PDS_VERSION_ID = PDS3 RECORD_TYPE = STREAM OBJECT = TEXT PUBLICATION_DATE = 2004-08-04 START_ORBIT_NUMBER = 4630 STOP_ORBIT_NUMBER = 5207 START_TIME = 1999-308T19:06:32 STOP_TIME = 1999-356T02:25:13 NOTE = " This document includes the Experimenter's Notebook (ENB) entries summarizing data collection by TES during Mapping; the ENB was originally produced by the TES Mission Planner to be available online throughout the duration of the mission. This document is appropriate for orbits included in this volume, but may also include orbits from previous or later volumes. Two types of information can be found in this document: blocks of TES orbits and time entries, followed by the corresponding p*.img notes. TES data is organized by orbit which begins at the MGS descending equator crossing (times given in UTC). Orbits are labeled here with the TES orb number which is equivalent to ock (see obs.fmt OBJECT = ORBIT_COUNTER_KEEPER) except where deviations are noted. TES operations during a particular orbit are controlled by the p*.img file available onboard; key information from this file is provided in the p*.img notes. Missing data is described per entry as 'No DATA' if all data for the orbit is lost, or as 'No XXX' if all the data in a table is lost for the orbit. Seven tables (XXX) are expected for all orbits: ATM, BOL, GEO, OBS, POS, RAD, and TLM. Three TES tables (CMP, IFG, and LMB) are rarely available, so their inclusion is, noted rather than their exclusion; for example entry #10443, 'Includes IFG'." END_OBJECT = TEXT END TES orb #4630: 1999-308 // 19:06:32 - p4630.img TES orb #4631: 1999-308 // 21:04:11 TES orb #4632: 1999-308 // 23:01:52 TES orb #4633: 1999-309 // 00:59:34 TES orb #4634: 1999-309 // 02:57:14 TES orb #4635: 1999-309 // 04:54:51 TES orb #4636: 1999-309 // 06:52:26 TES orb #4637: 1999-309 // 08:50:05 TES orb #4638: 1999-309 // 10:47:47 TES orb #4639: 1999-309 // 12:45:29 TES orb #4640: 1999-309 // 14:43:08 TES orb #4641: 1999-309 // 16:40:45 TES orb #4642: 1999-309 // 18:38:22 TES orb #4643: 1999-309 // 20:35:59 TES orb #4644: 1999-309 // 22:33:40 TES orb #4645: 1999-310 // 00:31:21 TES orb #4646: 1999-310 // 02:29:03 TES orb #4647: 1999-310 // 04:26:42 TES orb #4648: 1999-310 // 06:24:17 TES orb #4649: 1999-310 // 08:21:53 TES orb #4750: 1999-310 // 10:19:34 TES orb #4651: 1999-310 // 12:17:16 TES orb #4652: 1999-310 // 14:14:57 TES orb #4653: 1999-310 // 16:12:35 TES orb #4654: 1999-310 // 18:10:11 TES orb #4655: 1999-310 // 20:07:48 TES orb #4656: 1999-310 // 22:05:26 TES orb #4657: 1999-311 // 00:03:07 TES orb #4658: 1999-311 // 02:00:48 TES orb #4659: 1999-311 // 03:58:29 TES orb #4660: 1999-311 // 05:56:06 TES orb #4661: 1999-311 // 07:53:41 TES orb #4662: 1999-311 // 09:51:19 TES orb #4663: 1999-311 // 11:49:00 TES orb #4664: 1999-311 // 13:46:42 TES orb #4665: 1999-311 // 15:44:22 TES orb #4666: 1999-311 // 17:42:00 TES orb #4667: 1999-311 // 19:39:36 TES orb #4668: 1999-311 // 21:37:13 TES orb #4669: 1999-311 // 23:34:53 TES orb #4670: 1999-312 // 01:32:34 TES orb #4671: 1999-312 // 03:30:16 TES orb #4672: 1999-312 // 05:27:55 TES orb #4673: 1999-312 // 07:25:31 TES orb #4674: 1999-312 // 09:23:07 TES orb #4675: 1999-312 // 11:19:43 TES orb #4676: 1999-312 // 13:18:26 TES orb #4677: 1999-312 // 15:16:07 TES orb #4678: 1999-312 // 17:15:46 TES orb #4679: 1999-312 // 19:11:23 TES orb #4680: 1999-312 // 21:08:59 TES orb #4681: 1999-312 // 23:06:37 TES orb #4682: 1999-313 // 01:04:17 TES orb #4683: 1999-313 // 03:01:59 TES orb #4684: 1999-313 // 04:59:40 TES orb #4685: 1999-313 // 06:57:18 TES orb #4686: 1999-313 // 08:54:52 TES orb #4687: 1999-313 // 10:52:29 TES orb #4688: 1999-313 // 12:50:11 TES orb #4689: 1999-313 // 14:47:52 TES orb #4690: 1999-313 // 16:45:32 TES orb #4691: 1999-313 // 18:43:10 TES orb #4692: 1999-313 // 20:40:46 TES orb #4693: 1999-313 // 22:38:23 TES orb #4694: 1999-314 // 00:36:03 TES orb #4695: 1999-314 // 02:33:44 TES orb #4696: 1999-314 // 04:31:25 TES orb #4697: 1999-314 // 06:29:05 TES orb #4698: 1999-314 // 08:26:43 TES orb #4699: 1999-314 // 10:24:17 TES orb #4700: 1999-314 // 12:21:57 TES orb #4701: 1999-314 // 14:19:39 TES orb #4702: 1999-314 // 16:17:20 TES orb #4703: 1999-314 // 18:14:59 p4630.img notes: 1) optical switch 00 2) day surface = -90 to +30 degrees