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Introduction
This
page describes the projection system installed in the HUP 5/6 magnets
in the basements of Founders and Rhoads respectively. The system
is evolving, and we will try to keep this page up to date
with description of its current state.
Equipment
Power Up Sequence
Power Down Sequence
Video Input
Screen Placement
Spatial Dimensions
Spectral Calibration
Replacing the Bulb
Known Problems/Issues
Equipment
Both
HUP 5/6 have projection systems installed. The basic system for each
magnet is the same.
- Sanyo SXGA 4200 lumens projectors with Sanyo Long Throw zoom lens.
FiberLynx
optical-fiber VGA connection into magnet room.
Custom
RF shield box.
Mylar
rear projection screen at back of bore.
Image
projects to screen off of 45 degree mirror on back wall of magnet
room.
Image
is viewed through mirror mounted on head coil.
Before
aligning the projectors, we reset all projector parameters to factory
default. We then put them into rear projection mode.
- There
is an energy saver feature on the projectors that darkens the screen
if the video input doesn't change for a while. This is currently
turned on, but it is possible we want to turn it off.
Power
Up Sequence
- Turn
on master power switch for system. This is located on the vertically
shielded box near the floor.
Slide
open door on top of projector box.
If
you lean over and look back into the hole, you will see that the
projector light is yellow and not flashing.
Push
the power button on the projector.
The
projector light should now flash green.
- When
the light goes to steady green, the system is ready for action.
Power Down Sequence
- Slide
open door on top of projector box.
If
you lean over and look back into the hole, you will see that the
projector light is green and not flashing.
Push
the power button on the projector and hold it for a few seconds.
The
projector light should now flash yellow.
When
the light goes to steady yellow, the system is ready to power down.
This takes about a minute.
- Turn
off master power switch for system.
Video
Input
- Your
computer hooks to the control room end of the FiberLync fiber box.
It takes VGA input.
Ideally,
the projector should be driven at its native spatial and temporal
resolution: 1024 by 768 pixels, 60 Hz refresh. Driving with these
parameters is likely to minimize the image processing applied by
the projector electronics to your stimulus.
- I
have had trouble driving it at 60 Hz -- the image comes out shifted
and incomplete. Therefore I have been driving at 75 Hz refresh.
Visually this looks fine.
Screen
Placement
- The
screens are mounted on stands. At the back of each bore, blue tape
on the floor indicates the position of the stand for which we focused
the projectors. The stand should be oriented so that the screen
is on the bore side of the stand.
- The
projectors were aligned and focussed on the screens, you shouldn't
need to adjust the focus or alignment.
Spatial Dimensions
HUP
5
- The
image is considerably smaller than the bore because of where we
have to put the head coil mirror to see it.
The
image measures 32.9 cm (w) by 29.6 cm (h).
With
the current mirror (mounted above head coil), the distance from
eye to screen is about 101.5 cm.
- At
this distance the image subtends a visual angle of 21.85 (w) by
16.6 (h).
HUP
6
- The
image is viewed from a mirror inside the head coil, which seems
better than the HUP 5 setup.
The
image measures 50.4 cm (w) by 38 cm (h).
With
the current mirror (mounted inside the head coil), the distance
from eye to screen is about 124.25 cm.
- At
this distance the image subtends a visual angle of 22.9 (w) by
17.4 (h).
Spectral Calibration
HUP
6
- We've
made spectral measurements of the red, green, and blue LCD channels
of the projector, as well as of the projector's "gamma" function.
These are tabulated in an Excel spreadsheet, HUP6Cal.xls.
Spectral
calibration of display devices is discussed in a recent chapter
by Brainard, Pelli, and Robson (PDF). This
chapter may be of interest for those who want to use the data in
the spreadsheet.
- We
have not yet made a detailed study of the appropriate model for
characterizing the projectors. More to follow.
Replacing the Bulb
- Sooner
or later the bulb is going to give out in one or the other of the
projectors. Probably at the most inopportune possible moment.
We
have a spare bulb, but replacing it involves removing the projector
from the magnet room, something that needs to be done very carefully
to avoid having it sucked into the bore. Don't try this yourself!
- Ask one of the MRI techs to contact
Mark Elliott, PhD at MMRRCC or John Pluta at the CfN. Both have access to the replacement bulb as well as the expertise to replace
it. Call Margaret Ryan at 215-614-0630 if you need immediate assistance.
Known
Problems/Issues
There
are a number of problems and issues with the projections systems.
These are to be expected with any new system, and as a group we need
to work through them towards better solutions. Ideas and volunteers
welcome. The following is a list of currently known issues and some
thoughts about them.
- HUP
5, head coil mirror vibrates during scans.
HUP
5, it's hard to see full image.
- If you
get the mirror in just the right place, you can see the full image.
It is a bit tricky to wiggle it around to where you want it. Getting
the mirror inside the head coil may help, see above
- If anyone
can look into what solutions were found at other Siemens sites (MGH?,
Princeton?) that might also give us some ideas.
HUP
5/6, image ghosting
- The
head coil mirrors are not front-surface. We should try to get front
surface mirrors to reduce ghosting.
HUP
5/6, spots visible in image
- With
certain backgrounds, ugly spots are visible across the image. The
origin of these spots is not yet clear. On April 18, we tried lining
the RF pipe with black velveteen but this had little effect. The
spots are visible when you project directly rather than across the
mirror on the back wall, so it's not the mirror. These spots may
result from light scattering around inside the RF box and out to
the screen, they may result from something funky about the Buhl lens,
they may result from back reflections off the UV filter, or they
may be intrinsic to the projector. We will continue to try to track
this down.
HUP
5/6, rf noise?
- So far
we've heard no reports of RF noise since we put the covers back on
the projectors, but keep an eye out for it. We should be able to
run some good tests with a phantom.
HUP
5/6, possible to get larger FOV?
- It would
be nice (for me at least) to have a larger angular field of view
(FOV). At some point we can explore mounting the screen in the bore,
closer to the subject. If the head coil mirror can be arranged to
let us see the whole thing in this case, it should increase the FOV.
- HUP
5/6, projector imaging properties?
- LCD
projectors are an evolving technology and each projector has some
idiosyncratic properties. It is likely, for example, that the image
is delayed a frame or two (~16=32 msecs) from when the video was
sent out from the computer. It would be good to characterize these
aspects of our projectors carefully.
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