Production smoothing, also known as Heijunka, is a key aspect of modern operations management. It refers to the leveling of production to match customer demand, while maximizing efficiency and minimizing waste. This technique has been proven to be an effective way to manage production processes and increase competitiveness in the marketplace.

The objective of production smoothing is to create a steady flow of products and services, reducing the variability and fluctuations in the production process. This helps to minimize the waste and resources associated with overproduction, excess inventory, and bottlenecks in the production line. By leveling production, companies can better predict customer demand and adjust their production processes accordingly.

One of the primary benefits of production smoothing is the reduction of waste in the production process. By leveling production, it minimizes the need for excess inventory and eliminates the waste associated with overproduction. This helps to minimize the costs associated with storage, handling, and transportation of excess inventory, while improving overall efficiency.

Another advantage of production smoothing is the improvement of customer satisfaction. By better predicting and matching customer demand, companies can ensure that they have the right products and services available at the right time. This helps to build stronger relationships with customers and improves the overall perception of the company.

To implement production smoothing, companies must first understand their customer demand patterns and the production processes that support them. This requires a thorough analysis of the production line, including the identification of bottlenecks and areas of waste. The company should then develop a production plan that balances customer demand with the production processes to create a steady flow of goods and services.

The company should also implement effective communication and collaboration between all departments, including sales, marketing, engineering, and production. This helps to ensure that all processes are aligned and working together towards the common goal of production smoothing. The company should also consider the use of technology and equipment to automate the production process and improve efficiency.

It is also important to engage employees in the production smoothing process. By involving employees in the implementation and ongoing management of production smoothing, companies can tap into their expertise and insights, and build a culture of continuous improvement. Employees should also receive training and development opportunities to enhance their skills and knowledge in production smoothing techniques.

In a nutshell, production smoothing is an effective way to manage production processes and increase competitiveness in the marketplace. By reducing waste, improving customer satisfaction, and engaging employees, companies can create a steady flow of goods and services, and improve their overall production efficiency. By embracing this technique, companies can achieve operational excellence and maintain their competitive edge in the marketplace.

Rapid Improvement Events, also known as Kaizen events, are a powerful tool for improving production processes in the manufacturing industry. They are focused, short-term initiatives aimed at solving specific problems and improving processes in a rapid and efficient manner.

At the heart of a Rapid Improvement Event is the involvement of a cross-functional team of employees, each bringing a unique perspective and skillset to the table. The team works together to identify and solve problems, test new ideas, and implement solutions that can have an immediate impact on the production process.

One of the key benefits of Rapid Improvement Events is the speed with which they can deliver results. By focusing on a specific problem and working together as a team, significant improvements can be made in just a few days or weeks. This can be especially valuable in the manufacturing industry, where time is often of the essence and even small improvements can make a big difference.

To ensure the success of a Rapid Improvement Event, it's important to follow a structured methodology. This typically includes the following steps:

1. Define the problem and scope of the event. What is the specific issue that needs to be addressed, and what is the desired outcome of the event?

2. Assemble the cross-functional team. Choose team members who have a strong understanding of the problem and can bring a variety of skills and perspectives to the table.

3. Conduct a thorough analysis of the problem. Gather data, observe processes, and engage in root cause analysis to understand the underlying cause of the problem.

4. Develop and implement a plan of action. Based on the findings of the analysis, create a plan of action that addresses the root cause of the problem and implements solutions that will improve the production process.

5. Implement and monitor the changes. Once the plan of action is in place, implement the changes and monitor the results to ensure they are having the desired impact.

6. Reflect and celebrate successes. Reflect on the successes of the event and celebrate the improvements that were made.

Rapid Improvement Events are a powerful tool for improving production processes in the manufacturing industry. By bringing together a cross-functional team, focusing on a specific problem, and following a structured methodology, organizations can achieve significant improvements in a short amount of time.

In a nutshell, it is important to embrace a continuous improvement mindset and actively seek out opportunities to improve production processes. Rapid Improvement Events provide a structured and efficient way to do just that, delivering results that can have a lasting impact on an organization's success.

Inventory is often viewed as a necessary evil, as it provides a safety net to ensure that products are available to meet customer demand. However, from the perspective of Lean Management, inventory can also be seen as a type of waste.

In Lean, waste is defined as anything that does not add value to the customer. From this perspective, inventory can be considered waste because it ties up valuable resources such as space, money, and time without providing any immediate value to the customer. This is because inventory requires storage, which takes up valuable space, and also requires investment in the products themselves. In addition, inventory can lead to obsolescence, as products may become outdated or go out of fashion before they can be sold. Furthermore, inventory can lead to inefficiencies in the supply chain, as products may sit on shelves for extended periods of time before they are sold, adding unnecessary time to the overall lead time.

Despite these challenges, inventory is also an essential component of most businesses. Inventory provides a safety net, ensuring that there are products available to meet customer demand even when there are disruptions in the supply chain. It also allows businesses to take advantage of bulk purchasing discounts, and to manage seasonal variations in demand.

So, how can Lean Management help businesses to steer inventory in the best direction? There are several key steps that can be taken to minimize the waste associated with inventory while still ensuring that the business has the products it needs to meet customer demand.

The first step is to implement a Lean production system. This involves using the principles of Lean Management to streamline production processes and reduce waste in all areas of the business, including inventory management. By reducing waste in the production process, it is possible to minimize the amount of inventory that is required, freeing up valuable resources for other areas of the business.

The second step is to implement a pull-based production system. This involves using customer demand as the driving force behind production, rather than using forecasted demand to determine production schedules. This can help to minimize inventory waste by ensuring that products are only produced when there is a genuine demand for them.

