Patents by Inventor Jae Sik Sim
Jae Sik Sim 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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Patent number: 9791570Abstract: Disclosed is a laser radar apparatus. The laser radar apparatus includes: a light transmission unit configured to output a laser pulse by using a light source; a light reception unit configured to receive a reflected laser pulse in connection with the laser pulse; and a controller configured to adjust a repetition rate of the laser pulse of the light source, in which the controller adjusts the repetition rate of the laser pulse based on at least one of reception power, a target distance, a movement speed, a vertical angle, and a radiation angle.Type: GrantFiled: February 10, 2015Date of Patent: October 17, 2017Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Hong Seok Seo, Bong Ki Mheen, Myoung Sook Oh, Jae Sik Sim, Jung Ho Song, Min Hyup Song
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Patent number: 9733344Abstract: Provided herein a laser radar apparatus including a plurality of light transmission and reception modules arranged concavely in an opposite direction to a scanning direction based on a surface vertical to the scanning direction, wherein each of the plurality of light transmission and reception modules comprises a transmitter configured to deflect a laser beam and to irradiate the deflected laser beam to a target; and a receiver configured to receive the laser beam reflected from the target.Type: GrantFiled: October 17, 2014Date of Patent: August 15, 2017Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Jae Sik Sim, Ki Soo Kim, Bong Ki Mheen, Myoung Sook Oh, Hong Seok Seo, Jung Ho Song, Yong Hwan Kwon, Dong Sun Kim, Min Hyup Song, Gyu Dong Choi
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Patent number: 9549102Abstract: Disclosed are a method and an apparatus for implementing an active imaging system. A method of obtaining an image in an active imaging system including: dividing an imaging region, and determining a plurality of divided imaging regions; scanning each of the plurality of divided imaging regions based on a laser; collecting reflected light for each of the plurality of divided imaging regions, and generating a plurality of divided images by an image sensor; and generating a whole image for the imaging region based on the plurality of divided images.Type: GrantFiled: January 30, 2015Date of Patent: January 17, 2017Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Jung Ho Song, Bong Ki Mheen, Myoung Sook Oh, Yong Hwan Kwon, Dong Sun Kim, Hong Seok Seo, Min Hyup Song, Jae Sik Sim
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Publication number: 20150381962Abstract: Disclosed are a method and an apparatus for implementing an active imaging system. A method of obtaining an image in an active imaging system including: dividing an imaging region, and determining a plurality of divided imaging regions; scanning each of the plurality of divided imaging regions based on a laser; collecting reflected light for each of the plurality of divided imaging regions, and generating a plurality of divided images by an image sensor; and generating a whole image for the imaging region based on the plurality of divided images.Type: ApplicationFiled: January 30, 2015Publication date: December 31, 2015Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Jung Ho SONG, Bong Ki MHEEN, Myoung Sook OH, Yong Hwan KWON, Dong Sun KIM, Hong Seok SEO, Min Hyup SONG, Jae Sik SIM
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Publication number: 20150381845Abstract: Disclosed is an apparatus for obtaining an image. The apparatus for obtaining an image includes a light source, a scanner, a first beam splitter, and a light receiving unit. The light source generates a laser pulse. The scanner irradiates the laser pulse in a first direction. The first beam splitter splits the laser pulse irradiated in the first direction in the first direction and a second direction and irradiates the split laser pulse. The light receiving unit detects reflected light. Accordingly, it is possible to irradiate light to a wide range by a light source having a relatively small divergent angle.Type: ApplicationFiled: February 12, 2015Publication date: December 31, 2015Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Jung Ho SONG, Myoung Sook OH, Ki Soo KIM, Bong Ki MHEEN, Jae Sik SIM, Yong Hwan KWON, Min Hyup SONG, Gyu Dong CHOI
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Publication number: 20150372447Abstract: Provided herein is a pulse laser generator including a modulator configured to receive a continuous wave laser, and to modulate an intensity and phase of the continuous wave laser to generate a first pulse laser; and a chirping unit configured to chirp the first pulse laser to generate a second pulse laser.Type: ApplicationFiled: June 5, 2015Publication date: December 24, 2015Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Min Hyup SONG, Bong Ki MHEEN, Hong Seok SEO, Yong Hwan KWON, Ki Soo KIM, Dong Sun KIM, Jung Ho SONG, Jae Sik SIM, Gyu Dong CHOI
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Publication number: 20150226853Abstract: Disclosed is a laser radar apparatus. The laser radar apparatus includes: a light transmission unit configured to output a laser pulse by using a light source; a light reception unit configured to receive a reflected laser pulse in connection with the laser pulse; and a controller configured to adjust a repetition rate of the laser pulse of the light source, in which the controller adjusts the repetition rate of the laser pulse based on at least one of reception power, a target distance, a movement speed, a vertical angle, and a radiation angle.Type: ApplicationFiled: February 10, 2015Publication date: August 13, 2015Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Hong Seok SEO, Bong Ki MHEEN, Myoung Sook OH, Jae Sik SIM, Jung Ho SONG, Min Hyup SONG
