Patents by Inventor Sang Su BAE
Sang Su BAE has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240351671Abstract: A port monitoring system including: a port environment detection unit in which it is important to monitor the accurate position and posture of ships, especially large ships, in a port (or harbor), and which monitors the position and status of fenders in the port, and measures the environmental conditions of the port and thus generates port environment information to integrally manage ships and fenders in order to efficiently manage the port; a ship monitoring unit which is included in a ship and generates ship information of the ship; a fender monitoring unit which is included in a fender and generates fender information of the fender; a network; and a port management unit.Type: ApplicationFiled: March 29, 2024Publication date: October 24, 2024Applicant: HWASEUNG CORPORATION CO., LTD.Inventors: SEUNG PYO HONG, JIN MIN YOUN, SANG SU BAE, YU JIN JO, JIN HYUNG PARK, NAM WOO KIM
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Publication number: 20240351670Abstract: A pneumatic fender includes: a ring-shaped metal fitting housing that is mounted on at least one end of a pneumatic fender and forms a penetrating part penetrating the inside and outside of the pneumatic fender; a plate-shaped flange that is mounted on the penetrating part to block the inside and outside of the pneumatic fender; a wireless transmitter that is mounted on the front surface of the flange defining a surface formed in the external direction of the pneumatic fender; a cover that is mounted on the front surface of the flange; a shaft that has a predetermined length and is mounted on the rear surface of the flange; a position sensor that is mounted on the internal direction end of the shaft and generates position information of the pneumatic fender; and a reflective member that is connected to the shaft between the flange and the position sensor.Type: ApplicationFiled: March 29, 2024Publication date: October 24, 2024Applicant: HWASEUNG CORPORATION CO., LTD.Inventors: IL KYUNG SUNG, SANG SU BAE, JAE MOON LEE, TAE KYU LEE, YU JIN JO
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Patent number: 12119140Abstract: Disclosed herein is an insulating bushing adapted to protect a busbar and having improved waterproof performance. The insulating bushing includes: a first bushing provided with a first bushing passage through which the busbar passes; a second bushing provided with a first bushing-receiving portion receiving an upper portion of the first bushing inserted through a lower portion of the first bushing-receiving portion and a second bushing passage through which the busbar passes; and a cover coupled to an outer surface of the second bushing and provided with a cover passage through which the busbar passes.Type: GrantFiled: July 14, 2022Date of Patent: October 15, 2024Assignee: HWASEUNG CORPORATION CO., LTD.Inventors: Il Kyung Sung, Jong Ho Kim, Sang Su Bae, Seung Hwan Lee, Yu Jin Jo
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Publication number: 20240229096Abstract: Provided are a composition for expressing and/or producing a polypeptide of interest in an animal cell, comprising a target-specific endonuclease system or an encoding gene thereof and a donor DNA structure; a recombinant animal cell into which said composition is introduced and a manufacturing method thereof; and a method for expressing and/or producing a polypeptide of interest in an animal cell, comprising a step of introducing said composition into the animal cell and/or a step of culturing said animal cell.Type: ApplicationFiled: October 12, 2018Publication date: July 11, 2024Inventors: Sang Su BAE, Jae Sung WOO, Ji Hyeon YU
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Publication number: 20230303979Abstract: The present invention relates to a method for producing a cell having a genetic defect corrected, and a cell therapy agent comprising the cell, and, more particularly, to a method for producing a cell and a cell therapy agent comprising the cell, which comprise a method for isolating a cell from an individual, producing a chemically derived progenitor cell by processing a compound, and then correcting a mutant gene ex vivo. The cell therapy agent of the present invention has significantly less side effects such as an off-target effect and tumor generation, and has shown a Tyrosinemia type I treatment effect that is more significant than when a simple cell is transplanted, and thus, the cell therapy agent is expected to be widely usable in treatment fields for diseases caused by gene mutation, including Tyrosinemia type I.Type: ApplicationFiled: August 13, 2021Publication date: September 28, 2023Applicant: IUCF-HYU (INDUSTRY-UNIVERSITY COOPERATION FOUNDATION HANYANGInventors: Dong Ho CHOI, Sang Su BAE, Sung Ah HONG, Jae Min JEONG, Yo Han KIM
