Autofocusing reading glasses of the future | Nitish Padmanaban

300,144 views ・ 2020-06-19

TED


Please double-click on the English subtitles below to play the video.

00:00
Transcriber: Leslie Gauthier Reviewer: Joanna Pietrulewicz
0
0
7000
Translator: Leslie Gauthier Reviewer: Daban Q. Jaff
00:12
Every single one of us will lose
1
12875
1934
00:14
or has already lost something we rely on every single day.
2
14833
3851
00:18
I am of course talking about our keys.
3
18708
2810
00:21
(Laughter)
4
21542
1642
00:23
Just kidding.
5
23208
1268
00:24
What I actually want to talk about is one of our most important senses: vision.
6
24500
3809
00:28
Every single day we each lose a little bit of our ability
7
28333
2810
00:31
to refocus our eyes
8
31167
1309
00:32
until we can't refocus at all.
9
32500
2309
00:34
We call this condition presbyopia,
10
34833
1976
00:36
and it affects two billion people worldwide.
11
36833
2518
00:39
That's right, I said billion.
12
39375
2143
00:41
If you haven't heard of presbyopia,
13
41542
1726
00:43
and you're wondering, "Where are these two billion people?"
14
43292
2809
00:46
here's a hint before I get into the details.
15
46125
2101
00:48
It's the reason why people wear reading glasses or bifocal lenses.
16
48250
3268
00:51
I'll get started by describing the loss in refocusing ability
17
51542
2858
00:54
leading up to presbyopia.
18
54424
1510
00:55
As a newborn, you would have been able to focus
19
55958
2226
00:58
as close as six and a half centimeters,
20
58208
2143
01:00
if you wished to.
21
60375
1268
01:01
By your mid-20s, you have about half of that focusing power left.
22
61667
3142
01:04
10 centimeters or so,
23
64833
1268
01:06
but close enough that you never notice the difference.
24
66125
2559
01:08
By your late 40s though,
25
68708
1268
01:10
the closest you can focus is about 25 centimeters,
26
70000
2351
01:12
maybe even farther.
27
72375
1268
01:13
Losses in focusing ability beyond this point
28
73667
2101
01:15
start affecting near-vision tasks like reading,
29
75792
2226
01:18
and by the time you reach age 60,
30
78042
1601
01:19
nothing within a meter radius of you is clear.
31
79667
2351
01:22
Right now some of you are probably thinking,
32
82042
2267
01:24
that sounds bad but he means you in a figurative sense,
33
84333
3310
01:27
only for the people that actually end up with presbyopia.
34
87667
3434
01:31
But no, when I say you, I literally mean that every single one of you
35
91125
4434
01:35
will someday be presbyopic if you aren't already.
36
95583
3226
01:38
That sounds a bit troubling.
37
98833
1393
01:40
I want to remind you that presbyopia has been with us for all of human history
38
100250
3684
01:43
and we've done a lot of different things to try and fix it.
39
103958
2810
01:46
So to start, let's imagine that you're sitting at a desk, reading.
40
106792
3892
01:50
If you were presbyopic,
41
110708
1351
01:52
it might look a little something like this.
42
112083
2060
01:54
Anything close by, like the magazine, will be blurry.
43
114167
2892
01:57
Moving on to solutions.
44
117083
1351
01:58
First, reading glasses.
45
118458
1643
02:00
These have lenses with a single focal power
46
120125
2059
02:02
tuned so that near objects come into focus.
47
122208
2393
02:04
But far objects necessarily go out of focus,
48
124625
2601
02:07
meaning you have to constantly switch back and forth
49
127250
2476
02:09
between wearing and not wearing them.
50
129750
1768
02:11
To solve this problem
51
131542
1267
02:12
Benjamin Franklin invented what he called "double spectacles."
52
132833
3268
02:16
Today we call those bifocals,
53
136125
2101
02:18
and what they let him do was see far when he looked up
54
138250
3434
02:21
and see near when he looked down.
55
141708
1726
02:23
Today we also have progressive lenses which get rid of the line
56
143458
2976
02:26
by smoothly varying the focal power from top to bottom.
57
146458
2601
02:29
The downside to both of these
58
149083
1435
02:30
is that you lose field of vision at any given distance,
59
150542
2601
02:33
because it gets split up from top to bottom like this.
60
153167
2601
02:35
To see why that's a problem,
61
155792
1392
02:37
imagine that you're climbing down a ladder or stairs.
62
157208
2851
02:40
You look down to get your footing but it's blurry.
63
160083
3601
02:43
Why would it be blurry?
64
163708
1393
02:45
Well, you look down and that's the near part of the lens,
65
165125
3434
02:48
but the next step was past arm's reach,
66
168583
2560
02:51
which for your eyes counts as far.
67
171167
2101
02:53
The next solution I want to point out is a little less common
68
173292
2892
02:56
but comes up in contact lenses or LASIK surgeries,
69
176208
2393
02:58
and it's called monovision.
70
178625
1351
03:00
It works by setting up the dominant eye to focus far
71
180000
2518
03:02
and the other eye to focus near.
72
182542
1601
03:04
Your brain does the work of intelligently putting together
73
184167
2809
03:07
the sharpest parts from each eye's view,
74
187000
1976
03:09
but the two eyes see slightly different things,
75
189000
2268
03:11
and that makes it harder to judge distances binocularly.
76
191292
2642
03:13
So where does that leave us?
77
193958
1393
03:15
We've come up with a lot of solutions
78
195375
1851
03:17
but none of them quite restore natural refocusing.
79
197250
2601
03:19
None of them let you just look at something
80
199875
2059
03:21
and expect it to be in focus.
81
201958
1476
03:23
But why?
82
203458
1351
03:24
Well, to explain that
83
204833
1268
03:26
we'll want to take a look at the anatomy of the human eye.
84
206125
2726
03:28
