Mastodawn

Today I will begin a look at thoughts about human exploration of the Moon after Apollo, skimming over some earlier things but leading up to where we are now, planning for Artemis landings within a few years, possibly as soon as early 2028 (but still some big hurdles to jump before that can happen). My focus is on sites and activities, NOT engineering or politics.

I begin with a 1984 JSC study called Lunar Surface Return...
#moon

Phil Stooke Mar 7

Lunar Surface Return included many ideas about what might be done on the Moon, though they all seemed very far in the future. This map shows a long (4000 km) traverse in a pressurized rover over an unspecified long period. See it here:

https://articles.adsabs.harvard.edu//full/1985lbsa.conf..223C/0000223.000.html

The authors were Mark Cintala of JSC and Paul Spudis and B. Ray Hawke. Cintala is still working and will be at LPSC, but sadly Paul and B. Ray are no longer with us.
#moon

Phil Stooke Mar 7

The long traverse would visit lots of interesting places - Ina, the biggest 'irregular mare patch', Copernicus, Aristarchus, the Gruithuisen domes. You can read about this not only in the link I just provided but also in part 7 of the Moon Chronicle:

https://publish.uwo.ca/~pjstooke/moon-chronicle.htm

Incidentally I have been putting some edits into the Chronicle, so from time to time you might want to update any files you may have downloaded. Part 8 might be out in about May.
#moon

Moon Chronicle

Phil Stooke Mar 8

The Lunar Surface Return study also included a plan for a global geophysical network - seismology, heat flow etc. - with a 12-node network as mapped here. Most network designs are smaller than this, 4 nodes being a common arrangement. But I am getting ahead of myself here - this is 1984, but people were looking ahead to post-Apollo missions before anyone went to the Moon. Let's take a step back before we proceed.
#moon

Phil Stooke Mar 8

While Apollo was being developed people were already looking ahead to a project called Apollo Applications Program. It would include a space station, a lunar base or outpost, long range rovers etc. A 1967 summer school at UC Santa Cruz explored the concepts:

https://ntrs.nasa.gov/api/citations/19670031235/downloads/19670031235.pdf

Here is a map of a mission to Alphonsus crater. LFU is a Lunar Flying Unit to get to places like the top of the central peak. LSSM was a rover (lunar scientific survey module).
#moon

Phil Stooke Mar 8

Needless to say this went far beyond what Congress would be willing to fund. In the end only one part of the Apollo Applications Program was ever built, in a small way - Skylab, the first NASA space Station. But you think this was over the top? There are bigger things to come...
#moon

Phil Stooke Mar 9

The Lunar Base Synthesis Study was done by North American Rockwell for NASA's Marshall Space Flight Center in 1971.

https://ntrs.nasa.gov/api/citations/19710016381/downloads/19710016381.pdf

https://ntrs.nasa.gov/api/citations/19710016382/downloads/19710016382.pdf

(there are other sections too). 7 large regions were identified, and in each a base site and potential traverses were shown on maps. It is covered in Part 4 of the Moon Chronicle. The scale of exploration and the cost would never have been feasible at the time - or even now. Here is an example.
#moon

Phil Stooke Mar 10

In 1988 the Advanced Programs Office at the Johnson Space Center described a concept called Lunar Outpost. They found 4 sites: Lacus Veris in the Orientale basin, the south pole, the Apollo 17 landing site region and Mare Nubium. Astronauts would use rovers to explore long distances around the site. Another version of this called First Lunar Outpost would put a base in Mare Smythii, right on the limb at 90 east. It would service an observatory on the farside.
#moon

Phil Stooke Mar 10

This outpost site at 90 east is just visible from Earth about half the time. However, librations (an apparent wobbling of the Moon caused by variations in its elliptical and tilted orbit) would hide this outpost site from Earth periodically. To remedy this a communication site 300 km further west would always be visible from Earth. The map also shows rover traverses out into cratered regions beyond the dark plains of Mare Smythii.
#moon

Phil Stooke Mar 11

We have seen a few examples of possible future lunar exploration activities, some more feasible than others. There were more... check out the Moon Chronicle. But what was really needed was a new survey of interesting lunar sites, making use of the Apollo results. The mid-80s is too early for the new datasets like those of Lunar Prospector which began to reveal new locations of interest and surface compositions, so Apollo was the main source of ideas...
#moon

Phil Stooke Mar 11

Mark Cintala chose some sites for a long rover traverse - seen a few days ago. Veteran USGS geologist and site selection specialist Don Wilhelms chose a number of sites, seen on this map, for future sample returns. These could be robotic or human missions, but either would give valuable results for understanding the Moon. It's odd to me that he didn't include Ina, the prototypical 'irregular mare patch' which was known to him.
#moon

