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  •  Exhibition of robotics at USSR VDNKh
    1981年01月01日
    Exhibition of robotics at USSR VDNKh

    01.01.1981 Exhibition of robotics at the USSR Exhibition of Achievements of the National Economy. The first acquaintance with the robot. Andrew、クレジット:Sputnik/共同通信イメージズ

    商品コード: 2022121810577

  •  Exhibition of robotics at USSR VDNKh
    1981年01月01日
    Exhibition of robotics at USSR VDNKh

    01.01.1981 Exhibition of robotics at the Exhibition of Achievements of the National Economy of the USSR. An industrial robot of the Cyclone 5 type, designed to automate cold stamping processes in serial and small-scale production. Andrew、クレジット:Sputnik/共同通信イメージズ

    商品コード: 2022121810565

  •  Moscow Machine and Tool Institute
    1986年10月15日
    Moscow Machine and Tool Institute

    15.10.1986 Left: Assistant Professor Yury Podurayev from the Robotics and Mechatronics Faculty of the Moscow Machine and Tool Institute/Stankin, now Moscow State University of Technology STANKIN, conducts a laboratory project with five-year students. Alexander Makarov、クレジット:Sputnik/共同通信イメージズ

    商品コード: 2023031102016

  •  West German specialists at the Taganrog Combine Plant
    1987年09月01日
    West German specialists at the Taganrog Combine Plant

    01.09.1987 Taganrog Combine Harvester Plant. West German specialists from KUKA installing an industrial robot for setting up new equipment. Aleksandr Pogotov、クレジット:Sputnik/共同通信イメージズ

    商品コード: 2023012101553

  •  Chewing robot
    2001年03月26日
    Chewing robot

    Chewing robot. Roboticist Dr Hideaki Takanobu adjusting a mastication (chewing) robot during dentistry research. The robot is composed of a human skull attached to electronic circuitry, levers and pulleys, which simulate the human facial muscles that make the jaw bite down. Sensors measure the position and velocity of the biting jaws and the force of mastication. The robot was developed to help dental scientists to learn more about the processes of biting and chewing. Photographed in the Department of Mechanical Engineering, Waseda University, Tokyo, Japan.、クレジット:Science Photo Library/共同通信イメージズ

    商品コード: 2022082308065

  • 北野宏明 Dr Hiroaki Kitano
    2001年10月31日
    北野宏明 Dr Hiroaki Kitano

    Dr Hiroaki Kitano, Japanese artificial intelligence researcher, holding two members of his miniature robot football team. Kitano organised the first RoboCup (World Cup Robot Soccer) competition in 1997. The competition promotes the development of intelligent robots for use in hostile environments, and drives general advances in robot design and behaviour. The matches consist of two five-minute periods of play between two teams of up to five robots, with categories for robots of different sizes. Kitano is the founder and senior researcher at the Sony Computer Science Laboratory, Japan. Photographed in Japan.、クレジット:Science Photo Library/共同通信イメージズ

    商品コード: 2023051014025

  •  Personal assistant robots
    2001年11月01日
    Personal assistant robots

    Personal assistant robots, with designer Yoshihiro Fujita. These R100 robots can recognise faces, identify hundreds of Japanese words, and obey simple commands. They can also sing and dance. Each possesses a visual system composed of two digital cameras. The view of the robot at centre left is shown on the screen at upper left. The robots were designed and built by NEC, Tokyo, Japan.、クレジット:Science Photo Library/共同通信イメージズ

    商品コード: 2022082308059

  • 広瀬真人 Masato Hirose, robot engineer
    2002年03月27日
    広瀬真人 Masato Hirose, robot engineer

    Masabo Hirose (born 1956), Japanese robot engineer. He worked for the Honda corporation on both their ASIMO (Advanced Step in Innovative Mobility) robot (unveiled in 2000) and the P-3 humanoid project (unveiled in 1996). He joined Honda in 1986, and quickly became involved in their new field of robot development. In 1990 he became the head of the robot development group. Photographed in 1999.、クレジット:Science Photo Library/共同通信イメージズ

