Seoul, South Korea
Seoul, South Korea

The University of Seoul is a public university located in Seoul, Korea. It was founded as Kyung Sung Public Agricultural College in 1918 and renamed the University of Seoul in 1997. UOS is one of top 3 universities without medical school in Korea in 2012. According to 2014 report from The Times Higher Education, UOS ranked 9th among the all Korean universities and 72nd among all the Asian universities. In another survey, UOS ranked 14th in the Asian midsize universities. UOS was reported the best value public university in Korea, with high financial investment and scholarship amount per student. Students' affinity to the school was ranked in the first place and students' satisfaction is in the second according to a 2010 survey. UOS is famous for a large number of alumni working as national or municipal government officials. UOS is specialized in College of Urban Science and has top-tier programs of environmental engineering, taxation, and urban administration.In 2012, a mayor of Seoul, PARK Won-Soon, implemented his campaign promise "Half-priced tuition" as soon as he started his term. The half-priced tuition was initiated in UOS first so that it would drive other universities to decrease their tuition. In 2013, UOS tuition per semester ranged from $915 to $1,441 . Because of high quality of education and low tuition of UOS, admission process has been more competitive. And student's satisfaction is still very high. In 2012, the registration rate of new students was very high and the withdrawal rate of students was extremely low , comparing with other universities in Seoul.Because UOS students think that they take a lot of financial and educational benefits from the Seoul government, most of them participate in social works. Number of social work volunteers in 2012 was 3,105 and is expected to increase. Wikipedia.

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Patent
Samsung and University of Seoul | Date: 2017-04-24

A method for transmitting a content in a multimedia streaming system is provided. The method includes transmitting, to a client device, control information regarding contents, and transmitting, to the client device, a plurality of segments specified by the control information, where the plurality of segments comprises an initialization segment (IS) and a media segment (MS) and the media data in the plurality of segments are addressed by using relative addressing.


Patent
University of Seoul | Date: 2015-10-01

Disclosed are nanoparticles that are introduced into cells and express a specific protein and a manufacturing method thereof. More particularly, the present invention relates to mRNA nanoparticles, which increase the expression of a specific protein capable of stimulating the cellular immune system to induce cellular immune responses and are thus applicable to treat a variety of diseases, do not require passage across the nuclear envelope because a desired gene is delivered not as plasmid DNA itself but in the form of mRNA, thus improving the efficiency of protein expression, and the nanoparticles are generated through a one-step process with a relatively small amount of plasmid DNA via rolling circle transcription (RCT), thereby providing a simple and economical process for gene delivery. The present invention is also concerned with such mRNA nanoparticles.


The present invention relates to a method for the crystallization of protein using nanoparticles as nucleation agents. Precisely, the inventors performed the crystallization of such proteins as Bacillus subtilis YesR, chicken egg white lysozyme, bovine serum albumin, Alicyclobacillus acidocaldarius acetyl-CoA carboxylase, and Listeria monocytogenes hypothetical protein which have his-tag at amino terminal by using gold nanoparticles in diverse sizes and shapes in the presence of Ni^(2+) ions. As a result, it was confirmed that the chance of successful crystallization was higher with the gold nanoparticles than without the gold nanoparticles and the various crystallization conditions were successfully screened. Therefore, the method for inducing nucleation of the invention can be advantageously used for the disclosure of protein structure by increasing the chance of successful crystallization of protein.


Disclosed herein are a method and device for cloaking an acoustic wave. A method for cloaking an acoustic wave according to an embodiment of the present invention includes: transforming an acoustic propagation mathematical model, predetermined for the propagation of an acoustic wave, into an acoustic wave cloaking mathematical model corresponding to an electromagnetic wave mathematical model predetermined for an electromagnetic wave and including a time variable for time dependency, based on a correlation between the acoustic propagation mathematical model and the electromagnetic wave mathematical model; obtaining a target characteristic of a meta-material by using the acoustic wave cloaking mathematical model; and blocking a region including a target object, from an acoustic wave by disposing the meta-material having the obtained target characteristic to surround the region.


Patent
Samsung and University of Seoul | Date: 2016-12-13

A method for performing a Fourier transform includes generating intermediate data by performing a 1D FFT on input image data on a row-by-row basis, designating different banks of a memory as respective start positions, dividing and storing the intermediate data at the start positions, reading out the intermediate data at the start positions, and generating final data by performing a 1D FFT on the intermediate data on a column-by-column basis.


Patent
Samsung and University of Seoul | Date: 2016-09-20

Provided are an apparatus and method for performing a Fourier transform. A method of performing a Fourier transform may include generating intermediate data by performing a one-dimensional fast Fourier transform (1D FFT) on data in a column direction, storing the intermediate data in a cell array in the column direction, reading out the intermediate data from the cell array in a row direction; and generating final data by performing a 1D FFT on the read-out intermediate data.


Patent
Samsung and University of Seoul | Date: 2017-06-21

A method for performing a Fourier transform includes generating intermediate data by performing a 1 D FFT on input image data on a row-by-row basis, designating different banks of a memory as respective start positions, dividing and storing the intermediate data at the start positions, reading out the intermediate data at the start positions, and generating final data by performing a 1 D FFT on the intermediate data on a column-by-column basis.


Patent
Samsung and University of Seoul | Date: 2016-06-29

A wireless power transmitter includes an amplifier configured to amplify a power; a transmitter configured to resonate the power amplified by the amplifier; and a reference signal provider configured to provide a reference signal to the amplifier and change a frequency of the reference signal.


Patent
Samsung and University of Seoul | Date: 2017-04-19

Provided are an apparatus and method for performing a Fourier transform. A method of performing a Fourier transform may include generating intermediate data by performing a one-dimensional fast Fourier transform (1D FFT) on data in a column direction, storing the intermediate data in a cell array in the column direction, reading out the intermediate data from the cell array in a row direction; and generating final data by performing a 1D FFT on the read-out intermediate data.


Lee S.,University of Seoul
Physical Review Letters | Year: 2010

We propose a generating function for scattering amplitudes of N=6 supersymmetric-Chern-Simons theory, which parallels a recent work on N=4 supersymmetric-Yang-Mills theory by Arkani-Hamed et al. Our result suggests that the scattering amplitudes of the supersymmetric-Chern-Simons theory exhibit Yangian invariance. © 2010 The American Physical Society.

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