Phil Stooke Mar 11

Here is a table of Wilhelms' sites giving a bit more information, straight from the Chronicle. Talking of Ina, we are starting to get suggestions for landing sites for Chinese astronauts and I fully expect that either Ina itself or a more equatorial example like the Maskelyne IMP could make the list as it develops. I will be covering this subject later in this set of posts.
#moon

Phil Stooke Mar 12

Graham Ryder of LPI put out a bigger list of sample return sites in 1989 (this one does have Ina in it, no. 46 on the map). The map shows reconnaissance sites for robotic landers a bit more capable than Luna 24, and intensive field study sites for either landed crews or sophisticated telerobotics. I won't post the 2 tables for these lists, but they are in Chronicle part 7. The point about these lists is that they form a foundation for later site studies.
#moon

Phil Stooke Mar 13

New ideas about lunar bases or outposts arose in the 1990s. JSC sponsored 2 workshops in mid-1990 about 'A Site Selection Strategy for a Lunar Outpost'. It came up with 6 sites for an outpost. This illustration shows the six sites (plus another at the north pole from a different source) and 2 of them shown in more detail. Various science targets were identified around each base or outpost (they are listed in the Chronicle).
#moon

Phil Stooke Mar 13

Here are the other 4 outpost sites from the 1990 study. One of them in Riccioli crater has some rover traverse routes mapped. All of them have science targets around them. This is all pre-LRO and does not identify sites we might look at now. For instance the previous post showed Mare Tranquillitatis and Mare Ingenii, both of which contain skylights (collapsed portions of roofed-over lava tubes) giving access to caves, a hot topic today but unknown in 1990.
#moon

Phil Stooke Mar 14

In 1989 President George H. W. Bush proposed a long range plan for NASA which became the Space Exploration Initiative, involving the Sopace Sration, a return to the Moon ('this time, back to stay') and then to Mars. Its cost was excessive and it faded away quite quickly. The next President Bush had his own proposal in 2004 which was known as the Vision for Space Exploration. It had the same basic goals and this time it survived long enough for quite a bit of planning...
#moon

Phil Stooke Mar 14

One of the early products of the Vision was a NASA report:

NASA 2005. NASA’s exploration systems architecture study, final report. NASA-TM-2005-214062, November
2005.

http://large.stanford.edu/courses/2012/ph241/copeland1/docs/140649main_ESAS_full.pdf

The Exploration Systems Architecture Study (ESAS) identified ten sites as potential exploration targets, as shown in this map. You might suppose that this would be the result of long and careful consideration. Not really.
#moon

Phil Stooke Mar 14

Paul Spudis, who put the list of sites together, told me that it came from the big lists of Don Wilhelms and Graham Ryder, plus the six Lunar Outpost sites already discussed. From them, these 10 ESAS sites were chosen so provide a global distribution and to sample a variety of terrain types and interesting sites. This was done quickly to get something ready for the report, and later studies soon added other sites. We will look at some of them next.

Phil Stooke Mar 15

Here is a bit more detail on the ESAS lunar exploration sites. Today the emphasis is on the south pole, but ESAS suggested a series of landings in other places. We call missions like that 'sorties'. Apollo was all sorties, but they did, early on, consider a fixed base instead, though not at the pole. Vision planning was a mix of sorties and a south polar base or outpost. Here are 6 sortie sites. No. 4, Bode, has been suggested for a Chinese crewed landing.
#moon

Phil Stooke Mar 15

Here are the remaining 4 ESAS sites. I am a bit puzzled by the Aristarchus site shown in he previous post. It's on top of a highland block without easy access to Aristarchus crater or Schroter's Valley, two major features of interest. The reason for that specific place eludes me. Most places shown in the literature for a landing here put it down below the highland where pyroclastics, young crater ejecta and young mare basalts are easy to reach.
#moon

Phil Stooke Mar 16

ESAS also thought about a fixed outpost site where infrastructure would be built up over many landings - like what we now call Artemis Base Camp. The Lunar Architecture Team in 2006 proposed a site on the rim of Shackleton crater at the south pole:

https://www.lpi.usra.edu/lunar/strategies/NASALunarArchitecture/dale_12_06.pdf

Here is their initial proposal for an outpost layout from that presentation. This is before LRO. The poles were poorly mapped and you can see here the pole was mislocated by about 3.5 km.
#moon

@PhilStooke I wonder whether having both 'Bose' and 'Bode' in contention ever caused confusion during discussions

Phil Stooke Mar 16

@womump It looks bad when written, but they are so far apart and so different that I doubt if anyone ever made a mistake like that. Except for typos, maybe!

MidgePhoto Mar 8

@PhilStooke nowadays that looks like a reasonable job for a robot, if a big one can be got there?

Phil Stooke Mar 8

@Photo55 Much more feasible now!