The part of the eye that allows us to refocus to different distances
85
208875
3226
03:32
is called the crystalline lens.
86
212125
1559
03:33
There are muscles surrounding the lens that can deform it into different shapes,
87
213708
3851
03:37
which in turn changes its focusing power.
88
217583
2101
03:39
What happens when someone becomes presbyopic?
89
219708
2476
03:42
It turns out that the crystalline lens stiffens
90
222208
2226
03:44
to the point that it doesn't really change shape anymore.
91
224458
2685
03:47
Now, thinking back on all the solutions I listed earlier,
92
227167
3726
03:50
we can see that they all have something in common with the others
93
230917
3726
03:54
but not with our eyes,
94
234667
1476
03:56
and that is that they're all static.
95
236167
2017
03:58
It's like the optical equivalent of a pirate with a peg leg.
96
238208
2893
04:01
What is the optical equivalent of a modern prosthetic leg?
97
241125
3143
04:04
The last several decades have seen the creation and rapid development
98
244292
3267
04:07
of what are called "focus-tunable lenses."
99
247583
2685
04:10
There are several different types.
100
250292
1684
04:12
Mechanically-shifted Alvarez lenses,
101
252000
1809
04:13
deformable liquid lenses
102
253833
1435
04:15
and electronically-switched, liquid crystal lenses.
103
255292
2559
04:17
Now these have their own trade-offs,
104
257875
1809
04:19
but what they don't skimp on is the visual experience.
105
259708
2601
04:22
Full-field-of-view vision that can be sharp at any desired distance.
106
262333
3268
04:25
OK, great. The lenses we need already exist.
107
265625
2143
04:27
Problem solved, right?
108
267792
1892
04:29
Not so fast.
109
269708
1435
04:31
Focus-tunable lenses add a bit of complexity to the equation.
110
271167
2976
04:34
The lenses don't have any way of knowing what distance they should be focused to.
111
274167
3851
04:38
What we need are glasses
112
278042
1309
04:39
that, when you're looking far, far objects are sharp,
113
279375
2559
04:41
and when you look near,
114
281958
1310
04:43
near objects come into focus in your field of view,
115
283292
2434
04:45
without you having to think about it.
116
285750
1851
04:47
What I've worked on these last few years at Stanford
117
287625
2518
04:50
is building that exact intelligence around the lenses.
118
290167
2601
04:52
Our prototype borrows technology from virtual and augmented reality systems
119
292792
3601
04:56
to estimate focusing distance.
120
296417
1517
04:57
We have an eye tracker that can tell what direction our eyes are focused in.
121
297958
3643
05:01
Using two of these, we can triangulate your gaze direction
122
301625
2809
05:04
to get a focus estimate.
123
304458
1310
05:05
Just in case though, to increase reliability,
124
305792
2184
05:08
we also added a distance sensor.
125
308000
1559
05:09
The sensor is a camera that looks out at the world
126
309583
2393
05:12
and reports distances to objects.
127
312000
1601
05:13
We can again use your gaze direction to get a distance estimate
128
313625
2976
05:16
for a second time.
129
316625
1268
05:17
We then fuse those two distance estimates
130
317917
1976
05:19
and update the focus-tunable lens power accordingly.
131
319917
2476
05:22
The next step for us was to test our device on actual people.
132
322417
2934
05:25
So we recruited about 100 presbyopes and had them test our device
133
325375
3143
05:28
while we measured their performance.
134
328542
1809
05:30
What we saw convinced us right then that autofocals were the future.
135
330375
3268
05:33
Our participants could see more clearly, they could focus more quickly
136
333667
3351
05:37
and they thought it was an easier and better focusing experience
137
337042
3017
05:40
than their current correction.
138
340083
1476
05:41
To put it simply, when it comes to vision,
139
341583
2060
05:43
autofocals don't compromise like static corrections in use today do.
140
343667
3226
05:46
But I don't want to get ahead of myself.
141
346917
1934
05:48
There's a lot of work for my colleagues and me left to do.
142
348875
2726
05:51
For example, our glasses are a bit --
143
351625
2268
05:53
(Laughter)
144
353917
1017
05:54
bulky, maybe?
145
354958
1351
05:56
And one reason for this is that we used bulkier components
146
356333
3351
05:59
that are often intended for research use or industrial use.
147
359708
2810
06:02
Another is that we need to strap everything down
148
362542
2267
06:04
because current eye-tracking algorithms don't have the robustness that we need.
149
364833
3810
06:08
So moving forward,
150
368667
1309
06:10
as we move from a research setting into a start-up,
151
370000
2476
06:12
we plan to make future autofocals
152
372500
1934
06:14
eventually look a little bit more like normal glasses.
153
374458
2560
06:17
For this to happen, we'll need to significantly improve
154
377042
3351
06:20
the robustness of our eye-tracking solution.
155
380417
2142
06:22
We'll also need to incorporate smaller and more efficient electronics and lenses.
156
382583
4185
06:26
That said, even with our current prototype,
157
386792
2184
06:29
we've shown that today's focus-tunable lens technology
158
389000
2726
06:31
is capable of outperforming traditional forms of static correction.
159
391750
3559
06:35
So it's only a matter of time.
160
395333
1643
06:37
It's pretty clear that in the near future,
161
397000
2059
06:39
instead of worrying about which pair of glasses to use and when,
162
399083
3060
06:42
we'll be able to just focus on the important things.
163
402167
2541
06:45
Thank you.
164
405667
1267
06:46
(Applause)
165
406958
1625
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7