Quality Assurance Plan Template for Recreation and Wellness Intranet Project
III. Managerial Process
3.1.6. Quality Assurance Plan
1.0 Introduction
(Explain the purpose and value of managing project quality)
2.0 Quality Assurance Processes
2.1 Planning Quality Management
2.2 Performing Quality Assurance
2.2.1 Audit Process
2.3 Performing Quality Control
2.3.1 Tools and Techniques
2.4 Evaluation (testing) Process
2.5 Quality Improvement (Six Sigma)
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346
14 LEAN SUPPLY CHAINS
Learning Objectives
LO14-1 Explain what lean production is.
LO14-2 Illustrate how lean concepts can be applied to supply chain processes.
LO14-3 Analyze supply chain processes using value stream mapping.
LO14-4 Apply lean concepts to service processes.
FOR LEAN FACTORIES, NO BUFFER
As seen in the diagram (right), the just-in-time approach to manufacturing has swept the world’s factories over the
past two decades, resulting in a major reduction in inventory at U.S. companies. But some manufacturers think it
has gone too far and that having a little extra padding might be a healthier option.
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EXTENSIVE DAMAGE SHOWN AT THE SENDAI AIRPORT FOLLOWING THE 9.0 MAGNITUDE EARTHQUAKE AND TSUNAMI THAT ROCKED JAPAN IN
2011.
Although being lean helps manufacturers hold down costs by keeping stockpiles of components and finished
goods low, it can leave them high and dry if production supplies don’t arrive as expected, a risk highlighted by the
parts shortages caused by the earthquake and tsunami in Japan. The March 11, 2011, disaster that damaged
factories and hobbled ports in Japan has thrown the situation into sharp relief. The disruptions quickly radiated
out, putting kinks in the global supply chains of several industries. Auto plants in the midwest United States and
electronics factories across Asia scrambled to find substitutes for Japanese-made parts. Many other industries
say they are still assessing how the disruptions will filter back to them.
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347
Closer to the Bone
INVENTORIES AT U.S. COMPANIES, RELATIVE TO DEMAND, HAVE BEEN TRENDING LOWER FOR MORE THAN A DECADE, PARTLY REFLECTING THE
INFLUENCE OF JUST-IN-TIME MANUFACTURING. STOCKPILES SP ...
This document provides an overview of Just-In-Time (JIT) manufacturing. It discusses the origins and history of JIT, including its development at Toyota in Japan. Key concepts covered include the Toyota Production System (TPS), definitions of JIT, characteristics and core practices of JIT like kanban systems, production smoothing, and setup time reduction. Case studies demonstrate benefits achieved through JIT implementation like productivity improvements, inventory reductions, quality upgrades and lead time cuts.
A Brief Overview on Toyota Production System (TPS.pdfSarah Adams
This document provides an overview of the Toyota Production System (TPS). It discusses the two pillars of TPS: Just-in-Time (JIT) and Jidoka. JIT aims to supply the exact quantity needed at the right time and place using less resources. Jidoka helps stop processes to prevent defects from occurring. The document also outlines the seven types of waste (muda) according to TPS: overproduction, inventory, transportation, waiting, overprocessing, defects, and motion. It discusses benefits of implementing TPS such as reduced costs, waste, and improved quality. Potential barriers to successful TPS implementation include failing to tie metrics to financials and implementing changes in the wrong sequence.
The document discusses lean manufacturing and its core idea of eliminating waste from manufacturing processes. It defines waste as any activity that does not add value from the customer's perspective, and cites research finding that 60% of production activities in a typical operation are waste. Lean manufacturing techniques can help companies deliver higher quality products at lower costs by reducing waste. The document then discusses the origins and development of lean manufacturing concepts from Ford's assembly line to the Toyota Production System. Key lean tools explained include 5S, value stream mapping, cellular manufacturing, kaizen, and visual management.
