Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

Zhejiang University High Gravity Laboratory

Zhejiang University High Gravity Laboratory

HANGZHOU, CHINA - NOVEMBER 8, 2024 - An aerial photo shows the install compeleted facade of the experimental building of Zhejiang University's High gravity centrifugal Simulation and Experimental Device project in Hangzhou, Zhejiang province, China, November 8, 2024. The Zhejiang University Supergravity centrifuge Simulation and Experimental Equipment project is the first national major science and technology infrastructure project in Zhejiang Province. After completion, it will become a multidisciplinary scientific experiment facility with the largest capacity of supergravity centrifuge and the strongest function of experimental chamber in the world.

(FOCUS)CHINA-TOP SCI-TECH AWARD-XUE QIKUN (CN)

(FOCUS)CHINA-TOP SCI-TECH AWARD-XUE QIKUN (CN)

(240624) -- BEIJING, June 24, 2024 Photo by Xinhua/ABACAPRESS.COM) -- Xue Qikun operates experimental device at a laboratory in Tsinghua University in Beijing, capital of China, June 13, 2024. Xue Qikun won China's top sci-tech award for the year 2023 Monday. Xue is a distinguished scientist of condensed matter physics, who has achieved multiple scientific breakthroughs. His team made the first experimental observation of the quantum anomalous Hall effect. They also discovered interface-enhanced high-temperature superconductivity in the heterostructure system, which opened up a new direction of research in the field of high-temperature superconductivity. (Photo by Li Zhou/Xinhua/ABACAPRESS.COM

(FOCUS)CHINA-TOP SCI-TECH AWARD-XUE QIKUN (CN)

(FOCUS)CHINA-TOP SCI-TECH AWARD-XUE QIKUN (CN)

(240624) -- BEIJING, June 24, 2024 (Xinhua) -- Xue Qikun operates experimental device at a laboratory in Tsinghua University in Beijing, capital of China, June 13, 2024. Xue Qikun won China's top sci-tech award for the year 2023 Monday. Xue is a distinguished scientist of condensed matter physics, who has achieved multiple scientific breakthroughs. His team made the first experimental observation of the quantum anomalous Hall effect. They also discovered interface-enhanced high-temperature superconductivity in the heterostructure system, which opened up a new direction of research in the field of high-temperature superconductivity. (Photo by Li Zhou/Xinhua)

AmazingAnhui | Primate research team of Anhui University protects unique species in Huangshan

AmazingAnhui | Primate research team of Anhui University protects unique species in Huangshan

(240521) -- HUANGSHAN, May 21, 2024 (Xinhua) -- Zhang Tong (R) and Gao Xin, members of Anhui University primate research team, replace battery for a monitoring device in Fuxi Village of Tangkou Township in Huangshan, east China's Anhui Province, May 15, 2024. Huangshan Stump-tailed Macaque (Macaca thibetana huangshanensis), a species unique to Huangshan area of China, often showing up in groups in dense forests and canyons, climbing branches and cliffs with ease, is under China's second-class national protection. In 1983, Anhui University and Kyoto University carried out scientific and technological cooperation with a primate field research base established in Fuxi Village at the foot of Huangshan mountain to conduct ecological investigation of Huangshan stump-tailed macaques. Over the past 40 years, abundant first-hand data on Huangshan stump-tailed macaques were obtained as Anhui University extensively cooperated with many universities and research institutes, revealing living habits, behavioral purpo

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Workers untie the cable of Haikui No. 1 in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Haikui No. 1 is shipped from CNOOC Qingdao International high-end Equipment Manufacturing Base in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - Builders pose for a group photo in front of the "Haikui No. 1" in Qingdao, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

FPSO Haikui No. 1

FPSO Haikui No. 1

QINGDAO, CHINA - MAY 12, 2024 - The "Haikui No. 1" is loaded on a ship at the anchorage of Qingdao Port, Shandong province, China, May 12, 2024. It is understood that Asia's first cylindrical floating production storage and unloading device "Sea Kui No. 1" is designed in accordance with the bad sea conditions once in a hundred years, with a design life of 30 years, and can run continuously at sea for 15 years without returning to dock.

