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1969年01月10日Sredneuralskaya regional power station10.01.1969 The control panel of the Sredneuralskaya regional power station.、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020021903283
02:09.922019年02月25日「新華社」スマートモニタリングで爆竹生産の安全確保江西省萍郷市中国江西省萍郷(へいきょう)市上栗(じょうりつ)県は、全国的な花火・爆竹の生産地。同県では、花火・爆竹の安全な生産のために、ビッグデータ・モニタリングや人工知能(AI)技術を活用し、花火・爆竹生産の全プロセスにける全面的なスマート化安全監督管理を行い、春節(旧正月)時期の花火・爆竹生産の安全に関する各業務が確実に実施されるよう確保している。上栗県花火・爆竹監督管理情報システムは、AI技術やニューラルネットワーク・アルゴリズムにより、作業スペースがふさがっていないか、半製品が規定以上に積み上げられていないか、現場の薬品量が超過していないかなどの情報を現場と同期している。モニタリング・システムが警報を出すと、対応する作業スペースのスピーカーが自動的に警戒情報を流し、規定違反の行為を最短で中止させ、現場の安全管理の効率を大幅に向上させることができる。昨年12月10日から稼働した同システムは企業と政府をインターネットで接続し、企業と政府の関係部門を網羅する総合的なモニタリング情報システムとなっている。同システムは運用開始から2か月余りの間、県全体で人員超過の違反事例3800件以上を発見し警告を発した。このうち企業が内部で処理した事例は3300件、企業が政府の監督の下で処理した事例が500件余りあった。(記者/温美良)<映像内容>花火・爆竹生産をスマートモニタリングで安全管理する様子、撮影日:撮影日不明、クレジット:新華社/共同通信イメージズ
商品コード: 2019022604096
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai a device is attached to a beehive through which the bees enter the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images. This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041219703
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai a device is attached to a beehive through which the bees enter the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images. This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041219345
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai you can see a bee on a hive, sitting on a device through which the bees go into the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images. This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041218984
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: Katharina Schmidt, co-founder and CEO of apic.ai GmbH, stands on a beehive with a device through which the bees enter the hive (bottom of the picture). With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images. This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041219513
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai a device is attached to a beehive (left in the picture), through which the bees enter the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images (right in the image on a mobile device). This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041218578
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai a device is attached to a beehive (left in the picture), through which the bees enter the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images (right in the image on a mobile device). This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041218564
2019年04月10日Artificial intelligence investigates insect mortality10 April 2019, Baden-Wuerttemberg, Karlsruhe: At the company apic.ai a device is attached to a beehive through which the bees enter the hive. With the monitoring system developed by apic.ai all honeybees entering or leaving their hive are captured by a camera. Image processing software and intelligent algorithms recognize the bees and interpret patterns in the images. This artificial intelligence is based on a multimodal neural network with several thousand parameters. From the data, new insights can be gained into the condition of the individual peoples, but also into the condition of the nature surrounding them. Photo: Uli Deck/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2019041217871
00:47.702019年08月01日「新華社」清華大学、「自動運転自転車」を開発中国の清華大学類脳計算研究中心(脳型コンピューター研究センター)の施路平(し・ろへい)教授率いる研究チームによる脳型コンピューターチップ「天機芯(Tianjicチップ)」の研究論文が1日、国際的科学誌「Nature」の特集記事に掲載された。研究チームは人工ニューラルネットワーク(ANNs)とスパイキングニュートラルネットワーク(SNNs)の融合を大きく進展させ、その成果を使った「自動運転自転車」を制作。クロスモーダルな脳型チップの情報処理実験を行い、汎用人工知能(AGI)の発展に新たなアイデアを提供した。(清華大学提供)<映像内容>自動運転自転車が走る様子、撮影日:2019(令和元)年8月1日、クレジット:清華大学/新華社/共同通信イメージズ
商品コード: 2019080607705
2020年02月19日High performance computer19 February 2020, Baden-Wuerttemberg, Stuttgart: A high-performance computer with which neural networks are calculated is located in the High Performance Computing Centre Stuttgart (HLRS). Photo: Sebastian Gollnow/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2020022800530
