A Quick Glance

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    Management skills that helps in getting high performance

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    Be the valuable Yellow Belt

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    Risk assessment skills that helps identify risks

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    Yellow Belt principles and methodologies

Performance is the powerful strength of an organisation. There is a wasteful use of resources during the implementation of the project. There is a need of a management approach that eliminates waste from project environment. Six Sigma is a management approach used for reducing waste by eliminating process variations. To improve your organisation’s performance, gain Six Sigma skills.

Our Six Sigma Yellow Belt course is inspired from successful Six Sigma business environments. It provides a basic understanding of Six Sigma concepts. You can start by gaining the following skills that the successful business environment has:

  • It implements Six Sigma principles: The success of the business relies on the implementation of these principles during project execution. You should gain deep knowledge on them.
  • It eliminates eight kind of Waste: Six Sigma is the management approach that removes waste from project environment.

Who should take this course

This training is designed for the following candidates:

  • Project Managers
  • Those willing to remove waste from their project environment
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Prerequisites

Six Sigma Yellow Belt course has no prerequisites.

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What Will You Learn

The purpose of this course is to acquaint you:

  • With Six Sigma Concepts
  • To identify risks in project environment
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What's included

  Course Overview

Six Sigma is a data-driven method for eliminating defects from manufacturing to transactional processes. This Six Sigma Yellow Belt course is designed to provide knowledge about DMAIC. It is Define, Measure, Analyse, Improve, and Control. You will get knowledge about project planning and management of risks in project environments.

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  Course Content

An Introduction to Six Sigma

  • What is Six Sigma as a Management philosophy?
  • Six Sigma Steps, Rules, and its Metrics
  • Define Effective teamwork
  • Related Case Study

Define Phase

  • What are Problem Statements?
  • Define Voice of the Customer (VOC)
  • Define Kano
  • Identify Critical to Quality

Measure Phase

  • What are measurement challenges?
  • What is the baseline of Process Performance?
  • Define Process Mapping and Value Stream Mapping

Analyse Phase

  • What is Exploratory Data Analysis?
  • Define Value Analysis
  • What are various types of waste?
  • The 5 Why’s of Root Cause Analysis and the Ishikawa diagrams

Improve Phase

  • Evaluating Improvement Solutions
  • Define Ease & Effect Matrix
  • An Overview of Risk Management

Control Phase

  • Improvement Maintenance
  • Measuring Ongoing process
  • An Overview of Statistical Process Control (SPC)

Conclusions

  • What is an example of Yellow Belt improvement?
  • Case Study (Financial Services)
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Six Sigma

What is Six Sigma?

Six Sigma means a degree of quality that tries for near excellence. Six Sigma is a disciplined, data-driven tactic and practice for removing defects in any process – from manufacturing to transactional and from product to service.

The term Six Sigma created from terminology connected with arithmetical demonstrating of manufacturing processes. The maturity of a manufacturing process can be defined by a sigma rating specifying its harvest or the fraction of defect-free products it generates. A six sigma procedure includes 99.99966% of all likelihoods to yield some piece of a part are statistically likely to be free of flaws. Motorola set a goal of six sigma for all of its industrial processes, and this goal suited a by-word for the management and engineering performs used to attain it.

Methodologies:

DMAIC:

The DMAIC project procedure has five phases:

  • Define the system, the voice of the customer and their supplies, and the project goals, exactly.
  • Measure key features of the current process and gather pertinent data then compute the Process Competence.
  • Examine the data to examine and confirm cause-and-effect relationships. Regulate what the relationships are, and try to guarantee that all factors have been measured. Pursue out root reason of the defect under examination.
  • Improve or enhance the current process created upon data analysis using methods such as the design of trials, poka yoke or mistake proofing, and normal work to make a new, future state process. Set up pilot runs to finding process competence.
  • Control the future state process to confirm that any nonconformities from the target are modified before they result in flaws. Implement control systems such as arithmetical process control, manufacture boards, visual workplaces, and unceasingly monitor the process. This process is recurrent until the wanted quality level is gotten.

