WEBVTT FILE 1 00:00:00.020 --> 00:00:04.040 2 00:00:04.060 --> 00:00:08.070 3 00:00:08.090 --> 00:00:12.100 4 00:00:12.120 --> 00:00:16.140 5 00:00:16.160 --> 00:00:20.220 Arthur always had just this very nice way of listenting 6 00:00:20.240 --> 00:00:24.240 to what your points were. He really knew how to 7 00:00:24.260 --> 00:00:28.250 connect with people in a really gracious kind of way. 8 00:00:28.270 --> 00:00:32.280 Arthur should be remembered as 9 00:00:32.300 --> 00:00:36.310 passionate about the mission. He was very passionate about everything 10 00:00:36.330 --> 00:00:40.350 we were going to do. He could view things from the broadest 11 00:00:40.370 --> 00:00:44.390 scale, all the way down to the fine details of the mission. 12 00:00:44.410 --> 00:00:48.430 His attitude was just infectious of the people around him. Everybody just wanted to 13 00:00:48.450 --> 00:00:52.450 solve the problem, wanted to work with him. 14 00:00:52.470 --> 00:00:56.490 I actually knew Arthur's work before I 15 00:00:56.510 --> 00:01:00.510 knew Arthur the person. I actually 16 00:01:00.530 --> 00:01:04.560 was quite familiar with his seminal theoretical work on 17 00:01:04.580 --> 00:01:08.600 how the Hadley circulation responds to latent heating 18 00:01:08.620 --> 00:01:12.650 in the equatorial regions. And that paper actually 19 00:01:12.670 --> 00:01:16.700 formed the basis of many of the world in 20 00:01:16.720 --> 00:01:20.750 current IPCC modeling world in interpreting how latent 21 00:01:20.770 --> 00:01:24.780 heating can change the atmospheric circulation, and it actually 22 00:01:24.800 --> 00:01:28.820 formed the basis a lot of the theoretical work for 23 00:01:28.840 --> 00:01:32.860 work on GPM and TRMM, including my own. 24 00:01:32.880 --> 00:01:36.890 And we were actually looking for a person to 25 00:01:36.910 --> 00:01:40.940 replace and to step up and be the GPM project scientist. 26 00:01:40.960 --> 00:01:44.970 And at that time, my boss, Franco, and I were really looking for someone. 27 00:01:44.990 --> 00:01:48.980 For me, there's no question, the person I have in mind 28 00:01:49.000 --> 00:01:53.030 is Arthur Hou because I knew him as a scientist, 29 00:01:53.050 --> 00:01:57.060 his technical competence, 30 00:01:57.080 --> 00:02:01.090 his interpersonal skill, all are the hallmarks of 31 00:02:01.110 --> 00:02:05.130 a great future project scientist. In many ways 32 00:02:05.150 --> 00:02:09.170 think he really saved GPM. Not to 33 00:02:09.190 --> 00:02:13.190 say anything negative about what was going on prior to that 34 00:02:13.210 --> 00:02:17.210 when he took over the program was 35 00:02:17.230 --> 00:02:21.240 in a bit of trouble. And he really came in and with 36 00:02:21.260 --> 00:02:25.270 experience that was really geared toward the modeling side of things, 37 00:02:25.290 --> 00:02:29.320 and he really learned everything about GPM 38 00:02:29.340 --> 00:02:33.370 that needed to be learned and really built an effective team, 39 00:02:33.390 --> 00:02:37.410 great collaborations, not only throughout the U.S. but 40 00:02:37.430 --> 00:02:41.450 internationally. Arthur's most important contribution 41 00:02:41.470 --> 00:02:45.470 I think were building all the partnerships for the constellation 42 00:02:45.490 --> 00:02:49.490 so that we can have the truly global dataset of precipitation 43 00:02:49.510 --> 00:02:53.540 data. He was also very passionate about getting all 44 00:02:53.560 --> 00:02:57.590 of the GMI channels so that we can measure all of the different 45 00:02:57.610 --> 00:03:01.620 types of precipitation, from drizzles to downpours, from 46 00:03:01.640 --> 00:03:05.670 rain to snow, and be able to calibrate the data from the 47 00:03:05.690 --> 00:03:09.720 GPM Core with all of the partner datasets. I like to say Arthur had 48 00:03:09.740 --> 00:03:13.760 a way with words, and he always, always 49 00:03:13.780 --> 00:03:17.800 was just so precise with his words. And I think that that made 50 00:03:17.820 --> 00:03:21.830 a big difference with the GPM materials for how 51 00:03:21.850 --> 00:03:25.850 we advocated for the mission. And it was really important to say 52 00:03:25.870 --> 00:03:29.870 things just the right way because otherwise they could be misconstrued 53 00:03:29.890 --> 