Abstract
To improve effectiveness of the models, a Space Time Modular Co-ordination Chart, which divides and coordinates time and Space, was made out. In the field of Meteorology, the effort to improve theoretical equations by dividing space has been continued as seen in concepts such as Macro Climate and Micro Climate. But division of time has not been considered. Some Architects, such as Le Corbusier, also tried to introduce Space division without time coordination. It is necessary to define effective range of time for quantifying the degree of environmental corruption because evaluation should be made by and for a human being. A standard scale is also necessary. Clarifying of the standard scales makes time and space dimensionless and pattern recognition of environment possible. Fig. 1-1 shows world line of I.S.O. and Smagorinsky's model. Table 1-1 means Model iedex of Space Time Divided Chart. In Fig. 1-2, a vertical axis shows Time scale and horizontal axis shows Space scale. Uniform velocity lines are drawn in this figure. Models (H=(1)-(18), h=(1)-(18)) are shown on an uniform velocity axis centering around S-Model which is applicable to humanscale. For example H(2) Model is regarded as the Urban Model (See Fig. 1-3). In this Model the standard units of time and space are 10^5 seconds (approximately one day) and 10^2=100m. The effective range, Limitted Environment Field, of time and space, which are 10^8 seconds (approximately 10 years) and 100km, defines a range of consideration. Environment Field of H(2-1) Model is 100m〜10km, one-day〜one-year. As mentioned above, we should consider each type of models according to their own ranges and units of time and space. Fig. 1-2 shows zones to which Newton and quantum mechanics, Euclidian and Non-Euclidian Geometory, Galilean and Rolentz transformation are applicable. We adopted 1mm/sec uniform velocity model for the Thermal System Model. Fig. 1-4 shows non linear velocity Model and several Model of T and L relations. The purpose of this report is to decide Environment field for simulation study.