lat, full spectral, full spatial night = +60 to -60 degrees lat, spectral mask, full spatial poles = rest of lats, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 5) limbs every 10 degrees, alternate orbits (a and b) 6) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 7) EPF mirror angles = -62,-60,-45,0,45,60,62; 5 icks at each angle 8) 1 N-polar, 1 S-polar (alb_ref orbit), 1 nightside epf (orbit 11) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 9) dense epf- one dense epf targeted every third day, - pnt_angles = +-60,+-58,+-55,+-54,+-50 etc to 0 degrees - it will take ~ 1 month to cycle through the full dayside latitudinal coverage (75S, 60S, 45S, 30S, 15S, 0, 15N, 30N, 45N, 60N, 75N) - fixed 60N dense epf (had been doing single set instead of full) 10) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 11) mosaics - - latitude band set 5 x 13, single scan, dayside: 1 per day cycling through latitudes -12, -9, -6, -3, 0, 3 - targeted 5 x 13, single scan, dayside: Hebes Chasm, ock 4684; Viking2, ock 4689; Herschel, ock 4702; Dao Vallis, ock 4716 - TRIAL targeted 3 x 45, single scan, nightside, cloud: (3 strips of 45 icks at ~+/- 45 degrees emission angle and 0 emission angle, attempting a 5 degree latitude size mosaic with gores between columns) Olympus Mons, ock 4711 12) 12 days worth of orbits loaded TES orb #4704: 1999-314 // 20:12:36 - p4704.img TES orb #4705: 1999-314 // 22:10:13 TES orb #4706: 1999-315 // 00:07:51 TES orb #4707: 1999-315 // 02:05:31 TES orb #4708: 1999-315 // 04:03:13 TES orb #4709: 1999-315 // 06:00:54 TES orb #4710: 1999-315 // 07:58:32 TES orb #4711: 1999-315 // 09:56:08 TES orb #4712: 1999-315 // 11:53:44 TES orb #4713: 1999-315 // 13:51:25 TES orb #4714: 1999-315 // 15:49:07 TES orb #4715: 1999-315 // 17:46:47 TES orb #4716: 1999-315 // 19:44:25 TES orb #4717: 1999-315 // 21:42:02 TES orb #4718: 1999-315 // 23:39:38 TES orb #4719: 1999-316 // 01:37:17 TES orb #4720: 1999-316 // 03:34:58 TES orb #4721: 1999-316 // 05:32:39 TES orb #4722: 1999-316 // 07:30:19 TES orb #4723: 1999-316 // 09:27:56 TES orb #4724: 1999-316 // 11:25:31 TES orb #4725: 1999-316 // 13:23:10 TES orb #4726: 1999-316 // 15:20:52 TES orb #4727: 1999-316 // 17:18:34 TES orb #4728: 1999-316 // 19:16:13 TES orb #4729: 1999-316 // 21:13:51 TES orb #4730: 1999-316 // 23:11:27 TES orb #4731: 1999-317 // 01:09:04 TES orb #4732: 1999-317 // 03:06:44 TES orb #4733: 1999-317 // 05:04:26 TES orb #4734: 1999-317 // 07:02:07 TES orb #4735: 1999-317 // 08:59:46 TES orb #4736: 1999-317 // 10:57:22 TES orb #4737: 1999-317 // 12:54:58 TES orb #4738: 1999-317 // 14:52:39 TES orb #4739: 1999-317 // 16:50:21 TES orb #4740: 1999-317 // 18:48:01 TES orb #4741: 1999-317 // 20:45:40 TES orb #4742: 1999-317 // 22:43:16 TES orb #4743: 1999-318 // 00:40:53 TES orb #4744: 1999-318 // 02:38:31 TES orb #4745: 1999-318 // 04:36:12 TES orb #4746: 1999-318 // 06:33:53 TES orb #4747: 1999-318 // 08:31:34 TES orb #4748: 1999-318 // 10:29:11 TES orb #4749: 1999-318 // 12:26:45 TES orb #4750: 1999-318 // 14:24:23 TES orb #4751: 1999-318 // 16:22:05 TES orb #4752: 1999-318 // 18:19:46 TES orb #4753: 1999-318 // 20:17:26 TES orb #4754: 1999-318 // 22:15:04 TES orb #4755: 1999-319 // 00:12:40 TES orb #4756: 1999-319 // 02:10:17 TES orb #4757: 1999-319 // 04:07:57 TES orb #4758: 1999-319 // 06:05:38 TES orb #4759: 1999-319 // 08:03:20 TES orb #4760: 1999-319 // 10:00:59 TES orb #4761: 1999-319 // 11:58:35 TES orb #4762: 1999-319 // 13:56:11 TES orb #4763: 1999-319 // 15:53:51 TES orb #4764: 1999-319 // 17:51:33 TES orb #4765: 1999-319 // 19:49:14 TES orb #4766: 1999-319 // 21:46:53 TES orb #4767: 1999-319 // 23:44:30 TES orb #4768: 1999-320 // 01:42:06 TES orb #4769: 1999-320 // 03:39:44 TES orb #4770: 1999-320 // 05:37:25 TES orb #4771: 1999-320 // 07:35:06 TES orb #4772: 1999-320 // 09:32:47 TES orb #4773: 1999-320 // 11:30:25 TES orb #4774: 1999-320 // 13:28:00 TES orb #4775: 1999-320 // 15:25:37 TES orb #4776: 1999-320 // 17:23:18 TES orb #4777: 1999-320 // 19:21:00 TES orb #4778: 1999-320 // 21:18:40 TES orb #4779: 1999-320 // 23:16:18 TES orb #4780: 1999-321 // 01:13:54 TES orb #4781: 1999-321 // 03:11:31 TES orb #4782: 1999-321 // 05:09:10 TES orb #4783: 1999-321 // 07:06:51 TES orb #4784: 1999-321 // 09:04:33 TES orb #4785: 1999-321 // 