2020年02月19日High performance computer19 February 2020, Baden-Wuerttemberg, Stuttgart: A high-performance computer with which neural networks are calculated is located in the High Performance Computing Centre Stuttgart (HLRS). Photo: Sebastian Gollnow/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2020022801331
2020年06月04日Russia RT HUAWEI HONOR Partnership04.06.2020 RT mobile application for the new Honor 30 line of smartphones uses ISR (Image super resolution) technology, which allows gadget users to receive high-quality images using a neural network. Evgeny Odinokov / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020061113029
2020年06月04日Russia RT HUAWEI HONOR Partnership04.06.2020 RT mobile application for the new Honor 30 line of smartphones uses ISR (Image super resolution) technology, which allows gadget users to receive high-quality images using a neural network. Evgeny Odinokov / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020061113084
2020年06月04日Russia RT HUAWEI HONOR Partnership04.06.2020 RT mobile application for the new Honor 30 line of smartphones uses ISR (Image super resolution) technology, which allows gadget users to receive high-quality images using a neural network. Evgeny Odinokov / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020061113108
2020年06月04日Russia RT HUAWEI HONOR Partnership04.06.2020 RT mobile application for the new Honor 30 line of smartphones uses ISR (Image super resolution) technology, which allows gadget users to receive high-quality images using a neural network. Evgeny Odinokov / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020061112895
2020年06月04日Russia RT HUAWEI HONOR Partnership04.06.2020 RT mobile application for the new Honor 30 line of smartphones uses ISR (Image super resolution) technology, which allows gadget users to receive high-quality images using a neural network. Evgeny Odinokov / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020061113081
2020年07月05日Russia Сonvent05.07.2020 The nun plays a musical instrument on the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605514
2020年07月05日Russia Сonvent05.07.2020 A nun walks at a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605517
2020年07月05日Russia Сonvent05.07.2020 Nuns walk at a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605352
2020年07月05日Russia Сonvent05.07.2020 A nun attends a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605376
2020年07月05日Russia Сonvent05.07.2020 People attend a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605354
2020年07月05日Russia Сonvent05.07.2020 A nun is seen in the kitchen at the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, is pictured in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605439
2020年07月05日Russia Сonvent05.07.2020 The territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, is pictured in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605453
2020年07月05日Russia Сonvent05.07.2020 A woman walks with a girl on the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605356
2020年07月05日Russia Сonvent05.07.2020 Nuns are pictured at a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605463
2020年07月05日Russia Сonvent05.07.2020 People attend the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, is pictured in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605329
2020年07月05日Russia Сonvent05.07.2020 Nuns attend a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605366
2020年07月05日Russia Сonvent05.07.2020 A nun speaks at a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605313
2020年07月05日Russia Сonvent05.07.2020 Nuns sing on the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605516
2020年07月05日Russia Сonvent05.07.2020 The nun plays a musical instrument on the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605263
2020年07月05日Russia Сonvent05.07.2020 The territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, is pictured in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605365