The third step is to implement just-in-time (JIT) inventory management. JIT is a Lean approach to inventory management that involves only ordering the products that are required to meet customer demand, and no more. This can help to minimize inventory waste by reducing the amount of product that is held in reserve, freeing up valuable resources such as space and money.

The fourth step is to implement a continuous improvement program. This involves regularly reviewing inventory levels and processes, and making changes where necessary to reduce waste and increase efficiency. This can help to ensure that inventory management processes are constantly evolving, and that the business is always adapting to changing customer demand.

In a nutshell, inventory management is an important aspect of any business, as it helps to ensure that the right products are available at the right time to meet customer demand. However, from the perspective of Lean Management, inventory can also be seen as a type of waste. By implementing a Lean production system, a pull-based production system, JIT inventory management, and a continuous improvement program, businesses can minimize the waste associated with inventory while still ensuring that they have the products they need to meet customer demand. By adopting these principles, businesses can increase efficiency, reduce costs, and improve overall customer satisfaction.

In this article we want to talk about another classic from Lean Management Kanban or the so called Pull System.

The word Kanban itself has its roots in the Chinese Japanese language and means card, label or sticker. In industrial manufacturing planning systems or general in logistics control Kanban describes a replenishment system for consumed parts according to the amount used steered by cards that give the signal following the Pull Principle.

The material in the Kanban System is exclusively oriented to the consumption of your production process. The cards are a key element of this kind of control system and provide proper information transfer. Kanban control loops from the work station of flexible production control and serves to smooth material flow through your inbound or even outbound logistics. In addition Kanban serves you to implement a sustainable reduction of material stocks, increases the ability to deliver and saves you pure cash.

In an ideal world Kanban would control your entire value chain from the supplier to the end customer. In this way you would have installed an complete smooth supply chain with almost no chance of interruption and massive stocks. And now comes the but – to steer production with Kanban – a continuous monitoring is required for a smooth material supply. To make it short: it requires discipline from all involved parties along the supply chain.

Lets have a look to the development of Kanban.

The first Kanban System was developed by none other than Taiici Ohno (of course) at Toyota Motor in the 1940s. One of the main reasons for the implementation of Kanban was the low productivity and efficiency of Toyota compared to western competitors. With the Kanban System, Toyota achieved a significant change towards flexible and efficient production control that had a massive impact on productions output while at the same time reducing the costs for inventory in raw material, work in progress (WIP) and finished goods.

To give the complete picture it wasn’t implementing the Kanban system itself to drive the success of Toyota, there are other key factors that together where making the difference. Just to name Just in time as an example of key elements of the Toyota Production System. It is and always will be a combination of different methods and philosophy that brings you forward.

In the 1970s the Kanban Concept was adapted in the industry in the USA and Germany. As they haven’t known better, they pretty much copied the complete Toyota Production System (TPS) in order to get the principles running.

Pull or Kanban System

Either way you call it, the material flow is controlled by boxes or cards. Kanban Cards serving in a simple way all information needed to identify what parts are needed in what quantity at what place. The amount typically is defined by the replenishment time at the work station. With the so called two box principle you make sure that the operator never runs short on components. Nowadays there are also digital version of it called eKanban, but the principle behind is the same. The trigger of supply is the Kanban Card starting of the pull chain of material.

To use Kanban efficient, it is not suitable for all parts. Kanban is perfect for small parts with a small amount of variants and a consistent demand. For this reason, you’ll see Kanban Systems in the industry mostly used for C-Parts management. The rest of the components are steered with the support of MRP. Only in rare cases you find that even the supply of big components are controlled with the Kanban methodology.

One nice side effect with Kanban, you can set up the way you can steer your bottleneck. That means, when you have done a proper value stream analysis you know the capacity for your bottleneck and will only order what this process step can handle.

Poka-Yoke is any mechanism that helps to avoid unplanned mistakes. Poka-Yoke is that the application of straightforward, error-proof mechanisms to systematically avoid incorrect assembly, mix-ups or the downstream movement of defective parts. As a result of stable and high-quality methods begin long before the assembly section, simple Poka-Yoke measures will be enforced preventively within the construction and coming up with phase to make sure quality. Poka-Yoke is implemented to avoid: going away out or forgetting process steps, process or operational-related mistakes, incorrect or missing parts, setup or installation errors.

POKA YOKE ポカヨケ ("stupid mistakes - avoidance") is associate ideology that takes a spread of approaches to optimize production processes, particularly assembly. The main target of Poka-Yoke is strive for zero-defect production and to attain it approximately. If defects are detected, the cause is determined. If the cause can be avoided, it's eliminated pretty much as good as doable within the sense of Poka-Yoke and at the best doesn't occur again at all. Poka-Yoke was originally an initiative of Dr. Shingo, Shigeo (新郷 重夫), who is additionally a co-founder of the Toyota production system, of that Poka-Yoke is a core component. Poka-Yoke is beneath the umbrella of Kaizen 改善 ("continuous improvement for the better").

Poka-Yoke may be about recognizing the root causes in time and so eliminating them. Mistakes shouldn't solely be corrected, however prevented the in the longterm by eliminating their root causes. Within the ideal case, in the sense of Poka-Yoke, there are measures that utterly rule out a discovered error by eliminating the cause in the future, e.g. as a result of incorrect mounting is not any longer doable because of fixed given mounting ways (e.g. fitting shapes). Poka-Yoke demands product style ability to make a product design that forestalls errors (avoid incorrect operation) and is powerful against errors (despite incorrect operation no faulty processes). Thus the philosophy of Poka-Yoke doesn't solely begin within the production, however already in the product design.

