WEBVTT 00:00:00.800 --> 00:00:02.256 Our lives depend 00:00:02.280 --> 00:00:04.040 on a world we can't see. 00:00:04.920 --> 00:00:06.936 Think about your week so far. 00:00:06.960 --> 00:00:10.176 Have you watched TV, used GPS, 00:00:10.200 --> 00:00:13.160 checked the weather, or even ate a meal? 00:00:13.720 --> 00:00:16.416 These many things that enable our daily lives 00:00:16.440 --> 00:00:19.296 rely either directly or indirectly 00:00:19.320 --> 00:00:21.016 on satellites, 00:00:21.040 --> 00:00:22.976 and while we often take for granted 00:00:23.000 --> 00:00:25.536 the services that satellites provide us, 00:00:25.560 --> 00:00:28.376 the satellites themselves deserve our attention 00:00:28.400 --> 00:00:30.376 as they are leaving a lasting mark 00:00:30.400 --> 00:00:32.119 on the space they occupy. 00:00:32.720 --> 00:00:36.336 People around the world rely on satellite infrastructure every day 00:00:36.360 --> 00:00:40.416 for information, entertainment and to communicate. 00:00:40.440 --> 00:00:43.296 There's agricultural and environmental monitoring, 00:00:43.320 --> 00:00:46.376 Internet connectivity, navigation. 00:00:46.400 --> 00:00:48.096 Satellites even play a role 00:00:48.120 --> 00:00:51.600 in the operation of our financial and energy markets. NOTE Paragraph 00:00:52.120 --> 00:00:54.016 But these satellites that we rely on 00:00:54.040 --> 00:00:55.696 day in and day out 00:00:55.720 --> 00:00:57.376 have a finite life. 00:00:57.400 --> 00:00:59.296 They might run out of propellant, 00:00:59.320 --> 00:01:00.856 they could malfunction, 00:01:00.880 --> 00:01:04.575 or they may just naturally reach the end of their mission life. 00:01:04.599 --> 00:01:08.736 At this point, these satellites effectively become space junk, 00:01:08.760 --> 00:01:11.080 cluttering the orbital environment. NOTE Paragraph 00:01:11.840 --> 00:01:15.456 So imagine you're driving down the highway on a beautiful, sunny day 00:01:15.480 --> 00:01:16.896 out running errands. 00:01:16.920 --> 00:01:18.576 You've got your music cranked, 00:01:18.600 --> 00:01:20.056 your windows rolled down, 00:01:20.080 --> 00:01:22.776 with the cool breeze blowing through your hair. 00:01:22.800 --> 00:01:24.000 Feels nice, right? 00:01:24.640 --> 00:01:27.016 Everything is going smoothly 00:01:27.040 --> 00:01:29.696 until suddenly your car stutters and stalls 00:01:29.720 --> 00:01:31.560 right in the middle of the highway. 00:01:32.160 --> 00:01:35.456 So now you have no choice but to abandon your car 00:01:35.480 --> 00:01:36.920 where it is on the highway. 00:01:38.200 --> 00:01:39.536 Maybe you were lucky enough 00:01:39.560 --> 00:01:42.456 to be able to move it out of the way and into a shoulder lane 00:01:42.480 --> 00:01:44.616 so that it's out of the way of other traffic. 00:01:44.640 --> 00:01:45.896 A couple of hours ago, 00:01:45.920 --> 00:01:50.400 your car was a useful machine that you relied on in your everyday life. 00:01:51.000 --> 00:01:53.536 Now, it's a useless hunk of metal 00:01:53.560 --> 00:01:57.240 taking up space in a valuable transportation network. 00:01:57.920 --> 00:02:02.096 And imagine international roadways all cluttered with broken down vehicles 00:02:02.120 --> 00:02:04.976 that are just getting in the way of other traffic, 00:02:05.000 --> 00:02:07.896 and imagine the debris that would be strewn everywhere 00:02:07.920 --> 00:02:10.376 if a collision actually happened, 00:02:10.400 --> 00:02:12.776 thousands of smaller pieces of debris 00:02:12.800 --> 00:02:14.720 becoming new obstacles. NOTE Paragraph 00:02:15.680 --> 00:02:19.256 This is the paradigm of the satellite industry. 