On May 12, 2006, at 10:02 AM, Bushnell, Timothy wrote: > Thanks to everyone who suggested possible software to view data in > 3D. I’ll be trying several different platforms to see which works > best for our applications. > > The suggested platforms include (in alphabetical order): > > Coulters CXP software for the FC500 > > Rflowcyt > > Weasel: http://www.wehi.edu.au/cytometry/WEASELv2.html > > Winlist 3d from Verity House Software (www.vsh.com) > > Regards > > Tim Tim, With all due respect to these solutions, you shouldn't think that Mario could sleep at night if anyone could perform high dimensional analysis better than FlowJo. [Disclaimer: Yes, I live off FlowJo sales, and that's a blatantly commercial statement, but it gets technical from here on.] We've played with spatial 3D plots a lot, both our own prototypes and others, and they just don't do a very good job of discriminating populations. And its impossible to coherently describe the populations you can see. I like the slice-and-dice approach that you get by making a flipbook on X vs. Y in slices along the Z axis (it shows up as a Quicktime movie), but that too is very difficult to use in a way that's better than two 2D graphs connected by a gate. If you really want to increase your dimensionality, we're just adding a new "Polyvariate Plot" to the Mac version of FlowJo for next week's ISAC. The idea was taken from RFlowCyt. We've added interface refinements to make it more interactive, but like any good R tool, it'll astound and confuse you. http://www.flowjo.com/v8/html/polyvarplot.html The Polyvariate Plot can model transformations in any number of dimensions. So it will produce a 3D plot, or as many dimensions as you want (Shown below in 5D). And it projects these transformations onto a graph window, so you can gate on them. We're still trying to figure out the applications for this visualization, but if you're looking for another dimension as a way to differentiate populations, we think this is potentially much more powerful than conventional spatial projections. This is explained in the poster P178 at ISAC next week, or at the web page above. Be forewarned: This is the opposite end of the sizzle/steak spectrum. Most people use 3D graphs to make their PowerPoints look spiffy. These graphs are absolutely impossible to explain in a presentation. Adam ----------------------- A 3D plot:  A 5D plot: Received on Fri May 19 17:58:00 2006
This archive was generated by hypermail 2.1.8 : Wed May 24 2006 - 04:12:03 EDT
