System Performance Laboratory Optimization
Zusammenfassung
This project seeks to optimize the
efficiency of a medical device laboratory process
applying tools of the Lean Six Sigma methodology
and eliminating non-value activities to complete
transfer of a new product avoiding convert the
current process in a bottleneck. The main objective
is increasing the efficiency and throughput rate
from 1.7 to 2.2 lots per shift while focusing on
reducing the variability in the lots lead time. The
Lean Six Sigma strategy involves the use of
statistical tools within a structured methodology for
gaining the knowledge needed and achieve faster
and less expensive quality improvements. The
strategic goal is to continually improve processes
that have a real impact on business metrics to
become a world class company. In this case, the
throughput rate was increased from 1.7 to 2.9 lots
per shift due to increase technician’s efficiency by
29%, while reducing the number of resources and
the variability in the lots lead time from 1.26 to
0.81. The total project saving was $31,687 between
reducing headcount and scrap cost saving.
Key Terms ⎯ Bottleneck, DMAIC, Lean Six
Sigma, Quality Improvement, Statistical Variation.