    商品コード: 2023122110106

  •  内視鏡手術に使い捨てロボ 大阪大
    02:59.47
    2007年05月02日
    内視鏡手術に使い捨てロボ 大阪大

    人の体に接触する部分を使い捨てにした内視鏡手術の支援ロボットを西川敦大阪大准教授(ロボット工学)らが8日までに開発した。衛生的で従来より安いという。ロボットのうち、使い捨ての「アーム」は直径約10センチ、高さ約20センチ、重さ約400グラム。ポリカーボネート製で中央に内視鏡を固定、周囲の6本の棒が水の圧力とバネで動き伸縮する。水はそばに設置する本体から送る<映像内容>阪大基礎工学部外観、開発されたロボット、伸縮しながら患部に近づく様子、ロボットを操作しながら仕組みを説明する准教授、アームを動かす、カメラの脱着を実践する、コメントする様子、撮影日:2007(平成19)年5月2日、撮影場所:大阪府豊中市

    商品コード: 2020020703171

  •  ロボット特許、日本が8社
    2015年11月11日
    ロボット特許、日本が8社

    1995年以降のロボット工学分野の特許申請数上位10社

    商品コード: 2015111100599

  •  ロボット特許、日本が8社
    2015年11月11日
    ロボット特許、日本が8社

    1995年以降のロボット工学分野の特許申請数上位10社

    商品コード: 2015111100600

  •  USA News - March 15, 2016
    2016年03月15日
    USA News - March 15, 2016

    March 15, 2016: Enthusiastic multiracial elementary school students in Mission Viejo, CA, demonstrate class-project robots on a tabletop. (Credit Image: © Spencer Grant/ZUMA Press Wire)、クレジット:©Spencer Grant/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023072607204

  •  USA News - March 15, 2016
    2016年03月15日
    USA News - March 15, 2016

    March 15, 2016: Enthusiastic multiracial elementary school students in Mission Viejo, CA, demonstrate class-project robots on a tabletop. (Credit Image: © Spencer Grant/ZUMA Press Wire)、クレジット:©Spencer Grant/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023072607240

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106738

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106751

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106744

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106745

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106758

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106740

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070107037

  •  Blue Origin Rocket
    2017年03月19日
    Blue Origin Rocket

    March 19, 2017, Palm Springs, California, U.S: A Blue Origin rocket at the Parker Hotel for the Jeff Bezos secret Amazon MARS conference. MARS is Machine learning, home Automation, Robotics, and Space exploration. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2023070106743

  •  NASA Expedition 50 Astronauts Thomas Pesquet and Peggy Whitson in Destiny Laboratory
    2017年04月21日
    NASA Expedition 50 Astronauts Thomas Pesquet and Peggy Whitson in Destiny Laboratory

    April 21, 2017 - Earth orbit - NASA International Space Station Expedition 50 prime crew members French astronaut Thomas Pesquet of the European Space Agency and American astronaut Peggy Whitson practice working with the Canadarm2 robotic arm in the Destiny laboratory module robotics work station April 21, 2017 in Earth orbit. (Credit Image: © NASA via ZUMA Press Wire Service)、クレジット:©NASA via ZUMA Press Wire Service/共同通信イメージズ

    商品コード: 2021081803456

  •  人命救助ロボットを未来に
    2017年11月01日
    人命救助ロボットを未来に

    松野文俊・京都大教授

    商品コード: 2017110100425

  •  人命救助ロボットを未来に
    2017年11月01日
    人命救助ロボットを未来に

    大きなアームが特徴の救助用ロボットと松野文俊・京都大教授=京都市西京区

    商品コード: 2017110100427

  •  2023 - M3gan - Movie Set
    2018年04月10日
    2023 - M3gan - Movie Set

    RELEASE DATE: January 6, 2023. TITLE: M3gan Megan. STUDIO: Universal Pictures. DIRECTOR: Gerard Johnstone. PLOT: A robotics engineer at a toy company builds a life-like doll that begins to take on a life of its own. STARRING: Allison Williams, Violet McGraw, Amie Donald. (Credit Image: © Universal Pictures/Entertainment Pictures/ZUMAPRESS.com)、クレジット:©Universal Pictures/Entertainment Pictures/ZUMAPRESS.com/共同通信イメージズ ※PLEASE NOTE: Entertainment Pictures is not the copyright owner of this or any television or film publicity image, but only provides access to the material. Additional permissions may be required. Image NOT available for commercial use, ONLY editorial use

