The way things go, I despair of seeing any sensible advancements on new launch vehicle technology. Anything really new they try is going to take 15+ years and tens or hundreds of billions to R&D, and it'll almost certainly have a lot of graft built into it (as any long government program will).

The best recent development I saw was a few years ago during the office of the Space Launch Initiative (SLI) working towards their Orbital Space Plane (the older OSP, then the entire office died or was severely cut back when the Bush space plan came into being).

 Northrup/Grumman's proposal, as I've said, was a lot like the HL-42.  A reusable, survivable, cheap to operate spaceplane, with no radical advancements needed, and a lot of OTS parts (as the HL-20/42 designs were). Like the HL-42, it could go to a runway landing from the top of the booster on the launch pad or any stage of the launch! One variant used a flyback first stage booster (unmanned), which was nothing new really. The core 1.5 stage (parallel burning) was expendable. The upper stage was small, since it was only the final boost to orbit, and contained the escape rockets on the tail skirt of the plane (a good place to use a hybrid for either upper/circularization, or the escape rocket, in one package).

This was an evolutionary step up from the baseline HL-42, which just used typical rockets based on ICBMs like the Atlas or Arianne V or such. Nothing about this was really new, expect the concept, which was to put the crew in a small spaceplane which had nothing but a lot of ways to let the crew survive just about anything (built-in forgiveness). The same booster arrangement, without the OSP on top, put up about 25 tons, which replaced the Shuttle's capacity with far less cost. There was no way this could cost as much to develop as a "Whiz-Bang" all new technology beast like the VentureStar, and while it wasn't as sexy as a "Next Gen" or "Shuttle II" or some thing with a linear or SCRamjet, it was readily acheivable and superbly useful. AFAIC, sacrifice a little payload and put a jet engine on it, for flyback/approach/go-around or self-ferrying and the early flight tests. Looking at it, it's got nothing too far out, so maybe it's not too exciting, but the capabilities it would give us are unprecedented in anything else close to coming off the drawing boards, or anything we've got now.

Typical that it fell by the wayside, and all we've got now is a capsule, which seems to be another bastard hybrid of arbritary requirements, and they seem to be resisting the simple expedient of the Shuttle-C for HLV duty.

> Economical access to LEO is the basis for any sustained interplanetary program.

You said a mouthful there, brother! That's part of why I push for immediate development of the Shuttle-C, since there's absolutely nothing new about it, except a dumb, unmanned, non-reusable cargo shroud! Multiples of the Shuttles cargo, for a fraction of the cost per launch vehicle stack on the pad, and per launch -how can we lose? Sure, it's a step backwards to simplicity and expendables, instead of a new technology wonder or continuing to "Stay The Course" and flying the Shuttle we've got... But the capability is the point!

hmmm... I see there's no compilation of links and debate points for the Shuttle-C around here. My next project.

Of course, for "economical access to LEO" (without being dependent on radically new technologies), I really like the Sea Dragon. All kinds of good sense in that concept, but it's too unfamiliar, and the political graft machine is too set in its ways to accept it.

NASA while not going with the Shuttle-C concept literally are doing something similiar with the HLV that is derived from Shuttle and other off the shelf components.  That will provided much what is being called for here.  You would get reusability in the SRBs that way.  Could we also recover the liquid fueled first stage?

The idea of recovering the orbiting stage is iteresting but it would seem to require a large orbital space capability to implement.  Most upper stages wouldn't be that close to the space station and so we would need a special craft and astronaut team to set up the boosters for reentry. 

The issue is do we go for the Moon mission like has been proposed and abandon the Shuttle to pay for it or do we delay the Moon part of it and have a Shuttle plus CEV capability.  The CEV would be used for crew transfers between the ISS and ground. Also, it would constitue a rescue capability if  a shuttle would have that falling ice problem again (<1% chance per mission).  Return to the Moon would await a larger budget. (Which I'm all for but Congress most likely will not agree.) 

For the longer term what we need is the new technology.  The has been a major advance in fly space propulsion since the 1960s.  I've seen Buzz Aldrin's plan for Mars using existing propulsion.  My thought is that actually developing a nuclear electric power source and a VASIMR engine would be a lot better use of our money (and cheaper) that a direct push to Mars right now.  We could test and use the VASIMR on the ISS (based on solar power and subscale) and then develop a prototype of the nuclear electric power source plus VASIMR for unmanned outer planetary missions.  Then with the techology in had we could push for a full-scale version for manned Mars.

On LEO I still think an one stage space plane with scram-jets/rocket multimode engines is the way to go and worth the billions it would take to develop.  This would work well for mid-sized payloads like the shuttle.  We do need a HLV to put up the big stuff.  There has been a test flight of a hypersonic device that runs on jet fuel and achieved mach 5.5.  Perhaps some of the required technology could come from military programs.  I still think that LH2 will be the fuel for the Earth to orbit vehicle.

One key thing is to find more practical near term applications for operations on orbital platforms.  If there is money to be made in it that support for it will follow.