Transmitting/reflecting emanating light with time variation
First Claim
1. A method of using a filter arrangement, the method comprising:
- while an object travels along a path past the filter arrangement and emanates light within an application'"'"'s range of photon energies, transmitting/reflecting at least some of the emanating light through the filter arrangement;
the act of transmitting/reflecting at least some of the emanating light through the filter arrangement including at least one of;
while the object is in each of a substantially continuous series of two or more segments of the path, transmitting/reflecting respective portions of the emanating light through respective positions of a filter assembly within the filter arrangement;
each of the respective positions having a respective transmission function within the range;
two of the positions that are adjacent having respective transmission functions sufficiently different from each other that the difference causes time variation in the emanating light between the respective segments; and
while the object is in each of a series of segments of the path, transmitting/reflecting a respective portion of the emanating light through a filter component within the filter arrangement;
within the range, the filter component having a combined transmission function in which a set of two or more simpler transmission functions is superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the emanating light in accordance with superposition of the first and second simpler non-uniform transmission functions.
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Accused Products
Abstract
A filter arrangement can transmit and/or reflect light emanating from a moving object so that the emanating light has time variation, and the time variation can include information about the object, such as its type. For example, emanating light from segments of a path can be transmitted/reflected through positions of a filter assembly, and the transmission functions of the positions can be sufficiently different that time variation occurs in the emanating light between segments. Or emanating light from a segment can be transmitted/reflected through a filter component in which simpler transmission functions are superimposed, so that time variation occurs in the emanating light in accordance with superposition of two simpler non-uniform transmission functions. Many filter arrangements could be used, e.g. the filter component could include the filter assembly, which can have one of the simpler non-uniform transmission functions. Time-varying waveforms from sensing results can be compared to obtain spectral differences.
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Citations
24 Claims
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1. A method of using a filter arrangement, the method comprising:
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while an object travels along a path past the filter arrangement and emanates light within an application'"'"'s range of photon energies, transmitting/reflecting at least some of the emanating light through the filter arrangement; the act of transmitting/reflecting at least some of the emanating light through the filter arrangement including at least one of; while the object is in each of a substantially continuous series of two or more segments of the path, transmitting/reflecting respective portions of the emanating light through respective positions of a filter assembly within the filter arrangement;
each of the respective positions having a respective transmission function within the range;
two of the positions that are adjacent having respective transmission functions sufficiently different from each other that the difference causes time variation in the emanating light between the respective segments; andwhile the object is in each of a series of segments of the path, transmitting/reflecting a respective portion of the emanating light through a filter component within the filter arrangement;
within the range, the filter component having a combined transmission function in which a set of two or more simpler transmission functions is superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the emanating light in accordance with superposition of the first and second simpler non-uniform transmission functions. - View Dependent Claims (2, 3, 4)
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5. Apparatus comprising:
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a fluidic structure that includes a channel through which objects can travel along respective paths during operation of the apparatus; and an encoding component;
the encoding component including a filter arrangement that can receive light emanating from objects in the channel;
in response to input light that is within an application'"'"'s range of photon energies and that is emanating from an object traveling through the channel past the filter arrangement, the filter arrangement providing output light;
the filter arrangement including at least one of;a filter assembly that includes a set of positions, each having a respective transmission function within the range;
a substantially continuous series of segments of an object'"'"'s path including at least two segments from which respective positions in the set receive light emanating from the object, two of the respective positions that are adjacent having respective transmission functions sufficiently different from each other that the difference causes time variation in the output light while the object travels through the respective segments; anda filter component that receives input light from a segment of an object'"'"'s path and that, within the range, has a combined transmission function in which a set of two or more simpler transmission functions is superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the output light in accordance with superposition of the first and second simpler non-uniform transmission functions while the object travels through the segment. - View Dependent Claims (6)
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7. A method comprising:
while objects travel along respective paths past a filter arrangement, transmitting/reflecting light emanating from the objects through the filter arrangement, the emanating light including photon energies within a range of photon energies;
the act of transmitting/reflecting light through the filter arrangement including;while an object travels through a segment of its respective path, transmitting/reflecting at least some of the object'"'"'s emanating light through a longitudinal sequence of two or more filter elements within the filter arrangement;