2020年07月05日Russia Сonvent05.07.2020 A wpman attends the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605371
2020年07月05日Russia Сonvent05.07.2020 Nuns walk at a Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605481
2020年07月05日Russia Сonvent05.07.2020 Nuns cook in the kitchen at the territory of the Sredneuralsk convent, which has reopened after temporary closure due to COVID-19 pandemic, is pictured in Sverdlovsk Oblast Region, Russia. Pavel Lisitsyn / Sputnik、クレジット:Sputnik/共同通信イメージズ
商品コード: 2020070605389
01:03.622020年09月07日「新華社」中国の科学者、ニューロン1億超の脳型コンピュータを開発中国の浙江大学と之江実験室はこのほど、1億個以上のスパイキングニューロンを持つ最新の脳型コンピュータ「ダーウィン・マウス」を共同で発表した。同コンピューターは浙江大学が開発した脳型チップ「ダーウィン(第2世代)」792個を使用。1億2千万個のスパイキングニューロンと約1千億個のシナプスを持っており、これはマウスの脳のニューロン数とほぼ同程度となっている。脳型コンピューティングとは、ハードウエアとソフトウエアを駆使し、脳のニューラルネットワーク(神経回路網)の構造と動作メカニズムをシミュレートし、新たな人工知能(AI)パラダイムを構築することを指す。こうした革新的な計算思想は、AIなどの分野で複雑なコンピューティング関連の問題を解決する重要な手段として期待されている。(記者/朱涵、李濤、殷暁聖)<映像内容>脳型コンピュータ「ダーウィン・マウス」の発表、撮影日:撮影日不明、クレジット:新華社/共同通信イメージズ
商品コード: 2020090803190
2020年12月29日(2)新たに月のクレーター11万個を識別吉林大など国際研究チーム先ネクタリス代(45億5千万年前~39億2千万年前)に形成されたクレーターの分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
商品コード: 2020122900265
2020年12月29日(4)新たに月のクレーター11万個を識別吉林大など国際研究チームインブリウム代(38億5千万年前~32億年前)に形成されたクレーターの分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
商品コード: 2020122900267
2020年12月29日(6)新たに月のクレーター11万個を識別吉林大など国際研究チームコペルニクス代(11億年前~現在)に形成されたクレーターの分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
商品コード: 2020122900268
2020年12月29日(5)新たに月のクレーター11万個を識別吉林大など国際研究チームエラトステネス代(32億年前~11億年前)に形成されたクレーターの分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
商品コード: 2020122900263
2020年12月29日(3)新たに月のクレーター11万個を識別吉林大など国際研究チームネクタリス代(39億2千万年前~38億5千万年前)に形成されたクレーターの分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
商品コード: 2020122900266
2020年12月29日(1)新たに月のクレーター11万個を識別吉林大など国際研究チーム月面のクレーター分布図。(資料写真)中国の科学者が中心となる国際研究チームがこのほど、月面クレーターの自動識別と年代測定で画期的な成果を上げた。新たに11万個近いクレーターを識別し、うち1万8千個以上の地質年代を明らかにした。研究成果は22日、国際学術誌「ネイチャー・コミュニケーションズ」に掲載された。吉林大学(吉林省長春市)地球科学学院の楊晨(よう・しん)副教授率いる同研究チームは、「転移学習」と呼ばれる習得済みの知識を用いて別の問題を解決する機械学習法に基づき、識別済みクレーター7895個と年代特定済みクレーター1411個のデータを用いたディープニューラルネットワークモデルを構築した。(長春=新華社配信)= 配信日: 2020(令和2)年12月29日、クレジット:新華社/共同通信イメージズ
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2021年08月12日Neural communicationSeveral neurons connected to each other with captions.、クレジット:AMANDINE WANERT / BSIP/Universal Images Group/共同通信イメージズ
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2021年08月12日Neural communicationSeveral neurons connected to each other on white background.、クレジット:AMANDINE WANERT / BSIP/Universal Images Group/共同通信イメージズ
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2021年09月23日Logos displayed on smartphones in Poland - 23 Sept 2021September 23, 2021, Poland: In this photo illustration a Neuralink logo seen displayed on a smartphone. (Credit Image: © Mateusz Slodkowski/SOPA Images via ZUMA Press Wire)、クレジット:©Mateusz Slodkowski/SOPA Images via ZUMA Press Wire/共同通信イメージズ
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2021年11月12日U.S.-NEW YORK-NYU-BOMB THREATS(211112) -- NEW YORK, Nov. 12, 2021 (Xinhua) -- A pedestrian walks past the building of the Hebrew Union College in New York, the United States, Nov. 11, 2021. Local authorities conducted investigations after New York University (NYU) evacuated multiple buildings due to bomb threats Thursday night. “NYU has received bomb threats for three locations: the Stern School of Business, Center for Neural Science, and Hebrew Union College,“ the school said in its website Thursday evening. The locations were soon evacuated, according to the university. Police conducted a search and later issued an all clear. (Xinhua/Wang Ying)、クレジット:新華社/共同通信イメージズ
