ibaraki.jp/site/foreign-language/index.html 【Tripadvisor】Ibaraki https://www.tripadvisor.com/Tourism-g298165-Ibaraki_Prefecture_Kanto-Vacations.html -
Video article 8:05
“From Within the Pocket to the Reaches of Space”! You Won’t Be Able Keep Your Eyes off the Technological Development of JAE! Check Out the PR Video of the Company Supporting Social Infrastructure!
Life & Business- 53 plays
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PR Video of Japan Aviation Electronics Industry, Ltd This video titled “Company’s Promotion Video for JAE(日本航空電子工業株式会社・JAE・会社PRビデオ・プロモーションビデオ)” is the one to promote Japan Aviation Electronics Industry, Ltd, a manufacturer of electronic components and devices. There are many companies that manufacture high quality electronic components or devices in Japan. Let's explore the manufacturing technology and corporate philosophy of the Avionics Group, that boasts such advanced technology in the industry. This video features easy-to-understand information on advanced technologies or production engineering that the JAE group has. By watching this video, you'll get a better understanding of the many technologies incorporated into the electronic devices you use one a daily basis. What Kind of Company Is JAE? Source :YouTube screenshot JAE is an electronic components manufacturer in Shibuya, Tokyo. The average age of the company's employees is between 30 and 40 years old, and the company uses advanced technology to make a variety of electrical products such as connectors, user interface solutions (e.g. touch panels), motion sensors and controls. The Highly Advanced Manufacturing of JAE Source :YouTube screenshot JAE is involved in the manufacturing of many different types of electronic components not only for small information equipment such as mobile products or connectors, but also for automobiles, bullet trains, and aircrafts. You can see what kind of products they make in the footage (from 1:08). They are also engaged in the design and manufacturing of sophisticated electronic parts such as rockets and ocean exploration machines. That being said, JAE is highly contributing to society's infrastructure. Various Activities That JAE Is Working On Source :YouTube screenshot This video clip includes footage (from 5:45) of various activities related to environmental management. JAE promotes environmental conservation activities through afforestation and maintenance of forests to promote environmental management. In addition, the global network, introduced at 6:12 in the video, is the company's effort to promote development and production at a number of sites both in Japan and overseas. Summary of JAE's PR Video Source :YouTube screenshot As shown at 4:48 in the video, JAE aims to reform manufacturing through the manufacture of precision electronics products. Their high quality manufacturing, based on overwhelming technological development and production capabilities, will support Japan's future electronic technology. Through the video, we're shown that the products and vehicles that are now indispensable in our lives are made with the cutting-edge technology of companies like JAE. ◆Company Information of Japan Aviation Electronics Industry, Limited◆ 【Address】1-21-1 Dogenzaka Shibuya-ku Tokyo 150-0043 【Access】6 minutes from Shibuya Station off the JR Yamanote line by foot 【Telephone No.】03-3780-2711 【Official Website】Japan Aviation Electronics Industry, Limited https://www.jae.com/ -
Video article 5:08
A Plastic Oil Liquification Machine That Can Recycle Plastics Into Oil!
Life & Business- 21 plays
- YouTube
This video, titled "Man invents machine to convert plastic into oil," was released by "ranibb." Plastic, as most people know, is made from oil. It is said that about 7% of the world's annual oil production is used for the production and manufacture of plastics. Plastic waste is a major problem for the entire world, with large amounts of plastic waste washing ashore on the coasts of the world and polluting the beautiful oceans. The plastic changes from a solid to a liquid to a gas by heating the plastic. Then, the gas is finally cooled down and returned to oil. This process of recycling plastic waste into oil is attracting attention from all over the world. -
Video article 3:11
The Age of Robots Is Finally Upon Us! Meet "Pepper," the Cheery-Eyed Robot Ready to Take Your Order!
