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Feature Article :The Dynamic State of Patents in Regenerative Medicine
( Eric Furman ) 한국조직공학과 재생의학회 2013 조직공학과 재생의학 Vol.10 No.5
Regenerative cell medicine will change the way the medical community treats disease but the legal framework necessary to encourage development and commercialization of these revolutionary therapies remains uncertain. Although strong intellectual property protection is needed to provide an incentive to undergo the rigorous regulatory scrutiny required to bring regenerative cell therapies to market, concerns over the ability to protect technologies that may be viewed as contrary to public morality or that utilize known cell populations in previously unknown ways continues to stifle investment and commercial development. The legal hurdles facing investigators, clinicians, and entrepreneurs in this rapidly developing field were discussed on March 27, 2013, at the Strategic Forum Panel Discussion on Intellectual Property held at the Stem Cell and Regenerative Medicine Global Congress 2013 in Seoul Korea. Panel Moderator Byung Hyune Choi (GSRAC) presented a series of questions to spark the discussion, and panelists, Jae Sik Choi (Korea Institute of Intellectual Property), Soon-Woong Kim (JungJin Intellectual Property Law firm), Hyojin Lee (Korean Intellectual Property Office) and I, sought to guide the audience through the global legal uncertainty facing the field of regenerative cell medicine today.
W. Furman,A. Baldin,A. Rogov,B. Guskov,E. Kostyukhov,I. Marin,M. Krivopustov,N. Gunddorin,N. Rebrova,S. Pavlov,V. Krasnov,V. Smirnov,A. Chinenov,B. Fonarev,M. Galanin,N. Ryazansiy,S. Solodchenkova,V. 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.23
Prompt and delayed neutrons (DN) from pulsed irradiation of geometrically identical natural uranium and lead targets by 1 and 4 GeV deuterons were measured at NUCLOTRON facility of Joint Institute for Nuclear Research. The massive hexagonal shaped targets were surrounded by 10 cm lead blanket. Neutrons were measured by the assembly of ^3He counters embedded in moderator and by threshold activation detectors. The DN decay curves were analysed for both targets and information on fission properties for massive (∼315 kg) uranium target was extracted. The obtained experimental information could be useful for verification of INC and transport codes. The results of this experiment are important for development of advanced ADS systems and other applications.
The World Tourism Organization for Countering Terrorist Threats
N. Kala,Y. Abaydeldinov,T. Furman,A. Ponomarev 이준국제법연구원 2017 Journal of East Asia and International Law Vol.10 No.2
The paper defines the terrorist acts as a combination of factors that have a negative impact on the economic, social and natural environment of society. The UNWTO is a hub for these joint activities to organize tourism security. The distinguishing and novel feature of the organization is that, whilst most organizations provide international security for people permanently residing in a certain territory, the UNWTO interacts exclusively with relocated persons. The work undertaken by the UNWTO specifies that the threat in the tourism industry has a character of mutual exclusion in the aspect of presenting political claims as the causes of terrorism and reducing economic and social indicators as consequences of the activities of terrorist groups.
Mechanism and Rates of Zinc Corrosion in Tropical Countries
Cole, I. S.,Ganther, W. D.,Furman, S. A.,Neufeld, A. K.,Lau, D.,Chotimongkol, L.,Bhamornsut, C.,Purwardia, S.,Hue, N. V.,Bernardo, S. 한국부식방식학회 2002 Corrosion Science and Technology Vol.31 No.6
A five-nation study has investigated the rate and mechanism of atmospheric corrosion of zinc in Australia, Indonesia, Thailand, The Philippines and Indonesia. During this study, 18 sites were established in these countries including severe marine, marine, severe industrial, industrial, marine/industrial, urban and highland sites. At each location, zinc plates were exposed for three-month periods and for one year. Further, a wide range of climatic and surface response parameters was measured at each location including gaseous SOx and NOx, airborne salinity, RH and temperature, rainwater composition, surface temperature and time of wetness (TOW). Exposed plates were used to determine mass loss, the nature of corrosion products (using FTIR and SEM-EDS) and the morphology of the corrosion layers (via SEM-EDS). Laboratory experiments were also carried out to elucidate the factors controlling oxide formation and stability. Regression analysis indicated that the prime factors controlling zinc corrosion were climatic (temperature and rainfall) and surface response (TOW), and surprisingly not pollutant levels. This was despite a high levels of variation in SOx levels across the sites. The possible reasons for this observation are discussed.
Simulating dynamics, durability and noise emission of wind turbines in a single CAE environment
Guillaume Lethé,J. De Cuyper,J. Kang,Matthew Furman,Dick Kading 대한기계학회 2009 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.23 No.4
To optimize the design of their windturbines, manufacturers make use of simulation tools to predict the loads that the different components need to transmit along the drivetrain from the blades to the generator. Using detailed 3D Multibody simulation allows for in-depth studies, capturing the dynamic behavior of the overall system. Multi-body simulation is used to assess the structural reliability of components such as the gearbox and to make sure they resist the extreme and unpredictable loads from the wind for a reasonable lifetime. LMS Virtual.Lab provides state-of-the art methods to model gearboxes and the meshing of gears with varying stiffness. It also provides capabilities to model the rotorblade as well as the generator. The complete system is built from the subsystems assembled in a versatile and modular way. Using LMS Virtual.Lab Motion, a dynamic simulation is finally performed to visualize the behavior of the system trough graphs and animations. The integrated simulation capabilities within LMS Virtual.Lab environment also offer an efficient solution to analyze and optimize the durability performance, noise emissions and overall yield of wind turbines. Accurate loads are easily generated with LMS Virtual.Lab Motion thanks to state-of-the-art contact formulations suited for system level analysis. Those loads lead the engineers to evaluate the stresses occurring in each component and the vibrations generated in the structure. The environment enables to quickly analyze the effect of design changes on a specific performance attribute, which allows engineering teams to perform fast optimization loops from the early development stages onwards.