    商品コード: 2023010706355

  •  AI and Robotics at the Heinz Nixdorf MuseumsForum
    2018年10月26日
    AI and Robotics at the Heinz Nixdorf MuseumsForum

    26 October 2018, North Rhine-Westphalia, Paderborn: Curator Judith Spickermann stands in front of a sculpture by the artist Muharrem Batman, who created Digital Dementia from electronic components, in the exhibition “Artificial Intelligence and Robotics“ at the Heinz Nixdorf MuseumsForum. From 27 October, the Heinz Nixdorf MuseumsForum will be showing the latest developments in artificial intelligence and robotics on 500 square metres. Photo: Guido Kirchner/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2018110133389

  •  AI and Robotics at the Heinz Nixdorf MuseumsForum
    2018年10月26日
    AI and Robotics at the Heinz Nixdorf MuseumsForum

    26 October 2018, North Rhine-Westphalia, Paderborn: The industrial robot Beppo sweeps with a broom in the exhibition “Artificial Intelligence and Robotics“ in the Heinz Nixdorf MuseumsForum, Muster auf dem Boden. From 27 October, the Heinz Nixdorf MuseumsForum will be showing the latest developments in artificial intelligence and robotics on 500 square metres. A special highlight of the new department in the permanent exhibition is the sweeping robot Beppo, an industrial robot that performs its artistically inspired work in response to visitors. Photo: Guido Kirchner/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2018110133628

  •  AI and Robotics at the Heinz Nixdorf MuseumsForum
    2018年10月26日
    AI and Robotics at the Heinz Nixdorf MuseumsForum

    26 October 2018, North Rhine-Westphalia, Paderborn: The industrial robot Beppo sweeps with a broom in the exhibition “Artificial Intelligence and Robotics“ in the Heinz Nixdorf MuseumsForum, Muster auf dem Boden. From 27 October, the Heinz Nixdorf MuseumsForum will be showing the latest developments in artificial intelligence and robotics on 500 square metres. A special highlight of the new department in the permanent exhibition is the sweeping robot Beppo, an industrial robot that performs its artistically inspired work in response to visitors. Photo: Guido Kirchner/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2018110133539

  •  AI and Robotics at the Heinz Nixdorf MuseumsForum
    2018年10月26日
    AI and Robotics at the Heinz Nixdorf MuseumsForum

    26 October 2018, North Rhine-Westphalia, Paderborn: The industrial robot Beppo sweeps with a broom in the exhibition “Artificial Intelligence and Robotics“ in the Heinz Nixdorf MuseumsForum, Muster auf dem Boden. From 27 October, the Heinz Nixdorf MuseumsForum will be showing the latest developments in artificial intelligence and robotics on 500 square metres. A special highlight of the new department in the permanent exhibition is the sweeping robot Beppo, an industrial robot that performs its artistically inspired work in response to visitors. (Repetition with modified section) Photo: Guido Kirchner/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2018110133532

  •  「東奥日報」学科越えロボット教育/八工大2020年度から
    01:22.95
    2019年01月23日
    「東奥日報」学科越えロボット教育/八工大2020年度から

    青森県八戸市の八戸工業大学(長谷川明学長)は2020年度、工学部に「学科横断型ロボット工学プログラム」を開設する。学生はロボット工学に関連する3学科の講座や研究に参加することが可能になり、進化が加速するロボット開発に必要な知識や知見を、学科の壁を越えて習得できる。撮影場所:八戸工業大学、クレジット:東奥日報/共同通信イメージズ

