with the level of darkness. if you lower the light levels, your visual system slows down. so in sport, you are predicting what is going to happen 200 milliseconds into the future. at low light levels, you have to predict what s happening 250 milliseconds into the future because the speed of processing is slowed down. so if you re interacting with the ball under those conditions, you have to increase your responses to interact with it successfully. so when you go into the light it seems like you have more time to respond. in order to see how effective the system is, first i m going to have to set a benchmark. my touch is as heavy as me! should take my time, i am getting flustered. sorry, sorry! sorry jack. 0k, time to see if okkulo makes a difference. 0h! that was legit!
switch the light off. it is the complete opposite to that. there is a whole biological process here we re working on. but how does it actually work? it is to do with the colour and how the colours interact with the eye and the photoreceptors in the eye. but it is also to do with the level of darkness. if you lower the light levels, your visual system slows down. so, in sport, what you are predicting what is going to happen 200 milliseconds into the future. at low light levels, you have to predict what s happening 250 milliseconds into the future because the speed of processing is slowed down. so, if you re interacting with the ball under those conditions, you have to speed up your responses to interact with it successfully. so when you go into the light, it seems like you have more time to respond. now, in order to see how effective this system is, first, i m going to have to set a benchmark. my touch is as heavy as me! laughs should take my time i m getting flustered.
you re just going to switch the light off. it is the complete opposite to that. there is a whole biological process here we re working on. but how does it actually work? it is to do with the colour and how the colours interact with the eye and the photoreceptors in the eye. but it is also to do with the level of darkness. if you lower the light levels, your visual system slows down. so, in sport, you are predicting what is going to happen 200 milliseconds into the future. at low light levels, you have to predict what s happening 250 milliseconds into the future because the speed of processing is slowed down. so, if you re interacting with the ball under those conditions, you have to increase your responses to interact with it successfully. so when you go into the light it seems like you have more time to respond. now, in order to see how effective the system is, first i m going to have to set a benchmark. my touch is as heavy as me! should take my time i m getting flustered. pass,
level of football to make marginal gains. and if that s on the analytics side or the data side or biometrics, whatever it may be, i think technology s here to stay and it s the future of the game. the good thing about this is it s very similar to the game, if not pretty much identical, in terms of the ball coming at you at speed, you ve got to be able to deal with that and then execute. and football is not the only sport it s useful for. up to now, we ve done cricket, baseball, table tennis, boxing and soccer. ball sports are ideal because it s hand eye coordination. every time we get somebody in, that s the first thought oh, well, you re just changing the light levels, or this, that and the other. you re just going to switch the light off. it s the complete opposite to that. there s a whole biological process here we re working on. but how does it actually work? it is to do with the colour and how the colours interact with the eye and the photoreceptors in the eye. but it s als
this removal of stigma is very important and will allow the scientific community to enter into this and investigate this phenomena. but into this and investigate this phenomena- phenomena. but in its very nature, phenomena. but in its very nature. it phenomena. but in its very nature, it is phenomena. but in its very nature, it is really, - phenomena. but in its very nature, it is really, really l nature, it is really, really difficult to know what it is thatis difficult to know what it is that is being seen? how are they going to draw any conclusions? they going to draw any conclusions? . , , conclusions? that is why we need equipment conclusions? that is why we need equipment to - conclusions? that is why we | need equipment to measure. conclusions? that is why we - need equipment to measure. in other words, we need infrared systems, visual system, ability to triangulate and know the exact speed of an object, radar, for example, which the military has obtained radar data on t