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Add You - Six Sigma Tools for Process Control
People naturally include trust and respect in their list of important values. Yet so often, at all levels, people complain that they are missing.Every human is a sovereign entity and is owned by nobody. Nothing but force can change that. Therefore people will choose to follow only those whom they trust and respect.Trust and Respect are earned by the consistent correct practice of value-based behaviour, including: -Treating all others as if they would wish to be treated. Being the behaviour they seek from others. Listening to what others have to say. Honouring others right to an opinion. Honouring all agreements whether written or spoken. Encouraging an
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your pro
Adjust Cash FlowTo determine the profitability value a business falls into, it is necessary to determine the Adjusted Cash Flow of that business. The Adjusted Cash Flow is equivalent to its earnings before interest, depreciation, and taxes (EBIDT in accounting terms), plus additions or subtractions for owner’s salary, discretionary, single occurrence, or non-cash expenses. Once a thorough analysis of the financial information has been completed, and the Adjusted Cash Flow determined, the category of Market Value is defined.In general, a privately owned single or small (1-3) multi-unit business will fall into one of the three profitability categories:Po
That’s a pretty lofty concept. It’s definitely not easy – especially when speaking of core business processes. Moving toward perfection requires measurement, analysis and documentation. And if you really want perfection, then you need more sophisticated tools. But is driving toward that ideal of perfection worth the effort?
If you want to increase quality and dramatically save costs in production, then, yes, the road to perfection is definitely worth the driving time.
Forward Steps, Quality and Processes
Last time, we discussed process mapping to increase communication and understanding within an organization and to effectively develop a system of procedures. Now, let’s take a forward step, and look at how Six Sigma tools can decrease variability and increase quality in your processes.
Six Sigma, Pyramids and Systems
The Six Sigma methodology is an advanced set of tools designed for problem-solving and quality improvement. A 'sigma' refers to the standard deviation from the mean of a population. Standard deviation indicates the likelihood that your next data point will deviate from the mean of the data set.
At the bottom of the Six Sigma pyramid begins a system’s current process capability. Usually at 1 or 2 Sigma levels is “tribal” knowledge based on first-time experiences. An organization moves up the pyramid to 3 Sigma as systems are put in place. To hit 4 Sigma, statistics and modeling tools are used for significant process improvement. And, finally, to aim for that near perfection, organizations apply DFSS, or Design for Six Sigma.
Why?
Measurement, Analysis and Documentation
Why do (and should) organizations use these concepts to move up the pyramid and toward quality improvement? Why is it necessary to measure, analyze and document processes – and, if needed, make those desired changes? Why drive toward perfection, and what does it mean in real terms?
If your current process capability runs at 1 Sigma, then that effectively means you have two defects (unusable products) out of every 3 parts. That means 67% of your costs simply become waste, with no return on your investment. At 2 Sigma, quality improves with 1 out of 3 parts as defects. But that still has an error rate of 33%. Not until 3 and then 4 Sigma levels will you see dramatic improvements. Put in these terms, you quickly see how such errors keep you from realizing a greater potential.
Transactions, Multiple Steps and Tolerance
Organizations most effectively utilize Six Sigma methodology in two situations. One, if a business works with a very high volume of transactions per year, then they can not tolerate low sigma levels. For example, a 99% effective rate for 1 billion transactions per year still yields 10 million defects. In any industry, that is not acceptable.
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your proc
Cisco acquires Scientific Atlanta, with the hope of combining the various home networks: video, data, voice, audio. In one stroke, Cisco has positioned itself at the pinnacle of the Network Convergence debate.Only two companies had a complete lock over the channel serving the STB market: Motorola and Scientific Atlanta. With today’s acquisition, Cisco cuts through the barrier to enter the STB market, and with it, acquires a massive opportunity to lead the innovation in home networking. Neither Motorola, nor SA had enough of the other pieces. Cisco does.Imagine the future of the Home Network ...One, just One box from Cisco sits as a Gateway Server for AL
Six Sigma, Pyramids and Systems
The Six Sigma methodology is an advanced set of tools designed for problem-solving and quality improvement. A 'sigma' refers to the standard deviation from the mean of a population. Standard deviation indicates the likelihood that your next data point will deviate from the mean of the data set.
At the bottom of the Six Sigma pyramid begins a system’s current process capability. Usually at 1 or 2 Sigma levels is “tribal” knowledge based on first-time experiences. An organization moves up the pyramid to 3 Sigma as systems are put in place. To hit 4 Sigma, statistics and modeling tools are used for significant process improvement. And, finally, to aim for that near perfection, organizations apply DFSS, or Design for Six Sigma.
Why?
Measurement, Analysis and Documentation
Why do (and should) organizations use these concepts to move up the pyramid and toward quality improvement? Why is it necessary to measure, analyze and document processes – and, if needed, make those desired changes? Why drive toward perfection, and what does it mean in real terms?
If your current process capability runs at 1 Sigma, then that effectively means you have two defects (unusable products) out of every 3 parts. That means 67% of your costs simply become waste, with no return on your investment. At 2 Sigma, quality improves with 1 out of 3 parts as defects. But that still has an error rate of 33%. Not until 3 and then 4 Sigma levels will you see dramatic improvements. Put in these terms, you quickly see how such errors keep you from realizing a greater potential.