Life & Business- 89 plays
- YouTube
The Cashier "Pepper" by "Pepper" This video, titled "Pepper for Biz [Cashier for Pepper] Feature Introductory Video" (Pepper for Biz 「レジ for Pepper」 機能紹介ムービー), introduces the functions of "Cashier for Pepper" of "Pepper for Biz." The video was released by SoftBank. The video shows how Pepper is used to automate tasks, such as customer service, product ordering and accounting in the store. "Cashier for Pepper" is a solution in which all customer service is handled by a service robot. What Kind of Robot Is Pepper? Source :YouTube screenshot Some of you may have seen Pepper or had conversations with him at smartphone shops or restaurants in Japan. Pepper is a humanoid robot developed in 2014 that can recognize emotion. The emotion-recognizing personal robot is powered by an emotion engine and cloud AI, which allows it to make flexible decisions based on the situation. Pepper performs a series of necessary operations, such as customer service and accounting at stores. Features of "Cashier for Pepper" Source :YouTube screenshot "Cashier for Pepper," shown in the video, is a full-scale, self-checkout system, that performs a series of operations related to product purchases. Pepper is a service robot that can attract customers, recommend products (with a recommended "Plus One" feature"), select menus, and print order sheets on a tablet all at in one. Some of these features can be seen at 1:13 in the video. As shown at 1:31 in the video, Pepper also has the ability to select a payment method, allowing customers to pay with an IC card. Pepper's payment terminal is linked to the POS system, so it can handle a wide range of payment types, including QR payments and electronic money payments. "Cashier for Pepper" also includes a customer registration with Pepper's facial recognition system, order history check, and inbound functions in Japanese, English, and Chinese. This is explained at 2:45 in the video. Summary of "Cashier for Pepper" Source :YouTube screenshot In recent years, due to a decline in the number of workers, the shortage of cashiers has become a major problem in Japan. "Cashier for Pepper" has the potential to be the cashier of the future. If you'd like to implement "Cashier for Pepper" as a staff member to reinvent your store, you can start by checking out Pepper's features and pricing on their website. -
Video article 2:04
"K," the Supercomputer With the Fastest Calculation Speed in the World for Roughly 7 Years, Will Be Making Room for the Next Generation Supercomputer "Fugaku," That Is Said to Have a Speed 100 Times Faster Than That of "K"
News- 44 plays
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Shutdown of the Supercomputer "K" This video titled "The Curtain Has Come Down on the Supercomputer 'K' and Fugaku Will Serve as Its Successor,(スパコン「京」幕下ろす 後継・富岳、運用へ), released by "KyodoNews," is a video on the shutdown ceremony of supercomputer "K"- the former fastest computer in the world. The supercomputer “K” was used in various fields after achieving first for two consecutive years in the category of fastest calculation speed of a supercomputer, in 2011 during the test run. In the video of K's shutdown ceremony "Fugaku”, the successor to “K” , is also reported. You can find out how powerful the Japanese computer is. The video features the supercomputer "K" and its successor. What Is "K"? Source :YouTube screenshot The supercomputer "K" was jointly developed by the Riken Center for Computational Science and Fujitsu. NEC and Hitachi were also involved in its development at the beginning, but withdrew. This supercomputer, completed in 2012, contributed to the development of various fields including life science, healthcare, disaster defense, and space technology. It was also referred to as a "Next Generation Supercomputer," "General Purpose Hyper Speed Calculator" or "Kyosoku." This supercomputer achieved the fastest calculation speed in the world at the beginning of it development and has been used for about 7 years. According to the latest world ranking, it has currently dropped all the way to 20th . It was finally decided to put an end to the 7 year history and to make room for its successor "Fugaku," the next generation, most advanced supercomputer. In the video you can see that about 860 units of the supercomputer “K “ were shut down in turn during this ceremony. Hiroshi Matsumoto, President of the Riken Center talked about the expectations for the next generation supercomputer in this video (1:11). It is expected that Fugaku's calculation speed is more than 100 times faster than "K," and it will be used as AI (Artificial Intelligence). K's Specs Photo:CPU Next, we will show you what kind of specs "K" has. First, its high-end CPU capable of performing highly advanced arithmetic processing was developed by Fujitsu. 