11:02:13 TES orb #4786: 1999-321 // 12:59:49 TES orb #4787: 1999-321 // 14:57:24 TES orb #4788: 1999-321 // 16:55:04 TES orb #4789: 1999-321 // 18:52:46 TES orb #4790: 1999-321 // 20:50:27 TES orb #4791: 1999-321 // 22:48:07 TES orb #4792: 1999-322 // 00:45:44 TES orb #4793: 1999-322 // 02:43:20 TES orb #4794: 1999-322 // 04:40:58 TES orb #4795: 1999-322 // 06:38:38 TES orb #4796: 1999-322 // 08:36:20 TES orb #4797: 1999-322 // 10:34:01 TES orb #4798: 1999-322 // 12:31:40 TES orb #4799: 1999-322 // 14:29:15 TES orb #4800: 1999-322 // 16:26:52 TES orb #4801: 1999-322 // 18:24:33 TES orb #4802: 1999-322 // 20:22:14 TES orb #4803: 1999-322 // 22:19:55 TES orb #4804: 1999-323 // 00:17:33 TES orb #4805: 1999-323 // 02:15:09 TES orb #4806: 1999-323 // 04:12:46 TES orb #4807: 1999-323 // 06:10:25 TES orb #4808: 1999-323 // 08:08:05 TES orb #4809: 1999-323 // 10:05:47 TES orb #4810: 1999-323 // 12:03:27 TES orb #4811: 1999-323 // 14:01:04 TES orb #4812: 1999-323 // 15:58:39 TES orb #4813: 1999-323 // 17:56:18 p4704.img notes: 1) optical switch 00 2) day surface = -90 to +30 degrees lat, full spectral, full spatial night = +60 to -60 degrees lat, spectral mask, full spatial poles = rest of lats, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 5) limbs every 10 degrees, alternate orbits (a and b) 6) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 7) EPF mirror angles = -62,-60,-45,0,45,60,62; 5 icks at each angle 8) 1 N-polar, 1 S-polar (alb_ref orbit), 1 nightside epf (orbit 11) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 9) dense epf- one dense epf targeted every third day, - pnt_angles = +-60,+-58,+-55,+-54,+-50 etc to 0 degrees - it will take ~ 1 month to cycle through the full dayside latitudinal coverage (75S, 60S, 45S, 30S, 15S, 0, 15N, 30N, 45N, 60N, 75N) 10) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 11) mosaics - - latitude band set 5 x 13, single scan, dayside: 1 per day cycling through latitudes -12, -9, -6, -3, 0, 3 - targeted 5 x 13, single scan, dayside: Dao Vallis, ock 4716; Adamas Layrintis, ock 4753; Proctor Crater, ock 4756; Western Hematite, ock 4757; ML1, ock 4759; Nili, ock 4767; Hematite3, ock 4772; - targeted 5 x 13, single scan, nightside: Aram Chaos, ocks 47134714]; Hematite5, ock 4766; W. Hematite, ocks 4789 4790 - TRIAL targeted 3 x 45, single scan, nightside, cloud: (3 strips of 45 icks at ~+/- 45 degrees emission angle and 0 emission angle, attempting a 5 degree latitude size mosaic with gores between columns) Olympus Mons, ock 4711 12) 12 days worth of orbits loaded 13) spacecraft command sequence mm009 not released prior to upload, last five days contain no real time orbits (no info to assign these days) TES orb #4814: 1999-323 // 19:54:00 - p4814.img TES orb #4815: 1999-323 // 21:51:41 TES orb #4816: 1999-323 // 23:49:21 TES orb #4817: 1999-324 // 01:46:58 TES orb #4818: 1999-324 // 03:44:34 TES orb #4819: 1999-324 // 05:42:12 TES orb #4820: 1999-324 // 07:39:52 TES orb #4821: 1999-324 // 09:37:33 TES orb #4822: 1999-324 // 11:35:15 TES orb #4823: 1999-324 // 13:32:54 TES orb #4824: 1999-324 // 15:30:30 TES orb #4825: 1999-324 // 17:28:05 TES orb #4826: 1999-324 // 19:25:46 TES orb #4827: 1999-324 // 21:23:28 TES orb #4828: 1999-324 // 23:21:09 TES orb #4829: 1999-325 // 01:18:47 TES orb #4830: 1999-325 // 03:16:24 TES orb #4831: 1999-325 // 05:14:00 TES orb #4832: 1999-325 // 07:11:38 TES orb #4833: 1999-325 // 09:09:19 TES orb #4834: 1999-325 // 11:07:00 TES orb #4835: 1999-325 // 13:04:41 TES orb #4836: 1999-325 // 15:02:18 TES orb #4837: 1999-325 // 16:59:53 TES orb #4838: 1999-325 // 18:57:31 TES orb #4839: 1999-325 // 20:55:12 TES orb #4840: 1999-325 // 22:52:54 TES orb #4841: 1999-326 // 00:50:34 TES orb #4842: 1999-326 // 02:48:11 TES orb #4843: 1999-326 // 04:45:48 TES orb #4844: 1999-326 // 06:43:24 TES orb #4845: 1999-326 // 08:41:04 TES orb #4846: 1999-326 // 10:38:45 TES orb #4847: 1999-326 // 12:36:37 TES orb #4848: 1999-326 // 14:34:07 TES orb #4849: 1999-326 // 16:31:43 TES orb #4850: 1999-326 // 18:29:19 TES orb #4851: 1999-326 // 20:26:59 TES orb #4852: 1999-326 // 22:24:41 TES orb #4853: 1999-327 // 00:22:22 TES orb #4854: 1999-327 // 02:20:01 TES orb #4855: 1999-327 // 04:17:38 TES orb #4856: 1999-327 // 06:15:14 TES orb #4857: 1999-327 // 08:12:52 