1 99:59:59,999 --> 99:59:59,999 Every single one of us will lose, 2 99:59:59,999 --> 99:59:59,999 or has already lost something we rely on every single day. 3 99:59:59,999 --> 99:59:59,999 I am of course talking about our keys. 4 99:59:59,999 --> 99:59:59,999 (Laughter) 5 99:59:59,999 --> 99:59:59,999 Just kidding. 6 99:59:59,999 --> 99:59:59,999 What I actually want to talk about is one of our most important senses: 7 99:59:59,999 --> 99:59:59,999 vision. 8 99:59:59,999 --> 99:59:59,999 Every single day we each lose a little bit of our ability 9 99:59:59,999 --> 99:59:59,999 to refocus our eyes 10 99:59:59,999 --> 99:59:59,999 until we can't refocus at all. 11 99:59:59,999 --> 99:59:59,999 We call this condition presbyopia, 12 99:59:59,999 --> 99:59:59,999 and it affects two billion people worldwide. 13 99:59:59,999 --> 99:59:59,999 That's right, I said billion. 14 99:59:59,999 --> 99:59:59,999 If you haven't heard of presbyopia, 15 99:59:59,999 --> 99:59:59,999 and you're wondering, "Where are these two billon people?" 16 99:59:59,999 --> 99:59:59,999 here's a hint before I get into the details. 17 99:59:59,999 --> 99:59:59,999 It's the reason why people wear reading glasses 18 99:59:59,999 --> 99:59:59,999 or bifocal lenses. 19 99:59:59,999 --> 99:59:59,999 I'll get started by describing the loss of refocusing ability 20 99:59:59,999 --> 99:59:59,999 leading up to presbyopia. 21 99:59:59,999 --> 99:59:59,999 As a newborn, 22 99:59:59,999 --> 99:59:59,999 you would have been able to focus as lose as six-and-a-half centimenters 23 99:59:59,999 --> 99:59:59,999 if you wish to. 24 99:59:59,999 --> 99:59:59,999 By your mid-20s, you have about half of that focusing power left. 25 99:59:59,999 --> 99:59:59,999 10 centimeters or so, 26 99:59:59,999 --> 99:59:59,999 but close enough that you never notice the difference. 27 99:59:59,999 --> 99:59:59,999 By your late-40s though, 28 99:59:59,999 --> 99:59:59,999 the closest you can focus is about 25 centimeters, 29 99:59:59,999 --> 99:59:59,999 maybe even farther. 30 99:59:59,999 --> 99:59:59,999 Losses in focusing ability beyond this point 31 99:59:59,999 --> 99:59:59,999 start effecting near-vision tasks like reading, 32 99:59:59,999 --> 99:59:59,999 and by the time you reach age 60, 33 99:59:59,999 --> 99:59:59,999 nothing within a meter radius of you is clear. 34 99:59:59,999 --> 99:59:59,999 Right now some of you are probably thinking, 35 99:59:59,999 --> 99:59:59,999 that sounds bad but he means you in a figurative sense, 36 99:59:59,999 --> 99:59:59,999 only for the people that actually end up with presbyopia. 37 99:59:59,999 --> 99:59:59,999 But no, when I say you, I literally mean that every single one of you 38 99:59:59,999 --> 99:59:59,999 will someday be presbyopic if you aren't already. 39 99:59:59,999 --> 99:59:59,999 That sounds a bit troubling. 40 99:59:59,999 --> 99:59:59,999 I want to remind you that presbyopia has been with us for all of human history 41 99:59:59,999 --> 99:59:59,999 and we've done a lot of different things to try and fix it. 42 99:59:59,999 --> 99:59:59,999 So to start, let's imagine that you're sitting at a desk reading. 43 99:59:59,999 --> 99:59:59,999 If you were presbyopic, 44 99:59:59,999 --> 99:59:59,999 it might look a little something like this. 45 99:59:59,999 --> 99:59:59,999 Anything close by, like the magazine, will be blurry. 46 99:59:59,999 --> 99:59:59,999 Moving on to solutions. 47 99:59:59,999 --> 99:59:59,999 First, reading glasses. 48 99:59:59,999 --> 99:59:59,999 These have lenses with a single focal power 49 99:59:59,999 --> 99:59:59,999 tuned so that near objects come into focus. 50 99:59:59,999 --> 99:59:59,999 But far objects necessary go out of focus, 51 99:59:59,999 --> 99:59:59,999 meaning you have to constantly switch back and forth 52 99:59:59,999 --> 99:59:59,999 between wearing and not wearing them. 53 99:59:59,999 --> 99:59:59,999 To solve this problem, 54 99:59:59,999 --> 99:59:59,999 Benjamin Franklin invented what he called "double spectacles." 55 99:59:59,999 --> 99:59:59,999 Today we call those bifocals, 56 99:59:59,999 --> 99:59:59,999 and what they let him do was see far when he looked up 57 99:59:59,999 --> 99:59:59,999 and see near when he looked down. 58 99:59:59,999 --> 99:59:59,999 Today we also have progressive lenses which get rid of the line 59 99:59:59,999 --> 99:59:59,999 by smoothly varying the focal power from top to bottom. 