00:02:19.280 --> 00:02:21.416 Satellites that are no longer working 00:02:21.440 --> 00:02:25.256 are often left to deorbit over many, many years, 00:02:25.280 --> 00:02:28.816 or only moved out of the way as a temporary solution, 00:02:28.840 --> 00:02:31.096 and there are no international laws in space 00:02:31.120 --> 00:02:33.760 to enforce us to clean up after ourselves. NOTE Paragraph 00:02:34.680 --> 00:02:36.936 So the world's first satellite, Sputnik I, 00:02:36.960 --> 00:02:39.216 was launched in 1957, 00:02:39.240 --> 00:02:42.880 and in that year, there were only a total of three launch attempts. 00:02:43.520 --> 00:02:47.056 Decades later and dozens of countries from all around the world 00:02:47.080 --> 00:02:50.456 have launched thousands of more satellites into orbit, 00:02:50.480 --> 00:02:54.216 and the frequency of launches is only going to increase in the future, 00:02:54.240 --> 00:02:56.816 especially if you consider things like the possibility 00:02:56.840 --> 00:03:00.440 of 900-plus satellite constellations being launched. NOTE Paragraph 00:03:01.560 --> 00:03:03.616 Now, we send satellites to different orbits 00:03:03.640 --> 00:03:05.696 depending on what they're needed for. 00:03:05.720 --> 00:03:08.056 One of the most common places we send satellites 00:03:08.080 --> 00:03:09.656 is the low Earth orbit, 00:03:09.680 --> 00:03:11.656 possibly to image the surface of Earth 00:03:11.680 --> 00:03:14.080 at up to about 2,000 kilometers altitude. 00:03:14.720 --> 00:03:18.176 Satellites there are naturally buffeted by Earth's atmosphere, 00:03:18.200 --> 00:03:20.136 so their orbits naturally decay, 00:03:20.160 --> 00:03:21.696 and they'll eventually burn up, 00:03:21.720 --> 00:03:23.680 probably within a couple of decades. 00:03:24.440 --> 00:03:26.536 Another common place we send satellites 00:03:26.560 --> 00:03:28.216 is the geostationary orbit 00:03:28.240 --> 00:03:30.840 at about 35,000 kilometers altitude. 00:03:31.320 --> 00:03:35.496 Satellites there remain in the same place above Earth as the Earth rotates, 00:03:35.520 --> 00:03:39.800 which enables things like communications or television broadcast, for example. 00:03:40.440 --> 00:03:44.760 Satellites in high orbits like these could remain there for centuries. 00:03:45.960 --> 00:03:49.136 And then there's the orbit coined "the graveyard," 00:03:49.160 --> 00:03:51.776 the ominous junk or disposal orbits, 00:03:51.800 --> 00:03:54.656 where some satellites are intentionally placed 00:03:54.680 --> 00:03:55.896 at the end of their life 00:03:55.920 --> 00:03:59.680 so that they're out of the way of common operational orbits. 00:04:00.800 --> 00:04:05.376 Of the nearly 7,000 satellites launched since the late 1950s, 00:04:05.400 --> 00:04:08.760 only about one in seven is currently operational, 00:04:09.360 --> 00:04:12.256 and in addition to the satellites that are no longer working, 00:04:12.280 --> 00:04:15.776 there's also hundreds of thousands of marble-sized debris 00:04:15.800 --> 00:04:18.216 and millions of paint chip-sized debris 00:04:18.240 --> 00:04:20.240 that are also orbiting around the Earth. 00:04:20.880 --> 00:04:23.656 Space debris is a major risk to space missions, 00:04:23.680 --> 00:04:27.680 but also to the satellites that we rely on each and every day. NOTE Paragraph 00:04:28.520 --> 00:04:31.936 Now, because space debris and junk has become increasingly worrisome, 00:04:31.960 --> 00:04:34.576 there have been some national and international efforts 00:04:34.600 --> 00:04:36.096 to develop technical standards 00:04:36.120 --> 00:04:39.040 to help us limit the generation of additional debris. 00:04:39.480 --> 00:04:41.736 So for example, there are recommendations 00:04:41.760 --> 00:04:43.856 for those low-Earth orbiting spacecraft 00:04:43.880 --> 00:04:47.296 to be made to deorbit in under 25 years, 00:04:47.320 --> 00:04:49.416 but that's still a really long time, 00:04:49.440 --> 00:04:52.760 especially if a satellite hasn't been working for years. 00:04:53.320 --> 00:04:56.376 There's also mandates for those dead geostationary spacecraft 00:04:56.400 --> 00:04:58.640 to be moved into a graveyard orbit. 