We discuss a novel diagnostic allowing direct measurements of the local electric field in the edge region of NSTX/NSTX-U. This laser based diagnostic's principle consists of depleting the naturally populated n = 3 level to a Rydberg state-sensitive to electric fields-that will result in a suppression of part of the D-alpha emission. We refer to this approach as Laser-Induced Rydberg Spectroscopy. It is shown that the local electric field can be measured through the Stark induced resonances observed as dips in the D-alpha emission. Using forward-modeling of simulated absorption spectra, we show precisions reaching +/- 2 kV m(-1) in regions with a local electric field of 15 kV m(-1). Published by AIP Publishing.