Encoding scheme embedded into an automation track surface
First Claim
1. An automation system configured for use with an automated clinical analyzer comprising:
- a track comprising at least a first and a second track segment, the first and second track segments comprising a first and second set of optically encoded marks, respectively; and
a plurality of independently movable carriers comprising a receptacle for accepting a sample fluid tube and at least one optical sensor configured to optically observe the first and second sets of optically encoded marks,wherein the first set of optically encoded marks comprises a first set of periodic marks having a first pitch defined by a repeating distance between the periodic marks in a direction of travel of the plurality of independently movable carriers, and the second set of optically encoded marks comprises a second set of periodic marks having a second, finer pitch that is finer than the first pitch in the direction of travel,wherein each of the plurality of independently movable carriers is further configured to adjust a velocity in response to observing each of the first and second pitches,wherein the first and second set of optically encoded marks each have a horizontal and vertical dimension, and each of the first and second set of optically encoded marks is larger in the horizontal dimension than the vertical, andwherein the at least one optical sensor is configured to observe the first and second set of optically encoded marks when the horizontal dimension of each of the first and second set of optically encoded marks is substantially perpendicular to the direction of travel of the plurality of independent carriers.
1 Assignment
0 Petitions
Accused Products
Abstract
An automation system for an in vitro diagnostics environment includes a plurality of intelligent carriers that include onboard processing and navigation capabilities. A central scheduler can communicate wirelessly with the carriers to direct the carriers to carry a fluid sample to testing stations along a track within the automation system. The carriers can utilize landmarks and distance encoding to reach destinations accurately and quickly, including, for example within less than the time for a single operation cycle of an automated clinical analyzer. The distance encoding can include optical marks repeated at regular intervals (pitch), where the intervals are conveyed to the carriers wirelessly or via optical encoding. The pitch of the encoding can differ for different sections of track depending on the position precision desired.
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Citations
22 Claims
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1. An automation system configured for use with an automated clinical analyzer comprising:
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a track comprising at least a first and a second track segment, the first and second track segments comprising a first and second set of optically encoded marks, respectively; and a plurality of independently movable carriers comprising a receptacle for accepting a sample fluid tube and at least one optical sensor configured to optically observe the first and second sets of optically encoded marks, wherein the first set of optically encoded marks comprises a first set of periodic marks having a first pitch defined by a repeating distance between the periodic marks in a direction of travel of the plurality of independently movable carriers, and the second set of optically encoded marks comprises a second set of periodic marks having a second, finer pitch that is finer than the first pitch in the direction of travel, wherein each of the plurality of independently movable carriers is further configured to adjust a velocity in response to observing each of the first and second pitches, wherein the first and second set of optically encoded marks each have a horizontal and vertical dimension, and each of the first and second set of optically encoded marks is larger in the horizontal dimension than the vertical, and wherein the at least one optical sensor is configured to observe the first and second set of optically encoded marks when the horizontal dimension of each of the first and second set of optically encoded marks is substantially perpendicular to the direction of travel of the plurality of independent carriers. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An automation system configured for use with an automated clinical analyzer comprising:
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a track comprising at least one track segment comprising at least a first set of optically encoded marks; and at least one movable carrier comprising a receptacle configured to accept and for transporting a fluid sample tube and at least one optical sensor configured to optically detect at least a first set of optically encoded marks and configured to navigate the track using at least the first set of optically encoded marks, including counting the number of optically encoded marks to determine the current location of the movable carrier within the track segment, wherein at least a subset of the first set of optically encoded marks are periodically spaced with a first pitch defined by a repeating distance between the periodically spaced marks, in a direction of travel of the at least one movable carrier, wherein the first set of optically encoded marks each have a horizontal and vertical dimension, and each of the first set of optically encoded marks is larger in the horizontal dimension than the vertical, and wherein the at least one optical sensor is configured to detect the first set of optically encoded marks when the horizontal dimension of each of the first set of optically encoded marks is substantially perpendicular to the direction of travel of the plurality of independent carriers. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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16. A carrier configured for use in an automation system in an IVD system, comprising:
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a body configured to interface with an automation track and comprising a receptacle for accepting a sample fluid tube; one or more optical sensors configured to sense optically encoded marks on the automation track; a processor configured to decode the optically encoded marks and determine at least one of a longitudinal position and velocity of the carrier within the automation system by at least one of counting the number of the optically encoded marks that the carrier has passed and observing a frequency of the optically encoded marks as the carrier moves, wherein the optically encoded marks comprise at least one set of periodic marks that have a regular pitch, defined by a repeating distance between the periodic marks, in a direction of travel of the carrier, wherein the optically encoded marks each have a horizontal and vertical dimension, and each of the optically encoded marks is larger in the horizontal dimension than the vertical, and wherein the one or more optical sensors is configured to sense each of the optically encoded marks when the horizontal dimension of each of the optically encoded marks is substantially perpendicular to the direction of travel of the plurality of independent carriers on the automation track. - View Dependent Claims (17, 18, 19, 20, 21, 22)
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Specification