Abstract: A computer-implemented method for controlling command voltages applied to electrodes during an electrophysiology measurement procedure using a high-throughput measurement system is provided. An initial command voltage is applied to the electrodes to obtain baseline currents respectively associated with the electrodes. A common offset voltage is determined based on the baseline currents, and an adjusted command voltage is determined based on the initial command voltage and the common offset voltage. The adjusted command voltage is applied to at least one of the electrodes to obtain an adjusted current measured by the electrode. A local offset voltage for the electrode is determined based on the adjusted current measured by the electrode. A subsequent command voltage applied to the electrode incorporates the common offset voltage and the local offset voltage.

Abstract: A confocal microscope, which comprises a light source for producing excitation light including a plurality of different spectral components; an optical device for providing the excitation light as a spectrally dispersed beam and outputting the different spectral components as a number of elongated beams an object holder for holding an object; an objective for focusing the elongated beams of light on the object as parallel, spaced-apart lines of excitation light corresponding to the different spectral components; and a detector for simultaneously detecting emission light produced by parallel lines emitted by the object due to its illumination by spaced apart parallel lines of the excitation light.

Abstract: A computer-implemented method for controlling command voltages applied to electrodes during an electrophysiology measurement procedure using a high-throughput measurement system is provided. An initial command voltage is applied to the electrodes to obtain baseline currents respectively associated with the electrodes. A common offset voltage is determined based on the baseline currents, and an adjusted command voltage is determined based on the initial command voltage and the common offset voltage. The adjusted command voltage is applied to at least one of the electrodes to obtain an adjusted current measured by the electrode. A local offset voltage for the electrode is determined based on the adjusted current measured by the electrode. A subsequent command voltage applied to the electrode incorporates the common offset voltage and the local offset voltage.

Abstract: A low-cost, high-resolution digital scanning camera for obtaining a digital image of objects within a field of view. Light from the objects in the field of view is reflected off a pivoting mirror through a focusing lens onto a linear CCD image sensor. The linear CCD image sensor provides the horizontal scan. A pivot means pivots the mirror to provide the vertical scan. A computer means converts the output of said CCD image sensor into an image of said objects in said field of view.