A widely known everyday example is that the plug of the electric devices and the power outlets, that can't be inserted into the socket the incorrect way round. Measuring instruments may also be designed or programmed in such a way that they will not be misused. Poka-Yoke principles can also be found in other cases, e.g. ATMs dispense your credit card before the payout takes place. Fuel dispenser faucets solely work into the right tank for diesel or petrol, creating it tougher to refuel incorrectly. And so on.

Looking at Poka-Yoke in production "Nobody makes any mistakes" is the target of the Poka-Yoke methodology. Here a list of some mistakes that can typically be found in production:

• Incorrect positioning of assembly components

• Incorrect change of a die

• Incorrect mounting

• Wrong interpretation of directions

• Incorrect polarity in electrical connections

• Incorrect reading of measured values

• Incorrect connection of hoses

• Incorrect entries in devices

• Assembly of wrong components

• Skipped operations

• Operation/programming errors on machines

POKA YOKE follows three simple steps
Measurement:

If you can’t measure you can’t control. Simple fixtures or sensors up to high performance camera systems can support the right execution of processes and provides feedback about the correct or incorrect task completion. Measures can be taken by cameras, mechanical, sensor for light and colors, position, vibration, voltage or temperature.

Detection of deviation:

E.g. deviations are determined by checking the amount of tasks done during one operation - has had the operator enough movement to do the job? Are enough components used? (actual-target comparison). Or simple exploitation geometric mismatches when pins or special marking at the workstation are still visible or not used.

Regulation

When deviations occur make sure that measures are taken such as pulling the ANDON CORD by the so called stop the line authority. Only when error-causing steps are cancelled out a permanent production of OK parts can be achieved.

Only when living according to the Poka-Yoke philosophy on a daily basis and following the principles of Poka-Yoke you will be able to achieve with smart automation and trained operators long term success. Root Cause Analysis and sustainable counter measurements are key. In addition each operator should be trained to detect their own faults during operation.

It might seam to be waste to train operators to detect failures, but no matter how much you planing and effort you put in design, failures occur during assembly or manufacturing. Just think about wiring that is now crossing moving components, parts where the collision was not seen during design and so on, trust me the list can be endless. Some failures will be detected with smart automation checking devices. But these are typically very costly and need special trained people to maintain and most of the time these little pieces of technology can only do one job. Here joins Poka-Yoke the game. Cost efficient, failures or incorrect assemblies can’t be passed on and each operator develops an eye for deviation.

Just keep in mind that if you have mass production or small to middle series can determine if you should install a 100% check or if simple Poka-Yokes can get you where you want.

The most important part of Poka-Yoke at all is that failures are detected when they occur and the exponentially rising costs of defective parts passed on are prevented.

EVERY PART EVERY INTERVAL

The abbreviation EPEI stands for the frequency at which cycle production makes the same component again. Parts are produced once on one resource.

The exact opposite of waste is value creation. That is what you aim for with all lean activities. Value creation are all activities that create or add value to your service or product and the customers are willing to pay for. When a service or product has been perceived or appraised to fulfill a customer need or desire as defined, the product or service may be said to have value or worth. Components of value may include quality, utility, functionality, capacity, aesthetics, timeliness or availability, price, etc.

The Milkrun is the preset intralogistics concept to bring raw material, semi finished and finished goods to the place they belong at the time they are needed. The Mikrun is implemented based on existing consumption values, an internal supply cycle is defined in which deliveries on fixed routes are installed with specific times.

Based on these current consumption values, a logistic supply cycle is defined wherein raw material, semi and finished goods are delivered and picked up by a fixed route at a specific time. With this you will also optimize your intralogistics concept in general taking on action for a Milkrun concept.

So what is the idea behind the Milkrun concept.

The term Milkrun comes from the traditional milkman that was supplying milk to homes on a fixed route in a specific time. The milk delivery was based on the consumption of the households, by this only the amount of milk needed was delivered. Empty bottles have been picked up at the same time and brought back to the distribution center. So quite simple full bottle(s) delivered, empty bottle(s) picked up.

The cross company Milkrun
Nowadays the material management got a little bit more complex. Speaking in the external way of logistics a Milkrun is a supplier concept where customers ask for one or more shipping companies to manage different suppliers or customers on after the other in the form of a shipping cycle. In this way, goods and empty containers can be delivered and received at the same time without the need of centralization. The main goal is to have as less as possible empty trucks and at the same time being under full control of external material flow. Tours and deadlines are the guard rails on these cycles, reducing storage space is the nice to have side effect.

The benefits of the Milkrun concept

• With installing a Milkrun you will be able to reduce shipping times, processing processes and therefore handling costs.

• Just in Time and Just in Sequence deliveries are possible

• Your planning is more structured as you will have fixed time frames

• Less capital needed due to decreasing inventory/stock/WIP

• You can integrate waste and empty container management

• Increase of sustainability due to ecologically smarter transportation routes

Of course there are also some challenges with the Milkrun concept

• Time consuming planning as quantity, duration, replenishment time, etc. needs to be considered

• Processes and products need constant supply

• Outbound Milkruns can be delayed by traffic or weather conditions

• Economically relevant for larger business or higher demands of goods

• Reliable supplier for products and transport needed

One last note for the internal Milkrun

Inbound the concept can be used in both ways, intralogistics and manufacturing. E.g. certain raw materials or semi-finished goods can be delivered on a regular basis to predefined workstations where the consumption can simply calculated. And on the fixed route the Mizusumashi can collect empty container and waste from production. This reduces internal ways of operators and guarantees a continuous supply of workstations. The next level would be to interlink all workstations or cells with your internal supply cycles to create an intralogistics flow, reducing the manual replenishment work. To find out what the Mizusumashi is just go here. In short: he/she is the guy who supllies goods on the shop floor in a structured process.

