WEBVTT FILE 1 00:00:00.010 --> 00:00:04.140 2 00:00:04.160 --> 00:00:08.200 Astronomers use radio telescopes to study distant stars and galaxies. 3 00:00:08.220 --> 00:00:12.210 They use a band of microwave frequencies reserved for scientists 4 00:00:12.230 --> 00:00:16.290 studying the heavens and the earth. 5 00:00:16.310 --> 00:00:20.320 By international treaty there are no transmissions allowed in this band, so I can't set up a television transmitter, 6 00:00:20.340 --> 00:00:24.360 say, and operate here. It's dedicated, set aside, 7 00:00:24.380 --> 00:00:28.370 for what we call "passive use," or in this case the microwave radiometer 8 00:00:28.390 --> 00:00:32.480 listening to the natural signals from the Earth. 9 00:00:32.500 --> 00:00:36.480 NASA is using this band to study the water content of soil for its 10 00:00:36.500 --> 00:00:40.520 Earth-observing SMAP mission, which stands for "Soil Moisture Active Passive." 11 00:00:40.540 --> 00:00:44.530 The "active passive" part really refers to the instrument, 12 00:00:44.550 --> 00:00:48.540 so the active portion is a microwave radar, 13 00:00:48.560 --> 00:00:52.540 and the passive portion is a microwave radiometer that we built here at Goddard Space Flight Center. 14 00:00:52.560 --> 00:00:56.610 15 00:00:56.630 --> 00:01:00.610 Every molecule naturally gives off or absrobs microwave energy 16 00:01:00.630 --> 00:01:04.610 to maintain a balance with its surroundings. The amount given off 17 00:01:04.630 --> 00:01:08.620 by the soil depend on its temperature and its water content. The molecules in the soil 18 00:01:08.640 --> 00:01:12.630 with the water, they're bouncing around off of each other and emitting microwaves. 19 00:01:12.650 --> 00:01:16.640 The dry soil lets out a lot of these microwaves and the wetter soil lets out 20 00:01:16.660 --> 00:01:20.640 fewer of these microwaves. The challenge is that the neighboring bands 21 00:01:20.660 --> 00:01:24.640 have radars and communications systems 22 00:01:24.660 --> 00:01:28.650 and those transmissions can unintentionally leak into our spectrum. 23 00:01:28.670 --> 00:01:32.650 So we had to develop dedicated technology for SMAP 24 00:01:32.670 --> 00:01:36.670 to try to separate out the 25 00:01:36.690 --> 00:01:40.670 natural signals from the earth and the human-made signals 26 00:01:40.690 --> 00:01:44.690 that we don't want. The signals that we want 27 00:01:44.710 --> 00:01:48.730 the SMAP radiometer to listen to, they vary slowly in time. 28 00:01:48.750 --> 00:01:52.740 they are very broadband. And in fact what they are is, 29 00:01:52.760 --> 00:01:56.780 it sounds like - if you were to hook up a radio receiver and listen to it 30 00:01:56.800 --> 00:02:00.980 yourself, it would sound like noise, it would sound like static. 31 00:02:01.000 --> 00:02:04.990 So we look for signals that don't look like static and that's what we want to throw away 32 00:02:05.010 --> 00:02:09.180 and keep the static for ourselves. 33 00:02:09.200 --> 00:02:13.200 So the team here at Goddard developed specialized hardare and software. 34 00:02:13.220 --> 00:02:17.230 It separates out the signals that the radiometer receives in time and frequency 35 00:02:17.250 --> 00:02:21.230 and for every spot on the ground, 36 00:02:21.250 --> 00:02:25.240 looks for outliers and if it sees those, it just removes them from the measurement. 37 00:02:25.260 --> 00:02:29.240 Throws away the bad, keeps the good, and produces the data 38 00:02:29.260 --> 00:02:33.250 to give us good measurements of soil moisture here today 39 00:02:33.270 --> 00:02:37.250 to allow us to improve weather forecasting, drought and flood predictions, 40 00:02:37.270 --> 00:02:41.300 and forecast crop yields better. 41 00:02:41.320 --> 00:02:53.687