60 99:59:59,999 --> 99:59:59,999 The downside to both of these is that you lose field of vision 61 99:59:59,999 --> 99:59:59,999 at any given distance 62 99:59:59,999 --> 99:59:59,999 because it gets split up from top to bottom like this. 63 99:59:59,999 --> 99:59:59,999 To see why that's a problem, 64 99:59:59,999 --> 99:59:59,999 imagine that you're climbing down a ladder or stairs. 65 99:59:59,999 --> 99:59:59,999 You look down to get your footing but it's blurry. 66 99:59:59,999 --> 99:59:59,999 Why would it be blurry? 67 99:59:59,999 --> 99:59:59,999 Well, you look down, and that's the near part of the lens, 68 99:59:59,999 --> 99:59:59,999 but the next step was past arm's reach, 69 99:59:59,999 --> 99:59:59,999 which for your eyes, counts as far. 70 99:59:59,999 --> 99:59:59,999 The next solution I want to point out is a little less common 71 99:59:59,999 --> 99:59:59,999 but comes up a lot in contact lenses or Lasik surgeries, 72 99:59:59,999 --> 99:59:59,999 and it's called monovision. 73 99:59:59,999 --> 99:59:59,999 And it works but setting up the dominant eye to focus far 74 99:59:59,999 --> 99:59:59,999 and the other eye to focus near. 75 99:59:59,999 --> 99:59:59,999 Your brain does the work of intelligently putting together the sharpest parts 76 99:59:59,999 --> 99:59:59,999 from each eye's view, 77 99:59:59,999 --> 99:59:59,999 but the two eyes see slightly different things, 78 99:59:59,999 --> 99:59:59,999 and that makes it harder to judge distances binocularly. 79 99:59:59,999 --> 99:59:59,999 So where does that all leave us? 80 99:59:59,999 --> 99:59:59,999 It seems like we've come up with a lot of different solutions 81 99:59:59,999 --> 99:59:59,999 but none of them quite restore natural refocusing. 82 99:59:59,999 --> 99:59:59,999 None of them let you just look at something 83 99:59:59,999 --> 99:59:59,999 and expect it to be in focus. 84 99:59:59,999 --> 99:59:59,999 But why? 85 99:59:59,999 --> 99:59:59,999 Well, to explain that, we'll want to take a look at the anatomy 86 99:59:59,999 --> 99:59:59,999 of the human eye. 87 99:59:59,999 --> 99:59:59,999 The part of the eye that allows us to refocus to different distances 88 99:59:59,999 --> 99:59:59,999 is called the crystalline lens. 89 99:59:59,999 --> 99:59:59,999 There are muscles surrounding the lens that can deform it into different shapes, 90 99:59:59,999 --> 99:59:59,999 which in turn changes its focusing power. 91 99:59:59,999 --> 99:59:59,999 What happens when someone becomes presbyopic? 92 99:59:59,999 --> 99:59:59,999 It turns out that the crystalline lens stiffens to the point 93 99:59:59,999 --> 99:59:59,999 that it doesn't really change shape anymore. 94 99:59:59,999 --> 99:59:59,999 Now, thinking back on all the solutions I listed earlier, 95 99:59:59,999 --> 99:59:59,999 we can see that they all have something in common with the others 96 99:59:59,999 --> 99:59:59,999 but not with our eyes, 97 99:59:59,999 --> 99:59:59,999 and that is that they're all static. 98 99:59:59,999 --> 99:59:59,999 It's like the optical equivalent of a pirate with a peg leg. 99 99:59:59,999 --> 99:59:59,999 What is the optical equivalent of a modern prosthetic leg? 100 99:59:59,999 --> 99:59:59,999 The last several decades have seen the creation and rapid development 101 99:59:59,999 --> 99:59:59,999 of what are called "focus-tunable lenses." 102 99:59:59,999 --> 99:59:59,999 There are several different types. 103 99:59:59,999 --> 99:59:59,999 Mechanically-shifting Alvarez lenses, 104 99:59:59,999 --> 99:59:59,999 deformable liquid lenses 105 99:59:59,999 --> 99:59:59,999 and electronically-switched, liquid-crystal lenses. 106 99:59:59,999 --> 99:59:59,999 Now these have their own tradeoffs, 107 99:59:59,999 --> 99:59:59,999 but what they don't skimp on is the visual experience. 108 99:59:59,999 --> 99:59:59,999 Full field-of-view vision that can be sharp at any desirable distance. 109 99:59:59,999 --> 99:59:59,999 OK, great. 110 99:59:59,999 --> 99:59:59,999 The lenses we need already exist; 111 99:59:59,999 --> 99:59:59,999 problem solved, right? 112 99:59:59,999 --> 99:59:59,999 Not so fast. 113 99:59:59,999 --> 99:59:59,999 Focus-tunable lenses add a bit of complexity to the equation. 