Presenting a Deep Motion Blending Approach for Simulating Natural Reach Motions

FIGURE 5 : RAW TIME-SERIES OF MOORING LINE TEN- SION, INTERNAL WAVE ELEVATION AND RIGID BODY MOTIONS FROM SCALED MODEL TEST WITH THE WET MODEL IN REGULAR WAVES OF PERIOD T = 1.50 s

The water-covered area in the lower reach of the river Vassbygdelvi increases strongly with changing discharge up to 0.7 m 3 /s compared to higher discharges (Figure 4.2 and

There had been an innovative report prepared by Lord Dawson in 1920 for the Minister of Health’s Consultative Council on Medical and Allied Services, in which he used his

Image (a) shows the colormapped visualization of the number of cells needed to reach an opacity level of 0.11 using the ray casting algorithm that generated image (a) of Figure 4..

We take a motion blending approach and construct motion blending modules with a set of small number of motion capture data for each type of motions: standing movements,

(Figure 3 shows a locomotion cycle described using our re- presentation) where RS (resp. LS) is the period of time when the right (resp. left) foot is on the ground, DS is used to

Figure 2: Visual comparison between mosaics generated by our approach (B), [DG05] (C) and [LVJ07] (D), applied on input image (A) considering in all cases the same tile size

The movie furthermore demonstrates the variety of motion that can be synthesised from a very small number of input motions, hav- ing used only three short captured sequences (A with