TES orb #4858: 1999-327 // 10:10:33 TES orb #4859: 1999-327 // 12:08:14 TES orb #4860: 1999-327 // 14:05:55 TES orb #4861: 1999-327 // 16:03:33 TES orb #4862: 1999-327 // 18:01:08 TES orb #4863: 1999-327 // 19:58:45 TES orb #4864: 1999-327 // 21:56:26 TES orb #4865: 1999-327 // 23:54:08 TES orb #4866: 1999-328 // 01:51:48 TES orb #4867: 1999-328 // 03:49:26 TES orb #4868: 1999-328 // 05:47:02 TES orb #4869: 1999-328 // 07:44:39 TES orb #4870: 1999-328 // 09:42:18 TES orb #4871: 1999-328 // 11:39:59 TES orb #4872: 1999-328 // 13:34:41 TES orb #4873: 1999-328 // 15:35:21 TES orb #4874: 1999-328 // 17:32:57 TES orb #4875: 1999-328 // 19:30:33 TES orb #4876: 1999-328 // 21:28:12 TES orb #4877: 1999-328 // 23:25:54 TES orb #4878: 1999-329 // 01:23:35 TES orb #4879: 1999-329 // 03:21:15 TES orb #4880: 1999-329 // 05:18:52 TES orb #4881: 1999-329 // 07:16:28 TES orb #4882: 1999-329 // 09:14:06 TES orb #4883: 1999-329 // 11:11:46 TES orb #4884: 1999-329 // 13:09:28 TES orb #4885: 1999-329 // 15:07:09 TES orb #4886: 1999-329 // 17:04:48 p4814.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb set orbits (a and b) moved back 2.5 degrees (-25 icks) 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - pnt_angles 70, 68.5 to 62.5 in 0.41 degree steps, 3 icks at 50 degrees 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- removed from upload - scheduling conflicts with new MPL coverage strategy 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76(desc) degrees lat, one at -76(asc) degrees lat 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 13, single scan, dayside: replaced by double-scan mosaics (see next...) - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 - targeted 5 x 13, single scan, dayside: Arsia Caldera, ock 4922; Hematite2, ock 4860; Gusev crater, ock 4952; - targeted 5 x 13, single scan, nightside: none 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) 12 days worth of orbits loaded ERROR: bit hit(?) during transmission affected double space/ref set - no double scan black body ref collected so cannot calibrate any double-scan observations from this upload ERROR: warmstart (1 per orbit for three orbits) at same location during space reference (double and single scans), did not occur in other locations where sequence was executing; will add additional idle ick in attempt to eradicate warmstart TES orb #4887: 1999-329 // 19:02:24 - p4887.img TES orb #4888: 1999-329 // 21:00:00 TES orb #4889: 1999-329 // 22:57:41 TES orb #4890: 1999-330 // 00:55:23 TES orb #4891: 1999-330 // 02:53:03 TES orb #4892: 1999-330 // 04:50:42 TES orb #4893: 1999-330 // 06:48:18 TES orb #4894: 1999-330 // 08:45:54 TES orb #4895: 1999-330 // 10:43:33 TES orb #4896: 1999-330 // 12:41:14 TES orb #4897: 1999-330 // 14:38:55 TES orb #4898: 1999-330 // 16:36:35 TES orb #4899: 1999-330 // 18:34:12 TES orb #4900: 1999-330 // 20:31:47 TES orb #4901: 1999-330 // 22:29:26 TES orb #4902: 1999-331 // 00:27:07 TES orb #4903: 1999-331 // 02:24:49 TES orb #4904: 1999-331 // 04:22:29 TES orb #4905: 1999-331 // 06:20:06 TES orb #4906: 1999-331 // 08:17:42 TES orb #4907: 1999-331 // 10:15:20 TES orb #4908: 1999-331 // 12:13:00 TES orb #4909: 1999-331 // 14:10:41 TES orb #4910: 1999-331 // 16:08:23 TES orb #4911: 1999-331 // 18:06:02 TES orb #4912: 1999-331 // 20:03:38 TES orb #4913: 1999-331 // 22:01:14 TES orb #4914: 1999-331 // 23:58:54 TES orb #4915: 1999-332 // 01:56:36 TES orb #4916: 1999-332 // 03:54:17 TES orb #4917: 1999-332 // 05:51:55 TES orb #4918: 1999-332 // 07:49:32 TES orb #4919: 1999-332 // 09:47:08 TES orb #4920: 1999-332 // 11:44:47 TES orb #4921: 1999-332 // 13:42:27 TES orb #4922: 1999-332 // 15:40:09 TES orb #4923: 1999-332 // 17:37:49 TES orb #4924: 1999-332 // 19:35:27 TES orb #4925: 1999-332 // 21:33:02 TES orb #4926: 1999-332 // 23:30:39 TES orb #4927: 1999-333 // 01:28:20 TES orb #4928: 1999-333 // 03:26:02 TES orb #4929: 1999-333 // 05:23:42 TES orb #4930: 1999-333 // 07:21:21 TES orb #4931: 1999-333 // 09:18:56 TES orb #4932: 1999-333 // 11:16:33 TES orb #4933: 1999-333 // 13:14:12 TES orb #4934: 1999-333 // 15:11:54 TES orb #4935: 1999-333 // 17:09:35 TES orb #4936: 1999-333 // 19:07:15 TES orb #4937: 1999-333 // 21:04:51 TES orb #4938: 1999-333 // 23:02:27 TES orb #4939: 1999-334 // 01:00:07 TES orb #4940: 1999-334 // 02:57:49 TES orb #4941: 1999-334 // 04:55:30 TES orb #4942: 1999-334 // 06:53:09 TES orb #4943: 1999-334 // 08:50:46 TES orb #4944: 1999-334 // 10:48:22 TES orb #4945: 1999-334 // 12:46:00 TES orb #4946: 1999-334 // 14:43:41 TES orb #4947: 1999-334 // 16:41:22 TES orb #4948: 1999-334 // 18:39:03 TES orb #4949: 1999-334 // 20:36:42 TES orb #4950: 1999-334 // 22:34:17 TES orb #4951: 1999-335 // 00:31:53 TES orb #4952: 1999-335 // 02:29:34 TES orb #4953: 1999-335 // 04:27:16 p4887.