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2021年11月12日U.S.-NEW YORK-NYU-BOMB THREATS(211112) -- NEW YORK, Nov. 12, 2021 (Xinhua) -- Photo taken on Nov. 11, 2021 shows the building of the Stern School of Business in New York, the United States. Local authorities conducted investigations after New York University (NYU) evacuated multiple buildings due to bomb threats Thursday night. “NYU has received bomb threats for three locations: the Stern School of Business, Center for Neural Science, and Hebrew Union College,“ the school said in its website Thursday evening. The locations were soon evacuated, according to the university. Police conducted a search and later issued an all clear. (Xinhua/Wang Ying)、クレジット:新華社/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135009 06.03.2022 A visitor at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135013 06.03.2022 Visitor are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135010 06.03.2022 A visitor at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135015 06.03.2022 Visitors are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135019 06.03.2022 Visitors are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135020 06.03.2022 Visitors are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135021 06.03.2022 A visitor is pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135025 06.03.2022 Visitors are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135012 06.03.2022 A visitor at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135011 06.03.2022 A visitor at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135004 06.03.2022 A visitor at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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2022年03月07日Russia Contemporary Art8135018 06.03.2022 Visitors are pictured at the Art for the Future first international biennale at the Moscow Multimedia Art Museum, in Moscow, Russia. The biennale shows art projects based on latest technologies – neural networks, robotics, 3D-animation, virtual and augmented reality. Sergey Pyatakov、クレジット:Sputnik/共同通信イメージズ
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02:04.682022年06月07日Apple announces new chip, laptops, operating systemsSTORY: Apple announces new chip, laptops, operating systemsDATELINE: June 7, 2022LENGTH: 00:02:05LOCATION: SAN FRANCISCO, U.S.CATEGORY: TECHNOLOGYSHOTLIST:1. various of the exterior of Apple Park2. various of the WWDC223. various of the new productsSTORYLINE:U.S. tech company Apple Inc. on Monday kicked off its annual Worldwide Developers Conference (WWDC22) with the introduction of a new chip, laptops and operating systems.Apple‘s new products include the M2 chip, MacBook Air, 13-inch MacBook Pro and its latest operating systems of iOS 16, iPadOS 16, macOS Ventura, and watchOS 9.At WWDC22, Apple announced its latest chip M2, the successor to Apple‘s M1 chip, designed specifically for the Mac. It also unveiled the new MacBook Air and 13-inch MacBook Pro, both supercharged by M2 chip.“M2 delivers a faster CPU, GPU, and Neural Engine...= 配信日: 2022(令和4)年6月7日、クレジット:新華社/共同通信イメージズ
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2023年03月23日Presentation of Mikael Fock‘s Sh4dow, the first performing arts production starring an artificial intelligence creature.March 23, 2023, Madrid, Spain: An actress during the graphic screening of Sh4dow by director Mikael Fock, at Teatros del Canal, on March 25, 2023, in Madrid (Spain). Sh4dow is the first performing arts production starring an artificial intelligence creature. This play is performed on the 4D Box, a theatrical stage capable of creating mixed reality illusions in which 3D virtual objects are able to interact with the actors. The AI character is a neural network that changes shape and, little by little, takes control of the universe. The main theme of the play is the encounter of the person with his shadow, his virtual self, and there is an unacknowledged exchange of emotions and data between humans and machines...23 MARCH 2023..Diego Radamés / Europa Press..03/23/2023 (Credit Image: © Diego RadaméS/Contacto via ZUMA Press)、クレジット:©Diego RadaméS/Contacto via ZUMA Press/共同通信イメージズ ※Spain Rights OUT