00:03:33.910 or they just made us look less credible. So 54 00:03:33.930 --> 00:03:37.960 I really appreciated the fact that he took the time 55 00:03:37.980 --> 00:03:42.000 to make the things that he was saying and the things that went in the written materials 56 00:03:42.020 --> 00:03:46.050 were as precise and as careful as they could be. I think overall 57 00:03:46.070 --> 00:03:50.090 in GPM it's still going to be 58 00:03:50.110 --> 00:03:54.120 the focus he brought to the entire enterprise 59 00:03:54.140 --> 00:03:58.160 again, the science and the applications, 60 00:03:58.180 --> 00:04:02.190 the global coverage both data-wise but also 61 00:04:02.210 --> 00:04:06.270 involving people from around the globe 62 00:04:06.290 --> 00:04:10.300 and organizations around the globe. I think those are going to be his major 63 00:04:10.320 --> 00:04:14.330 accomplishments. One thing I really remember is his 64 00:04:14.350 --> 00:04:18.390 hearty laughter at anything, or even something 65 00:04:18.410 --> 00:04:22.430 that was probably questionable in his mind, his reaction would be 66 00:04:22.450 --> 00:04:26.450 just this hearty laughter. And then he come up with 67 00:04:26.470 --> 00:04:30.460 a very positive response to anything. One of my favorite stories 68 00:04:30.480 --> 00:04:34.490 is from when Arthur and I traveled to Brazil for a science team meeting 69 00:04:34.510 --> 00:04:38.510 He fit everything into a carry-on duffel bag. 70 00:04:38.530 --> 00:04:42.530 And he had a collection of khaki pants and blue 71 00:04:42.550 --> 00:04:46.560 Oxford shirts, and he would accessorize. So for 72 00:04:46.580 --> 00:04:50.630 the meetings he would wear a blue blazer with those, but 73 00:04:50.650 --> 00:04:54.680 then one night after the meeting we went out on a cruise, and he 74 00:04:54.700 --> 00:04:58.740 accessorized with a white towel around his neck with his blue Oxford 75 00:04:58.760 --> 00:05:02.760 shirt and khaki pants. 76 00:05:02.780 --> 00:05:06.790 So Arthur and I would end up on foreign travel together 77 00:05:06.810 --> 00:05:10.820 or at the same time--obviously often times with lots of other people--and 78 00:05:10.840 --> 00:05:14.840 one of the things I found is that going around with Arthur 79 00:05:14.860 --> 00:05:18.890 you attended, number one, eat in the very good restaurants 80 00:05:18.910 --> 00:05:22.910 because he would know where to go. I remember going opal 81 00:05:22.930 --> 00:05:26.940 shopping for our wives together in Melbourne, Australia. That was a lot 82 00:05:26.960 --> 00:05:30.980 of fun. I really hope 83 00:05:31.000 --> 00:05:35.030 that Arthur is remembered every time a piece of data 84 00:05:35.050 --> 00:05:39.090 from GPM helps to further our understanding of precipitation 85 00:05:39.110 --> 00:05:43.130 helps to predict the direction of the next hurricane, 86 00:05:43.150 --> 00:05:47.190 flood prediction, landslide, every time we save a life 87 00:05:47.210 --> 00:05:51.220 I hope that some scientist out there remembers Arthur 88 00:05:51.240 --> 00:05:55.240 and that his legacy for this mission lives on. 89 00:05:55.260 --> 00:05:59.270 We've suffered a great loss here in losing Arthur at a young 90 00:05:59.290 --> 00:06:03.290 age, but I hope the mission 91 00:06:03.310 --> 00:06:07.300 is successful and certainly I hope the community 92 00:06:07.320 --> 00:06:11.360 a few years from now still remembers his contribution. 93 00:06:11.380 --> 00:06:15.400 On the day that Arthur died, the very same day that he died, 94 00:06:15.420 --> 00:06:19.440 the GPM spacecraft with all of its instruments that he'd worked 95 00:06:19.460 --> 00:06:23.490 so hard to put together and improve the science for, 96 00:06:23.510 --> 00:06:27.510 on that very day he died was the day that the spacecraft 97 00:06:27.530 --> 00:06:31.570 left NASA Goddard on its way to Japan 98 00:06:31.590 --> 00:06:35.590 for a launch in early 2014. 99 00:06:35.610 --> 00:06:39.620 So he took the spacecraft as far as he could 100 00:06:39.640 --> 00:06:43.650 and maybe he let go at that point and said "It's not in my hands anymore. 101 00:06:43.670 --> 00:06:47.670 It will get launched. It will take great data." 102 00:06:47.690 --> 00:06:51.710 103 00:06:51.730 --> 00:06:55.730 104 00:06:55.750 --> 00:06:58.632