Lean Systems and Six-Sigma Quality
5 Step Six Sigma Plan
1) Define-quality problem of process 2) Measure-current performance 3) Analyze-identify root cause 4) Improve-eliminate root cause 5) Control-ensure improvements
Six Tenants of Lean
1) Elimination of waste ("non-value adding actv.) 2) A broad view (overall goals, overall SC) 3) Simplicity 4) Continuous improvement 5) Visibility (problems need to be visible; no clutter) 6) Flexibility (quick adapt, rapid change in product volumes, wide variety of products, general purpose equip.)
Developing Lean Six Sigma SC
1) Jointly Define Values 2) Conduct SC Capability Analysis 3) Develop key financial and operational metrics 4) Identify and implement system improvements (value stream mapping)
Three Elements of Lean
1) Lean Production 2) Total quality management (TQM) 3) Respect for people
Costs of Quality
1) Prevention cost (cost to prevent) [Control cost] 2) Appraisal cost (cost in uncovering defects) [Control cost] 3) Internal failure cost (cost of defects b4 customer) [Failure cost] 4) External failure cost (cost of failure at customer) [Failure cost]
The Pull Production System
1) keeps minimal levels of inventory (inv. is cost and creates visibility problems) 2) Use of visual signals (communication btwn work centers and SC partners) 3) Small lot production (produce small amounts; must reduce set-up times) 4) Uniform plant loading (small adjustments, frozen production plan)
Respect of People
People = most important resource
Role of Workers
actively engaged in production process, monitoring quality and correcting quality problems
Jidoka
authority of every worker to stop production and fix problems
P-Chart
control chart for attributes, characteristics are counted
Role of Management
create cultural change, cooperation, mutual trust, and empower workers
Descriptive statistics
described quality characteristics; mean, standard deve, range, measure of dist. data
Quality Management
determines and implements quality policy (organization wide quality focus)
Lean Production
efficiently coordinated system makes producing exact product desire and deliver them in the right quantities to where they're needed (Just-in-time)[ JIT ]...known as pull production system
Process capability
evaluation of a process as to its ability to meet certain quality standards (i.e. meeting product specifications)
Product Quality
fitness for consumption in meeting customer needs and desires
Lean Six Sigma
focus on quality and use of Six Sigma
Process control chart
graph shows whether sample of data falls within the common or normal range of variation
Quality Circles
groups of employees that come together to solve problems
Total Quality Management (TQM)
identifies customer quality standards and serves to eliminate waste such as defects, scrap, and rework. Aims to improve quality at every level and beg. to end w/ continuous improvement
Results of Lean Philosophy
large cost reductions, improved quality, increased customer service
Role of Suppliers
long term relationships, shift to single source suppliers, information sharing, improve process quality
Impact of Lean Six Sigma: Suppliers
lower costs, lower safety stock, shorter lead times, better able to respond to customer change in demand
Lean
management approach for creating value for the end customer through most efficient utilization of resources. Eliminating waste
Design Quality
match between design features and customer requirements
Conformance Quality
meeting design specifications
Kaizen and Kaizen Blitz
never ending improvement; teams to plan and deliver improvements in 2-3 day marathon sessions
Impact of Lean Six Sigma: Logistics
optimization models, warehouse design, optimized movement of materials
Quality Assurance
planned systematic activities needed to provide assurance that a product/service will satisfy requirements for quality
Six Sigma
quality management process that uses rigorous measurement to reduce process VARIATION and elimination defects. Defines quality as no more than 3.4 parts per million defective
Acceptance sampling
randomly sampling a batch of goods to see if entire batch is acceptable
Impact of Lean Six Sigma: Operations
setting uniform workflow to pull production, changes in facility layout, calculation of cycle time
Statistical Quality Control (SQC)
use of statistical tools used to measure product and process quality
Statistical process control (SPC)
verify production process is function as specified, sampling + seeing if products fall w/in acceptable range