This document provides an overview of the Toyota Production System (TPS). It begins with a brief history, noting the origins of key concepts like Jidoka (building quality into processes) in 1902. It describes the goals of TPS as providing high quality to customers while developing employees and reducing costs. The two main pillars are Just-in-Time (producing the right amount at the right time with minimal resources) and Jidoka. Other tools like takt time, kanban, and continuous improvement are discussed. Respect for people is a core part of TPS. The document outlines seven types of waste that TPS aims to eliminate: overproduction, waiting, transportation, processing, inventory, motion, and defects. Quality
The document discusses Toyota's production system and its key principles. It explains that Toyota views its operations as communities of scientists who test hypotheses through a scientific process. Rule 1 is that every job and action is specified in detail to reduce variations and errors. Toyota also encourages participation from all team members and stimulates continuous learning. The Toyota production system grew organically over decades focused on high quality, flexibility and waste reduction.
This document provides a literature review and theoretical background on lean manufacturing concepts as they relate to improving a production line in an aluminum die casting plant. It discusses the history and evolution of lean manufacturing principles. The seven types of waste are defined - overproduction, defects, inventory, transportation, waiting, motion, and overprocessing. Line balancing concepts and related works implementing lean in die casting plants are also reviewed. The aim is to apply these lean concepts and methodologies to analyze the current process and identify improvements at a die casting company.
Just in Time System: A Study and Reviewvivatechijri
Just in Time has been a very popular operation strategy partly because of its success in Japanese
industry. JIT is a methodologies used to enhance manufacturers’ competitiveness through inventory and lead
time reduction. JIT implementation can involve a series of incremental steps and missteps, before the desired
outcome is achieved. How many people in the automobile industry, manufacturing industry, and electrical
industry can truly say that they have not heard about JIT? JIT implementation improves performance through
lower inventory levels, reduced quality cost and greater customer responsiveness. This paper will examine the
roll of a company’s resource. This paper present a literature review on a small manufacturing that altered its
resources configuration from a producer- consumer relationship separated by a buffer, to a simultaneity
constraint. The result of this paper shows that the removal of the buffer system increased the manufacturing
system’s need for mix flexibility and indicates that JIT system is success full, and operating JIT system can lead
to many advantages to the case company
This document discusses Just-in-Time (JIT) manufacturing, Lean manufacturing, and the Toyota Production System (TPS). It provides a history of manufacturing management approaches and describes Push and Pull systems. Key aspects of JIT are defined such as its goals, planning, and relationship to kanban systems. Lean manufacturing principles like total productive maintenance and 5S are explained. The Toyota Production System principles are outlined. Overall the document serves as an overview of JIT, Lean, and TPS manufacturing philosophies.
This document provides an overview of Just-In-Time (JIT) manufacturing. It discusses the origins and history of JIT, including its development at Toyota in Japan. Key concepts covered include the Toyota Production System (TPS), definitions of JIT, characteristics and core practices of JIT like kanban systems, production smoothing, and setup time reduction. Case studies demonstrate benefits achieved through JIT implementation like productivity improvements, inventory reductions, quality upgrades and lead time cuts.
A Brief Overview on Toyota Production System (TPS.pdfSarah Adams
This document provides an overview of the Toyota Production System (TPS). It discusses the two pillars of TPS: Just-in-Time (JIT) and Jidoka. JIT aims to supply the exact quantity needed at the right time and place using less resources. Jidoka helps stop processes to prevent defects from occurring. The document also outlines the seven types of waste (muda) according to TPS: overproduction, inventory, transportation, waiting, overprocessing, defects, and motion. It discusses benefits of implementing TPS such as reduced costs, waste, and improved quality. Potential barriers to successful TPS implementation include failing to tie metrics to financials and implementing changes in the wrong sequence.
The document discusses lean manufacturing and its core idea of eliminating waste from manufacturing processes. It defines waste as any activity that does not add value from the customer's perspective, and cites research finding that 60% of production activities in a typical operation are waste. Lean manufacturing techniques can help companies deliver higher quality products at lower costs by reducing waste. The document then discusses the origins and development of lean manufacturing concepts from Ford's assembly line to the Toyota Production System. Key lean tools explained include 5S, value stream mapping, cellular manufacturing, kaizen, and visual management.
