Riemannian Metric based Smart Senor for Testing Corona Virus

Abstract

This paper proposes an electronic device based on Riemannian metric for testing corona virus. Hamilton’s evolution equation based sensor presents the nodes of corona virus through the Riemannian metric. The initial position and terminal position of corona virus based interval is defined with respect to the time. This is measured by Riemannian metric. There exists the functional F, which is the probable structure of corona virus and its variant over the manifold M (included variants also), f is the functional change of the structure of the corona virus, fe is the variants in the structure of the corona virus. The classified testing range of corona virus is installed in the sensor system but its dynamic tracing is performed by the Riemannian metric. There is applied the tensor and curvature concept so that the deviation in the result to be minimized.