88,128 pieces are connected in parallel to calculate 10 petabytes worth of information per second. There is some concern about error because of the scale that the supercomputer has. However, they built a unique system that could avoid errors and continue high-speed arithmetic processing. Also, high-performance memory is used. This supercomputer consumes powers equivalent to the amount used by about 30 thousand households. Therefore it costs about 1.2 million yen to operate the whole system of "K" per hour, Running the supercomputer "K" full for a day costs about 28 million yen (~$260,000 USD), so the electricity bill can get a little high. “Fugaku," the Next Generation Supercomputer Source :YouTube screenshot “Fugaku," successor to "K," had a development costs of about 112 billion yen (~$1.38b USD). The development of Fugaku started in 2014, and it is scheduled to used starting in 2021. Its calculation speed is more than 100 times faster than that of "K." It is aiming to achieve the worlds top level utility. 150 thousand units of CPU are connected to improve its computing power. According to the world supercomputer ranking as of November, 2019, "Summit" developed by the Oak Ridge National Laboratory is top the list, followed by "Sierra" developed by the Lawrence Livermore National Laboratory and "Sunway TaihuLight" (神威・太湖之光). Summary of the Supercomputer "K" The video, titled "The Curtain Has Come Down on the Supercomputer 'K' and Fugaku Will Serve as Its Successor," released by "KyodoNews" is a video on the shutdown ceremony of supercomputer 'K' that was used for 7 years. These computer technologies that have been developing day to day may change our futures. 【Official Website】K Computer | Riken Center for Computational Science (R-CCS) https://www.r-ccs.riken.jp/en/k-computer/about/ 【Official Website】The supercomputer "FUGAKU"|Riken Center for Computational Science (R-CCS) https://www.r-ccs.riken.jp/en/postk/project -
Video article 0:59
This Machine Can Process 250 Pages a Minute Without Tearing the Pages! The Ultra-High Speed Scanner BFS-Auto in Action!
Life & Business- 19 plays
- YouTube
This video, titled "BFS-Auto: High Speed Book Scanner at over 250 pages/min," was published by "Ishikawa Group Laboratory." The BFS-Auto is a high speed scanner that can process 250 pages per minute through "non-destructive scanning" that scans books without breaking them apart. To scan a book. you simply load it onto the machine. The scanner will automatically process the rest of the book without you having to turn the pages by hand. Watching the video, you'll be amazed at how fast it scans. The books are scanned at high speed and without interruption, so it's possible that some images may be crooked, but even if the image is scanned in a crooked state, it can be readjusted. -
Video article 1:50
Simulating the Touchdown of the Spacecraft “Hayabusa 2” With CG Animation! All Eyes Are Fixed on the Unprecedented Achievement of Rendezvousing With the Asteroid Ryugu!
Life & Business- 53 plays
- YouTube
The Asteroid Surveying Spacecraft "Hayabusa 2" This video, titled "「Hayabusa 2」CG Conceptual Video of Touchdown/"Hayabusa2" CG Animation"(「はやぶさ2」タッチダウン想像図CG/"Hayabusa2" CG Animation), was released by "Jaxa | Japan Aerospace Exploration Agency." “Hayabusa 2,” introduced in the video, is an asteroid surveying spacecraft developed by the Japan Aerospace Exploration Agency JAXA as a successor to the spacecraft “Hayabusa.” This video introduces JAXA’s CG video of Hayabusa 2 touching down on the asteroid Ryugu and retrieving a surface sample. It's only a conceptual video; however, the plan of Hayabusa 2’s touchdown is visualized in an easy-to-understand manner. The basic settings and touchdown methods of the “Hayabusa 2” are the same as its predecessor, Hayabusa; however, the spacecraft has been significantly improved and the ion engine and antenna surroundings have been greatly augmented. The news that this groundbreaking mission was successful also attracted a lot of attention around the world. Incidentally, “Hayabusa” is also used as the project name for JAXA’s asteroid survey project. The Touchdown of Hayabusa 2 Source :YouTube screenshot The first “Hayabusa” mission’s goal was to bring back rock samples from asteroids for the first time ever. The mission succeeded, and the return of “Hayabusa” received praise from all around the world; in Japan, it received so much attention that it was made into a movie. Whereas the first Hayabusa was an experimental machine, Hayabusa 2, shown in the footage, collected samples from the surface of an asteroid which has organic matter and water on it. And the developmental process differs from its predecessor in that it was designed to collect surface samples from an asteroid with organic matter