This document provides an overview of the Toyota Production System (TPS). It begins with a brief history, noting the origins of key concepts like Jidoka (building quality into processes) in 1902. It describes the goals of TPS as providing high quality to customers while developing employees and reducing costs. The two main pillars are Just-in-Time (producing the right amount at the right time with minimal resources) and Jidoka. Other tools like takt time, kanban, and continuous improvement are discussed. Respect for people is a core part of TPS. The document outlines seven types of waste that TPS aims to eliminate: overproduction, waiting, transportation, processing, inventory, motion, and defects. Quality
The document discusses Toyota's production system and its key principles. It explains that Toyota views its operations as communities of scientists who test hypotheses through a scientific process. Rule 1 is that every job and action is specified in detail to reduce variations and errors. Toyota also encourages participation from all team members and stimulates continuous learning. The Toyota production system grew organically over decades focused on high quality, flexibility and waste reduction.
This document provides a literature review and theoretical background on lean manufacturing concepts as they relate to improving a production line in an aluminum die casting plant. It discusses the history and evolution of lean manufacturing principles. The seven types of waste are defined - overproduction, defects, inventory, transportation, waiting, motion, and overprocessing. Line balancing concepts and related works implementing lean in die casting plants are also reviewed. The aim is to apply these lean concepts and methodologies to analyze the current process and identify improvements at a die casting company.
Just in Time System: A Study and Reviewvivatechijri
Just in Time has been a very popular operation strategy partly because of its success in Japanese
industry. JIT is a methodologies used to enhance manufacturers’ competitiveness through inventory and lead
time reduction. JIT implementation can involve a series of incremental steps and missteps, before the desired
outcome is achieved. How many people in the automobile industry, manufacturing industry, and electrical
industry can truly say that they have not heard about JIT? JIT implementation improves performance through
lower inventory levels, reduced quality cost and greater customer responsiveness. This paper will examine the
roll of a company’s resource. This paper present a literature review on a small manufacturing that altered its
resources configuration from a producer- consumer relationship separated by a buffer, to a simultaneity
constraint. The result of this paper shows that the removal of the buffer system increased the manufacturing
system’s need for mix flexibility and indicates that JIT system is success full, and operating JIT system can lead
to many advantages to the case company
This document discusses Just-in-Time (JIT) manufacturing, Lean manufacturing, and the Toyota Production System (TPS). It provides a history of manufacturing management approaches and describes Push and Pull systems. Key aspects of JIT are defined such as its goals, planning, and relationship to kanban systems. Lean manufacturing principles like total productive maintenance and 5S are explained. The Toyota Production System principles are outlined. Overall the document serves as an overview of JIT, Lean, and TPS manufacturing philosophies.
Just in time (jit), lean, and toyota production system (tps)Dr. Mahmoud Al-Naimi
This document discusses Just-in-Time (JIT) manufacturing, Lean manufacturing, and the Toyota Production System (TPS). It provides a history of manufacturing management approaches and describes Push and Pull systems. Key aspects of JIT include using kanban cards to signal production needs and leveling production schedules. Lean aims to eliminate waste using tools like total productive maintenance and 5S. TPS principles emphasize continuous improvement, problem solving, and respect for employees. The document explores the relationships between these systems and their goals of optimizing production flow.
Just-in-time (JIT) manufacturing aims to eliminate waste by producing the right goods, in the right quantities, at the right time. This minimizes inventory and improves efficiency. JIT was developed in Japan in the 1970s at Toyota and focuses on continuous improvement. It requires close coordination between all parts of the production process and supply chain. While very effective, JIT provides less buffering against disruptions and requires more stable demand than traditional approaches.
1. Just-in-time (JIT) production aims to eliminate waste by producing goods only as needed, thereby reducing inventory costs and improving productivity.
2. JIT was pioneered by Toyota in the 1950s and became widely adopted in Japanese manufacturing by the 1970s before spreading to other countries.
3. A key element of JIT is the kanban system which uses visual signals to control the flow of materials and trigger production through a manufacturing process.
This document provides information about lean production and just-in-time (JIT) manufacturing. It includes an acknowledgement, index, and sections on what lean production is, JIT, the history and development of JIT, concepts of JIT, and characteristics of JIT. The document was produced by a group of students for their production management and material management class project on lean production and JIT, with a focus on its application to Bisleri company.
