QALD-3: Multilingual question answering over linked data
Elena Cabrio, Philipp Cimiano, et al.
CLEF 2013
A procedure is described for the numerical solution of the time-dependent equations governing the flow in a crystal-growth crucible. The molten crystal material is taken to be a Newtonian fluid with constant viscosity. The Boussinesq approximation is employed, i.e. compressibility is neglected except insofar as thermal expansion modifies the gravitational body force. Crucible rotation is the main driving force, but a series of numerical experiments suggests that buoyancy effects can modify appreciably the impurity-blending estimates obtained from an isothermal study. © 1977.
Elena Cabrio, Philipp Cimiano, et al.
CLEF 2013
Maurice Hanan, Peter K. Wolff, et al.
DAC 1976
Maciel Zortea, Miguel Paredes, et al.
IGARSS 2021
Israel Cidon, Leonidas Georgiadis, et al.
IEEE/ACM Transactions on Networking