Envelopment per se is or should be the holy grail of high-end audio as well. But in the case of high-end audio, IMO it has little / nothing directly to do with the room.
I think it has a lot to do with room
interaction, because it has to do with the
arrival times of reflections.
Understood that the topic is omni-directional speakers but more specifically I think the topic is how a room should be treated "differently" for omni-direction speakers. That said, I'm unsure how direct-radiating speakers differ from your omni-directional and dipole speaker comments here. And if the room really makes little / no never mind, aside from speaker placement, not sure why the OP or anybody else might emphasize the potential need for differences of room setup / treatment, etc.
In the context of "envelopment", imo room size and speaker positioning are primary considerations with omni and dipole speakers.
But if the topic is omnidirectional speakers (and di-pole speakers) and room differences, why not toss in multi-channel configs and room differences as well? After all, are they not all attempting to create that "envelopment" sound each in their own way as well as succeeding or more likely failing in much the same way?
Yes, but I was trying not to take the thread way off topic.
I mention "more likely failing because IMO that is clearly more accurate. Going back to your earlier claiims of a performance's ambient info already embedded in the recording and if that same info read and processed remains audible at a direct-radiating speaker, then the room has already disappeared inclduing most any room acoustic anomalies become so overshadowed the room is gone. Hence, the only potential we hear is the "envelopment" of the recording hall. And if that is possible with direct-radiating speakers, then is there still a need for room corrections, omni-directional / dipole speakers, or multi-channel configs?
If the ear/brain system is simultaneously presented with two approximately equal-strength sets of acoustic signatures, one for a small room (the playback room) and one for a large room (the recording venue, whether real or not), it defaults towards accepting the signature of the smaller room. So imo it makes sense to minimize the playback room's cues while effectively presenting the recording venue's cues.
I can't begin to see your system in those clips you posted so I have no idea what your speakers or room look like, but I bet your setup inherently has relatively weak early reflections while preserving the later-arrival reflections, even if that was not deliberate on your part.
I suspect for those lacking the ability to keep volumes of ambient info embedded in a recording audible at the speaker fail to consider the cause which is always a much raised noise floor. Every playback system has a much raised noise floor to one good degree or another and in such cases, the first music info to become inaudible at the speaker is the lowest of the low level detail which is the volumes of ambient info. IMO, the real problem lies with those seeking to address the effects of little / no ambient info in the playback presentation, rather than seek to address the cause of little / no ambient info which is always a much raised noise induced by all distortions (inaudible and audible) accumulated.
Agreed, signal-to-noise ratio definitely matters... and in the context of in-room reflections, the playback room's cues are the
noise, and the recording venue cues (which are delivered largely by those in-room reflections) are the
signal. It probably seems counter-intuitive that we can enhance the one and not the other, but we can, by taking advantage of psychoacoustic windows of opportunity.
Hence, I really view omni-directional, dipole, and multi-channel solutions as more of a band-aid dealing with the effects rather than the cause and in so doing introduce a phenomena of a sound attempting to assimulate the inuadible ambient info suppressed by a much raised noise floor. Perhaps this phenomena of sound is more titillating than a playback presentation with little / no real ambient info but why bother with a phenomena of sound when we can invoke much greater pleasure listening to volumes of actual ambient info embedded in a given recording? IOW, if we're only going to deal with effects rather than causes, doesn't it all just boil down to a pick your poison scenario? I guess that's my point.
What an omni or dipole or other polydirectional or multichannel system theoretically does well is, effectively present the venue ambience cues which are on the recording. These cues should be spectrally correct, should come from all around, should be strong but not too strong, should not arrive too early, and should decay slowly but not too slowly.
The reason we need the in-room reflections is that the WORST POSSIBLE direction for ambience cues to arrive from is the EXACT SAME direction as the direct sound. So we need something besides the direct sound delivering those ambience cues to us.
In my opinion these approaches (omnis, dipoles, bipoles, etc.) are not "band-aids"; rather, they are viable alternatives which may do a very good job of conveying envelopment if set up correctly.
I design speakers with an unorthodox feature intended to improve their ability to convey envelopment, so my familiarity with the topic has a practical rather than strictly theoretical background.
However, room corners are very rarely utilized and if the corner traps are built to be invisible, blended with the wall, not many wives would have problems. There are creative solutions for nearly every room.