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb set orbits (a and b) moved back 2.5 degrees (-25 icks) 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - angles 70, 68.5 to 62.5 in 0.41 degree steps, 3 icks at 50 degrees - fixed stop time for limb, ends at ick 1375 now 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- none in this upload 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76 degrees lat descending, one at -76 degrees lat ascending; fixed second set (ascending) to be centered on MPL latitude 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 13, single scan, dayside: replaced by double-scan mosaics (see next...) - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 - targeted 5 x 13, single scan, dayside: Arsia Caldera, ock 4922; Gusev crater, ock 4952; - targeted 5 x 13, single scan, nightside: none 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) changed space/ref single/double set to address warmstarts and lack of blackbody looks - added additional idle icks between space and ref triplets 18) 12 days worth of orbits loaded ERROR: still no blackbody looks, TES unable to alternate between single and double scans within single sequence (?) no double scan black body ref collected so cannot calibrate any double- scan observations from this upload ERROR: warmstart (1 per orbit for three orbits) at same location during space reference (double and single scans), did not occur in other locations where sequence was executing TES orb #4954: 1999-335 // 06:24:47 - p4954.img TES orb #4955: 1999-335 // 08:22:35 TES orb #4956: 1999-335 // 10:20:11 TES orb #4957: 1999-335 // 12:17:47 TES orb #4958: 1999-335 // 14:15:26 TES orb #4959: 1999-335 // 16:13:07 TES orb #4960: 1999-335 // 18:10:49 TES orb #4961: 1999-335 // 20:08:29 TES orb #4962: 1999-335 // 22:06:06 TES orb #4963: 1999-336 // 00:03:41 TES orb #4964: 1999-336 // 02:01:21 TES orb #4965: 1999-336 // 03:59:02 TES orb #4966: 1999-336 // 05:56:44 TES orb #4967: 1999-336 // 07:54:23 TES orb #4968: 1999-336 // 09:52:00 TES orb #4969: 1999-336 // 11:49:37 TES orb #4970: 1999-336 // 13:47:14 TES orb #4971: 1999-336 // 15:44:55 TES orb #4972: 1999-336 // 17:42:39 TES orb #4973: 1999-336 // 19:40:18 TES orb #4974: 1999-336 // 21:37:56 TES orb #4975: 1999-336 // 23:35:32 TES orb #4976: 1999-337 // 01:33:08 TES orb #4977: 1999-337 // 03:30:49 TES orb #4978: 1999-337 // 05:28:31 TES orb #4979: 1999-337 // 07:26:12 TES orb #4980: 1999-337 // 09:23:51 TES orb #4981: 1999-337 // 11:21:26 TES orb #4982: 1999-337 // 13:19:03 TES orb #4983: 1999-337 // 15:16:41 TES orb #4984: 1999-337 // 17:14:22 TES orb #4985: 1999-337 // 19:12:03 TES orb #4986: 1999-337 // 21:09:44 TES orb #4987: 1999-337 // 23:07:21 TES orb #4988: 1999-338 // 01:04:56 TES orb #4989: 1999-338 // 03:02:34 TES orb #4990: 1999-338 // 05:00:15 TES orb #4991: 1999-338 // 06:58:57 TES orb #4992: 1999-338 // 08:55:37 TES orb #4993: 1999-338 // 10:53:14 TES orb #4994: 1999-338 // 12:50:51 TES orb #4995: 1999-338 // 14:48:28 TES orb #4996: 1999-338 // 16:46:08 TES orb #4997: 1999-338 // 18:43:49 TES orb #4998: 1999-338 // 20:41:31 TES orb #4999: 1999-338 // 22:39:10 TES orb #5000: 1999-339 // 00:36:46 TES orb #5001: 1999-339 // 02:34:22 TES orb #5002: 1999-339 // 04:32:02 TES orb #5003: 1999-339 // 06:29:44 TES orb #5004: 1999-339 // 08:27:25 TES orb #5005: 1999-339 // 10:25:04 TES orb #5006: 1999-339 // 12:22:40 TES orb #5007: 1999-339 // 14:20:16 TES orb #5008: 1999-339 // 16:17:55 TES orb #5009: 1999-339 // 18:15:35 TES orb #5010: 1999-339 // 20:13:17 TES orb #5011: 1999-339 // 22:10:58 TES orb #5012: 1999-340 // 00:08:35 TES orb #5013: 1999-340 // 02:06:10 TES orb #5014: 1999-340 // 04:03:47 TES orb #5015: 1999-340 // 06:01:28 TES orb #5016: 1999-340 // 07:59:10 TES orb #5017: 1999-340 // 09:56:50 