Numerous resolutions (Table 7 and Figure 9). 9). ences at several resolutions (Table 7 and
Various resolutions (Table 7 and Figure 9). 9). ences at different resolutions (Table 7 and Figured two d d 2 Level d= R RLevel(17)(17)Figure 9. The normalized minimum and maximum Betamethasone disodium Biological Activity distance of diverse grids. Figure 9. The normalized minimum and maximum distance of distinct grids.Ratios among the minimum and maximum distances, rd = , of distinctive grids Ratios amongst the minimum and maximum distances, rd=dmin/dmaxdmin /dmax , of diverse grids at diverse resolutions are calculated in Table 7 and presented in Figure ten. at distinctive resolutions are calculated in Table 7 and presented in Figure 10. Very same as the normalized area, dmin , dmax and ratios indicate the ranges of grid interval. The closer the ratio would be to 1, the smaller the interval variety is, which indicates a much more uniform grid interval. The dmin , dmax from the all grids except the SCVT grid and XU grid have steadily converged because the resolution increases (Figures 9 and 10 and Tables 6 and 7). The ratios of SCVT grid and XU grid are non-convergence as resolution increases, and ones of SPRG grid and HR grid have converged to 0.781 and 0.778 at level 9, respectively, the ratio of OURS grid is larger than them. The UCB-5307 web amount of grids in different intervals of grid length relative deviation happen to be counted (Table 8) to emphasize the spherical distribution characteristic of grid interval uniformity.Figure 10. Ratios amongst minimum and maximum distance of distinctive grids.Figure 9. The normalized minimum and maximum distance of distinctive grids.Atmosphere 2021, 12, 1516 13 ofRatios involving the minimum and maximum distances, rd=dmin/dmax, of different grids at unique resolutions are calculated in Table 7 and presented in Figure ten.Figure ten. Ratios in between minimum and maximum distance of diverse grids. Figure ten. Ratios involving minimum and maximum distance of distinctive grids.Table eight. The amount of grids with various Dlength interval of diverse grids. NOPT SPRG 0 0 0 0 5, 730 28, 800 151, 680 620, 160 966, 240 679, 680 168, 960 192 0 0 0 0 0 0 0 0 2, 621, 442 HR 0 0 0 0 0 0 0 0 two, 447, 056 174, 374 0 0 0 0 0 0 0 0 12 0 two, 621, 442 SCVT 0 60 120 360 720 2, 640 one hundred, 800 301, 632 1, 536, 160 678, 950 0 0 0 0 0 0 0 0 0 0 two, 621, 442 XU 0 60 120 420 1, 020 2, 280 106, 030 301, 632 1, 471, 680 738, 200 0 0 0 0 0 0 0 0 0 0 2, 621, 442 OURS 0 0 0 0 0 0 0 0 two, 621, 430 0 0 0 0 0 0 0 0 12 0 0 2, 621,[-100, -15] (-15, -13] (-13, -11] (-11, -9] (-9, -7] (-7, -5] (-5, -3] (-3, -1] (-1, 1) [1, three) [3, 5) [5, 7) [7, 9) [9, 11) [11, 13) [13, 15) [15, 17) [17, 19) [19, 21) [21, 100] total0 0 0 0 0 0 0 1, 488, 960 446, 880 60, 480 0 446, 400 144, 960 33, 750 0 0 12 0 0 0 2, 621,You’ll find the comparable qualities of HR and OURS grid from Table eight, so the intervals is refined to additional reveal their variations in Table 9. Exactly where, N will be the variety of grids in distinctive intervals, and p is grid proportions.Table 9. The amount of grids with refined Dlength interval of HR and OURS grid. Interval N [-100, -1.1] (-1.1, -0.9] (-0.9, -0.7] (-0.7, -0.5] (-0.5, -0.3] (-0.3, -0.1] (-0.1,0.1) [0.1, 0.three) [0.3, 0.5) [0.5, 0.7) [0.7, 0.9) [0.9, 1.0) [1.1, 1.3) 16 46, 592 137, 776 835, 680 468, 576 288, 704 211, 232 166, 432 134, 192 110, 118 91, 328 73, 328 50, 640 HR p 0.00 1.78 5.26 31.88 17.87 11.01 eight.06 6.35 five.12 4.20 3.48 two.80 1.93 N 0 0 0 0 325, 328 659, 536 676, 512 705, 728 234, 528 19, 798 0 0 0 OURS p 0 0 0 0 12.41 25.16 25.81 26.92 eight.95 0.76 0 0Atmosphere 2021, 12, x FOR PEER Evaluation Atmosphere 2021, 1.