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Publication number: 20230074057Abstract: Disclosed herein is an insulating bushing adapted to protect a busbar and having improved waterproof performance. The insulating bushing includes: a first bushing provided with a first bushing passage through which the busbar passes; a second bushing provided with a first bushing-receiving portion receiving an upper portion of the first bushing inserted through a lower portion of the first bushing-receiving portion and a second bushing passage through which the busbar passes; and a cover coupled to an outer surface of the second bushing and provided with a cover passage through which the busbar passes.Type: ApplicationFiled: July 14, 2022Publication date: March 9, 2023Inventors: IL KYUNG SUNG, Jong Ho Kim, Sang Su Bae, Seung Hwan Lee, Yu Jin Jo
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Patent number: 11352666Abstract: The present disclosure relates to a method for detecting off-target sites of a programmable nuclease in a genome, and specifically, to a method for detecting off-target sites through data analysis by subjecting the genome isolated in vitro to programmable nucleases to cleave the genome and then performing whole genome sequencing or deep sequencing, and to a method for selecting on-target sites of a programmable nuclease, which minimizes the off-target effect, using this method. The Digenome-seq of the present disclosure can detect the off-target sites of a programmable nuclease on the genomic scale at a high degree of reproducibility, and thus can be used in the manufacture of programmable nucleases having high target specificity and the study thereof.Type: GrantFiled: November 13, 2015Date of Patent: June 7, 2022Assignee: INSTITUTE FOR BASIC SCIENCEInventors: Jin Soo Kim, Dae Sik Kim, Sang Su Bae
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Patent number: 10980252Abstract: A new alga having an improved ability to produce a pigment is disclosed. When the alga is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. The pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. Since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO.Type: GrantFiled: April 13, 2020Date of Patent: April 20, 2021Assignee: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon Jin, Sang Su Bae, Kwang Ryul Baek, Duk Hyoung Kim, Joo Yeon Jeong
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Patent number: 10973246Abstract: A new alga having an improved ability to produce a pigment is disclosed. When the new alga is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. The pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. Since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO, so that it is expected that the procedure of constructing the mutant can create a big economic effect in terms of an industry which produces lutein and zeaxanthin by using microalgae.Type: GrantFiled: June 4, 2020Date of Patent: April 13, 2021Assignee: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon Jin, Sang Su Bae, Kwang Ryul Baek, Duk Hyoung Kim, Joo Yeon Jeong
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Publication number: 20200323241Abstract: A new alga having an improved ability to produce a pigment is disclosed. When the alga is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. The pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. Since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO.Type: ApplicationFiled: April 13, 2020Publication date: October 15, 2020Applicant: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon JIN, Sang Su BAE, Kwang RyuI BAEK, Duk Hyoung KIM, Joo Yeon JEONG
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Publication number: 20200315214Abstract: A new alga having an improved ability to produce a pigment is disclosed. When the new alga is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. The pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. Since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO, so that it is expected that the procedure of constructing the mutant can create a big economic effect in terms of an industry which produces lutein and zeaxanthin by using microalgae.Type: ApplicationFiled: June 4, 2020Publication date: October 8, 2020Applicant: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon JIN, Sang Su Bae, Kwang Ryul Baek, Duk Hyoung Kim, Joo Yeon Jeong
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Patent number: 10709152Abstract: The present invention relates to a new alga having an improved ability to produce a pigment, and when a mutant of the present invention is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. Further, the pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. In particular, since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO, so that it is expected that the procedure of constructing the mutant can create a big economic effect in terms of an industry which produces lutein and zeaxanthin by using microalgae.Type: GrantFiled: July 31, 2018Date of Patent: July 14, 2020Assignee: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon Jin, Sang Su Bae, Kwang Ryul Baek, Duk Hyoung Kim, Joo Yeon Jeong