The so called “8D”-Report is a document resulting from an 8D process which is part of a structured problem solving process in quality management if there are quality issues between customer and supplier.

8D represents the eight mandatory process steps that are performed when processing a claim to get to the root of the cause. The report details the nature of the claim, responsibilities, and actions taken to prevent the problem from reoccurring:

The 8D methodology is intended to ensure that complaints are dealt with systematically. Consistent documentation of the associated troubleshooting steps and a high level of fact orientation ensure that errors in the product or system are thoroughly investigated and thus permanently corrected instead of just solving the problem.

Application

These eight steps are performed for the 8D report: 

1 Define a team to solve the problem

A team familiar with the process and/or the product is formed. They analyze the problem, take corrective actions, and monitor the effectiveness.

2 Describe the problem

In this step, the problem is defined as precisely as possible and the root cause of the problem is identified.

3 Containment action

These measures are intended to resolve the problem quickly and limit the damage until a permanent solution is found.

4 Root cause analysis

You probably haven’t found the real root cause during step 2 therefor various tests and experiments are used during step 4 to search for the real root cause of the error and the most likely causes are identified. This is intended to ensure that similar errors do not occur again.

5 Planning of counter measures

It then determines the means by which the causes of the problem can be eliminated. It is tested whether these measures solve the problem efficiently and no undesired side effects occur.

6 Check effectiveness of counter measures

Once the corrective actions have been carried out successfully, the immediate actions must be stopped. In the automotive industry, only process-improving measures are regarded as permissible shutdown measures.

7 Prevent recurrence of error

To ensure that such an error does not happen again, the team must initiate and monitor preventive measures. In the automotive and aerospace industries, manufacturers must use the FMEA method to assess the risks identified during root cause analysis. .Also, quality management system rules and procedures may need to be adjusted.

8 Appreciation of team performance and Lessons Learned

In a last step, the achievements of the team are recognized and experiences are exchanged.

The mentee is the student of the mentor.

The term mentoring describes the development process in an organization where an experienced person (mentor) passes on his/her knowledge and skills on to a new/unexperienced person (mentee).

The overall aim of a mentoring program is to develop and promote the mentee’s personal and professional growth within or outside your organization.

As described the mentor refers to the role of a personal trainer whose experience supports the development of the mentee. There is also the cross-mentoring approach out there where experienced managers from different departments or companies and their high potentials (mentees) come together for tandems. Cross Mentoring usually is an externally organized program in which the tandems are formed in cross-functional and cross-industry teams.

The minimarket is the smallest version of a supermarket. The minimarket is typically a small area where operators can take parts from located on the shop floor. Typically C-Parts which are refilled following the Kanban/2-Bin principle. The minimarket is filled by the milkrun which pulls material from the supermarket.

Shop Floor Management (SFM) helps the constant improvement of processes and procedures on the shop floor. The presence of mgmt. level staffing in manufacturing and their recognition on deviations from requirements dramatically hastens decision-making and consequences with inside the on the spot implementation of solutions.

Shop Floor Management really defines control duties and calls for unique modes of conduct. Management is supported via way of means of the utility of unique equipment. Five Shop Floor Management-associated duties are performed on the Shop Floor and are as follows:

1. Install regular communication

2. Confirm processes

3. Empower/Qualify staff

4. Make it part of the continuous improvement process (CIP)

5. Conduct problem solving in a structured approach

SFM emphasizes behavior that encourages your staff to resolve issues inside their scope of capabilities and strive for continuous improvement.

For example, management maintains its remarks to a minimum, handiest makes binding commitments, offers however additionally accepts feedback, profits its personal attitude of a situation, lets in errors in mastering situations, does now no longer lay blame and places in vicinity wondering techniques. SFM tools help the effectiveness of SFMgmt. e.g.:

• Production diary, KPI charts, hassle-fixing sheet, T-cards

• Shopfloor Management

• What is Shopfloor Management?

• Shopfloor Management

• Basic components of shop floor mgmt

• Clear management roles and responsibilities

• Regular communication (Gemba Walks)

• Key Performance Indicators

• Problem-solving techniques

• Visualization

Some explanation of the basics of operational leadership in shop floor mgmt. you organization will for sure profit from clear leadership roles and tasks. Your employees want near help for independent problem solving. Large control gaps, wherein the direct touch among the supervisor and his personnel and associates is reduced, normally do now no longer show themselves.

The Japanese version of a classical institution leader (Hancho), with a totally small management margin and occasional willpower of the personnel, regularly does now no longer suit into the qualified operator in organizations. The excessive qualification of operators is a vital aggressive thing in industry. In order to make suitable use of those capabilities with inside the processes, disciplinary management has the mission of the use of SMART´en to acquire desires at the same time as keeping room for manoeuvre and keeping a very good stability among needs and help.

Managers at the first mgmt. level do now no longer meet those demanding situations via time control seminars, however via greater practical duties and requirement profiles. Examine whether or not it's far important to introduce extra technical management as an alleviation for the first mgmt. level to your organization (CIP coordinator, Kaizen Manager, Process Champion). This feature can stand up from the present functions.