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Publication number: 20150146190Abstract: Provided herein a laser radar apparatus including a plurality of light transmission and reception modules arranged concavely in an opposite direction to a scanning direction based on a surface vertical to the scanning direction, wherein each of the plurality of light transmission and reception modules comprises a transmitter configured to deflect a laser beam and to irradiate the deflected laser beam to a target; and a receiver configured to receive the laser beam reflected from the target.Type: ApplicationFiled: October 17, 2014Publication date: May 28, 2015Applicant: Electronics and Telecommunications Research InstituteInventors: Jae Sik SIM, Ki Soo KIM, Bong Ki MHEEN, Myoung Sook OH, Hong Seok SEO, Jung Ho SONG, Yong Hwan KWON, Dong Sun KIM, Min Hyup SONG, Gyu Dong CHOI
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Publication number: 20130327926Abstract: Provided is an FPA module capable of further improving a quality of an obtained 3-dimensional image by adjusting an interval of an arrangement of optical detectors and a size of the optical detector within an FPA module for obtaining the 3-dimensional image. An FPA module for obtaining a 3-dimensional image according to an exemplary embodiment of the present disclosure includes a plurality of light detectors configured to detect light reflected from a monitoring target, in which the plurality of light detectors is disposed at different intervals according to positions.Type: ApplicationFiled: June 11, 2013Publication date: December 12, 2013Inventors: Yong Hwan Kwon, Bongki Mheen, Myoung Sook Oh, Jae Sik Sim, Ki Soo Kim, Eun Soo Nam
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Patent number: 8592247Abstract: A method includes: forming an epitaxy wafer by growing a light absorbing layer, a grading layer, an electric field buffer layer, and an amplifying layer on the front surface of a substrate in sequence; forming a diffusion control layer on the amplifying layer; forming a protective layer for protecting the diffusion control layer on the diffusion control layer; forming an etching part by etching from the protective layer to a predetermined depth of the amplifying layer; forming a first patterning part by patterning the protective layer; forming a junction region and a guardring region at the amplifying layer by diffusing a diffusion material to the etching part and the first patterning part; removing the diffusion control layer and the protective layer and forming a first electrode connected to the junction region on the amplifying layer; and forming a second electrode on the rear surface of the substrate.Type: GrantFiled: October 14, 2011Date of Patent: November 26, 2013Assignee: Electronics and Telecommunications Research InstituteInventors: Jae Sik Sim, Ki Soo Kim, Bong Ki Mheen, Myoung Sook Oh, Yong Hwan Kwon, Eun Soo Nam
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Patent number: 8338868Abstract: An image sensor with a shared photodiode is provided. The image sensor includes at least two unit pixels, each of which includes a photodiode, a diffusion region which gathers electrons from the photodiode, a transfer transistor which connects the photodiode with the diffusion region, and a readout circuit which reads out a signal from the diffusion region. Photodiodes of neighboring unit pixels are disposed symmetrically to be adjacent to one another to form a shared photodiode. The image sensor does not have a STI region which causes a dark current restricting its performance and does not require a basic minimum design factor (a distance or an area) related to a STI region. A region corresponding to a STI region may be used as a region of a photodiode or for additional pixel scaling. Therefore, a limitation in scaling of a photodiode is overcome, and pixel performance is improved in spite of pixel scaling.Type: GrantFiled: November 25, 2009Date of Patent: December 25, 2012Assignee: Electronics and Telecommunications Research InstituteInventors: Bong Ki Mheen, Albert J. P. Theuwissen, Jae Sik Sim, Mi Ran Park, Yong Hwan Kwon, Eun Soo Nam
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Patent number: 8335200Abstract: Provided are a method and device for separating and converting multiband signals. The device includes a photoelectric converter for converting an externally received optical signal into an electrical signal, a first switch for separating the converted electrical signal into signals according to frequency bands, a first mobile communication band-pass amplifier for amplifying a mobile communication network signal of the signals separated by the first switch, a broadband up-converter for up-converting a baseband signal of the signals separated by the first switch into a broadband signal, a first broadband amplifier for amplifying the broadband signal output from the broadband up-converter, and a transmitter for wirelessly transmitting the signals amplified by the first mobile communication band-pass amplifier and the first broadband amplifier.Type: GrantFiled: May 23, 2008Date of Patent: December 18, 2012Assignee: Electronics and Telecommunications Research InstituteInventors: Yong Duck Chung, Kwang Seong Choi, Jae Sik Sim, Yong Hwan Kwon, Sung Bok Kim, Je Ha Kim
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Publication number: 20120156826Abstract: A method includes: forming an epitaxy wafer by growing a light absorbing layer, a grading layer, an electric field buffer layer, and an amplifying layer on the front surface of a substrate in sequence; forming a diffusion control layer on the amplifying layer; forming a protective layer for protecting the diffusion control layer on the diffusion control layer; forming an etching part by etching from the protective layer to a predetermined depth of the amplifying layer; forming a first patterning part by patterning the protective layer; forming a junction region and a guardring region at the amplifying layer by diffusing a diffusion material to the etching part and the first patterning part; removing the diffusion control layer and the protective layer and forming a first electrode connected to the junction region on the amplifying layer; and forming a second electrode on the rear surface of the substrate.Type: ApplicationFiled: October 14, 2011Publication date: June 21, 2012Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Jae Sik SIM, Ki Soo KIM, Bong Ki MHEEN, Myoung Sook OH, Yong Hwan KWON, Eun Soo NAM
