Affiliation:
1. University of Virginia Health Sciences Center, Robotics Laboratory, Charlottesville 22908
Abstract
Abstract
Many clinical laboratory instruments are not designed for robotic compatibility, hence the need for standardization of data communications and analyzer interface hardware. We developed an interface with supporting software that simplifies communication between a microcomputer and clinical instruments. Our interface establishes a standardized bidirectional communications protocol, which is useful in many clinical laboratory robotic projects. Instruments targeted for interfacing require no prior on-board communications capabilities. Additionally, modifications to the clinical instrument are minimized. Once installed, the interface translates input commands to codes or actions recognizable by the analyzer. Features not normally available to the user, such as electrode real-time response and full instrument status, are also reported by the interface, thereby establishing a remote monitor and control mechanism for the interfaced instrument. We have written an operating system to control the interface microcomputer, which in turn commands and monitors the clinical analyzer. A host computer controls the information flow to the interface and provides (a) requests to the interface for instrument operation and status and (b) commands to the interface to initiate the desired instrument operation. This arrangement maintains complete instrument functionality as designed by the manufacturer while allowing remote monitoring and operation of the instrument.
Publisher
Oxford University Press (OUP)
Subject
Biochemistry, medical,Clinical Biochemistry
Cited by
4 articles.
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