Six Sigma Black Belt

Mastering The Six Sigma Methodology

ABOUT THE PROGRAM

Six Sigma is set of rules that are useful in improving processes and providing a better quality of products and services in a given time frame.It collects and augments data from various businesses and finally removes any defects that exist in it. Six Sigma professionals create better products by implementing the techniques, methods and tools of Six Sigma. in a particular sequence.

When Motorola came up with the concept of Six Sigma in the 1980's, its main aim was to improve the time-cycle and reduce production errors. As per the rules of Six Sigma, only 3.4 errors can be allowed in a million processes. The Six Sigma methodology aims at fulfilling customer requirements, satisfying the customers to improve the relations with them which helps in keeping the customers/clients loyal to the organisation in times of difficulty even.

  • Uproot defects from any business processes

  • Understand the 5 Phase concept of DMAIC

  • Work as Team Leaders and Team Members in Six Sigma teams

  • Get Certified from Global Training Provider

  • Learn the Six Sigma methodology from Certified and experienced trainers

WHAT'S INCLUDED ?

Find out what's included in the training programme.

Includes

Courseware

Courseware will also be provided to the delegates so that they can revise the course after the training.

Includes

Certificate

Delegates will get certification of completion at the end of the course.

Includes

Exam(s) included

Exams are provided, as part of the course. Obtaining certification is dependant on passing these exams

Includes

Pre Course Material

It provides some basic knowledge about the course before training.

Includes

Tutor Support

A dedicated tutor will be at your disposal throughout the training to guide you through any issues.

Includes

Key Learning Points

Clear and concise objectives to guide delegates through the course.

PREREQUISITES

In order to certify the delegates must hold a completed projected with Six Sigma and and also an experience using the Six Sigma technology for three years.

TARGET AUDIENCE

The following category of professionals are included in the course list who can get benefit from taking the course:

  • Companies and their managements for implementing Six Sigma.
  • Project Managers to complete projects of extreme importance.
  • Quality Assurance Engineers who discover and develop various methods of increasing quality.
  • Audit managers to manage reviews of various companies.
  • Security professionals to implement policies judicially.
  • Management students for learning the benefits of using various methodologies.
  • Team leaders for supervising the teams correctly.
    • Software Professionals to develop high-quality software after applying techniques to manage variability.

WHAT WILL YOU LEARN?

  • How to finish off the projects and handing them over to process owners
  • Implement the various concepts of Lean
  • Present these projects to different levels of professionals
  • Work at various levels of leadership
  • Measuring various problems to remove barriers and achieve project success
  • Know the advanced statistical analyses that exist to evaluate the the relationship among the key inputs and process outputs
  • Know how to manage team aspects successfully and at a faster pace

Enquire Program

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PROGRAM OVERVIEW

The Six Sigma methodology focuses on improvising the time-cycle process and making sure there are least defects in any business processes. According to Six Sigma in order to get success over qualitative meters, qualitative scopes must take a precedence. This results in the credibility of the employees going up. Six Sigma applies to all the industries and can be practised by almost all professionals who belong to different industries. It can be used by people who use statistics, financial analysis and project management to achieve better business purposes. According to Six Sigma, any process that does not fulfil customer satisfaction is termed as an error.

Six Sigma practitioners go on upgrading themselves as they progress from White Belt to Black Belt professionals. According to Six Sigma, all business processes can be gauged and streamlined.