114 99:59:59,999 --> 99:59:59,999 The lenses don't have any way of knowing what distance 115 99:59:59,999 --> 99:59:59,999 they should be focused to. 116 99:59:59,999 --> 99:59:59,999 What we really need are glasses that, when you're looking far, 117 99:59:59,999 --> 99:59:59,999 far objects are sharp, 118 99:59:59,999 --> 99:59:59,999 and when you're looking near, 119 99:59:59,999 --> 99:59:59,999 near objects come into focus 120 99:59:59,999 --> 99:59:59,999 anywhere in your field of view and without you having to think about it. 121 99:59:59,999 --> 99:59:59,999 What I've worked on these last few years at Stamford 122 99:59:59,999 --> 99:59:59,999 is building that exact intelligence around the lenses. 123 99:59:59,999 --> 99:59:59,999 Our prototype borrows technology from virtual and augmented reality systems 124 99:59:59,999 --> 99:59:59,999 to estimate focusing distance. 125 99:59:59,999 --> 99:59:59,999 We have an eye tracker that can help tell what direction our eyes are focused in. 126 99:59:59,999 --> 99:59:59,999 Using two of these, 127 99:59:59,999 --> 99:59:59,999 we can directly triangulate your gaze direction 128 99:59:59,999 --> 99:59:59,999 to get a focus estimate. 129 99:59:59,999 --> 99:59:59,999 Just in case though, 130 99:59:59,999 --> 99:59:59,999 to increase reliability we also added a distance censor. 131 99:59:59,999 --> 99:59:59,999 The censor is a camera that looks out at the world 132 99:59:59,999 --> 99:59:59,999 and reports distances to objects. 133 99:59:59,999 --> 99:59:59,999 We can again use your gaze direction to get a distance estimate 134 99:59:59,999 --> 99:59:59,999 for a second time. 135 99:59:59,999 --> 99:59:59,999 We then fuse those two distance estimates 136 99:59:59,999 --> 99:59:59,999 and update the focus-tunable lens power accordingly. 137 99:59:59,999 --> 99:59:59,999 The next step for us was of course to test our device on actual people. 138 99:59:59,999 --> 99:59:59,999 So we recruited about 100 presbyopes and had them test our device 139 99:59:59,999 --> 99:59:59,999 while we measured their performance. 140 99:59:59,999 --> 99:59:59,999 What we saw convinced us right then that autofocals were the future. 141 99:59:59,999 --> 99:59:59,999 Our participants could see more clearly, 142 99:59:59,999 --> 99:59:59,999 they could focus more quickly 143 99:59:59,999 --> 99:59:59,999 and they thought it was an easier and better focusing experience 144 99:59:59,999 --> 99:59:59,999 than their current correction. 145 99:59:59,999 --> 99:59:59,999 Put it simply: 146 99:59:59,999 --> 99:59:59,999 when it comes to vision, 147 99:59:59,999 --> 99:59:59,999 autofocals don't compromise like static corrections in use today do. 148 99:59:59,999 --> 99:59:59,999 But I don't want to get ahead of myself. 149 99:59:59,999 --> 99:59:59,999 There's a lot of work for my colleagues and me left to do. 150 99:59:59,999 --> 99:59:59,999 For example, our glasses are a bit -- 151 99:59:59,999 --> 99:59:59,999 (Laughter) 152 99:59:59,999 --> 99:59:59,999 bulky, maybe? 153 99:59:59,999 --> 99:59:59,999 And one reason for this is that we used bulkier components 154 99:59:59,999 --> 99:59:59,999 that are often intended for research use or industrial use. 155 99:59:59,999 --> 99:59:59,999 Another is that we need to strap everything down 156 99:59:59,999 --> 99:59:59,999 because current eye-tracking algorithms don't have the robustness that we need. 157 99:59:59,999 --> 99:59:59,999 So moving forward, 158 99:59:59,999 --> 99:59:59,999 as we move from a research setting to a start-up, 159 99:59:59,999 --> 99:59:59,999 we plan to make future autofocals 160 99:59:59,999 --> 99:59:59,999 eventually look a little bit more like normal glasses. 161 99:59:59,999 --> 99:59:59,999 For this to happen, 162 99:59:59,999 --> 99:59:59,999 we'll need to significantly improve 163 99:59:59,999 --> 99:59:59,999 the robustness of our eye-tracking solution. 164 99:59:59,999 --> 99:59:59,999 We'll also need to incorporate smaller and more efficient electronics and lenses. 165 99:59:59,999 --> 99:59:59,999 That said, even with our current prototype, 166 99:59:59,999 --> 99:59:59,999 we've shown that today's focus-tunable lens technology 167 99:59:59,999 --> 99:59:59,999 is capable of out-performing traditional forms of static correction. 168 99:59:59,999 --> 99:59:59,999 So it's only a matter of time. 169 99:59:59,999 --> 99:59:59,999 It's clear that in the near future, 170 99:59:59,999 --> 99:59:59,999 instead of worrying about which pair of glasses to use and when, 171 99:59:59,999 --> 99:59:59,999 we'll be able to just focus on the important things. 172 99:59:59,999 --> 99:59:59,999 (Applause) 173 99:59:59,999 --> 99:59:59,999 Thank you. 174 99:59:59,999 --> 99:59:59,999 (Applause)