http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Immune correlates of protection for dengue: State of the art and research agenda
Katzelnick, Leah C.,Harris, Eva,Baric, Ralph,Coller, Beth-Ann,Coloma, Josefina,Crowe Jr., James E.,Cummings Jr., Derek A.T.,Dean Jr., Hansi,de Silva Jr., Aravinda,Diamond Jr., Michael S.,Durbin Jr., A Elsevier 2017 Vaccine Vol.35 No.36
<P><B>Abstract</B></P> <P>Dengue viruses (DENV1-4) are mosquito-borne flaviviruses estimated to cause up to ∼400 million infections and ∼100 million dengue cases each year. Factors that contribute to protection from and risk of dengue and severe dengue disease have been studied extensively but are still not fully understood. Results from Phase 3 vaccine efficacy trials have recently become available for one vaccine candidate, now licensed for use in several countries, and more Phase 2 and 3 studies of additional vaccine candidates are ongoing, making these issues all the more urgent and timely. At the “<I>Summit on Dengue Immune Correlates of Protection</I>”, held in Annecy, France, on March 8–9, 2016, dengue experts from diverse fields came together to discuss the current understanding of the immune response to and protection from DENV infection and disease, identify key unanswered questions, discuss data on immune correlates and plans for comparison of results across assays/consortia, and propose a research agenda for investigation of dengue immune correlates, all in the context of both natural infection studies and vaccine trials.</P>
Tailoring the Electrical Properties of ZnO/Polyaniline Heterostructures for Device Applications
Jorlandio F. Felix,Eronides F. da Silva Jr.,Elder A. de Vasconcelos,Walter M. de Azevedo 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.58 No.51
Low-cost nanostructured high-quality ZnO/Polyaniline heterostructure devices are produced by using the thermal evaporation and spin coating techniques. The devices present highly rectifying I-V characteristics, and under certain conditions, varistor characteristics are present with symmetric rectifying properties in both polarizations. The results indicate that by tuning the thickness of the ZnO thin film or the polymer doping state, the device's electrical characteristics go from a standard diode (rectifying in forward polarization) to those of a varistor (rectifying in both forward and reverse polarizations). Further, only a device made with undoped polyaniline (PANI) may have its operation range tuned by adjusting properly the ZnO film's thickness. The behavior observed is attributed to interfusion of ZnO-based composites, in the early stages of deposition, into the polymer chains and to the conducting islands surrounding the insulating sea in the PANI film. This gives rise to the formation of micron-sized Schottky contacts that electrically arrange themselves in a back-to-back configuration.
On the Security Aspects of Internet of Things: A Systematic Literature Review
Evandro L. C. Macedo,Egberto A. R. de Oliveira,Fabio H. Silva,Rui R. Mello Jr,Felipe M. G. França,Flavia C. Delicato,José F. de Rezende,Luís F. M. de Moraes 한국통신학회 2019 Journal of communications and networks Vol.21 No.5
Internet of Things (IoT) has gained increasing visibilityamong emerging technologies and undoubtedly changing our dailylife. Its adoption is strengthened by the growth of connected devices(things) as shown in recent statistics. However, as the numberof connected things grows, responsibility related to security aspectsalso needs to increase. For instance, cyberattacks might happenif simple authentication mechanisms are not implemented on IoTapplications, or if access control mechanisms are weakly defined. Considering the relevance of the subject, we performed a systematicliterature review (SLR) to identify and synthesize security issuesin IoT discussed in scientific papers published within a periodof 8 years. Our literature review focused on four main security aspects,namely authentication, access control, data protection, andtrust. We believe that a study considering these topics has the potentialto reveal important opportunities and trends related to IoTsecurity. In particular, we aim to identify open issues and technologicaltrends that might guide future studies in this field, thusproviding useful material both to researchers and to managers anddevelopers of IoT systems. In this paper, we describe the protocoladopted to perform the SLR and present the state-of-the-art on thefield by describing the main techniques reported in the retrievedstudies. To the best of our knowledge, ours is the first study tocompile information on a comprehensive set of security aspects inIoT. Moreover, we discuss the placement, in terms of architecturaltiers, for deploying security techniques, in an attempt to provideguidelines to help design decisions of security solution developers. We summarize our results showing security trends and researchgaps that can be explored in future studies.