and water to obtain clues about the existence of rare metals and the mystery of the birth of life. The survey plan of the “Hayabusa 2” was also carefully scheduled. The “Hayabusa 2” was launched from the Tanegashima Space Center Large Rocket Launch Site in 2014 to coincide with the timing of when the asteroid Ryugu would be closest to the Earth. Source :YouTube screenshot As you can see from 1:09 in the video, once the spacecraft has come into the closest proximity with the asteroid Ryugu, they first launch an impactor command with the goal of creating a crater on the surface of Ryugyu to make it easier for Hayabusa 2 to land. This impactor command was named "Explorer" after the world’s first satellite series. Hayabusa 2 will attempt to touch down after taking rock samples scattered in the vicinity during the second Explorer launch. A small rover was also placed on the asteroid Ryugu, which collected as many surface samples as possible after touchdown and returned to Earth by fully autonomous operation. Summary of Hayabusa 2's Touchdown Mission Source :YouTube screenshot The Ryugu project was featured on NHK as a special program and was also broadcast overseas. It was very well received abroad, and managed to attract attention from all over the world. The success of Hayabusa 2's touchdown mission is said to be an incredible feat. You can see the details on JAXA’s official website. 【Official Website】JAXA Hayabusa 2 Project http://www.hayabusa2.jaxa.jp/en/ -
Video article 1:02
The Future of Shopping - Stores Without Cashiers! A Groundbreaking, Futuristic System!
Shopping News- 45 plays
- YouTube
Convenience Stores With No Cashiers! This video is titled "Convenience Store's Without a Cashier. Automatic Transactions as You Leave the Store" (レジなしコンビニ 店を出ると自動で会計). Until now, paying at the checkout counter was standard procedure. However, in recent years, a number of systems have been developed that allow customers to pay for their purchases automatically. One such system was a cashier-less convenience store with an automatic checkout system, which was developed to solve Japan's labor shortage. Let's take a look at the future of shopping! Cashier-less Convenience Stores Source :YouTube screenshot Introduced in the video is AQUAIR, a digital business design studio by NTT Data. According to the video, cameras in the store and weight sensors on the display shelves recognize the items purchased, and once customers pass through the gate, payment is made automatically through a smartphone application. You can see this demonstrated in the video at 0:16 and 0:44. The appeal of this system is that items, such as bentos, snacks, drinks, commodities, etc., can be easily purchased by simply scanning the QR Code on the smartphone application through the gate while carrying your items. To use the cashier-free convenience stores, you need to register with the smartphone app and pre-register your credit card. The electronic receipt delivery system, shown at 0:47, allows customers to check their purchases. Future Prospects of Cashier-less Stores Source :YouTube screenshot If the cashier-less convenience store system, like the one introduced in the video, becomes widespread, it's expected to solve Japan's labor shortage and eliminate the congestion caused by waiting at cash registers. According to the video, NTT Data, the developer of this system, has set a goal of introducing the system to 1,000 stores by March 2023. NTT DATA is also expected to form a business partnership with Chinese company CloudPick to begin helping domestic retailers open cashier-free stores as franchisees. Cashier-less Convenience Stores Source :YouTube screenshot In addition to the one shown in the video, an increasing number of stores have begun demonstrations of automatic cash registers and payment systems. In the case of the cashier-less "Lawson Go" convenience store, a mock-up store was used to demonstrate its operations. In this demonstration experiment, Fujitsu's multi-biometric payment system makes it possible to shop without the need for a register. In the United States, a test store of the cashier-less "AmazonGo" is already in operation. Summary of Cashier-less Convenience Stores Source :YouTube screenshot The self-checkout system, which was once considered revolutionary, has become extremely popular in Japan and can now be found in many stores across the country. In the future, we can expect to see more and more convenience stores, drugstores, and supermarkets with cashier-less systems, as well as convenience stores with facial and biometric recognition systems like the one introduced in this video. -
Video article 0:55
Dr. Koichi Wakata Is the First Japanese Astronaut to Become Captain of the International Space Station! Read on to Learn More About His Impressive Achievements!
