The use of novel perturbatively-improved gluonic actions on anisotropic
lattices in which the temporal spacing is much smaller than that in the spatial
directions is discussed. Such actions permit more efficient measurements of
noisy correlation functions, such as glueball correlators, on coarse lattices.
A derivation of these actions at tree-level is outlined; mean-field link
renormalization plays a crucial role in their construction. Results for the
low-lying glueball masses and the heavy-quark potential are presented.Comment: 3 pages, 2 figures, uses espcrc2.sty and epsf.sty. Talk presented at
LATTICE96(improvement