    商品コード: 2019020124983

  •  Opening Spielwarenmesse
    2019年01月30日
    Opening Spielwarenmesse

    30 January 2019, Bavaria, Nürnberg: Two models of the Marty robot will be on display at the 2019 Toy Fair at the stand of the Scottish company Robotical. The robots for do-it-yourself construction and programming teach children and young people knowledge of the programming language and robotics. It consists of several individual parts that are clicked together. The world‘s largest toy fair will take place this year from 30 January to 3 February 2019. Photo: Daniel Karmann/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019013126110

  •  Opening Spielwarenmesse
    2019年01月30日
    Opening Spielwarenmesse

    30 January 2019, Bavaria, Nürnberg: Two models of the Marty robot will be on display at the 2019 Toy Fair at the stand of the Scottish company Robotical. The robots for do-it-yourself construction and programming teach children and young people knowledge of the programming language and robotics. It consists of several individual parts that are clicked together. The world‘s largest toy fair will take place this year from 30 January to 3 February 2019. Photo: Daniel Karmann/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019013126089

  •  青少年ロボットコンテストで腕比べ河北省邢台市
    2019年03月02日
    青少年ロボットコンテストで腕比べ河北省邢台市

    2日、自分のロボットを見守る参加者。中国河北省邢台市で2日、青少年ロボットコンテストが開催された。市内の小中学生400人以上が163チームに分かれ、ロボット創意コンテスト、教育ロボット工学挑戦コンテストなど、さまざまな種目に出場した。(邢台=新華社配信/田暁麗)=2019(平成31)年3月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2019030502662

  •  青少年ロボットコンテストで腕比べ河北省邢台市
    2019年03月02日
    青少年ロボットコンテストで腕比べ河北省邢台市

    2日、ロボットを調整する参加者。中国河北省邢台市で2日、青少年ロボットコンテストが開催された。市内の小中学生400人以上が163チームに分かれ、ロボット創意コンテスト、教育ロボット工学挑戦コンテストなど、さまざまな種目に出場した。(邢台=新華社配信/田暁麗)=2019(平成31)年3月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2019030502675

  •  青少年ロボットコンテストで腕比べ河北省邢台市
    2019年03月02日
    青少年ロボットコンテストで腕比べ河北省邢台市

    2日、自分のロボットを操作する参加者。中国河北省邢台市で2日、青少年ロボットコンテストが開催された。市内の小中学生400人以上が163チームに分かれ、ロボット創意コンテスト、教育ロボット工学挑戦コンテストなど、さまざまな種目に出場した。(邢台=新華社配信/田暁麗)=2019(平成31)年3月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2019030502634

  •  青少年ロボットコンテストで腕比べ河北省邢台市
    2019年03月02日
    青少年ロボットコンテストで腕比べ河北省邢台市

    2日、教育ロボット工学挑戦コンテストに参加した生徒ら。中国河北省邢台市で2日、青少年ロボットコンテストが開催された。市内の小中学生400人以上が163チームに分かれ、ロボット創意コンテスト、教育ロボット工学挑戦コンテストなど、さまざまな種目に出場した。(邢台=新華社配信/田暁麗)=2019(平成31)年3月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2019030502639

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Federal Chancellor Angela Merkel (CDU) and Markus Söder (CSU), Minister President of Bavaria, take a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM) and take a look at an industrial robot. Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000449

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Federal Chancellor Angela Merkel (CDU) and Markus Söder (CSU), Minister President of Bavaria, take a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM) and look at a “care robot“ that simulates a patient. Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000450

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    dpatop - 24 May 2019, Bavaria, Munich: Chancellor Angela Merkel (CDU) takes a look at a “care robot“ during a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM). Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053002002

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Federal Chancellor Angela Merkel (CDU) and Markus Söder (CSU), Minister President of Bavaria, take a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM) and take a look at an industrial robot. Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000459

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Chancellor Angela Merkel (CDU) takes a look at a “care robot“ during a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM). Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000782

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Federal Chancellor Angela Merkel (CDU) and Markus Söder (CSU), Minister President of Bavaria, take a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM) and look at a “care robot“ that treats a patient in a simulation. Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000895