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Koichi Wakata: The First Japanese Captain of the ISS This video "Koichi Wakata: Proud to Be the First Japanese Captain of the ISS! (14/03/10)" (日本人初!若田さんISS船長に「和の心を大切に」(14/03/10))" is brought to you by ANNnewsCH. It introduces Dr. Koichi Wakata, who has become the first Japanese captain of the International Space Station (ISS). JAXA astronaut Koichi Wakata has accomplished the spectacular feat of becoming the 39th captain of the ISS. A special ceremony was held in the Japanese Experiment Module (日本実験棟, nipponjikkentou) "Kibo" (きぼう). The ceremony is normally held in the American Experiment Module, however as this is the first time a Japanese astronaut has assumed the position of captain, on this occasion the ceremony was held in the Japanese Experiment Module. You can watch the ceremony in the video from 0:23. During the ceremony, Koichi Wakata talks of how he is proud to be the first Japanese captain of the ISS and is looking forward to working with everyone. The right to command was passed on to Koichi Wakata from the previous captain of the ISS Oleg Kotov. Koichi Wakata was captain of the ISS for a total of 2 months until his return home to Japan. More About Koichi Wakata: The First Japanese Captain of the ISS Source :YouTube screenshot Koichi Wakata was born in Omiya city, Saitama prefecture and is an astronaut working for JAXA (Japanese Aerospace Exploration Agency). He has a Doctorates in Engineering and has been awarded the Kikuchi Kan Prize (菊池寛賞, kikuchikanshou). He graduated from Kyushu University (九州大学大学院, kyuushuudaigaku daigakuin) in March, 1989 and proceeded to work for Japan Airlines, also known as JAL. He was selected for the position of mission specialist for the National Space Development Agency of Japan (NASDA) in April 1992 and in January 1996 was the first Japanese mission specialist to take part in the STS-72 mission of the Space Shuttle Endevour. He mastered the difficult task of learning to control a robotic arm and succeeded in the retrieval of the SFU (Space Flyer Unit). He has completed four missions in space to date, including flights in American NASA space shuttles and Russian Roscosmos spacecraft. Koichi Wakata also made news after broadcasting videos of fun experiments performed in space, inviting viewers to send in their experiment ideas. In an effort to get children more interested in space, he performed various actions inside the space station such as folding clothes or arm wrestling the other astronauts. More About Koichi Wakata's Role Aboard the ISS Source :YouTube screenshot Below are a list of the tasks performed by Koichi Wakata as commander of the ISS: 1. Manage the crew and lead them to success in their missions. 2. Handle any emergencies that may arise such as fires or gas leaks and give directions as the leader of the crew. 3. Have a good grasp of the crew members' health conditions and work situations. 4. Summarizing adjustments to the work schedule with ground control. Not only does the job require good management skills but a high level of interpersonal skills are also necessary. Summary of Koichi Wakata Koichi Wakata currently works as the director of JAXA and is busy holding lectures and other events across the country. We hope you enjoyed learning more about the first Japanese captain of the ISS, Koichi Wakata. We look forward to hearing about more of his endeavors in the future! 【Official Website】Jaxa Astronaut Koichi Wakata, Space Station, Kibo, Information Center https://iss.jaxa.jp/en/astro/biographies/wakata/index.html -
Video article 1:23
The Japanese Have Won the Nobel Prize Parody Again! The Ignobel Prize Is Evaluated Based on How Well Participants Give a Serious Presentation of Results From Their Asinine Research in a Serious Manner.
