Filter and FilterSet
====================
The filter model changed with the April 2010 release of the OME
Schema. This page provides a description of the new structures used. The
new structures are designed to work for Fluorescence Microscopy but are
flexible enough it can also work with filter configurations for most
other forms of microscopy.
Supported Objects
-----------------
The schema supports the following objects:
.. glossary::
Dichroic
The dichroic mirror or dichromatic beamsplitter. This is
used for the primary dichroic of the instrument. Other dichroics in
the excitation or emission path can be modeled with the Filter
object.
Filter
This object is used to represent any type of excitation
filter and emission/barrier filter. It contains details of the
transmittance of the filter. It can also be used to model a dichroic
mirror or dichromatic beamsplitter in the excitation or emission
path.
FilterSet
A FilterSet belongs to an Instrument in an OME-XML file
and has alongside it any Filters and Dichroics it refers to. It is
designed to represent a collection of filters available on a certain
instrument. It can also represent a filter cube or filter block. To
represent the set of filters used to collect an image, LightPath is a
better choice. FilterSet may contain zero or more excitation Filters,
one Dichroic, and zero or more emission Filters. No ordering of
Filters is implied. Filters and Dichroics can be reused across
multiple FilterSets. It will be normal to have a single Dichroic
that is usable with several Filter combinations.
FilterSetRef
These are used to attach a specific FilterSet from an
Instrument to a Channel within an Image. They allow the FilterSet to
be defined once in the instrument in an OME-XML file, and then used
multiple times within the images.
ManufacturerSpec
The Manufacturer spec is used by both Dichroic and
Filter to store the Manufacturer, Model, SerialNumber and LotNumber
of the optical element.
FilterWheel
This is a value within a Filter used to record which
holder the filter is located in. Although it is named after a wheel,
it could just as easily be a filter slider or other mechanism. These
holders allow any of their containing Filters to be automatically
selected by the microscope control software.
LightPath
The LightPath object is a child of Channel and is used to
represent the collection of Dichroic and Filters used to create the
Channel. FilterSet is on an Instrument granularity, LightPath on a
Channel of an Image.
Filters and Dichroics in the optical path
-----------------------------------------
.. _figure-light-path:
.. figure:: /images/FilterSet-Overview.png
:align: center
:alt: Sample instrument light path
Sample instrument light path
Key for figure :ref:`figure-light-path`
#. The source produces a beam of light.
#. A small range of wavelengths are passed through the filters in the
excitation path.
#. The light is selectively reflected by the dichroic mirror to
illuminate the sample.
#. The fluorphore in the sample absorbs the light from 3 and re-emits it
on a new wavelength. Some of this re-emitted light travels towards
the dichroic mirror.
#. The light on the new wavelength is selectively transmitted by the
dichroic mirror.
#. The wavelength of detected light is further narrowed and stray
reflections reduced by the filters in the emission path.
#. The light can be optionally split by a dichroic in the emission path
to go to two, or more, detectors. This dichroic is modelled as a
Filter of type "Dichroic".
#. The split light beam can travel directly from the dichroic to a
detector.
#. The beam may be further filtered before reaching a detector.
Filter data structure in OME-XML
--------------------------------
The Filter data elements are part of the central OME Schema. The
filters are part of the Instrument block. Each instrument can contain
zero or more filters, dichroics, and filter sets. Each filter set uses
unique IDs to refer to the filters and dichroic it contains. If there
are any additional filters used with the Channels within an image, then
those filters are also defined at the instrument level, and referenced
from the channel with a LightPath element using the unique ID. The
Filters and Dichroics are both extensions of the ManufacturerSpec
element so store this common data. A filter also contains one
TransmittanceRange element that describes its optical characteristics.
.. figure:: /images/instrument_filterset.png
:align: center
:alt: Where FilterSet sits in the OME Schema
Where FilterSet sits in the OME Schema
The FilterSet contains three kinds of references, one to a dichroic ID
called DichroicRef, and two sets to filter IDs called
ExcitationFilterRef and EmissionFilterRef. Each of the three kinds are
optional. There is no distinction between a filter designed for
emission or excitation at the Filter level. The distinction is made
within the FilterSet (or LightPath) by the assignment of the filter ID
reference to either a ExcitationFilterRef or EmissionFilterRef. Not all
the objects in a FilterSet need to be used at the same time, and there is
no ordering implied within the groups of references.
The Dichroic object simply contains its unique ID and the
values it gets from extending ManufacturerSpec. In ManufacturerSpec, each
object can have a SerialNumber and/or a LotNumber. The LotNumber is more
commonly used in Filters and Dichroics so the batch of manufacture is
recorded.
The Filter object has the values it gets by extending ManufacturerSpec
and a unique ID the same as the Dichroic. It also has a Type and
a FilterWheel value. In addition to these extra values, it contains one
TransmittanceRange object. The TransmittanceRange describes the optical
characteristic of the filter and has values for the CutIn and CutOut,
along with the CutInTolerance and CutOutTolerance, all expressed in
nanometers. There is also the Transmittance of the filter expressed as a
percentage fraction.
.. figure:: /images/image_lightpath.png
:align: center
:alt: Where LightPath sits in the OME Schema
Where LightPath sits in the OME Schema
The LightPath contains three kinds of references, one to a dichroic ID
called DichroicRef, and two sets to filter IDs called
ExcitationFilterRef and EmissionFilterRef. Each of the three kinds are
optional. There is no distinction between a filter designed for
emission or excitation at the filter level. The distinction is made
within the LightPath by the assignment of the filter ID reference to
either an ExcitationFilterRef or EmissionFilterRef. The key difference
between LightPath and FilterSet is that ALL the filters in a LightPath
have been used and their order is specified.
.. figure:: /images/filter_lightpath_details.png
:align: center
:alt: Attributes within the Filter objects
Attributes within the Filter objects
Sample pieces of .ome.xml files
-------------------------------
.. note:: The sample sections below are taken from
:omexml_downloads:`filter.ome.xml`
This first example shows the Instrument side - the Filter/Dichroic/FilterSet
structure of the resulting xml.
- It defines six Filters; five are standard filters, the sixth is a
dichroic used as a filter.
- It defines two Dichroics that can represent the primary Dichroic in
an instrument.
- FilterSet:1 contains Filter:1 and/or Filter:2 for excitation,
Dichroic:1 and Filter:3 and/or Filter:4 for emission.
::
This second example shows the Image side - the LightPath structure of the
resulting xml.
- Channel:1 defines a LightPath that uses Filter:1 for excitation,
Dichroic:1, then Filter:2 and Filter:6 for Emission in that order.
- Channel:2 defines a LightPath that uses Filter:1 for excitation,
Dichroic:1, then Filter:2, Filter:6 and Filter:5 for Emission in that
order.
- Channel:3 references FilterSet:1, from this we do not know which of
the filters in that FilterSet were used and in which order.
- Dichroic:2 though defined above is not used by this Image.
::
2008-06-19T00:39:00
Sample Image