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Laboratory automation in clinical bacteriology: what system to choose?
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P26 How does the salford lung study in copd (sls copd) patient population fit into the gold 2017 classification grid?
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P269 Describing adherence data in a clinical effectiveness trial: the salford lung study in copd (sls copd)
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The Automated Lab: Challenges, Triumphs, Pitfalls, and Considerations
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Assessment of Nuclear Stain in Tissue Microarray With a New Automatic Imaging Analysis Method
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Reply
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Influencing information systems practice: The action principles approach applied to robotic process and cognitive automation
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139 Clinically Applicable and Biologically Validated MRI Radiomic Test Method Predicts Glioblastoma Genomic Landscape and Survival
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Transformation From a Conventional Clinical Microbiology Laboratory to Full Automation
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A Flexible Transmission System as a Benchmark for Robust Digital Control
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Robotic Automation of In Vivo Two-Photon Targeted Whole-Cell Patch-Clamp Electrophysiology
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S54 Automating the analysis of thoracic ct scans in cystic lung disease
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Robo-Apocalypse cancelled? Reframing the automation and future of work debate
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Impact of total laboratory automation on workflow and specimen processing time for culture of urine specimens
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European journal of clinical microbiology & infectious diseases, 2018-09-29, Vol.37 (12), p.2405-2411
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Impact of 24/7 loading of blood culture bottles in a new automated incubator on the diagnosis of bloodstream infections
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European journal of clinical microbiology & infectious diseases, 2021-06-01, Vol.40 (12), p.2639-2643
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Stereo-based real-time 6-DoF work tool tracking for robot programing by demonstration
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Retrospective Analysis of Reverse Syphilis Algorithm in Relation to Screen Cutoff Values
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Performances of automated digital imaging of Gram-stained slides with on-screen reading against manual microscopy
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The future of diagnostic bacteriology
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