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Chancellor Angela Merkel (CDU) takes a look at a “care robot“ during a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM). Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000632

  •  Merkel visits Munich School of Robotics and Machine Intelligence
    2019年05月24日
    Merkel visits Munich School of Robotics and Machine Intelligence

    24 May 2019, Bavaria, Munich: Chancellor Angela Merkel (CDU) looks at a “robot arm“ during a tour of the Munich School of Robotics and Machine Intelligence at the Technical University of Munich (TUM). Photo: Sven Hoppe/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019053000734

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/ Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/ Die Grünen, will present the service robots ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607300

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, wave to the service robot ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607575

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/ Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/ Die Grünen, will present the service robots ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607218

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (r, Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, will present the service robots ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607232

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, are welcomed by the service robot ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607195

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Robert Habeck, Federal Chairman of Bündnis 90/ Die Grünen, will present the ARMAR-6 service robot at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. Habeck informs himself about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607116

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, are standing next to the service robot ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics, where they will learn about the current status of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607639

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, stands next to the service robot ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics, where he will inform himself about the current status of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607451

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (l, Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, and Robert Habeck, Federal Chairman of Bündnis 90/Die Grünen, will present the ARMAR-6 service robot at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. The two of them will inform themselves about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607555

  •  Kretschmann and Habeck inform themselves about robotics
    2019年11月22日
    Kretschmann and Habeck inform themselves about robotics

    22 November 2019, Baden-Wuerttemberg, Karlsruhe: Winfried Kretschmann (Bündnis 90/Die Grünen), Minister President of Baden-Württemberg, shakes the arm of the service robot ARMAR-6 at the Karlsruhe Institute of Technology (KIT) in the Institute of Anthropomatics and Robotics. Kretschmann will inform himself about the current state of robotics and artificial intelligence. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2019112607303

  •  Discussion event High-Tech Agenda Bavaria
    2020年02月03日
    Discussion event High-Tech Agenda Bavaria

    03 February 2020, Bavaria, Munich: Markus Söder (l-r, CSU), Prime Minister of Bavaria, is presented with a small 3D figure of himself by Sami Haddadin, Chair of Robotics and Systems Intelligence at the TUM, and Daniel Cremers, Professor of Image Processing and Artificial Intelligence at the TUM, during a discussion event on Bavaria‘s high-tech agenda. The high-tech agenda provides for investments of around two billion euros in research. Photo: Peter Kneffel/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020020502997

  •  High-tech Sumwith Bavaria.
    2020年02月03日
    High-tech Sumwith Bavaria.

    Prof. Dr.-Ing. Sami Haddadin (Chair for Robotics and System Intelligence, TU Muenchen), single image, cut single motif, portrait, portrait, portrait. At the invitation of Prime Minister Dr. Markus Soeder meet experts in the field of future technologies for high-tech Sumwith Bayern.KI, Künstliche Intelligenz. On February 3rd, 2020 Technical University Munich (TUM) in Garching. | usage worldwide、クレジット:SVEN SIMON/DPA/共同通信イメージズ

    商品コード: 2020020503996

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: Michael Beetz, Director of the Institute for Artificial Intelligence at the University of Bremen, sits on a robot in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021409153

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: Michael Beetz, Director of the Institute for Artificial Intelligence at the University of Bremen, presents a robot in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021408848

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: Michael Beetz, Director of the Institute for Artificial Intelligence at the University of Bremen, sits on a robot in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021409014

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: A screen displays the model of a replica drugstore through which a robot moves. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021409073

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: A robot stands in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021408969

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: A robot stands in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021409106

  •  Research team wants to develop robots for retail trade
    2020年02月13日
    Research team wants to develop robots for retail trade

    13 February 2020, Bremen: A robot stands in a replica drugstore. A group of Bremen researchers wants to bring artificial intelligence (AI) and robotics to the retail trade. The project “Knowledge4Retail“ is funded by the Federal Ministry of Economics with 13 million euros and is a cooperation of 13 partners from science and business in the Hanseatic city. It has a term of three years. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020021408933