00:04:59.480 --> 00:05:03.176 But neither of these guidelines is binding under international law, 00:05:03.200 --> 00:05:07.976 and the understanding is that they will be implemented through national mechanisms. 00:05:08.000 --> 00:05:10.456 These guidelines are also not long-term, 00:05:10.480 --> 00:05:11.896 they're not proactive, 00:05:11.920 --> 00:05:15.256 nor do they address the debris that's already up there. 00:05:15.280 --> 00:05:19.120 They're only in place to limit the future creation of debris. 00:05:19.680 --> 00:05:22.840 Space junk is no one's responsibility. NOTE Paragraph 00:05:23.680 --> 00:05:26.536 Now, Mount Everest is actually an interesting comparison 00:05:26.560 --> 00:05:29.776 of a new approach to how we interact with our environments, 00:05:29.800 --> 00:05:32.096 as it's often given the dubious honor 00:05:32.120 --> 00:05:35.120 of being the world's highest garbage dump. 00:05:36.040 --> 00:05:39.296 Decades after the first conquest of the world's highest peak, 00:05:39.320 --> 00:05:41.576 tons of rubbish left behind by climbers 00:05:41.600 --> 00:05:43.536 has started to raise concern, 00:05:43.560 --> 00:05:46.296 and you may have read in the news that there's speculation 00:05:46.320 --> 00:05:48.376 that Nepal will crack down on mountaineers 00:05:48.400 --> 00:05:51.960 with stricter enforcement of penalties and legal obligations. 00:05:52.600 --> 00:05:55.016 The goal, of course, is to persuade climbers 00:05:55.040 --> 00:05:57.216 to clean up after themselves, 00:05:57.240 --> 00:06:02.136 so maybe local not-for-profits will pay climbers who bring down extra waste, 00:06:02.160 --> 00:06:05.640 or expeditions might organize voluntary cleanup trips. 00:06:06.120 --> 00:06:08.376 And yet still many climbers feel 00:06:08.400 --> 00:06:11.640 that independent groups should police themselves. 00:06:12.120 --> 00:06:14.936 There's no simple or easy answer, 00:06:14.960 --> 00:06:18.016 and even well-intentioned efforts at conservation 00:06:18.040 --> 00:06:19.880 often run into problems. 00:06:20.320 --> 00:06:23.416 But that doesn't mean we shouldn't do everything in our power 00:06:23.440 --> 00:06:26.760 to protect the environments that we rely and depend on, 00:06:27.440 --> 00:06:31.456 and like Everest, the remote location and inadequate infrastructure 00:06:31.480 --> 00:06:32.896 of the orbital environment 00:06:32.920 --> 00:06:35.280 make waste disposal a challenging problem. 00:06:35.920 --> 00:06:38.456 But we simply cannot reach new heights 00:06:38.480 --> 00:06:41.536 and create an even higher garbage dump, 00:06:41.560 --> 00:06:43.720 one that's out of this world. NOTE Paragraph 00:06:45.280 --> 00:06:46.496 The reality of space 00:06:46.520 --> 00:06:49.096 is that if a component on a satellite breaks down, 00:06:49.120 --> 00:06:52.016 there really are limited opportunities for repairs, 00:06:52.040 --> 00:06:54.080 and only at great cost. 00:06:54.760 --> 00:06:58.256 But what if we were smarter about how we designed satellites? 00:06:58.280 --> 00:06:59.576 What if all satellites, 00:06:59.600 --> 00:07:01.896 regardless of what country they were built in, 00:07:01.920 --> 00:07:03.816 had to be standardized in some way 00:07:03.840 --> 00:07:06.376 for recycling, servicing, 00:07:06.400 --> 00:07:07.880 or active deorbiting? 00:07:08.560 --> 00:07:12.096 What if there actually were international laws with teeth 00:07:12.120 --> 00:07:14.896 that enforced end-of-life disposal of satellites 00:07:14.920 --> 00:07:17.056 instead of moving them out of the way 00:07:17.080 --> 00:07:18.680 as a temporary solution? 00:07:19.560 --> 00:07:22.496 Or maybe satellite manufacturers need to be charged a deposit 00:07:22.520 --> 00:07:24.816 to even launch a satellite into orbit, 00:07:24.840 --> 00:07:27.296 and that deposit would only be returned 00:07:27.320 --> 00:07:29.856 if the satellite was disposed of properly 00:07:29.880 --> 00:07:32.600 or if they cleaned up some quota of debris. 