Statistical Geometry Representation of Spacetime

It is assumed that the spacetime is composed by events and can be explained by partially ordered set (causal set). The parent events born two kinds of children. Some children have a causal relation with their parents and other kinds have not. It is assumed that evolution of the population is only happen by the causal children. The assumed population can be modeled by finite (infinite) dimension Leslie matrix. In both finite and infinite cases, it is shown that the stationary state of the population always exists and the matrix has positive eigenvalues. By finding the relation between the statistical information of the population and the stationary state, a probability matrix and a Shannon-like entropy is defined. It is shown that the change in entropy is always quantized and positive and in consequence, the world is inflating. We show that the vacuum energy can be attributed to the necessary done work for preserving the causal relation between the parents and the children (cohesive energy). By assuming that the sum of cohesive energy and kinetic energy of the denumerable causal spacetime is equal to the heat, which flows across a causal horizon, we find the relation between energy-momentum tensor and discrete Ricci tensor which can be called the Einstein state equation. Finally, it is shown that the constant of proportionality between the entropy and the area is proportional to at Planck scale which is in good agreement with the Hawking’s result.