News- 171 plays
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What is the Ig Nobel Prize? Do you know of the Ig Nobel Prize? This video, “The Winners of This Years Ig Nobel Prize Are Once Again Japanese (The Daily Saliva of 5 Year Old Children) イグノーベル賞今年も日本人『5歳児の1日の唾液量』(19/09/13)” introduces the awards ceremony of the Ig Nobel Prize, 2019. The Ig Nobel Prize is a parody of the Nobel Prize, with the first awards ceremony held in 1991 at Harvard University in Massachusetts, America. Now, it has become an annual event, and is a scientific award recognized worldwide. The selection criteria is research which “first makes people laugh, and then makes them think”, and similarly to the genuine Nobel Prize, the Ig Nobel Prize is made up of several different categories. In recent years, the Japanese winners of the Nobel Prize have been buzzed about, but in actuality, Japanese researchers have been awarded the Ig Nobel Prize for 13 consecutive years, beginning from 2007. The 2019 winner was Professor Watanabe Shigeru and his 5-man team from Meikai University. They were awarded the prize for their study on the “estimation of the total saliva volume produced per day in 5-year-old children”. What is the content of this year’s Japanese Ig Nobel Prize-winning study? Source :YouTube screenshot In 2019, Professor Watanabe’s team won the Ig Nobel Prize for chemistry. Their study involved measuring the amount of saliva produced by 5-year-olds in order to maintain the cleanliness of their oral cavity. The study consisted of the researchers feeding 5-year-old children a pre-determined volume of food, having them chew and then spit the food out without swallowing, then measuring the spat-out food and comparing the volume to that at the beginning of the experiment. Through this, the researchers estimated that the children produced about 500 milliliters of saliva per day. At the awards ceremony, the researchers reenacted the experiment using a banana. This can be seen from 0:14 in the video. Source :YouTube screenshot The winners of the prize have only 60 seconds to make a speech, with a girl named Miss Sweetie Poo crying out, “Please stop! I’m bored!” if that time limit is breached. This can be seen from 0:53 in the video. The awards ceremony begins with the audience throwing paper airplanes at the stage, followed by the winners entering on a rope. From start to finish, the venue is filled with laughter. It might seem difficult to win an award for science, but the Ig Nobel Prize is a unique international science award overflowing with humor and, occasionally, irony. However, the academic papers concerning these award-winning research studies have even been published in the English science journal “Nature”, showing that these studies have genuine scientific significance. An overview of the Japanese Ig Nobel Prize winners for 13 consecutive years Source :YouTube screenshot These are some of the main Japanese prize winners. ・1992 Kanda Fujihiroshi (Medicine): For the discovery of the chemical compounds responsible for foot malodor. The first Japanese winner. ・1997 Maita Aki (Economics): For “Tamagotchi”, which diverted millions of man-hours of work into the husbandry of virtual pets. That year was a double win for Japan, with the prize for Biology awarded to Yagyu Takashi. ・2002 Sato Keita and others (Peace): For inventing Bow-Lingual, a dog-to-human language translation device ・2004 Inoue Daisuke (Peace): For inventing karaoke, allowing people to spend a peaceful time together ・2016 Higashiyama Atsuki and others (Perception): For investigating whether things look different when you bend over and view them between your legs All of these and more are part of the 71 Japanese winners of the Ig Nobel Prize as of 2019. Summary of this video regarding the Ig Nobel Prize and the study on the amount of saliva produced in one day by 5-year-old children Source :YouTube screenshot Although Japan has a significant number of Ig Nobel Prize winners even compared to countries worldwide, in Asia, South Korea’s professors as well as religious experts have also been recipients of the prize. In addition, the study “cats are liquids”, which trended on the Internet, was actually conducted by a team of researchers from France. Of course, though cats are solid beings, they have extraordinary flexibility, and thus are occasionally seen as liquids. This humorous thesis invited many laughs from the audience. The reward for winning the Ig Nobel Prize is 10 trillion Zimbabwe dollars! However, this is a currency no longer in circulation and thus not even worth a penny…