XINHUA PHOTOS OF THE DAY

XINHUA PHOTOS OF THE DAY

(240225) -- BEIJING, Feb. 25, 2024 (Xinhua) -- This photo taken on Jan. 25, 2024 shows a portrait of Zhang Zhengtao. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issues, and addressing pain points with actual demand from the market. (Xinhua/Jin Liwang)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (L) speaks with an investor representative at Beijing branch of CASI Vision in Beijing, capital of China, Jan. 26, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issues, and addressing pain points w

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (L) discusses the panel operation of an intelligent inspection device with his colleague at the headquarters of CASI Vision in Luoyang, central China's Henan Province, Feb. 3, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusi

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (L) prepares for a group meeting at the Institute of Automation of the Chinese Academy of Sciences (CASIA) in Beijing, capital of China, Jan. 25, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issue

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (L) discusses research progress with a student at a lab of the Institute of Automation of the Chinese Academy of Sciences (CASIA) in Beijing, capital of China, Jan. 25, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing rese

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao picks a glass back cover for mobile phone from an intelligent inspection device at the headquarters of CASI Vision in Luoyang, central China's Henan Province, Feb. 3, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing resear

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao attends a group meeting at the Institute of Automation of the Chinese Academy of Sciences (CASIA) in Beijing, capital of China, Jan. 25, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issues, and ad

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (L) discusses with his colleague on research, development and application of an intelligent inspection device at the headquarters of CASI Vision in Luoyang, central China's Henan Province, Feb. 3, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practic

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- This photo taken on Jan. 25, 2024 shows a portrait of Zhang Zhengtao. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issues, and addressing pain points with actual demand from the market. (Xinhua/Jin Liwang)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- This photo taken on Jan. 25, 2024 shows a portrait of Zhang Zhengtao. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing research funds at key issues, and addressing pain points with actual demand from the market. (Xinhua/Jin Liwang)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(EyesOnSci)CHINA-AOI TECHNOLOGY-RESEARCHER-ENTREPRENEUR (CN)

(240224) -- BEIJING, Feb. 24, 2024 (Xinhua) -- Zhang Zhengtao (R) discusses research progress with a student at a lab of the Institute of Automation of the Chinese Academy of Sciences (CASIA) in Beijing, capital of China, Jan. 25, 2024. Led by his supervisor, Zhang Zhengtao, a graduate from the Institute of Automation of the Chinese Academy of Sciences (CASIA), joined the research of a large scientific device in 2010. Zhang was the first to apply artificial intelligence (AI) algorithm and precision optical imaging system to a device of its kind. He has made a number of technological breakthroughs in automated optical inspection (AOI) technologies since then. In 2016, he spearheaded in the incorporation of CASI Vision, which applies AOI technologies to non-destructive automatic inspection of standardized industrial products. To date, Zhang still serves as a researcher and doctoral supervisor at CASIA. As a scientist and an entrepreneur, he encourages his students to do practical research by focusing rese

CHINA-BEIJING-OCT TECHNOLOGY-ENTREPRENEURSHIP (CN)

CHINA-BEIJING-OCT TECHNOLOGY-ENTREPRENEURSHIP (CN)

(240220) -- BEIJING, Feb. 20, 2024 (Xinhua) -- Zhu Rui (R) tests a new generation of OCT equipment at a laboratory of a branch office of Vivolight in Xi'an, northwest China's Shaanxi Province, Jan. 18, 2024. On Feb. 18, the first working day after China's Spring Festival holiday, Zhu Rui, founder of medical device company Vivolight, came to the catheter operating room of Beijing Anzhen Hospital to learn about the use of OCT equipment produced by his company. OCT, or optical coherence tomography technology, allows doctors to examine patients and display real-time three-dimensional images where the catheter passes, providing guide for surgery. Since graduating from Tsinghua University in 2006, Zhu has been engaged in OCT related research and product development. His role has changed from a student, a researcher to an entrepreneur. While studying in Beijing, Zhu built an OCT system for ophthalmology. While studying for his PhD in Hong Kong, he realized the potential value of OCT technology in cardiovascu