1. Technological advances in production management like FMS, CIM, robotics, and CAD have increased flexibility, agility, and responsiveness while reducing changeover times, waste, and promoting cleaner production methods.
2. Robots can work continuously without breaks, ensuring consistency, but they are mechanical devices blind to people and environments and unable to detect their own deterioration.
3. MRP's approach of batch production poses capacity and idle time problems for GT cells that rely on even flow, and reconciling MRP and GT logics is challenging when integrating them.
The Toyota Company is the biggest auto-manufacture in the world. T.docxssusera34210
The Toyota Company is the largest automaker in the world. It employs a customer-focused philosophy called the Toyota Production System (TPS) that emphasizes providing high-quality vehicles at low cost and on-time delivery. TPS also aims to treat employees well and ensure flexibility. Key aspects of TPS include just-in-time production in response to customer demand, continuous improvement through kaizen, and stopping production if a problem is detected. Toyota pioneered lean production methods that minimize waste and overloading of employees to efficiently produce vehicles as ordered.
The document provides an overview of the Toyota Production System and its key principles including the 3Ms - Muda, Muri, Mura. It describes the 7 types of Muda or waste and gives examples. It also explains concepts like Jidoka, Just-in-Time, standardized work, Heijunka and Kaizen that are central to the Toyota Production System for eliminating waste and creating an efficient pull-based production approach. The history and development of the Toyota Production System starting from the 1930s under Kiichiro Toyota and further developed by Taiichi Ohno in the 1950s-60s is briefly outlined.
Just in time - Accounting Theory (ACT - 412) assignment Sonia ma'amMd. Moazzem Hossain
This document provides an overview of the Just In Time (JIT) manufacturing approach. It discusses the history and philosophy of JIT, which aims to eliminate waste by producing minimum quantities of items only when needed. The key elements of JIT include stabilizing production schedules, reducing setup times and lot sizes, and minimizing lead times. Implementing JIT provides benefits like reduced inventory costs, improved quality, and increased flexibility, but also risks if suppliers fail to deliver on time. Overall, JIT is a lean manufacturing strategy that streamlines production through waste elimination.
Productivity improvement is the one of the basic need of every manufacturing industry, so that Just in Time (JIT) is one of the quality tools that are help to improve the productivity. Just in Time (JIT) has been very popular strategy partly because of its success in Japanese manufacturing, Automobile industries. Analysis of wastages is one of the needs of every industry, so we are using the value mapping analysis to check each value-added and non-value-added activity. Just in Time (JIT) is a system that focuses on inventory control, set up time reduction, waste reduction and continuous improvement to achieve operational excellence. In this paper a single case study is doing in the manufacturing company (Towers making). The main objective of this paper to checking each and every activity to achieve the manufacturing time is less than customer order time. Take a pad and pencil and go out on the shop floor. Pick a product and follow it through the entire manufacturing process from raw materials to shipping. Note every activity performed on the product. Do not get a routing slip to see how the process is supposed to go, but accurately record the process including delays, transportation, inspection, storage, etc. After recording time to calculate Available operating time, performance factor, quality rate and overall equipment efficiency. After calculating overall equipment efficiency to compare with international standard and get suggestions to the case company.
The Practice of `Just-in-Time' Production Model in Toyota Automobile Company ...Md.Nazrul Islam
This document provides an overview of just-in-time (JIT) production as used by Toyota Automobile Company in Japan. It discusses the basic concepts of JIT, its history and development at Toyota, key principles such as reducing waste and inventory, and factors contributing to Toyota's success with JIT including an emphasis on continuous improvement, small batch sizes, and reliable suppliers. The document also notes some potential challenges with JIT implementation including high reliance on suppliers and lack of buffer for delays.
Shigeo Shingo was a Japanese engineer and quality expert known as the father of lean manufacturing. He developed key lean concepts like just-in-time production, single-minute exchange of dies (SMED), and poka-yoke. Just-in-time aims to reduce waste by tightly controlling inventory levels. SMED focuses on dramatically reducing changeover times for manufacturing equipment. Poka-yoke uses mechanisms to prevent human errors from resulting in defects. Shingo's teachings transformed Toyota's production system and had a major influence on modern manufacturing practices worldwide.
