Abstract: An example method may include predicting one or more time slots for performing medical procedures in a hospital for a pre-determined time period by applying a trained artificial intelligence model on real-time operating room scheduling data associated with the hospital. One of the predicted time slots for performing a medical procedure on a patient in the hospital is allocated in response to a request for scheduling the medical procedure on the patient. The medical procedure is scheduled in one of a plurality of operating rooms associated with the hospital based on the allocated time slot when the operating room becomes available for performing the medical procedure.

Abstract: The present disclosure provides for a composition comprising a compound configured to form internal ? bonds, and an inorganic material, wherein the composition is defined by a first surface opposing a second surface and a first thickness measured from the first surface to the second surface of the composition, and a method of making thereof. Further provided herein is a device comprising at least one of the compositions disclosed herein. Also disclosed herein is a photovoltaic device.

Abstract: An antenna assembly has a dielectric substrate. A plurality of end fire antennas in a Yagi-Uda configuration is positioned around edges of the dielectric substrate.

Abstract: An antenna assembly has a dielectric substrate. A plurality of end fire antennas in a Yagi-Uda configuration is positioned around edges of the dielectric substrate.

Abstract: The present invention provides a fluorogenic composition for assaying complement activation that comprises a substrate for C3 convertase that is linked to a first fluorophore and a second fluorophore, wherein the fluorescence of the first and second fluorophores are mutually substantially quenched when the two fluorophores are present at a distance less than the characteristic distance for the two fluorophores. In one embodiment, the fluorescence of the first fluorophore is substantially quenched by the second fluorophore, and the second fluorophore emits heat upon quenching. The present invention also provides a method for assaying complement activation, wherein the method includes the steps of incubating a biological sample with a polymer to provide a polymeric biological sample, followed by incubating the polymeric biological sample with the fluorogenic composition, and measuring the fluorescence.

Abstract: The present invention provides a fluorogenic composition for assaying complement activation that comprises a substrate for C3 convertase that is linked to a first fluorophore and a second fluorophore, wherein the fluorescence of the first and second fluorophores are mutually substantially quenched when the two fluorophores are present at a distance less than the characteristic distance for the two fluorophores. In one embodiment, the fluorescence of the first fluorophore is substantially quenched by the second fluorophore, and the second fluorophore emits heat upon quenching. The present invention also provides a method for assaying complement activation, wherein the method includes the steps of incubating a biological sample with a polymer to provide a polymeric biological sample, followed by incubating the polymeric biological sample with the fluorogenic composition, and measuring the fluorescence.

Abstract: A pulse detonation device contains a detonation chamber and a propagation portion, and a plurality of mechanical response gauges coupled to an exterior surface of at least one of the detonation chamber and the propagation portion. Signals from the mechanical response gauges are sent to high frequency AC-coupled amplifiers, and the amplified signals are sent to a high frequency data acquisition system. Based on the data from the mechanical response gauges, the velocity of a detonation pressure wave is determined.