TES orb #5018: 1999-340 // 11:54:28 TES orb #5019: 1999-340 // 13:52:04 TES orb #5020: 1999-340 // 15:49:41 TES orb #5021: 1999-340 // 17:47:20 TES orb #5022: 1999-340 // 19:45:01 TES orb #5023: 1999-340 // 21:42:43 TES orb #5024: 1999-340 // 23:40:23 TES orb #5025: 1999-341 // 01:38:00 TES orb #5026: 1999-341 // 03:35:35 TES orb #5027: 1999-341 // 05:33:15 TES orb #5028: 1999-341 // 07:30:57 TES orb #5029: 1999-341 // 09:28:38 TES orb #5030: 1999-341 // 11:26:17 TES orb #5031: 1999-341 // 13:23:54 TES orb #5032: 1999-341 // 15:21:31 TES orb #5033: 1999-341 // 17:19:09 TES orb #5034: 1999-341 // 19:16:49 TES orb #5035: 1999-341 // 21:14:31 TES orb #5036: 1999-341 // 23:12:12 TES orb #5037: 1999-342 // 01:09:50 TES orb #5038: 1999-342 // 03:07:25 TES orb #5039: 1999-342 // 05:05:02 TES orb #5040: 1999-342 // 07:02:43 TES orb #5041: 1999-342 // 09:00:25 TES orb #5042: 1999-342 // 10:58:05 TES orb #5043: 1999-342 // 12:55:43 TES orb #5044: 1999-342 // 14:53:20 TES orb #5045: 1999-342 // 16:50:56 TES orb #5046: 1999-342 // 18:48:35 TES orb #5047: 1999-342 // 20:46:16 TES orb #5048: 1999-342 // 22:43:58 TES orb #5049: 1999-343 // 00:41:38 TES orb #5050: 1999-343 // 02:39:14 TES orb #5051: 1999-343 // 04:36:49 TES orb #5052: 1999-343 // 06:34:29 TES orb #5053: 1999-343 // 08:32:10 TES orb #5054: 1999-343 // 10:29:52 TES orb #5055: 1999-343 // 12:27:32 TES orb #5056: 1999-343 // 14:25:09 TES orb #5057: 1999-343 // 16:22:45 TES orb #5058: 1999-343 // 18:20:23 TES orb #5059: 1999-343 // 20:18:03 TES orb #5060: 1999-343 // 22:15:43 TES orb #5061: 1999-344 // 00:13:26 TES orb #5062: 1999-344 // 02:11:05 TES orb #5063: 1999-344 // 04:08:41 TES orb #5064: 1999-344 // 06:06:17 TES orb #5065: 1999-344 // 08:03:57 TES orb #5066: 1999-344 // 10:01:39 TES orb #5067: 1999-344 // 11:59:20 TES orb #5068: 1999-344 // 13:56:58 TES orb #5069: 1999-344 // 15:54:35 TES orb #5070: 1999-344 // 17:52:11 TES orb #5071: 1999-344 // 19:49:50 TES orb #5072: 1999-344 // 21:47:30 TES orb #5073: 1999-344 // 23:45:12 TES orb #5074: 1999-345 // 01:42:52 TES orb #5075: 1999-345 // 03:40:29 TES orb #5076: 1999-345 // 05:38:04 TES orb #5077: 1999-345 // 07:35:42 TES orb #5078: 1999-345 // 09:33:24 TES orb #5079: 1999-345 // 11:31:05 TES orb #5080: 1999-345 // 13:28:45 TES orb #5081: 1999-345 // 15:26:23 p4954.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb removed from 76S lat position - for MPL surface viewing 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - angles 70, 68.5 to 62.5 in 0.41 degree steps, 3 icks at 50 degrees 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- none in this upload 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76 degrees lat descending, one at -76 degrees lat ascending 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 13, single scan, dayside: replaced by double-scan mosaics (see next...) - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 - targeted 5 x 13, single scan, dayside: Hematite4, ock 5003 - targeted 5 x 13, single scan, nightside: none - 3 strips x 45 icks, single scan, dayside cloud/volc: Elysium, ock 5003 - 3 strips x 45 icks, single scan, nightside cloud/volc: Elysium, ock 5009; Olympus, ock 5044 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) new space/ref single/double sequence: - 3 single space, 3 single bb_ref, 3 double space, 3 double bb_ref, 2 idle icks - hopefully will fix the missing bb_ref problem and the warmstart problem 18) 12 days worth of orbits loaded NOTE: this upload fixed the double-bb_ref and warmstart problem ERROR: error in Elysium, ock 5003 mosaic schedule caused TES to warmstart; no data collected for this cloud/volc mosaic TES orb #5082: 1999-345 // 17:23:59 - p5082.img TES orb #5083: 1999-345 // 19:21:36 TES orb #5084: 1999-345 // 21:19:16 TES orb #5085: 1999-345 // 23:16:57 TES orb #5086: 1999-346 // 01:14:39 TES orb #5087: 1999-346 // 03:12:18 TES orb #5088: 1999-346 // 05:09:54 TES orb #5089: 1999-346 // 07:07:30 TES orb #5090: 1999-346 // 09:05:10 TES orb #5091: 1999-346 // 11:02:52 TES orb #5092: 1999-346 // 13:00:33 TES orb #5093: 1999-346 // 14:58:12 TES orb #5094: 1999-346 // 16:55:49 TES orb #5095: 1999-346 // 18:53:25 TES orb #5096: 1999-346 // 20:51:03 TES orb #5097: 1999-346 // 22:48:44 TES orb #5098: 1999-347 // 00:46:25 TES orb #5099: 