DMADV:

  • Define design aims that are steady with customer stresses and the enterprise plan.
  • Measure and classify CTQs, measure product competencies, production processability, and measure risks.
  • Examine to develop and design substitutes
  • Design a better substitute, best right per examination in the previous step
  • Confirm the design, set up pilot runs, appliance the production process and hand it over to the process owner.

Implementation Roles:

Six Sigma classifies some key roles for its successful implementation.

  • Executive Leadership contains the CEO and other members of top management. They are accountable for setting up a vision for Six Sigma operation. They also authorise the other role containers with the freedom and resources to travel new ideas for advanced developments by exceeding departmental fences and overwhelming inherent confrontation to change.
  • Winners take accountability for Six Sigma operation across the organisation in a combined manner. The Executive Leadership lures them from the upper organisation.
  • Master Black Belts act as in-house trainers on Six Sigma. They offer 100% of their time to Six Sigma. They help Champions and guide Black Belts and Green Belts. Separately from arithmetical errands, they devote their time on confirming the reliable application of Six Sigma across various functions and sections.
  • Black Belts work under Master Black Belts to smear Six Sigma practice to precise projects. They offer 100% of their valued time to Six Sigma. They primarily emphasis on Six Sigma project execution and special leadership with special errands, whereas Champions and Master Black Belts focus on classifying projects/functions for Six Sigma.
  • Green Belts are the employees who take up Six Sigma execution along with their other job tasks, working under the direction of Black Belts.


Six Sigma Yellow Belt Enquiry

 

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Reach us at +44 1344 961530 or info@pentagonit.co.uk for more information.

About Stoke-on-Trent

Stoke-on-Trent is a city in Staffordshire, England. It ranges from 36 square miles. Stoke is polycentric, having been molded by an association of six towns in the early 20th period. It reached its name from Stoke-upon-Trent, where the railway station and the town hall are situated. The four other payments are Burslem, Tunstall, Longton and Fenton.

Geography:

Stoke-on-Trent is situated about half-way between Birmingham and Manchester. It links the town and area of Newcastle-under-Lyme. The city located on the higher hill of the River Trent at the south-west foothills of the Pennines, ranging from 106 to 213 meters (350 to 700 ft.) above sea level. The city is measured to be the southernmost end of the Pennines, restricted by the plains of the Midlands to the south, counting the Cheshire Plain deceitful west of Newcastle. The Peak District National Park lies straight to the east and comprises part of the Staffordshire Moorlands District, as well as parts of Derbyshire, Greater Manchester and West and South Yorkshire.

Climate:

Stoke-on-Trent, as with all of the United Kingdom, practices a temperate nautical weather, missing in weather limits. The local area is comparatively raised due to its nearness to the Pennines, subsequent in cooler temperatures year round likened to the nearby Cheshire Plain. However, on calm, clear nights this is frequently upturned as cold air drainage reasons a temperature overturn to occur. As such, the Stoke-on-Trent and Newcastle area are not vulnerable to plain frosts. The nearest Met Office weather station is Keele University, about four miles west of the city centre.

The absolute high temperature is 32.9 °C (91.2 °F), logged in August 1990, although more classically the average warmest day of the year should be 27.0 °C (80.6 °F). In total, just under fourteen days should report a temperature of 25.1 °C (77.2 °F) or above.

Demography:

Based on the 2001 survey, the total population of the city was 240,63. This was a warning of 3.5% since 1991. 51.3% of the population is female. 96.3% of the population of Stoke-on-Trent were instinctive in the UK. 94.8% of the population recognised themselves as white, 2.6% as Asian British Pakistani, 0.5% Asian British Indian and 0.3% as Black Afro Caribbean. Concerning faith, 74.7% labelled themselves as Christian, 3.2% Muslim and 13.4% had no religion. In the same survey, 19.9% were recognised as under 15; 21.0% were over 60. A total of 24.2% of non-pensioner families were logged as having no working grownups. In 2011 the population had amplified to 249,000. It is the first time that the city's population has full-grown since it drawn at 276,639 in 1931.

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