MIM04_Lean Product Design of Complex Products_Doubravka Vodárková_591551Doubravka Vodárková
1. The document discusses the evolution of manufacturing methods in the automobile industry from craft production to mass production pioneered by Henry Ford and lean production developed by Toyota.
2. It describes how Toyota implemented lean manufacturing principles like just-in-time production and the Toyota Production System to eliminate waste and improve efficiency compared to mass production.
3. The key aspects of lean production highlighted include defining value, organizing an uninterrupted flow, pulling work as needed, and continuously improving to pursue perfection. Toyota focused on eliminating all waste to reduce costs and increase profits through timely production to match demand.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
1) World Class Manufacturing (WCM) originated from the Toyota Production System and focuses on eliminating waste. The seven main types of waste are transportation, inventory, motion, waiting, overproduction, overprocessing, and defects.
2) WCM aims to bring manufacturing close to customers by reducing lead times, improving quality, and implementing total preventative maintenance. Key aspects of WCM include just-in-time production, total quality management, and value stream mapping.
3) India is emerging as a manufacturing hub, with many global companies outsourcing production there due to its large talent pool and improving quality and productivity. Indian companies are adopting global quality standards and winning international awards.
This document discusses just-in-time management. It begins by defining just-in-time manufacturing as eliminating waste to create a manufacturing system responsive to market needs. It was introduced to the US by Ford but adopted and publicized by Toyota. The document then discusses the history and philosophy of JIT, identifying seven types of waste. It notes the differences between JIT and more rigid systems, advantages like minimizing costs and inventory, and disadvantages like reliance on suppliers. It concludes with precautions for implementing JIT like management support, technology resources, and supplier relationships.
The Impact of Lean Production on the Cycle Time: A Case Study of a Welding As...ijsrd.com
The growing global competition is forcing the organisations to reduce the cost for increasing the profit. Lean manufacturing is a powerful tool for attaining this. The history of lean manufacturing starts from the craft production of 1900's. It is evolved through the contributions of F.W. Taylor, Henry Ford, Eiji Toyoda & Taiichi Ohno. The main concept of the lean manufacturing is the reduction in cost by eliminating waste. However, not all lean implementations have produced such results. In this study, a critical examination of lean manufacturing implementation experience at the welding department of a medium size industry located in Kerala, India. . Cycle time reduction is an important way by eliminating or reducing non-value-added activities. To reduce the overall cycle time of manufacturing, the cycle time of each sub-assembly needs to be reduced. Reducing cycle time will have a significant impact on a company's bottom line when implemented. The outcome of this study leads to substantial reduction in cycle time, reduced defects, better utilization of human resource and machines, and reduced cost of maintenance. It has been proved and validated by an empirical relation. The cause and effect diagram is used for analysing the cycle time reduction. The Quality control chart is also used. The improved return on investment (ROI) and reduction in cycle time shows the feasibility. The data for this study were obtained through interviews, Questionnaire survey and archival sources.
The Toyota Production System (TPS) was developed based on concepts from Sakichi Toyoda and Taiichi Ohno to eliminate waste and reduce costs in production. TPS consists of two aspects - "Hard" focuses on manufacturing like Just-In-Time (JIT) and Kanban systems, while "Soft" emphasizes respect for people. Key elements of TPS include JIT, Kanban, Kaizen (continuous improvement), Jidoka (error prevention), and developing strong supplier relationships. The overall goal of TPS is to produce only what is needed when it is needed through a pull-based production approach.
The document discusses key aspects of Lean Manufacturing and the Toyota Production System. It defines Lean as eliminating waste to continuously improve productivity. The Toyota Production System aims to reduce lead times through just-in-time production and autonomation (Jidoka). It emphasizes a pull-based system, continuous flow, and eliminating overproduction and waiting through techniques like kanban cards, poka-yoke, and standardized processes. The system respects people and helps suppliers continuously improve as well.
According to Davenport (2014) social media and health care are c.docxmakdul
Social media is collaborating with healthcare to meet the needs of providers and patients, and is moving toward using analytics to evaluate its value within healthcare. The document instructs the reader to research areas of social media that could benefit from an analytic model combining data and value-based analytics, then evaluate a resource by discussing five major social media stakeholder roles, whether social media could improve medical practice and provide rationale, and concluding with main points.