1999-347 // 02:44:06 TES orb #5100: 1999-347 // 04:41:44 TES orb #5101: 1999-347 // 06:39:19 TES orb #5102: 1999-347 // 08:36:56 TES orb #5103: 1999-347 // 10:34:37 TES orb #5104: 1999-347 // 12:32:19 TES orb #5105: 1999-347 // 14:29:59 TES orb #5106: 1999-347 // 16:27:37 TES orb #5107: 1999-347 // 18:25:13 TES orb #5108: 1999-347 // 20:22:50 TES orb #5109: 1999-347 // 22:20:29 TES orb #5110: 1999-348 // 00:18:10 TES orb #5111: 1999-348 // 02:15:52 TES orb #5112: 1999-348 // 04:13:32 TES orb #5113: 1999-348 // 06:11:08 TES orb #5114: 1999-348 // 08:08:42 TES orb #5115: 1999-348 // 10:06:23 TES orb #5116: 1999-348 // 12:04:05 TES orb #5117: 1999-348 // 14:01:47 TES orb #5118: 1999-348 // 15:59:26 TES orb #5119: 1999-348 // 17:57:03 TES orb #5120: 1999-348 // 19:54:39 TES orb #5121: 1999-348 // 21:52:17 TES orb #5122: 1999-348 // 23:49:57 TES orb #5123: 1999-349 // 01:47:39 TES orb #5124: 1999-349 // 03:45:20 TES orb #5125: 1999-349 // 05:42:59 TES orb #5126: 1999-349 // 07:40:34 TES orb #5127: 1999-349 // 09:38:11 TES orb #5128: 1999-349 // 11:32:52 TES orb #5129: 1999-349 // 13:33:34 TES orb #5130: 1999-349 // 15:31:14 TES orb #5131: 1999-349 // 17:28:52 p5082.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb removed from 76S lat position - for MPL surface viewing 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - angles 70, 68.5 to 62.5 in 0.41 degree steps, 3 icks at 50 degrees 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- none in this upload 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76 degrees lat descending, one at -76 degrees lat ascending 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 - targeted 5 x 13, single scan, dayside: none - targeted 5 x 13, single scan, nightside: none 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) new space/ref single/double sequence: - 3 single space, 3 single bb_ref, 3 double space, 3 double bb_ref, 2 idle icks - fixes the missing bb_ref problem and the warmstart problem 18) 26 days worth of orbits loaded TES orb #5132: 1999-349 // 19:26:28 - p5132.img TES orb #5133: 1999-349 // 21:24:05 TES orb #5134: 1999-349 // 23:21:44 TES orb #5135: 1999-350 // 01:19:25 TES orb #5136: 1999-350 // 03:17:06 TES orb #5137: 1999-350 // 05:14:46 TES orb #5138: 1999-350 // 07:12:23 TES orb #5139: 1999-350 // 09:10:58 TES orb #5140: 1999-350 // 11:07:37 TES orb #5141: 1999-350 // 13:05:19 TES orb #5142: 1999-350 // 15:03:00 TES orb #5143: 1999-350 // 17:00:40 TES orb #5144: 1999-350 // 18:58:17 TES orb #5145: 1999-350 // 20:55:54 TES orb #5146: 1999-350 // 22:53:31 TES orb #5147: 1999-351 // 00:51:11 TES orb #5148: 1999-351 // 02:48:53 TES orb #5149: 1999-351 // 04:46:34 TES orb #5150: 1999-351 // 06:44:13 TES orb #5151: 1999-351 // 08:41:49 TES orb #5152: 1999-351 // 10:39:25 TES orb #5153: 1999-351 // 12:37:06 TES orb #5154: 1999-351 // 14:34:48 p5132.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb removed from 76S lat position - for MPL surface viewing 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - angles 70, 68.5 to 62.5 in 0.41 degree steps, 3 icks at 50 degrees 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- none in this upload 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76 degrees lat descending, one at -76 degrees lat ascending 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) space/ref single/double sequence: - 3 single space, 3 single bb_ref, 3 double space, 3 double bb_ref, 2 idle icks 18) 21 days worth of orbits loaded NOTE: Spacecraft to CSA/backup mode on ock 5142: no more equator crossing broadcasts until MHSA mode resumes - timing will drift TES orb #5155: 1999-351 // 16:32:28 - p5155.img TES orb #5156: 1999-351 // 18:30:07 TES orb #5157: 1999-351 // 20:27:43 TES orb #5158: 1999-351 // 22:25:20 TES orb #5159: 1999-352 // 00:22:58 TES orb #5160: 1999-352 // 02:20:39 TES orb #5161: 1999-352 // 04:18:20 TES orb #5162: 1999-352 // 06:16:01 TES orb #5163: 1999-352 // 08:13:38 TES orb #5164: 1999-352 // 10:11:13 TES orb #5165: 1999-352 // 12:08:50 TES orb #5166: 1999-352 // 14:06:32 TES orb #5167: 1999-352 // 16:04:13 TES orb #5168: 1999-352 // 18:01:53 TES orb #5169: 1999-352 // 19:59:31 TES orb #5170: 1999-352 // 21:57:07 TES orb #5171: 1999-352 // 23:54:44 TES orb #5172: 1999-353 // 01:52:24 TES orb #5173: 1999-353 // 03:50:05 TES orb #5174: 1999-353 // 05:47:47 TES orb #5175: 1999-353 // 07:45:26 TES orb #5176: 1999-353 // 09:43:03 TES orb #5177: 1999-353 // 11:40:27 TES orb #5178: 1999-353 // 13:38:07 TES orb #5179: 1999-353 // 15:35:49 TES orb #5180: 1999-353 // 17:33:30 TES orb #5181: 1999-353 // 19:31:09 TES orb #5182: 1999-353 // 21:28:46 TES orb #5183: 1999-353 // 23:26:22 TES orb #5184: 1999-354 // 01:24:00 TES orb #5185: 1999-354 // 03:21:41 TES orb #5186: 1999-354 // 05:19:25 TES orb #5187: 1999-354 // 07:17:03 TES orb #5188: 1999-354 // 09:14:41 TES orb #5189: 1999-354 // 11:12:16 TES orb #5190: 1999-354 // 13:09:53 TES orb #5191: 1999-354 // 15:07:34 TES orb #5192: 1999-354 // 17:05:15 TES orb #5193: 1999-354 // 19:02:55 TES orb #5194: 1999-354 // 21:00:34 TES orb #5195: 1999-354 // 22:58:10 TES orb #5196: 1999-355 // 00:55:46 TES orb #5197: 1999-355 // 02:53:26 TES orb #5198: 1999-355 // 04:51:07 TES orb #5199: 1999-355 // 06:48:48 TES orb #5200: 1999-355 // 08:46:28 TES orb #5201: 1999-355 // 10:44:05 TES orb #5202: 1999-355 // 12:41:40 TES orb #5203: 1999-355 // 14:39:19 TES orb #5204: 1999-355 // 16:37:01 TES orb #5205: 1999-355 // 18:34:43 TES orb #5206: 1999-355 // 20:32:22 TES orb #5207: 1999-355 // 22:29:59 p5155.img notes: 1) optical switch 00 2) day surface = -66(desc) to +6(asc) degrees lat, full spectral, full spatial night = +54 to -66 degrees lat, spectral mask, full spatial poles = +6(asc) to +54(desc) degrees lat, spectral mask, spatial mask (all detectors averaged together) - short packets except for space/reference sets 3) for realtime orbits: full spatial, full spectral for entire orbit - long packets 4) three orbits of double scan surface coverage (nadir only, limbs remain single-scan) every fourth day centered on MPL landing site closest groundtrack orbit that day 5) limb: all forward looking, space, +75 degrees, limb set (100 km height, 1/2 degree steps, padded by one look at surface angle) - all short packets 6) limb removed from 76S lat position - for MPL surface viewing 7) limbs every 10 degrees, alternate orbits (a and b) 8) continuous limb look - with 3 looks at ~60 degree emission angle (50 degrees pnt_angle) between each set for once per week repeat cont_limb 90S - 30N 9) continuous limbs for MPL - fore set covers ~47 degrees latitude starting at sub-spacecraft latitude of -46(desc) then switching to aft set covering additional ~47 degrees latitude finishing at sub-spacecraft lat of -46(asc) - angles 70, 68.5 to 62.5 in .41 degree steps, 3 icks 50 deg. 10) EPF NEW mirror angles = -59.5,-54.5,-47,-26.5,0,26.5,47,54.5,59.5; 5 icks at each angle 11) 1 N-polar, 1 S-polar, and 1 nightside epf (alb_ref1 orbit) per day; 1 dayside epf per orbit - steps from -75 lat to +75 lat in 15 deg lat steps to cycle through dayside completely in a single day 12) dense epf- none in this upload 13) MPL epf set - 2 double-sided (fore-nadir-aft) sets, one at -76 degrees lat descending, one at -76 degrees lat ascending 14) space_ref_long twice per day on a single orbit: once in noise free zone (south pole) and once during Solar Array motion (nightside) - set on orbit 9 (same places as above), one set during HGA motion and one during HGA parked time 15) mosaics - - latitude band set 5 x 7, double scan, column averaged (det_mask 5)dayside: 1 per day cycling through latitudes -25, -22, -19, -16, -13, 9 16) Multi day schedule to provide MPL landing site coverage/support: 1st day - normal (regular limb/epf/surface) 2nd day - MPL (regular orbit - MPL limb orbit - regular orbit - MPL epf orbit - regular orbit - etc) 3rd day - normal with 3 double surface orbits 4th day - MPL [2nd and 4th days alternate so closest groundtrack orbit to lander switches between MPL-limb and MPL-epf] 17) space/ref single/double sequence: - 3 single space, 3 single bb_ref, 3 double space, 3 double bb_ref, 2 idle icks 18) Due to MOC imaging of the MPL landing site, the following 7 ocks will stare at surface only and have the south polar space_ref look removed: 5155, 5159, 5160, 5167, 5172, 5179, 5180 19) EQTX command sent up due to eqtx broadcast being terminated until doy 1999-359 20) 19 days worth of orbits loaded NOTE: Spacecraft to CSA/backup mode on ock 5142: no more equator crossing broadcasts until MHSA mode resumes - timing will drift