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Publication number: 20190153530Abstract: The present disclosure relates to a method for detecting off-target sites of a programmable nuclease in a genome, and specifically, to a method for detecting off-target sites through data analysis by subjecting the genome isolated in vitro to programmable nucleases to cleave the genome and then performing whole genome sequencing or deep sequencing, and to a method for selecting on-target sites of a programmable nuclease, which minimizes the off-target effect, using this method. The Digenome-seq of the present disclosure can detect the off-target sites of a programmable nuclease on the genomic scale at a high degree of reproducibility, and thus can be used in the manufacture of programmable nucleases having high target specificity and the study thereof.Type: ApplicationFiled: November 13, 2015Publication date: May 23, 2019Inventors: Jin Soo Kim, Dae Sik Kim, Sang Su Bae
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Publication number: 20190045812Abstract: The present invention relates to a new alga having an improved ability to produce a pigment, and when a mutant of the present invention is used, a carotenoid-based pigment, specifically, a xanthophyll can be produced by consuming less energy, so that it is possible to efficiently produce the pigment at the industrial level. Further, the pigment can be applied as a raw material for a food, a health functional food and a medicine, which include the pigment. In particular, since a DNA fragment is not likely to be inserted into a target base sequence or a base sequence other than the target, it is expected that the procedure of constructing the mutant is not regulated as a GMO, so that it is expected that the procedure of constructing the mutant can create a big economic effect in terms of an industry which produces lutein and zeaxanthin by using microalgae.Type: ApplicationFiled: July 31, 2018Publication date: February 14, 2019Applicant: Industry-University Cooperation Foundation Hanyang UniversityInventors: Eon Seon JIN, Sang Su BAE, Kwang Ryul BAEK, Duk Hyoung KIM, Joo Yeon JEONG
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Publication number: 20170076039Abstract: The present invention relates to a method of selecting a nuclease target sequence for gene knockout based on microhomology.Type: ApplicationFiled: April 24, 2015Publication date: March 16, 2017Applicant: INSTITUTE FOR BASIC SCIENCEInventors: Jin Soo Kim, Sang Su Bae
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Patent number: 9540182Abstract: Provided are an abrasion-detection type conveyor belt and a manufacturing method thereof. A polymer composition ratio of is set to 40-60% of styrene-butadiene rubber (SBR) and 60-40% of natural rubber (NR), and an adhesive strength between a cover rubber layer and an abrasion-detection color layer is set to 13 kN/m (33 kgf/inch). As compared to the existing product, material properties of the abrasion-detection color layer are improved to extend the available life of the abrasion detection type conveyor belt. The abrasion-detection type conveyor belt is cost-effective, simplifies a belt line, and reduces an inspection time.Type: GrantFiled: November 9, 2015Date of Patent: January 10, 2017Assignees: HWASEUNG EXWILL CO., LTD., HYUNDAI STEEL COMPANYInventors: Jong Woo Kim, Un Jung Lee, Dae Myung Lim, Sang Su Bae, Jeong Hyeon Seo, Sang Bong Lee, Jai Joon Song, Min Heo, Tae Min Jeong, Seung Young Shin
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Publication number: 20160362252Abstract: Provided are an abrasion-detection type conveyor belt and a manufacturing method thereof A polymer composition ratio of is set to 40-60% of styrene-butadiene rubber (SBR) and 60-40% of natural rubber (NR), and an adhesive strength between a cover rubber layer and an abrasion-detection color layer is set to 13 kN/m (33 kgf/inch). As compared to the existing product, material properties of the abrasion-detection color layer are improved to extend the available life of the abrasion detection type conveyor belt. The abrasion-detection type conveyor belt is cost-effective, simplifies a belt line, and reduces an inspection time.Type: ApplicationFiled: November 9, 2015Publication date: December 15, 2016Inventors: Jong Woo KIM, Un Jung LEE, Dae Myung LIM, Sang Su BAE, Jeong Hyeon SEO, Sang Bong LEE, Jai Joon SONG, Min HEO, Tae Min JEONG, Seung Young SHIN
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Patent number: D1054380Type: GrantFiled: December 7, 2021Date of Patent: December 17, 2024Assignee: Hwaseung Corporation Co., LtdInventors: Jong Ho Kim, Il Kyung Sung, Sang Su Bae, Yu Jin Jo