WEBVTT FILE 1 00:00:00.010 --> 00:00:04.100 [ Music, wind and rain ] 2 00:00:04.120 --> 00:00:08.140 Voice: This is what we 3 00:00:08.160 --> 00:00:12.310 call severe damage. 4 00:00:12.330 --> 00:00:16.360 This is the bridge out of town, and we're not going anywhere. 5 00:00:16.380 --> 00:00:20.400 [ rushing water ] 6 00:00:20.420 --> 00:00:24.470 [ rushing water ] 7 00:00:24.490 --> 00:00:28.510 Voice: A woman was stranded here all day long through the storm... 8 00:00:28.530 --> 00:00:32.520 [ bridge collapses ] Voice: Oh my God! 9 00:00:32.540 --> 00:00:36.550 Tropical Storm Irene bears down on New England. In Vermont 10 00:00:36.570 --> 00:00:40.570 the storm pushes up agains the higher terrain, and the rain intensifies. 11 00:00:40.590 --> 00:00:44.630 This is the worst flooding Vermont has seen in nearly 12 00:00:44.650 --> 00:00:48.680 75 years. Tropical cyclones. 13 00:00:48.700 --> 00:00:52.750 a general term for hurricanes, typhoons, and tropical storms like Irene, 14 00:00:52.770 --> 00:00:56.810 don't just stick to the tropics. These storms can charge 15 00:00:56.830 --> 00:01:00.850 northward and wreak havoc in areas that normally wouldn't see 16 00:01:00.870 --> 00:01:04.880 this kind of extreme weather. Satellites provide us with 17 00:01:04.900 --> 00:01:08.920 near real-time information about the intensity of storms 18 00:01:08.940 --> 00:01:12.930 and where they're headed. Since its launch in 1997, 19 00:01:12.950 --> 00:01:16.950 TRMM, the Tropical Rainfall Measuring Mission, has remained a 20 00:01:16.970 --> 00:01:21.000 gold standard in collecting global rainfall data on storms. 21 00:01:21.020 --> 00:01:25.060 Scott Braun: TRMM's usage for hurricanes has also been a major application. 22 00:01:25.080 --> 00:01:29.110 Operational agencies use it to get 23 00:01:29.130 --> 00:01:33.170 center fixes on storms to monitor how the internal structure 24 00:01:33.190 --> 00:01:37.220 of a storm is changing and how that might relate to the potential for 25 00:01:37.240 --> 00:01:41.250 a storm to either intensify or weaken. And while TRMM provides essential information 26 00:01:41.270 --> 00:01:45.300 on cyclones for tropical areas, for regions like New England, 27 00:01:45.320 --> 00:01:49.340 TRMM simply falls short. Braun: We knew going into TRMM that there 28 00:01:49.360 --> 00:01:53.360 were going to be some limitations. The primary one being its relatively low 29 00:01:53.380 --> 00:01:57.450 sensitivity so that it would not be able to get the very low rainfall 30 00:01:57.470 --> 00:02:01.550 rates that you might see up at higher latitudes. 31 00:02:01.570 --> 00:02:05.600 Carlisle: So part of what GPM is supposed to do was just continue those measurements, 32 00:02:05.620 --> 00:02:09.650 but also GPM is to improve those measurements by being able to 33 00:02:09.670 --> 00:02:13.690 for example, measure precipitation over a wider swath 34 00:02:13.710 --> 00:02:17.780 of the Earth. TRMM is just at about 35 degrees, 35 00:02:17.800 --> 00:02:21.820 GPM gets more of the Earth in its measurements, going 36 00:02:21.840 --> 00:02:25.840 all the way into southern Canada, for example. The Global Precipitation 37 00:02:25.860 --> 00:02:29.870 Measurement mission, or GPM, is a constellation of satellites 38 00:02:29.890 --> 00:02:33.890 unified by the GPM Core Spacecraft that will provide a global picture 39 00:02:33.910 --> 00:02:37.970 of rain and snow every three hours. When GPM launches in 40 00:02:37.990 --> 00:02:42.040 2014. it will greatly improve upon some of the limitations 41 00:02:42.060 --> 00:02:46.090 of TRMM. In addition to measuring a wider swath of the globe, 42 00:02:46.110 --> 00:02:50.210 the GPM Core Spacecraft will carry more advanced instruments with 43 00:02:50.230 --> 00:02:54.260 greater sensitivity. There's the GPM Microwave Imager, or 44 00:02:54.280 --> 00:02:58.340 the GMI, a radiometer that will use 13 microwave 45 00:02:58.360 --> 00:03:02.370 channels to capture precipitation intensities and horizontal 46 00:03:02.390 --> 00:03:06.410 patterns. Then there's the Dual-frequency Precipitation Radar, 47 00:03:06.430 --> 00:03:10.450 or the DPR. That uses two frequencies to 48 00:03:10.470 --> 00:03:14.470 visualize in 3D the precipitation structure from the cloud down 49 00:03:14.490 --> 00:03:18.540 to the surface. Braun: With GPM we have the opportunity now 50 00:03:18.560 --> 00:03:22.630 with more advanced technologies to improve upon TRMM 51 00:03:22.650 --> 00:03:26.690 by having that second frequency and being able to measure 52 00:03:26.710 --> 00:03:30.760 the lighter rainfall and produce a more accurate rainfall estimate 53 00:03:30.780 --> 00:03:34.810 by having the two combined. With GPM's more sensitive instruments 54 00:03:34.830 --> 00:03:38.850 and wider coverage of the globe, we can more accurately profile a tropical 55 00:03:38.870 --> 00:03:42.890 cyclone, predicting where they're likely to form, how intense 56 00:03:42.910 --> 00:03:46.920 they're likely to become and tracking the path they'll take 57 00:03:46.940 --> 00:03:50.960 so that agencies can make better decisions to help get people out 58 00:03:50.980 --> 00:03:55.020 of harm's way. [ music ] 59 00:03:55.040 --> 00:03:59.060 [ music ] 60 00:03:59.080 --> 00:04:03.100 61 00:04:03.120 --> 00:04:07.150 [ beeping, thunder ] 62 00:04:07.170 --> 00:04:11.230 63 00:04:11.250 --> 00:04:14.935