Jointly have a look at the opportunities of dispensing distinctive information regions (5S, set-up time reduction, CIP etc.) with inside the assembly teams expand collectively with you a brand new blending answer specially appropriate for you.

Regular communication

Regular communication is the structured approach to create a framework on a regular basis for opportunities. In this rhythm issues can be carried out and discussed across the management levels. Regular communication is an integral part of the day to day work of all players in your organization.

This way of communication, no matter if you call it huddles, stand up meetings, shop floor meetings, etc. guarantees a continuous flow of information without loss of information itself as it is fast and recurring. A subject matter-associated exchange takes place where employees are enabled to independently define measures, hassle answers and pointers for development and to remedy conflicts as quick as possible.

The continuous flow of information between the departments throughout the complete organization is guaranteed through these regular and short meetings. One positive side effect is that with regular communication you will also calm down daily operations management by clearly separating the topics (e.g. operative commercial enterprise, 5S, CIP, etc.). It is vital that these regular meetings are performed continuously and adhered to in order that normal communique will become independent.

Key Performance Indicators

Regular communication can only exist if the information inside these meetings are defined and standardized. The standard of these meetings is not only the agenda but more important the Key Performance Indicators (KPI). The target of working with KPIs is to have a framework for employees that provides information on the achievement of objectives. When you want to successfully control your production be aware that KPIs are broken down in such a way that they have a direct connection to the operators or designated workstation. Only then they are becoming a real instrument of control by which teams and departments can be measured. The positive thing about KPIs is that with the continuous improvement process paired with a structured problem solving approach all employees will see the effect of implemented measures on the KPIs. To get the full information on KPIs go here.

Problem Solving

Problem solving isn’t always as simple as it sounds, but it clearly shows the effectiveness of clear shop floor management. There are plenty of problem solving methods out there (Ishikawa, 5 Why, A3, Root Cause Analysis, just to name a few) and lean methods (e.g. 5S, set-up time reduction, Hejunka etc.) are well known in the manufacturing industry. But these methods are there to help your organization to deal with more complex issues, this means that they are not really useful for operators that are dealing with daily production but more for a problem solving team consisting of employees from different departments.

To tackle problem solving the right and sustainable way the role of a Kaizen Manager should be installed in your organization in order to steer the problem solving and continuous improvement process. Kaizen Manager help you to get out of this “fire fighting mode” with a sustainable CIP culture.

Visualization

For a clear visualization of running process in your organization, cleanliness and orderliness is the main part of it. Clarity of your processes on the shop floor is the foundation for all lean manufacturing activities. Having the clarity the implementation and maintaining of visual management methods will guide you to a real state of flow.

There are different ways for visualization out there (find a deeper insight here)

The target with visual management and those methods are all the same:

1. Create transparency

2. Visual representation of procedures processes and services

3. Making problems (or bottlenecks) visible

All documents and information are daily updated and right at the place of action clearly visualized for everybody in the organization (e.g. blackboards, Workflow Boards, Shop Floor Boards, Andon Boards, etc.).

Following the PDCA cycle the status of problem solving activities are recorded and visualized. KPIs on different topics are installed and tracked and so on. Important is only that all this information follows also a clear structure and has its own spot on the shop floor (e.g. a shop floor corner). Visualization starts at the workplace of a operator and ends at the management board of the plant manager or owner of the organization.

But in the end it always supports the Continuous Improvement Process in order to bring your organization the next level or simply to overachieve your customers expectations. To get a full insight in Visual Management, read the full article here.

In the lean world a sensei is a lean production expert that transfers his knowledge as mentor on to his mentees.

To be successful with a Sensei it's been revealed that you need to start at the top and find a sensei to work with in order to engage all employees on the shop floor. As Lean activities reach industrial maturity, the role of the Sensei remains a gray area.

It is obvious that your organization needs a Sensei to adapt and successfully implement Lean principles. Therefore, the Sensei position will be your bottleneck in Lean implementation. In every Lean transformation process, one learns at some point that the success of a company consists in learning to learn.

As a little guide, consider the following three effects:

Learning curve: The learning curve of each department and initiative is tracked by their manager in the organization rather than having to compare it to established best practices across your organization.

Spillover: Effective learning practices are passed through hands-on, experiential learning from person to person within your organization rather than through predetermined processes.

Value-Based: Lean as a whole provides a learning framework that aims to balance customer satisfaction (which leads to organizational success) with employee satisfaction (and personal fulfillment) through a set of principles and tools aimed at discovering how MUDA can be reduced and value can be increased . Adding activities in all areas of the organization.

This approach has both sides of the medal, but the weak and the strength are lying in the learning path of each employee. Following the lean principles, every employee is expected to discover:

What do I need to learn: What is my personal challenge in order to better align my work with customer value and thus sustainable and profitable growth with the satisfaction of all my colleagues to reconcile.

Learning from the shop floor: The learning style is deeply embedded in daily operations. Employees are learning results from their support of learning activities at all levels. Because all employees solve their problems or show initiative, everyone is expected to interpret the conclusions of others and find a way to adopt the solutions to their own work. It is the responsibility of the Sensei to support its learners in this learning phase. Learning by doing is the correct way to describe it.

Create a learning environment for your employees: Learning on the job is never easy, especially in today's business climate. Consequently, one of the key functions of a Sensei in the Lean perspective is to create a visual environment for employees where it is easier to recognize than normal and where opportunities for continuous improvement in small steps (Kaizen in Lean jargon) are clearly visible Everyone. A learning environment also means a stable affective environment where mistakes are not punished but seen as a source of learning.