According to (Fatehi, Gordon & Florida, N.D.) theoretical orient.docxmakdul
According to (Fatehi, Gordon & Florida, N.D.) theoretical orientation represent styles of mind for understanding reality. This theoretical orientation can be organized as a continuum from theoretical constructs that are independent and concrete as with the Behavioral/ CBT theories, to theoretical constructs that are interdependent and abstract as with the Psychodynamic theories (Fatehi, Gordon & Florida, N.D.). Family systems and Humanistic/Existential are theoretical midpoints (Fatehi, Gordon & Florida, N.D.). Trait theory tends to focus on the premise that we are born with traits or characteristics that make us unique and explain our behaviors (Cervone& Pervin, 2019). For example, introversion, extroversion, shyness, agreeableness, kindness, etc. all these innate characteristics that we are born help to explain why we behave in a certain manner according to the situations we face, (Cervone& Pervin, 2019). Psychoanalytic perspective on the other hand focuses on childhood experiences and the unconscious mind which plays a role in our personality development, (Cervone& Pervin, 2019).
According to Freud, (Cervone& Pervin, 2019) our unconscious mind includes all our hidden desires and conflicts which form the root cause of our mental health issues or maladaptive behaviors. The main difference between these two perspectives is that trait theory helps to explain why we behave in a certain manner, whereas psychoanalytic theory only describes the personality and predicting behavior and not really explaining why we behave the way we do. There is no such evident similarity between the two perspectives, but kind of rely on underlying mechanisms to explain personality. Also, there is some degree of subjectivity present in both the perspectives. Trait theories involve subjectivity regarding interpretations of which can be considered as important traits that explain our behaviors, and psychoanalytic theory is subjective and vague in the concepts been used like the unconscious mind. My opinions accord with the visible contrasts between the two, one focused on internal features describing our behaviors in clearer words, whilst other concentrating on unconscious mind in anticipating behavior which is ambiguous and harder to grasp.
References
Cervone, D., & Pervin, L. A. (2019). Personality: Theory and research (14th ed.). Wiley.
Fatehi, M., Gordon, R. M., & Florida, O. A Meta-Theoretical Integration of Psychotherapy Orientations.
.
According to Libertarianism, there is no right to any social service.docxmakdul
According to Libertarianism, there is no right to any social services besides those of a night-watchman state, protecting citizens from harming each other via courts, police, and military.
Consider this town
that decided to remove fire rescue as a basic social service. To benefit from it, one had to pay a yearly fee. Do you think libertarians would generally have to support such a policy in order to be consistent? Why or why not? Also, can you think of any other social services that might no longer exist in a libertarian society? (Btw, none has ever existed).
.
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This document discusses Just-in-Time (JIT) manufacturing, Lean manufacturing, and the Toyota Production System (TPS). It provides a history of manufacturing management approaches and describes Push and Pull systems. Key aspects of JIT include using kanban cards to signal production needs and leveling production schedules. Lean aims to eliminate waste using tools like total productive maintenance and 5S. TPS principles emphasize continuous improvement, problem solving, and respect for employees. The document explores the relationships between these systems and their goals of optimizing production flow.
Just-in-time (JIT) manufacturing aims to eliminate waste by producing the right goods, in the right quantities, at the right time. This minimizes inventory and improves efficiency. JIT was developed in Japan in the 1970s at Toyota and focuses on continuous improvement. It requires close coordination between all parts of the production process and supply chain. While very effective, JIT provides less buffering against disruptions and requires more stable demand than traditional approaches.
1. Just-in-time (JIT) production aims to eliminate waste by producing goods only as needed, thereby reducing inventory costs and improving productivity.
2. JIT was pioneered by Toyota in the 1950s and became widely adopted in Japanese manufacturing by the 1970s before spreading to other countries.
3. A key element of JIT is the kanban system which uses visual signals to control the flow of materials and trigger production through a manufacturing process.
This document provides information about lean production and just-in-time (JIT) manufacturing. It includes an acknowledgement, index, and sections on what lean production is, JIT, the history and development of JIT, concepts of JIT, and characteristics of JIT. The document was produced by a group of students for their production management and material management class project on lean production and JIT, with a focus on its application to Bisleri company.