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2023年03月23日Presentation of Mikael Fock‘s Sh4dow, the first performing arts production starring an artificial intelligence creature.March 23, 2023, Madrid, Spain: An actress during the graphic screening of Sh4dow by director Mikael Fock, at Teatros del Canal, on March 25, 2023, in Madrid (Spain). Sh4dow is the first performing arts production starring an artificial intelligence creature. This play is performed on the 4D Box, a theatrical stage capable of creating mixed reality illusions in which 3D virtual objects are able to interact with the actors. The AI character is a neural network that changes shape and, little by little, takes control of the universe. The main theme of the play is the encounter of the person with his shadow, his virtual self, and there is an unacknowledged exchange of emotions and data between humans and machines...23 MARCH 2023..Diego Radamés / Europa Press..03/23/2023 (Credit Image: © Diego RadaméS/Contacto via ZUMA Press)、クレジット:©Diego RadaméS/Contacto via ZUMA Press/共同通信イメージズ ※Spain Rights OUT
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT user interface is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT user interface is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT user interface is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT user interface is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT logo is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosOpenAI logo is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosOpenAI logo is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT logo is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT logo is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年05月11日Open AI - Chat GPT Stock PhotosChatGPT user interface is seen on a smartphone screen over a keyboard. (Photo by Nikos Pekiaridis/NurPhoto)、クレジット:Nikos Pekiaridis/NurPhoto/共同通信イメージズ
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2023年06月15日SPIEF-2023. Presentation of Zhirinovsky neural network15.06.2023 SPIEF-2023. Presentation of Zhirinovsky neural network. Alexandr Kryazhev / RIA Host Photo Ag、クレジット:Sputnik/共同通信イメージズ
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2023年06月15日SPIEF-2023. Presentation of Zhirinovsky neural network15.06.2023 SPIEF-2023. Presentation of Zhirinovsky neural network. Leonid Slutsky, leader of the Liberal Democratic Party‘s parliamentary faction in the State Duma. Alexandr Kryazhev / RIA Host Photo Ag、クレジット:Sputnik/共同通信イメージズ
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2023年06月15日SPIEF-2023. Presentation of Zhirinovsky neural network15.06.2023 SPIEF-2023. Presentation of Zhirinovsky neural network. Left: Leonid Slutsky, leader of the Liberal Democratic Party‘s parliamentary faction in the State Duma. Alexandr Kryazhev / RIA Host Photo Ag、クレジット:Sputnik/共同通信イメージズ
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2023年06月15日SPIEF-2023. Presentation of Zhirinovsky neural network15.06.2023 SPIEF-2023. Presentation of Zhirinovsky neural network. Alexandr Kryazhev / RIA Host Photo Ag、クレジット:Sputnik/共同通信イメージズ
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2023年06月15日SPIEF-2023. Presentation of Zhirinovsky neural network15.06.2023 SPIEF-2023. Presentation of Zhirinovsky neural network. Alexandr Kryazhev / RIA Host Photo Ag、クレジット:Sputnik/共同通信イメージズ
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2023年06月28日(SUMMER DAVOS)CHINA-TIANJIN-SUMMER DAVOS-SESSION (CN)(230628) -- TIANJIN, June 28, 2023 (Xinhua) -- Angela Wu, associate professor at the Hong Kong University of Science and Technology, speaks at a session themed “Flexible Neural Electronics“ during the 14th Annual Meeting of the New Champions, also known as the Summer Davos, in north China‘s Tianjin Municipality, June 28, 2023. (Xinhua/Sun Weitong)= 配信日: 2023(令和5)年6月28日、クレジット:新華社/共同通信イメージズ
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2023年06月28日(SUMMER DAVOS)CHINA-TIANJIN-SUMMER DAVOS-SESSION (CN)(230628) -- TIANJIN, June 28, 2023 (Xinhua) -- This photo taken on June 28, 2023 shows a scene of a session themed “Flexible Neural Electronics“ during the 14th Annual Meeting of the New Champions, also known as the Summer Davos, in north China‘s Tianjin Municipality. (Xinhua/Sun Weitong)= 配信日: 2023(令和5)年6月28日、クレジット:新華社/共同通信イメージズ