The Sensei is not a boss at all. He or She has no power and can only suggest. The Sensei's task is to help all employees in your organization to develop their own lean thinking through practical exercises in workshops. The Sensei's job is to convince middle managers that solving today's problems will, in the long run, prevent tomorrow's fires.

The essence of Lean is learning while solving problems. This is a difficult task at the best of times, and indeed every person in your organization must be taught to learn how to learn. In relation to managers, the Sensei has five main roles of support:

1. Finding problems

2. Tackling problems

3. Creating problems

4. Solving problems

5. And finally learnings from problems

"If you have no problems, you are dead". is a classic lean principle. Perhaps the most important part of Lean's problem-solving learning approach is the initial problem-finding phase. Lean's approach to business is to capitalize on every problem.

5M Method is just an other way of describing an ISHIKAWA Diagram. This diagram is pre-structured with five given categories of potential causes: “Man”, “Machine”, “Material”, “Mileu = Environment” and “Methodology”. In a more detailed form of the environment you can further divide it in “management” and “measurement” which then is considered as 7M methodology.

The term One-Piece-Flow basically describes the radical reduction of lead times through flow-optimized production. In an ideal state processed parts or components are moved from one process step to the next without any interim storage. The quantity moved consists only of one part or one batch. You will only be able to achieve this when your work systems are closely connected. The transition of a work system to an one-piece-flow oriented system can only succeed if there is a high availability of existing capacities and flexibility.

Getting your production to flow combines increased productivity and increased employee motivation.

As with most of the lean terms the one-piece-flow principle made its way from the Toyota Production System where it is referred as operator centric work flow. Instead of day in and day out performing the same task at a fixed work station the operator moves with the workpiece through the complete process steps, station after station, for which he/she has to be qualified for all process steps. It is quite similar to a Chaku Chaku line, while Chaku Chaku describes a concrete line layout, one-piece-flow is a principle or mindset so to say. The basic idea behind it is to reduce defects through lacks of concentration and increase motivation of operators through variety.

Lean Manufacturing terms might seem complex, but as most of the time, the principle behind is straight forward and quite simple. As they seem to be no brainers they easily get forget about it which will automatically lead to waste. The best example for waste is the so called TIMWOOD(S), where two main drivers are high amount of Work in Progress (WIP) and high inventories.

Now let us have a look how the One-Piece-Flow principle can help.

The principle of One-Piece-Flow is a new form of flow production. In contrast to conventional forms of flow production the worker in the one-piece.flow production does not remain in his place. Generally speaking the operator has no place of his own - he is always moving with the good. This is exactly where the reference to Chaku-Chaku comes from. With the sequence principle, on the other hand, the operator only interacts with the workpiece on one process step.

After on part is finished the operator starts again at the beginning of the line. This procedure comes with certain demands on the assembly line. U-Shape Layout is the most favorite one, as start and end should be as close as possible to each other in order to keep ways short and transition seamless. The U-Shape Layout is also great as raw material and other components are supplied from the outside, what makes the job of the Mizusumashi easier, and the value adding activities are on the inside.

But speaking about the advantages of One-Piece-Flow, the try to make it short:

• Arrangement of workstations simplifies the arrangement of operators

• If deviations occur, the operator knows exactly where it is coming from

• With the CIP the continuous optimization is really driven on a constant basis

• Applied correctly, lead times are drastically reduced

• Inventory is drastically reduced

• Used space on the shop floor can be reduced by 60% compared to conventional production

• Motivation of operators raises as they are responsible from start to end and do not have this monotone daily routine of just one work station

In addition, the use of U-Shaped assembly lines, and if they are build up on standard profiles or standard shelvings, it gives you a huge amount of flexibility. Where workstations or the complete line can be easily extended, reduced or adjusted to new needs.

JIDOKA - the Japanese term meaning automation. In this form of automation the machinery itself is checking the parts produced for defects after processing. With this constant checking of process quality deviations can be directly detected and when defects occur the complete process is automatically stopped until the problem is solved.

You might have come across the word autonomation, which is simply a combination of the words autonomous and automation that describes the automation with still human interactions. JIDOKA has to be seen as a manufacturing principle rather than a methodology. The idea behind JIDOKA is that all machines in the process chain can run without a dedicated operator checking for process stability and quality outcome. If there is a defect or non-conformity of the process, the machine shuts itself down, preventing the defective parts of getting passed on the downstream process steps and for this reason it prevents producing scrap.

In the Toyota Production System, autonomation is one of the main pillar and is also known as intelligent automation as it is firstly focusing on the quality and the ability of a self running system rather than just focusing on the output. You might have also heard the description of automation with a human touch - if a deviation occurs the machine itself will stop the complete manufacturing process and only with the interaction of an operator, after the problem is solved, it can continue production. The upside is pretty clear - you will not produce any defective parts or waste value adding activities on non-conforming components.

With the use of the JIDOKA principle a number of advantages are coming with it:

• Processing of non-conforming parts is immediately noticed, so that neither scrap nor rework occurs. Furthermore, no defective parts are passed on to the downstream processes steps

• Since the defects are detected automatically, a 100% end of line inspection is no longer needed within the scope of quality assurance

• With the help of automatic error detection, operators are no longer needed to monitor machinery, which is no-value adding activity anyway, so it can be declared as waste in the form of waiting time

• Operators have now the freedom to perform multiple tasks during the same time or are able to dedicate themselves to new tasks at all

• Maintenance activities will also decrease as crashes or malfunction due to the passing on of non-conforming parts is avoided

• JIDOKA is the basis of analyzing the root cause of failures and implement sustainable counter measures to avoid these of occurring again

KAIZEN the mother of all lean terms.