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Publication number: 20100246451Abstract: Provided are a method and device for separating and converting multiband signals. The device includes a photoelectric converter for converting an externally received optical signal into an electrical signal, a first switch for separating the converted electrical signal into signals according to frequency bands, a first mobile communication band-pass amplifier for amplifying a mobile communication network signal of the signals separated by the first switch, a broadband up-converter for up-converting a baseband signal of the signals separated by the first switch into a broadband signal, a first broadband amplifier for amplifying the broadband signal output from the broadband up-converter, and a transmitter for wirelessly transmitting the signals amplified by the first mobile communication band-pass amplifier and the first broadband amplifier.Type: ApplicationFiled: May 23, 2008Publication date: September 30, 2010Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Yong Duck Chung, Kwang Seong Choi, Jae Sik Sim, Yong Hwan Kwon, Sung Bok Kim, Je Ha Kim
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Publication number: 20100133590Abstract: An image sensor with a shared photodiode is provided. The image sensor includes at least two unit pixels, each of which includes a photodiode, a diffusion region which gathers electrons from the photodiode, a transfer transistor which connects the photodiode with the diffusion region, and a readout circuit which reads out a signal from the diffusion region. Photodiodes of neighboring unit pixels are disposed symmetrically to be adjacent to one another to form a shared photodiode. The image sensor does not have a STI region which causes a dark current restricting its performance and does not require a basic minimum design factor (a distance or an area) related to a STI region. A region corresponding to a STI region may be used as a region of a photodiode or for additional pixel scaling. Therefore, a limitation in scaling of a photodiode is overcome, and pixel performance is improved in spite of pixel scaling.Type: ApplicationFiled: November 25, 2009Publication date: June 3, 2010Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Bong Ki Mheen, Albert J. P. Theuwissen, Jae Sik Sim, Mi Ran Park, Yong Hwan Kwon, Eun Soo Nam
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Publication number: 20080285978Abstract: Provided is an optical hybrid module in which an optical device, a filter, an amplifier and an antenna are hybrid-integrated, which includes: a silicon optical bench disposed on a substrate and having an optical fiber and an optical device; an amplifier disposed on the substrate and connected to the optical device disposed on the silicon optical bench to amplify a signal transmitted from the optical device; and an antenna disposed on the substrate to be connected to the amplifier and transmitting a signal amplified by the amplifier. Thus, a foot-print module may be embodied by disposing an antenna and a filter on a single- or multi-layer substrate and providing a bias required for the optical device and the amplifier through a solder ball. Also, due to the antenna and filter disposed on the substrate, an expensive connector is not needed, and thus a production costs can be reduced.Type: ApplicationFiled: March 24, 2008Publication date: November 20, 2008Applicant: Electronics and Telecommunications Research InstituteInventors: Kwang Seong Choi, Yong Duck Chung, Jae Sik Sim, Jong Tae Moon, Hyun Kyu Yu, Je Ha Kim
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Publication number: 20080137178Abstract: Provided is a reflection-type optical modulation module. According to the reflection-type optical modulation module, an anti-reflective thin film is formed on the optical input/output side surface of a waveguide to reduce optical coupling loss, and also a high-reflective thin film is formed on the opposite side surface to feed back a modulated optical signal. Thus, even when the length of an absorption layer is shortened, a sufficient optical path length is available, and it is possible to obtain a sufficient extinction ratio. Since the optical path length is sufficiently long despite a reduction in the length of the device, capacitance is reduced, and high-speed operation is enabled. In addition, only one lensed optical fiber for optical input and output is used, and thus it is possible to reduce production cost and the number of installation processes.Type: ApplicationFiled: December 4, 2007Publication date: June 12, 2008Inventors: Yong Duck CHUNG, Kwang Seong CHOI, Jae Sik SIM, Je Ha KIM
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Patent number: 7310469Abstract: A waveguide PIN photodiode is provided. The waveguide PIN photodiode includes a lower light guide layer, a light absorption layer, an upper light guide layer, and a cladding layer. The lower light guide is formed on a substrate, and the light absorption layer is formed on the lower light guide layer. The upper light guide layer is formed on the light absorption layer, and the cladding layer is formed on the upper light guide layer. The lower light guide layer, the light absorption layer, and the upper light guide layer constitute a core layer, which is an optical waveguide, and graded index distribution is symmetrically formed in a depth direction, centering around the light absorption layer having a highest refractive index.Type: GrantFiled: July 6, 2006Date of Patent: December 18, 2007Assignee: Electronics and Telecommunications Research InstituteInventors: Sahng Gi Park, Eun Deok Sim, Jeong Woo Park, Jae Sik Sim, Yong Soon Baek