▎ 摘　　要

NOVELTY - The method involves providing a rectangular structured graphene Nano mass sensor with additional mass of a centroid. A sub structure is used with rectangular areas i.e. strip unit. Each strip unit is deduced in the sub structure according to a control equation of each sub structure moving differential equation. A transmission matrix and a boundary matrix of a global motion differential equation are calculated. A total motion differential equation is calculated. A property analysis result of the graphene Nano mass sensor is output according to the transfer matrix and boundary matrix. USE - Graphene nano mass sensor vibrating characteristic semi-analytic method. ADVANTAGE - The method enables processing a complex geometrical shape, easy usage of a computer program of a relatively complex geometric area, satisfying a boundary condition and providing high resolving accuracy, small calculation process data memory card and high calculation efficiency. DESCRIPTION OF DRAWING(S) - The drawing shows a flow diagram illustrating a graphene Nano mass sensor vibrating characteristic semi-analytic method. '(Drawing includes non-English language text)'