The word Kaizen is a combination of two Japanese words - KAI meaning change and ZEN meaning good. Kaizen is the epitome of continuous improvement and stands for the “change for the good”. Kaizen for your organization means continuous improvement involving everyone.

All together Kaizen is a collection of simple principles for improving your work but also stands for a management philosophy that has turned manufacturing principles upside down the way organizations think and act. The key of all success is that all employee should constantly critically review their processes and workplaces and improve them every day a little more.

You see Kaizen is a fundamental attitude for all players in your organization that results in high quality processes with zero defects on finished goods. Living Kaizen is the continuous strive to improve, simplify or optimize. This ongoing never ending process is therefore best known as the Continuous Improvement Process (CIP).

You can’t say that Kaizen is a methodology or tool, it is a mindset. I can’t emphasize this enough.

Kaizen does not depend on major innovations or fundamental changes, but on the everyday small improvements of your employees. The multiple suggestions for improvements paired with a rapid implementation mentality will show really fast their effect on success. The term of continuous improvement is fairly said just another way of the old fashioned suggestions scheme or idea management, which has a long history in the industry but less successful communicated and accepted.

To make a little list before writing too much I want to make it short. In order to pave the way for Kaizen thinking, a number of principles are linked to it, which should guide the thinking and behavior of all players in your organization.

• Daily small improvements in all areas of your organization

• Avoid any waste of material, time and money

• Consider all downstream process steps as customers and then improve performance and quality

• Improvements are always possible, it will never stop

• Constant improvements are made on a small scale and step by step

• No restrictions in terms of scope; products, services, processes, activities, technology, workplace - everything can be improved

• Different methods and tools can be used, the decisive factor is the effect, not the procedure

• Workplaces, work areas and the situation are viewed "on site", things are viewed and analyzed live (Gemba Walks)

• with constant improvements, higher and higher standards are set and made the rule

• Kaizen is a task for all employees in the company

All employees of your organization are directly involved in the Kaizen activities and everyone has to participate. To secure the success of Kaizen each individual should invest an adequate amount of time of their working hours in Kaizen activities and focus on their commitment on improvements. As your organization has different departments and by this different employee groups their Kaizen activities are different as well (e.g.):

• Top management has to introduce and promote Kaizen as the fundamental principle and drive and monitor its implementation. It creates the right conditions within your organization

• Middle management implements the requirements of top management and ensures that standards are kept. It also promotes the way of thinking by offering appropriate training

• Team leaders support employees in developing ideas and implementing them. They are responsible for execution and success confirmation

• The operators or administrators at the operational level work out concrete suggestions for improvement and implement them. This can also be done in small groups. Kaizen employees improve their specialist knowledge and experience by participating in further training courses.

To give you an example of daily Kaizen routines 5S seems the all time favorite.

You can read the full article on how to implement 5S here. But I will make a short excursion on 5S just to explain the way of thinking. 5S prescribes:

Seiri: Sort out all unnecessary objects

Seiton: Clean-up and correct arrangement of needed objects

Seiso: Keeping the workplace tidy so as to achieve the already established standards through 5S

Seiketsu: Establishing regulations for work standards

Shitsuke: Adherence to the Work standards and continuous improvement

Kaizen is always and everywhere its right to be applied.

Even when most of the people think that it is originally developed and deployed for the automotive industry (best known as the Toyota Production System) with clear mass manufacturing and assembly processes, there is no organization, yours included, that can not improve its performance and quality in terms of customer satisfaction, services, products and processes.

You see Kaizen has become a general way of thinking in all organizations and industries.

Thinking about organizations without Kaizen, you’ll see employees stick to rules and procedures with a “not my task” mentality. Only a few managers have to come up with fundamental long term changes. Kaizen on the other hand stands for the involvement of all employees and that everybody has to think every day what he/she can improve, simplify or optimize in his/her area of work for the “change for the good” of the complete organization, securing the long term success of your organization

Japanese term meaning “across everywhere”. With Yokoten the knowledgetransfer is carried out and all activities and countermeasures along the continuous improvement process are communicated organization wide and with other branches of the organization and its affiliates.

Yokoten is not just another Japanese word of the lean world. It might seem fancy to have only Japanese terms on the lean journey but one word isn’t that mainstream and well known but crucial when it comes to lean transformation in your organization. Yokoten describes the process of sharing knowledge across your organization. It includes systematics such as lead plans for copying and improving kaizen activities that work in your complete organization.

Think of Yokoten as horizontal deployment of improvement actions. The Yokoten approach is horizontal and peer-to-peer, with the expectation of Gemba Culture that your people go and see for themselves and learn how other departments or plants in your organization improved their processes. The idea behind is global knowledge transfer of improvement actions as basis for individual local solutions.

It is crucial that it is not a top-down thing where in all plants of your organization everything has to be the exact same. That simply will not work. It is more a benchmark where e.g. one plant in your organization is the champion of one manufacturing process (e.g. injection moulding). Therefore this plant is the “Lead Plant” and by this the benchmark for injection moulding organization wide. All other plants with injection moulding are welcome to the “Lead Plant” to learn from their experience and adopt the Kaizen activities to their own individual needs. With this kind of knowledge transfer a sustainable improvement and collaboration in your organization will be established.

In a nutshell, Yokoten can be understood as internal copy and improve. The role as senior manager is to spread the information and build bridges between the different locations/plants and give the transfer of knowledge a little jump start. Make your organization learn and improve from each other, most of the time there are already good examples out there and just want to be explored and further improved.