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s ‘‘Optimus‘‘ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the ‘‘Optimus‘‘ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to ‘‘learn‘‘ humans. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s ‘‘Optimus‘‘ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the ‘‘Optimus‘‘ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to ‘‘learn‘‘ humans. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s ‘‘Optimus‘‘ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the ‘‘Optimus‘‘ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to ‘‘learn‘‘ humans. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
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2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
商品コード: 2024020310776
2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s ‘‘Optimus‘‘ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the ‘‘Optimus‘‘ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to ‘‘learn‘‘ humans. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
商品コード: 2024020307840
2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
商品コード: 2024020310773
2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s “Optimus“ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the “Optimus“ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to “learn“ humans.、クレジット:CFOTO/共同通信イメージズ ※China Out
商品コード: 2024020310769
2023年07月06日Optimus Humanoid Robot at The 2023 WAIC in Shanghai,SHANGHAI, CHINA - JULY 6, 2023 - Spectators look at Tesla‘s ‘‘Optimus‘‘ humanoid robot at the 2023 World Artificial Intelligence Conference in Shanghai, China, July 6, 2023. Tesla‘s Optimus humanoid robot is 172cm tall and weighs 56.6kg. The robot has 28 degrees of freedom, just like the joints of the human body. The hand has 11 degrees of freedom and can lift a piano with one hand. It is understood that the ‘‘Optimus‘‘ humanoid robot is equipped with the same fully autonomous computer and visual neural network system as Tesla cars, and with the blessing of the Dojo supercomputer, it can also use motion capture to ‘‘learn‘‘ humans. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
商品コード: 2024012009059
2023年10月31日U.S. President Joe Biden on Artificial IntelligenceOctober 30, 2023, Washington, DC, United States: U.S. President Joe Biden and Vice President Kamala Harris, right, before signing an Executive Order on Artificial Intelligence in the East Room of the White House, October 30, 2023 in Washington, D.C. (Credit Image: © Cameron Smith/White House/Planet Pix via ZUMA Press Wire)、クレジット:©Cameron Smith/White House/Planet Pix via ZUMA Press Wire/共同通信イメージズ
商品コード: 2023110107455
2023年10月31日U.S. President Joe Biden Meets Senators on Artificial Intelligence LegislationOctober 31, 2023, Washington, DC, United States: U.S. President Joe Biden discusses proposed artificial intelligence legislation to a group of bipartisan legislators during a meeting in the Oval Office of the White House, October 31, 2023 in Washington, D.C. (Credit Image: © Adam Schultz/White House/Planet Pix via ZUMA Press Wire)、クレジット:©Adam Schultz/White House/Planet Pix via ZUMA Press Wire/共同通信イメージズ
商品コード: 2023110203473
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605947
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605989
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605971
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605992
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605986
2023年11月05日Elon Musks XAI Introduces GrokThe xAI and Grok logos are seen in this illustration photo taken on 05 November, 2023 in Warsaw, Poland. Elon Musks‘s xAI company this week introduced Grok, its converstional AI which is says can match GPT 3.5 in performance. (Photo by Jaap Arriens/NurPhoto)、クレジット:Jaap Arriens/NurPhoto/共同通信イメージズ ※RESTRICTED TO EDITORIAL USE
商品コード: 2023110605976
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