the longitudinal sequence including a first subset of one or more filter elements each having approximately a first transmission function within the range of photon energies and a second subset of one or more filter elements each having approximately a second transmission function within the range of photon energies, the first and second transmission functions being sufficiently spectrally different from each other that time variation occurs in the emanating light while the object travels through the segment.- View Dependent Claims (8, 9)
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10. A method comprising:
while objects travel along respective paths past a filter arrangement, transmitting/reflecting light emanating from the objects through the filter arrangement, the emanating light including photon energies within a range of photon energies;
the act of transmitting/reflecting light through the filter arrangement including;while an object travels through a segment of its path, transmitting/reflecting at least some of the object'"'"'s emanating light through a filter component within the filter arrangement;
the filter component having a combined transmission function in which a set of two or more simpler transmission functions is superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the object'"'"'s emanating light in accordance with superposition of the first and second simpler non-uniform transmission functions while the object travels through the segment.- View Dependent Claims (11, 12, 13, 14)
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15. A method of using a photosensor, the method comprising:
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while a light-emanating object travels along a path past the photosensor, photosensing the object'"'"'s emanating light to obtain sensing results; and using the sensing results to obtain information about the object; the emanating tight having time variation indicating spectral information about the object'"'"'s emission spectrum;
the sensing results indicating one or more sensed time-varying waveforms;
the act of using the sensing results comprising;performing a comparing operation on a set of time-varying waveforms to obtain comparison results, at least one of the set being a sensed time-varying waveform; and using the comparison results to obtain data indicating the spectral information about the object; the act of using the comparison results including at least one of; performing an operation that obtains a time derivative of a waveform indicating comparison results; performing an operation that obtains a derivative waveform with a positive peak followed by a negative peak; performing an operation that obtains a derivative waveform with a negative peak followed by a positive peak; performing an operation that obtains an amplitude of a peak in a waveform indicating comparison results; performing an operation that obtains an amplitude between positive and negative peaks in a derivative waveform; and obtaining data indicating spectral difference.
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16. A method of using filter arrangements, the method comprising:
while an object travels along a path past a filter arrangement and emanates light within an application'"'"'s range of photon energies, transmitting/reflecting at least some of the emanating light through the filter arrangement;
the act of transmitting/reflecting at least some of the emanating light through the filter arrangement including at least one of;while the object travels through a segment of the path, transmitting/reflecting respective portions of the emanating light through a longitudinal sequence of two or more filter elements within the filter arrangement;
the longitudinal sequence including a first subset of one or more filter elements each having approximately a first transmission function within the range of photon energies and a second subset of one or more filter elements each having approximately a second transmission function within the range of photon energies, the first and second transmission functions being sufficiently different from each other that time variation occurs in the emanating light in accordance with the longitudinal sequence; andwhile the object is in each of a series of segments of the path, transmitting/reflecting a respective portion of the emanating light through a filter component within the filter arrangement;
within the range, the filter component having a combined transmission function in which a set of two or more simpler transmission functions are superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the emanating light in accordance with superposition of the first and second simpler non-uniform transmission functions.- View Dependent Claims (17, 18)
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19. Apparatus comprising:
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a fluidic structure that includes a channel through which objects can travel along respective paths during operation of the apparatus; and an encoding component;
the encoding component including a filter arrangement that can receive light emanating from objects in the channel;
in response to input light that is within an application'"'"'s range of photon energies and that is emanating from an object traveling through the channel past the filter arrangement, the filter arrangement providing output light;
the filter arrangement including at least one of;a longitudinal sequence of two or more filter elements;
the longitudinal sequence including a first subset of one or more filter elements each having approximately a first transmission function within the range of photon energies and a second subset of one or more filter elements each having approximately a second transmission function within the range of photon energies, the first and second transmission functions being sufficiently different from each other that time variation occurs in the output light in accordance with the longitudinal sequence; anda filter component that receives input light from a segment of an object'"'"'s path and that, within the range, has a combined transmission function in which a set of two or more simpler transmission functions is superimposed;
the set including first and second simpler non-uniform transmission functions, the set being superimposed such that time variation occurs in the output light in accordance with superposition of the first and second simpler non-uniform transmission functions while the object travels through the segment. - View Dependent Claims (20, 21, 22, 23, 24)
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Specification