00:07:33.440 --> 00:07:36.016 Or maybe a satellite needs to have technology on board 00:07:36.040 --> 00:07:37.800 to help accelerate deorbit. NOTE Paragraph 00:07:38.720 --> 00:07:40.976 There are some encouraging signs. 00:07:41.000 --> 00:07:45.696 The UK's TechDemoSat-1, launched in 2014, for example, 00:07:45.720 --> 00:07:47.656 was designed for end-of-life disposal 00:07:47.680 --> 00:07:49.616 via a small drag sail. 00:07:49.640 --> 00:07:52.216 This works for the satellite because it's small, 00:07:52.240 --> 00:07:55.936 but satellites that are higher or in larger orbits 00:07:55.960 --> 00:07:58.816 or are larger altogether, like the size of school buses, 00:07:58.840 --> 00:08:01.256 will require other disposal options. 00:08:01.280 --> 00:08:04.256 So maybe you get into things like high-powered lasers 00:08:04.280 --> 00:08:06.096 or tugging using nets or tethers, 00:08:06.120 --> 00:08:08.440 as crazy as those sound in the short term. NOTE Paragraph 00:08:09.160 --> 00:08:11.056 And then one really cool possibility 00:08:11.080 --> 00:08:14.400 is the idea of orbital tow trucks or space mechanics. 00:08:14.840 --> 00:08:16.456 Imagine if a robotic arm 00:08:16.480 --> 00:08:18.336 on some sort of space tow truck 00:08:18.360 --> 00:08:20.656 could fix the broken components on a satellite, 00:08:20.680 --> 00:08:22.520 making them usable again. 00:08:23.240 --> 00:08:25.176 Or what if that very same robotic arm 00:08:25.200 --> 00:08:27.536 could refuel the propellant tank on a spacecraft 00:08:27.560 --> 00:08:29.536 that relies on chemical propulsion 00:08:29.560 --> 00:08:33.039 just like you or I would refuel the fuel tanks on our cars? 00:08:33.559 --> 00:08:35.216 Robotic repair and maintenance 00:08:35.240 --> 00:08:38.960 could extend the lives of hundreds of satellites orbiting around the Earth. NOTE Paragraph 00:08:40.280 --> 00:08:43.176 Whatever the disposal or cleanup options we come up with, 00:08:43.200 --> 00:08:46.176 it's clearly not just a technical problem. 00:08:46.200 --> 00:08:51.256 There's also complex space laws and politics that we have to sort out. 00:08:51.280 --> 00:08:55.440 Simply put, we haven't found a way to use space sustainably yet. 00:08:56.720 --> 00:08:59.616 Exploring, innovating to change the way we live and work 00:08:59.640 --> 00:09:01.616 are what we as humans do, 00:09:01.640 --> 00:09:03.136 and in space exploration, 00:09:03.160 --> 00:09:06.416 we're literally moving beyond the boundaries of Earth. 00:09:06.440 --> 00:09:10.096 But as we push thresholds in the name of learning and innovation, 00:09:10.120 --> 00:09:15.600 we must remember that accountability for our environments never goes away. 00:09:16.520 --> 00:09:20.696 There is without doubt congestion in the low Earth and geostationary orbits, 00:09:20.720 --> 00:09:23.056 and we cannot keep launching new satellites 00:09:23.080 --> 00:09:25.376 to replace the ones that have broken down 00:09:25.400 --> 00:09:27.456 without doing something about them first, 00:09:27.480 --> 00:09:29.936 just like we would never leave a broken down car 00:09:29.960 --> 00:09:31.360 in the middle of the highway. 00:09:31.760 --> 00:09:33.336 Next time you use your phone, 00:09:33.360 --> 00:09:35.856 check the weather, or use your GPS, 00:09:35.880 --> 00:09:40.136 think about the satellite technologies that make those activities possible, 00:09:40.160 --> 00:09:42.016 but also think about the very impact 00:09:42.040 --> 00:09:45.336 that the satellites have on the environment surrounding Earth, 00:09:45.360 --> 00:09:50.056 and help spread the message that together we must reduce our impact. NOTE Paragraph 00:09:50.080 --> 00:09:52.616 Earth orbit is breathtakingly beautiful 00:09:52.640 --> 00:09:55.216 and our gateway to exploration. 00:09:55.240 --> 00:09:57.760 It's up to us to keep it that way. NOTE Paragraph 00:09:59.160 --> 00:10:00.376 Thank you. NOTE Paragraph 00:10:00.400 --> 00:10:02.480 (Applause)