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Need for palliative care from birth to infancy in pediatric patients with neurological diseases
Silvia Marino,Raffaele Falsaperla,Carla Moscheo,Lucia Giovanna Tardino,Simona Domenica Marino,Concetta Sciuto,Piero Pavone,Giovanna Vitaliti,Federica Sullo,Martino Ruggieri 대한소아청소년과학회 2023 Clinical and Experimental Pediatrics (CEP) Vol.66 No.8
Iberian Sources on the Imjin War: The Relação do fim e remate que teve a guerra da Corea (1599)
Marino, Giuseppe,Clements, Rebekah 성균관대학교 동아시아학술원 2023 Sungkyun Journal of East Asian Studies Vol.23 No.1
Combining Iberian and East Asian primary source documents can provide a fresh perspective on sixteenth-century East Asian history. This is particularly true of the Imjin War (1592–98), the largest war in the world during the sixteenth century. Involving China, Korea, and Japan, it attracted close observation from Jesuit missionaries, who wrote a number of as yet largely unstudied accounts of the conflict and its implications for the Jesuit mission. We analyze one such manuscript, which is particularly detailed and unique in its scope: the Relação do fim e remate que teve a guerra da Corea, cross-referenced with Chinese, Japanese, and Korean accounts.
( Vassilis Marinos ),( Trevor Carter ) 대한지질공학회 2019 대한지질공학회 학술발표회논문집 Vol.2019 No.2
The necessity for reliable estimates of strength and deformation characteristics of the rockmasses on which or within which engineering structures are to be created, after the significant advances that have occurred in recent years in numerical modelling capability, is essential. The development of these tools has to be comparative with the improvement in geologic base data. GSI characterization, linked with Hoek-Brown strength determination as a basis for modelling has been widely adopted by engineers and geologists involved in rock engineering design. Back-analyses of tunnels, slopes and foundation behaviour using GSI and its reliable application in rock engineering designs attest to its reliability, however, greater understanding is needed in the definition of input constants, for establishing both GSI and intact rock properties. This need for improved evaluation, particularly from a geological perspective, is addressed. Geological processes of tectonism, weathering and alteration all affect GSI and are analysed based on real rockmass cases. Illustrations are given of how geological differentiation dictates variability in geotechnical properties of most common rocks. The need for geological definition of rockmass properties required as inputs into numerical analysis, constitutes one of the greatest reasons for application of the GSI chart, allowing characterization of even difficult-to-describe rockmasses. This chart allows selection of appropriate GSI ranges for any specific rock suite. Specific key engineering geological characteristics that differentiate igneous, metamorphic and sedimentary one from each other are highlighted through discussion of various example rock units (including gneisses, granites, ophiolites, limestones, schists, siltstones/mudstones/shales, and molassic and flysch formations).