  •  Robotics in the craft trade
    2020年02月26日
    Robotics in the craft trade

    26 February 2020, Saxony, Dresden: Michael Ogriseck, project team member of the Dresden Chamber of Trade, controls a collaborative robot (Cobot) with the help of a tablet computer for demonstration purposes. Within the scope of a kick-off event on the occasion of the new robotics competence centre, the Dresden Chamber of Trade provided information on how robotics can be integrated into the trade. Photo: Sebastian Kahnert/dpa-Zentralbild/ZB、クレジット:ZB/DPA/共同通信イメージズ

    商品コード: 2020022705544

  •  Robotics in the craft trade
    2020年02月26日
    Robotics in the craft trade

    26 February 2020, Saxony, Dresden: Felix Hillemeier, project team member of the Dresden Chamber of Crafts, carries a stack of chairs for demonstration purposes with the help of an exoskeleton from the Augsburg company German Bionic. Within the scope of a kick-off event on the occasion of the new robotics competence centre, the Dresden Chamber of Trade provided information on how robotics can be integrated into the trade. Photo: Sebastian Kahnert/dpa-Zentralbild/ZB、クレジット:ZB/DPA/共同通信イメージズ

    商品コード: 2020022705475

  •  Elias Lundstrom
    2020年03月02日
    Elias Lundstrom

    Elias Lundstrom, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403613

  •  Soren Peters
    2020年03月02日
    Soren Peters

    Soren Peters, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403658

  •  Elias Lundstrom
    2020年03月02日
    Elias Lundstrom

    Elias Lundstrom, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403564

  •  Soren Peters
    2020年03月02日
    Soren Peters

    Soren Peters, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403567

  •  Soren Peters
    2020年03月02日
    Soren Peters

    Soren Peters, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403676

  •  Soren Peters
    2020年03月02日
    Soren Peters

    Soren Peters, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403685

  •  Elias Lundstrom
    2020年03月02日
    Elias Lundstrom

    Elias Lundstrom, robotics expert and one of two Danish founders of first global online hub #HowToRobot global project, attends a seminar on Prague robotic day, on March 2, 2020, at the Danish Embassy in Prague, Czech Republic. (CTK Photo/Katerina Sulova)、クレジット:CTK/共同通信イメージズ

    商品コード: 2020030403673

  •  Samsung Electronic robot Commercialization
    2020年04月01日
    Samsung Electronic robot Commercialization

    A Samsung store for mobile phones and smart electronics devices in Shanghai, China, October 27, 2020. December 12, 2021 - Samsung Electronics accelerates commercialization of robotics technology.=2020(令和2)年4月1日、クレジット:CFOTO/共同通信イメージズ

    商品コード: 2021121405173

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Hanno Schnars, business unit manager Maritime Technologies at the Frauenhofer Institute for Manufacturing Technology and Applied Materials Research (IFAM), is standing at the railing of the buoy layer “Lev Taifun“ in the early morning. Starting signal for a large maritime test field off Helgoland: Scientists of the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801594

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A ton is lowered into the water with the help of a crane. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801602

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A ton is dropped into the water. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800707

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Hanno Schnars, business unit manager Maritime Technologies at the Frauenhofer Institute for Manufacturing Technology and Applied Materials Research (IFAM), is standing at the railing of the buoy layer “Lev Taifun“ in the early morning. Starting signal for a large maritime test field off Helgoland: Scientists of the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801605

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Workers prepare the rope for a ton. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800811

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Through the porthole of a ship, one of the buoys marking the area of a test field off the island of Helgoland can be seen. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used buoys to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800759

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A ton is lowered into the water with the help of a crane. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800776

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: One worker prepares the rope for one ton. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800793

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: The sun rises behind the cliffs of Helgoland. The starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801596

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A ton is dropped into the water. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801613

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    dpatop - 23 April 2020, Schleswig-Holstein, Helgoland: A ton is dropped into the water. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800714

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Two workers prepare the rope for a ton. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800733