Transactions, Multiple Steps and Tolerance
Organizations most effectively utilize Six Sigma methodology in two situations. One, if a business works with a very high volume of transactions per year, then they can not tolerate low sigma levels. For example, a 99% effective rate for 1 billion transactions per year still yields 10 million defects. In any industry, that is not acceptable.
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your pro
Is your office buried under a flood of papers? If so, you are not alone. Papers are accumulated everywhere: employees maintain a personal archive, each office maintains an archive and then there is an official company archive. The result is storage requirements for paper documents grows at a rate of 20-25% every year. If that cost alone wasn’t hurting businesses, Sarbanes-Oxley now requires businesses to properly maintain and quickly retrieve many business records. Morgan Stanley failed to properly retain and produce records related to several investigations and were forced to settle with the Securities and Exchange Commission (SEC) for a record $15 million.<
Why?
Measurement, Analysis and Documentation
Why do (and should) organizations use these concepts to move up the pyramid and toward quality improvement? Why is it necessary to measure, analyze and document processes – and, if needed, make those desired changes? Why drive toward perfection, and what does it mean in real terms?
If your current process capability runs at 1 Sigma, then that effectively means you have two defects (unusable products) out of every 3 parts. That means 67% of your costs simply become waste, with no return on your investment. At 2 Sigma, quality improves with 1 out of 3 parts as defects. But that still has an error rate of 33%. Not until 3 and then 4 Sigma levels will you see dramatic improvements. Put in these terms, you quickly see how such errors keep you from realizing a greater potential.
Transactions, Multiple Steps and Tolerance
Organizations most effectively utilize Six Sigma methodology in two situations. One, if a business works with a very high volume of transactions per year, then they can not tolerate low sigma levels. For example, a 99% effective rate for 1 billion transactions per year still yields 10 million defects. In any industry, that is not acceptable.
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your pro
For many of you who are businessman and businesswomen, traveling becomes second nature. As you jump from city to city, it gets to the point where people ask you what you do for a living and you have to refrain from saying, “I’m a Nomad, what about you?” Traveling for business can certainly be a pain in the bags, but with a few simple changes, you may find the transition from home to away to be easier than assumed.There are several things you can do to improve a business trip. From taking a picture of your family and placing it on the hotel room desk to making sure you’ve packed a portable phone charger so that your cell phone will never be dead in times of homesickne
Transactions, Multiple Steps and Tolerance
Organizations most effectively utilize Six Sigma methodology in two situations. One, if a business works with a very high volume of transactions per year, then they can not tolerate low sigma levels. For example, a 99% effective rate for 1 billion transactions per year still yields 10 million defects. In any industry, that is not acceptable.
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your pro
How do you grab people's attention, arouse their interest, trigger their desire, and motivate them to take action? Answer that four-part question correctly and you've identified the secret to achieving tremendous sales and marketing success in your chosen business or field. To complicate matters, however, the potential answers are as numerous and multi-faceted as the growing number of niche markets, products and services, and marketing trends in our culture. While not all inclusive, the following list of priorities and small business marketing tips can help put your small business on a faster track to growth.Marketing Tip #1: Gain Customer Confidence. Customer indeci
Another situation that calls for Six Sigma methodology is when an organization (i.e. manufacturing) has processes with multiple steps. Here total error rate is critical. For example, the effective rate is 99% for each step; however, that does NOT give the total error rate as 1%. You must take the 99% for the first step and multiply it by 99% for the second step, the third step, and so on. With a great number of steps, your total effective rate could significantly decrease. So, to avoid high volatility, this organization can not tolerate low sigma levels.
Organizations can also determine error rate by effectively reversing the typical process of Six Sigma. You can calculate the mean and variance in your process to define the error rate. This tells you where you are currently on the Six Sigma curve. For example, if your calculation tells you that you're on a 1 or 2 sigma level, then this is an area in need of improvement. This gives you an opportunity to look at the data more carefully, take the mean and variance of each step of the process, and determine in which step the process is having problems. Or it could tell if you there are many steps causing the problems and, thus, the cumulative increase in error rate.
Processes, Procedures and Control
Organizations use the Six Sigma methodology, because you can't get any higher than 2 Sigma (“tribal” or basic knowledge) without putting strong processes and procedures in place. And without strong processes and procedures, you can not move toward higher quality and system optimization – toward perfection. Are you really satisfied with 67% of your product lost as waste? Are you satisfied with such high variability in your system?
Problems, Resources and Results
If needed, you can change your process to reduce or eliminate this variability or error. Six Sigma methodology tells you when to take action to solve a problem. It moves an organization to consistently meet the requirements and minimize the resources used in its management system. And it creates the desired results for which the system was designed.
Systems, Control and Perfection
Remember, though, you can only get to 3 or 4 sigma by developing a system of policies and procedures of measurement, analysis and documentation. And with this you will easily see that reducing your error rate and moving toward perfection with Six Sigma tools is well worth the driving time – and, more, crucial to your system’s control.
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