The long term success will prove that it is not the processes but the people that are continuously developed, that make the difference between a growing and successful organization or a simple copy cat of Kaizen activities.

The effective Yokoten process is a crucial brick for the foundation of a true learning organization. And no matter where you look at, truly successful organizations have a functioning organization wide knowledge transfer installed.

When speaking of a supermarket in lean context we are talking about an independent instrument that is used to control production. In a supermarket raw material and pre-commissioned components can be found in defined areas. The amount is well organized according the replenishment times of each component, in general the inventory is limited and components are refilled as soon as they are used. Following the Pull Principle with the help of the Kanban-System.

Concerning the supermarket we see it as one of the pull strategies that can be implemented as link between two process steps when developing the future value stream. The supermarket is the third option when firstly One-Piece-Flow and secondly FIFO are no options at all.
The supermarket is a great methodology to help your organization to manage a variety of inventory where you don’t need to know in what order the components will be consumed. Through the so called Kanban-Pull-System “internal customers” will take components of the supermarket, which are replenished by the internal logistics following the Kanban-Pull-Principle or in a pre-defined interval. With this integrated pull system of the supermarket as link between logistics and production you can also speak of a general replenishment pull system. But let’s have a look at the supermarket, what it can be used for and how it could look like in your organization.

The supermarket itself is a mix of FIFO lanes for different components stored in Mobile Racks or a typical shelf where components are stored in bins or on pallets. Let’s assume on workstation A 3 different components are assembled, in the supermarket 1 lane would be dedicated to only this component following the FIFO principle. With this explanation you can see why FIFO itself is preferred the supermarket. The supermarket is either steered with two bin principle or kanban cards. According the replenishment time, the replenishment is triggered with the extraction of components and the stock dropping below the minimum quantity.
You see, the key question is when to use a supermarket instead of installing plane FIFO lanes or even follow the One-PIece-Flow.

Here are some examples when this is the case:

• Two main material flow streams come together before or are split after the supermarket

• Your organization follows the made to stock principle, then the supermarket is at the end of production and stores finished goods

• With the help of a supermarket different lead times of suppliers paired with a high variance can be leveled and production can be smoothly supplied

• Upstream processes are lacking quality, downstream process steps can easily replace defective parts/components (interim solution until problem is solved)

• Different change over times, when a downstream process needs a change over the upstream processes can fill the supermarket as a overflow stock that is drained after change over is done

All of this examples have in common that the final target is to eliminate the supermarket itself and improving the material flow in a way that simple FIFO lanes or a Two-Bin-Principle at workstations can be realized.
The size of a supermarket is always determined by the components and their space needed for storage and their replenishment lead times. So it is a good piece of advice to have a clear overview of your components, their recurring demand including their replenishment times and don’t forget about a little safety stock on top.

As already mentioned there are two principles that are already well-known for implementing and steering a supermarket. The first one we have a look at is the Kanban-Principle and the second the so called Two-Bin-Principle, in which the bins itself trigger the replenishment.

A supermarket running on Kanban Cards can be seen shematically in the picture below. Every component stored in the supermarket is represented by an individual card, on which all required information is listed in order to trigger the replenishment process. The Kanban-Card can be seen as order slip for suppliers. Usually Kanban-Cards are placed on the so called Kanban Board. This kind of a supermarket can be seen most of the time.

The Two-Bin-Principle is a kind of supermarket where the bins itself are utilized the same way the Kanban Cards are used. In this approach all components have e.g. two assigned bins, filled with the dedicated components for this exact bins. The full bins are placed at the workstation, components are used and the empty bins are placed on the empty conveyor, ready to be collected by the Mizusumashi. the Mizusumashi refills the bins with the defined components and brings the full set back to the workstation. This kind of “decentralized” supermarkets are typically used for small and C-parts, which are consumed by not only one but several workstations, e.g. screws, washers, etc. as the financial impact of c-parts are low and the space needed is small.

In the end the supermarket is the last possible way to implement a Pull System after failing on implementing a One-Piece-Flow or FIFO. The target is and always will be to reduce the size of the supermarket by changing it into a FIFO system or change the material flow in to One-Piece-Flow. Therefore the supermarket can be seen as needed but temporary. The size of a supermarket is always defined by the size of the components itself, the replenishment time incl. some safety surcharge and the consumption lead time of the production. By simply removing or adding Kanban Cards or Kanban Bins the level of WIP can be adjusted.

A value stream includes all activities (value adding as well as non-value adding) in your organization that are required to deliver your product or service to the end customer.

With the help of the value stream you are able to describe all process steps required for the creation of your product or service, from raw material to the delivery of finished goods. With the Value Stream Map you are able to find potential sources of waste and try to eliminate those by concentrating on the value adding processes. Focus on customer needs and what your customers are willing to pay for. In the ideal state the your production is completely smoothed out and material as well as information stays in a state of continuous flow. Optimization of this state is always driven through productivity. Even when continuous flow is the ideal state, intermediate storages, work in progress or buffers are not evil and even can be a result of optimized material flow.

Push and Pull

To read the full article please go here. Push and Pull is a way in which you can optimize your production and produce according the value stream and flow principle when storages become tight or order books full. Just in time can avoid costly warehousing but gives you also a straight dependency on delivery performance from upstream processes or suppliers.

The pull principle describes the process from the customer's point of view. The order triggered by the customer pulls the components through production. With the push principle, the goods are pushed through production. The pull principle saves the storage of finished goods and thus also transport and search effort.