Dear Brian, Thank you very much for your very important e-mail. I was not aware that HV stars were not included in the GCVS, as I suppose Pojmanski would have identified them. I wonder what could be done in future in order to streamline the whole process of discovery, cross identification, verification, archiving etc. There are going to be more projects like ROTSE and ASAS aimed at mass discovery of variables, or just monitoring the sky. I keep discovering new individuals or groups who have such (or related) goals. I have close knowledge of only two projects: OGLE and ASAS, but I guess things may be similar with the others. OGLE is a small team (6 or 7 people), ASAS is just a single person. There is no way they can do everything. I think it is reasonable to have a division of labor, which works so well in the non-astronomical world. Note that the number of recognized variables is likely to exceed 10^5 by the end of this year, and 10^6 in 2-3 years. At least half of these will be found with instruments with a short focal length. It will not be practical to inspect every single star by hand. I think it would be useful to develop some system to deal with all this. The following is my personal, rather amateur suggestion. I just do not know what is already available. I supose the search projects should make public domain the data. It is not practical to put on line all the CCD pixel data, but it would be useful to present either a best image of each field, or better yet a composite image made by co-adding a number of exposures to get high S/N. This is being now done by the OGLE, to be made public domain later this year. The positions and magnitudes for all non variable stars in one of the standard bands are useful too, as obtained with whatever photometric package used by the project. This has been done by the ASAS. Finally, the time series of photometric measurements of all variable objects found. This has also been done by the ASAS. There will always be some spurious variables and some real variables will be missed. However, as the monitoring projects expand and continue their data acquisition activity, and once there is redundancy between separate projects it will be much easier to verify variability. I suppose it would be best if the cross identification was done by somebody unrelated to a particular search project. As your e-mail indicates you have done a better job at cross identification than Pojmanski did. Yet, what Pojmanski did in this respect was time consuming for him, and cut into his time in developing new instruments. I think that in an ideal world it would be the best to have different people specialize in different tasks, as this is so much more efficient than trying to do everything by oneself. I wonder if there is a single truly general catalog of variable object: stars, AGNs, etc. Object identified mostly by their position and possibly their magnitude. There will always be some confusion. While imaging Baade's Window with a good ground based seeing below 1" the limit of the DC photometry is set not by the photon statistics but crowding. Using image subtraction to detect AC signal the variable stars can be found e.g. (microlensed stars) for which it is not clear at all what is the DC source. With the detection rate of microlensing events likely to go into hundreds per year soon it is not realistic to follow up all of them with the HST. And there will be 10^5 - 10^6 variable stars of zillions of types discovered soon in the crowded reagions of the Milky Way. So, untill we get all sky covered with better than HST resolution there will be a problem of zillions of variables identified and even classified, but without clear evidence what their DC brightness might be, as the images will be strongly blended at the resolution limited by the atmospheric seeing. In any case I wonder: is there a truly general catalog of variable stars which includes all variables that are known, with some flag indicating the reliability of the particular object? And is there a place where one could find all reported photometric measurements to any of these stars? My guess is that such a thing does not exist, though it may be available in some scattered form. Or I may be simply ignorant about the current ststus of archiving variable objects data. I would be nice to have an easy way to find out what is already avaliable, and what has to be done. At this time I am trying to help (at least to some extent) projects like ASAS and OGLE, and I would like to streamline their process of discovering variable objects and making results public domain. It is obvious that there is a need to classify all those variables, to properly archive the results, to make the access user friendly. I would be more than happy to help those who would like to get all those steps done well. There is plenty of discussion about various virtual observatories, i.e. various data archives. I think a complete, user friendly archive of photometric data for variable objects would be a wonderful example of a virtual observatory. Bohdan