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Table \textbf{_} shows the number of hits and misses of every gesture with its corresponding percentage value. The Right Forward gesture has the most number of misses amounting to 72, with 37.70\%,  because the gesture is triggered from the movement of the user in the z-axis, meaning when the user gets closer to the device, and the value ranges from the values specified in Table \textbf{_} of Chapter 4. When doing the right forward gesture, the distance from the device is computed from the users distance, and then the user must both move and lean forward in order to trigger the gesture. The values of each joint movement is computed dynamically. All of the forward gestures show the highest number of misses, which were 57 31.15\%  for middle forward and 66 35.48\%  with left forward, among the gestures since most of the users were not able to lean and move forward at the same time which causes the gesture to not fall into the range of recognized gestures based from the data set. \\ The Unload gesture has 34 9.19\%  misses and the right gesture has 11 3.48\%  misses. These two gestures have these amount rate  of misses because the gesture coordinates sometimes fall within a range classified as a right gesture. Both of the gestures in some ways fall on the same x and y coordinates per joint that is why the users' gesture can be confused by the system to a right gesture instead of the unload. That is why, even if the users' think that they were performing the gesture for unload, the gesture can sometimes be considered as a right gesture. \\ The left gesture has 15 5.05\%  misses. This gesture has this number rate  of misses because the users' right hand is the dominant controller used in the system. So doing the left gesture forced the users' to extend their arms to the left overlapping other joints.. Being that said, the coordinates of the joints to be recognized differed sometimes because the users' did not stretched their arms in the correct way. \\ The middle gesture has 8 2.67\%  misses. This gesture has the least number rate  of misses. The reason for the small amount of misses is because compared to other gestures the range of the middle gesture is at the center of the screen which makes it easier for the users' to access. Another reason for that is that middle gestures' are easy to incorporate with because the gesture maximizes the users' tracking capability easily.