 EXAMINATION

Type: Multiple Choice Questions

Questions: 100

Pass Percentile: 70%

Language of Exam: English


PROGRAM CONTENT

  • PHASE I - DEFINE
    • An Overview of Six Sigma
      • Six Sigma – An Understanding
      • History of Six Sigma
      • Y = f(x) Approach
      • Methodology of Six Sigma
      • Roles & Responsibilities
    • Fundamentals of Six Sigma
      • Defining Process
      • VOC & CTQ’s
      • QFD
      • Cost of Poor Quality
      • Pareto (80:20 rule)
    • Projects of Lean Six Sigma
      • Six Sigma Metrics
      • Business Case & Charter
      • Project Team Selection
      • Project Risk Management
      • Project Planning
    • Lean Fundamentals
      • Lean & Six Sigma
      • History of Lean
      • The Seven Deadly Muda
      • Five-S (5S)
    • Phase II-MEASURING
      • Process Definition
        • Cause & Effect Diagrams
        • Cause & Effects Matrix
        • Process Mapping
        • FMEA
        • Theory of Constraints
      • Six Sigma Statistics
        • Basic Statistics
        • Descriptive Statistics
        • Distributions & Normality
        • Graphical Analysis
      • MSA
        • Precision & Accuracy
        • Bias, Linearity & Stability
        • Gage R&R
        • Variable & Attribute MSA
      • Process Capability
        • Capability Analysis
        • Stability Concept
        • Attribute Capability
        • Discrete Capability
        • Monitoring Techniques
      • Phase III - ANALYZING
        • Variation Patterns
          • Multi-Variable Analysis
          • Classes of Distributions
        • Inferential Statistics
          • Understanding Inference
          • Sampling
          • Sample Size
          • Central Limit Theorem
        • Hypothesis Testing
          • Hypothesis Testing Goals
          • Statistical Significance
          • Risk; Alpha & Beta
          • Types of Hypothesis Test
        • Hyp-Tests: Normal Data
          • One and Two Sample t-tests
          • One Sample Variance
          • One Way ANOVA
        • Hyp-Tests: Non-Normal Data
          • Mann-Whitney & Mood’s Median
          • Kruskal-Wallis
          • Moods Median
          • Friedman
          • 1 Sample Sign
          • 1 Sample Wilcoxon
          • 1 and 2 Proportion
          • Chi-Squared
          • Test of Equal Variances
        • Phase IV - IMPROVING
          • Simple Linear Regression
            • Correlation
            • X-Y Diagram
            • Regression Equations
            • Residuals Analysis
          • Multiple Regression
            • Non-Linear Regression
            • Multiple Linear Regression
            • Confidence Intervals
            • Residuals Analysis
            • Box-Cox Transformation
            • Stepwise Regression
            • Logistic Regression
          • Designed Experiments
            • Experiment Objectives
            • Experimental Methods
            • DOE Considerations
          • Full Factorial Experiments
            • 2k Full Factorial Designs
            • Linear & Quadratic Models
            • Orthogonal Designs
            • Model & Center Points
          • Fractional Factorials
            • Designs
            • Confounding Effects
            • Experimental Resolution
          • Phase V - CONTROLLING
            • Lean Controls
              • Control Methods for 5
              • kanban
              • Poka-Yoke
            • SPC
              • Data Collection for SPC
              • I-MR Chart
              • Xbar-R Chart
              • U Chart
              • P Chart
              • NP Chart
              • X-S chart
              • CumSum Chart
              • EWMA Chart
              • Control Methods
              • Control Chart Anatomy
              • Variation & Sampling
              • Control Limits
            • Planning for Six Sigma Control
              • Cost-Benefit Analysis
              • Control Plan Elements
              • Response Plan

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ABOUT York

York is a walled city in the northeast England with a population of around 153,717 according to 2011 census. It lies at the concurrence of the Foss and Ouse rivers in North Yorkshire, non-metropolitan and Ceremonial County in England. The town is considered as the county town of the historic Yorkshire County. The town served a base for two major political events in England. The town became a famous tourist destination for millions of tourists for its unique and rich heritage, notable historical attractions and also offer a range of cultural and sporting activities. The Romans founded the city in 71 AD and became the largest town and a provincial capital in Britain. The town developed as a major trading centre of wool in the Medieval Period and. By the middle ages, it became the capital of the northern ecclesiastical of the Church of England, also termed as the international Anglican Communion’s mother church.

The economy of the town was primarily based on confectionery manufacturing centre and railway-related industries. The town became a centre of the railway network in the 19th century. The focus of the economy shifted to the service sector in recent decades. The major employers of the city are health services and the University of York, and the local economy of the city is largely dependent on the tourism sector. The ‘city of York’ term represented the unitary authority area and covered the rural areas beyond the boundaries of the old city.

History

The oldest inhabited settlement of the town recorded between 8000 and 7000 BC was Mesolithic. The site was occupied by the tribe of Romans, known as Brigantes during the Roman conquest of Britain and the tribal area became a Roman client state. The origin of the city established in 71 AD when the Ninth Legion built a wooden military fortress on flat ground at the concurrence of the River Ouse and Foss. The fortress was occupied by the 6000 legionary soldiers and spread on an area of 50 acres land. The population of the town reduced in the post-Roman era due to occasional flooding from the Foss and Ouse rivers. York became the chief city of King Edwin of Northumbria in the 7th century. The first wooden minster church was built, and restoration of the other parts of the town took place in 627.

The town experienced revolutionary phase after the two years of Norman Conquest of England. William the Conqueror, the first Norman King of England, stopped the rebellion and built a wooden fortress and timbered castle across the Ouse River. Later on, these were demolished in 1069 and remains are visible on the banks of the Ouse River. Due to its strategic location and its closeness to the Great North Road, the town became a significant trading and cloth manufacturing centre. The first charter was granted in 1212, provided trading rights in England and Europe. The economy of the city declined in the Tudor times and many monastic houses, hospitals and institutions were closed under the Dissolution of the Monasteries. The city became a service centre in this period.    

The railways arrived in the city in 1839, and it became a major railway centre by the end of 9th century. George Hudson, railway promoter was responsible for introducing the railway in the city. The engineering industry flourished with the arrival of railways in the city. The city is home to the North Eastern Railway and provided job to more than 5500 people. The two major industries emerged in 1900 are railways and confectionery. The National Railway Museum was built in the city in 1975 and brought prosperity to the city with the emergence of the tourism industry. The historic core of the city was marked as a conservation area in 1968.

Six Sigma and Its Techniques

Six Sigma is a set...