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: One tonne marks the area of a test field off the island of Helgoland. The starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800761

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: Jörg Singer (l), mayor of Helgoland, passes by the buoy layer “Lev Taifun“ and greets him. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used barrels to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801531

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A ton is dropped into the water. Starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used tons to mark out a three million square metre area not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801705

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: A scientist stands at the railing of the buoy-laying vessel “Lev Taifun“ shortly after the departure to Helgoland and looks at the stars. The starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used barrels to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042800814

  •  Buoy laying for maritime test field off Helgoland
    2020年04月23日
    Buoy laying for maritime test field off Helgoland

    23 April 2020, Schleswig-Holstein, Helgoland: The buoy layer “Lev Taifun“ arrives shortly before sunrise at the future test field off Helgoland. The starting signal for a large maritime test field off Helgoland: Scientists from the Test Centre for Maritime Technologies have used buoys to mark out an area of three million square metres not far from the North Sea island. It is intended to provide testing facilities for maritime robotics in the future. Manufacturers and scientists can test different scenarios there. For example, autonomous underwater vehicles for offshore wind turbines can be tested under real conditions in the sea or drones flying over the water for inspection work. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020042801484

  •  Samsung Electronic robot Commercialization
    2020年07月09日
    Samsung Electronic robot Commercialization

    A Samsung store for mobile phones and smart electronics devices in Shanghai, China, October 27, 2020. December 12, 2021 - Samsung Electronics accelerates commercialization of robotics technology.=2020(令和2)年7月9日、クレジット:CFOTO/共同通信イメージズ

    商品コード: 2021121404883

  •  Samsung Electronic robot Commercialization
    2020年07月09日
    Samsung Electronic robot Commercialization

    A Samsung store for mobile phones and smart electronics devices in Shanghai, China, October 27, 2020. December 12, 2021 - Samsung Electronics accelerates commercialization of robotics technology.=2020(令和2)年7月9日、クレジット:CFOTO/共同通信イメージズ

    商品コード: 2021121405208

  •  Samsung Electronic robot Commercialization
    2020年07月09日
    Samsung Electronic robot Commercialization

    A Samsung store for mobile phones and smart electronics devices in Shanghai, China, October 27, 2020. December 12, 2021 - Samsung Electronics accelerates commercialization of robotics technology.=2020(令和2)年7月9日、クレジット:CFOTO/共同通信イメージズ

    商品コード: 2021121405389

  •  Plantation robots
    2020年07月17日
    Plantation robots

    17 July 2020, Saxony, Dresden: Journalists follow the presentation of a so-called Elwobot, an autonomous plantation robot for wine and fruit growing, on the TU Dresden campus. The occasion is a presentation of robotics developments in the Free State in the fields of science, research and industry. Photo: Sebastian Kahnert/dpa-Zentralbild/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020080601555

  •  Plantation robots
    2020年07月17日
    Plantation robots

    17 July 2020, Saxony, Dresden: Journalists follow the presentation of a so-called Elwobot, an autonomous plantation robot for wine and fruit growing, on the TU Dresden campus. The occasion is a presentation of robotics developments in the Free State in the fields of science, research and industry. Photo: Sebastian Kahnert/dpa-Zentralbild/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020080601574

  •  Plantation robots
    2020年07月17日
    Plantation robots

    17 July 2020, Saxony, Dresden: Journalists follow the presentation of a so-called Elwobot, an autonomous plantation robot for wine and fruit growing, on the TU Dresden campus. The occasion is a presentation of robotics developments in the Free State in the fields of science, research and industry. Photo: Sebastian Kahnert/dpa-Zentralbild/dpa、クレジット:DPA/共同通信イメージズ

    商品コード: 2020080601577

  •  Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking
    2020年08月05日
    Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking

    August 5, 2020, Irvine, California, United States: VIDEO AVAILABLE: CONTACT: INFO@COVERMG.COM..A team of scientists at the Max Planck Institute for Intelligent Systems and the University of California, Irvine have constructed robot legs that mimic the ultra-efficient locomotion of birds. .Like its natural inspiration, their BirdBot benefits from a foot-leg coupling through a network of muscles and tendons that extends across multiple joints. In this way, BirdBot needs fewer motors than previous legged robots and could, theoretically, scale to large size. .Together with his doctoral student Alborz Aghamaleki Sarvestani, the leader of Max Planckââ¬â¢s the Dynamic Locomotion Group, Alexander Badri-Spröwitz has constructed the robot leg that is super energy efficient. On 16 March 2022, Badri-Spröwitz, Aghamaleki Sarvestani, the roboticist Metin Sitti, a director at MPI-IS, and biology professor Monica A. Daley of the University of California, Irvine, published their research in the journal Science Roboti...

    商品コード: 2022040101315

  •  Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking
    2020年08月05日
    Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking

    August 5, 2020, Irvine, California, United States: VIDEO AVAILABLE: CONTACT: INFO@COVERMG.COM..A team of scientists at the Max Planck Institute for Intelligent Systems and the University of California, Irvine have constructed robot legs that mimic the ultra-efficient locomotion of birds. .Like its natural inspiration, their BirdBot benefits from a foot-leg coupling through a network of muscles and tendons that extends across multiple joints. In this way, BirdBot needs fewer motors than previous legged robots and could, theoretically, scale to large size. .Together with his doctoral student Alborz Aghamaleki Sarvestani, the leader of Max Planckââ¬â¢s the Dynamic Locomotion Group, Alexander Badri-Spröwitz has constructed the robot leg that is super energy efficient. On 16 March 2022, Badri-Spröwitz, Aghamaleki Sarvestani, the roboticist Metin Sitti, a director at MPI-IS, and biology professor Monica A. Daley of the University of California, Irvine, published their research in the journal Science Roboti...

    商品コード: 2022040107500

  •  Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking
    2020年08月05日
    Scientists‘ ‘BirdBot‘ Mimics Birds Ingenious Way Of Walking

    August 5, 2020, Irvine, California, United States: VIDEO AVAILABLE: CONTACT: INFO@COVERMG.COM..A team of scientists at the Max Planck Institute for Intelligent Systems and the University of California, Irvine have constructed robot legs that mimic the ultra-efficient locomotion of birds. .Like its natural inspiration, their BirdBot benefits from a foot-leg coupling through a network of muscles and tendons that extends across multiple joints. In this way, BirdBot needs fewer motors than previous legged robots and could, theoretically, scale to large size. .Together with his doctoral student Alborz Aghamaleki Sarvestani, the leader of Max Planckââ¬â¢s the Dynamic Locomotion Group, Alexander Badri-Spröwitz has constructed the robot leg that is super energy efficient. On 16 March 2022, Badri-Spröwitz, Aghamaleki Sarvestani, the roboticist Metin Sitti, a director at MPI-IS, and biology professor Monica A. Daley of the University of California, Irvine, published their research in the journal Science Roboti...

    商品コード: 2022040101507

  •  U.S. Military Semi-Autonomous Robot Dog
    2020年09月01日
    U.S. Military Semi-Autonomous Robot Dog

    September 1, 2020, Nellis Air Force Base, Nevada, USA: Tech. Sgt. John Rodiguez, 321st Contingency Response Squadron security team, provides security with a Ghost Robotics Vision 60 prototype at a simulated austere base during the Advanced Battle Management System exercise on Nellis Air Force Base, Nevada, Sept. 1, 2020. The ABMS is an interconnected battle network - the digital architecture or foundation - which collects, processes and shares data relevant to warfighters in order to make better decisions faster in the kill chain. In order to achieve all-domain superiority, it requires that individual military activities not simply be de-conflicted, but rather integrated âactivities in one domain must enhance the effectiveness of those in another domain. ().Ghost Robotics say they are ‘‘revolutionizing legged robotics and the market for highly-agile and fast tele-operated and autonomous unmanned ground vehicles for military, homeland security, public safety, and enterprise applications. (Credit Image: © ...

    商品コード: 2022022400564

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