1. Technological advances in production management like FMS, CIM, robotics, and CAD have increased flexibility, agility, and responsiveness while reducing changeover times, waste, and promoting cleaner production methods.
2. Robots can work continuously without breaks, ensuring consistency, but they are mechanical devices blind to people and environments and unable to detect their own deterioration.
3. MRP's approach of batch production poses capacity and idle time problems for GT cells that rely on even flow, and reconciling MRP and GT logics is challenging when integrating them.
The Toyota Company is the biggest auto-manufacture in the world. T.docxssusera34210
The Toyota Company is the largest automaker in the world. It employs a customer-focused philosophy called the Toyota Production System (TPS) that emphasizes providing high-quality vehicles at low cost and on-time delivery. TPS also aims to treat employees well and ensure flexibility. Key aspects of TPS include just-in-time production in response to customer demand, continuous improvement through kaizen, and stopping production if a problem is detected. Toyota pioneered lean production methods that minimize waste and overloading of employees to efficiently produce vehicles as ordered.
The document provides an overview of the Toyota Production System and its key principles including the 3Ms - Muda, Muri, Mura. It describes the 7 types of Muda or waste and gives examples. It also explains concepts like Jidoka, Just-in-Time, standardized work, Heijunka and Kaizen that are central to the Toyota Production System for eliminating waste and creating an efficient pull-based production approach. The history and development of the Toyota Production System starting from the 1930s under Kiichiro Toyota and further developed by Taiichi Ohno in the 1950s-60s is briefly outlined.
Just in time - Accounting Theory (ACT - 412) assignment Sonia ma'amMd. Moazzem Hossain
This document provides an overview of the Just In Time (JIT) manufacturing approach. It discusses the history and philosophy of JIT, which aims to eliminate waste by producing minimum quantities of items only when needed. The key elements of JIT include stabilizing production schedules, reducing setup times and lot sizes, and minimizing lead times. Implementing JIT provides benefits like reduced inventory costs, improved quality, and increased flexibility, but also risks if suppliers fail to deliver on time. Overall, JIT is a lean manufacturing strategy that streamlines production through waste elimination.
Productivity improvement is the one of the basic need of every manufacturing industry, so that Just in Time (JIT) is one of the quality tools that are help to improve the productivity. Just in Time (JIT) has been very popular strategy partly because of its success in Japanese manufacturing, Automobile industries. Analysis of wastages is one of the needs of every industry, so we are using the value mapping analysis to check each value-added and non-value-added activity. Just in Time (JIT) is a system that focuses on inventory control, set up time reduction, waste reduction and continuous improvement to achieve operational excellence. In this paper a single case study is doing in the manufacturing company (Towers making). The main objective of this paper to checking each and every activity to achieve the manufacturing time is less than customer order time. Take a pad and pencil and go out on the shop floor. Pick a product and follow it through the entire manufacturing process from raw materials to shipping. Note every activity performed on the product. Do not get a routing slip to see how the process is supposed to go, but accurately record the process including delays, transportation, inspection, storage, etc. After recording time to calculate Available operating time, performance factor, quality rate and overall equipment efficiency. After calculating overall equipment efficiency to compare with international standard and get suggestions to the case company.
The Practice of `Just-in-Time' Production Model in Toyota Automobile Company ...Md.Nazrul Islam
This document provides an overview of just-in-time (JIT) production as used by Toyota Automobile Company in Japan. It discusses the basic concepts of JIT, its history and development at Toyota, key principles such as reducing waste and inventory, and factors contributing to Toyota's success with JIT including an emphasis on continuous improvement, small batch sizes, and reliable suppliers. The document also notes some potential challenges with JIT implementation including high reliance on suppliers and lack of buffer for delays.
Shigeo Shingo was a Japanese engineer and quality expert known as the father of lean manufacturing. He developed key lean concepts like just-in-time production, single-minute exchange of dies (SMED), and poka-yoke. Just-in-time aims to reduce waste by tightly controlling inventory levels. SMED focuses on dramatically reducing changeover times for manufacturing equipment. Poka-yoke uses mechanisms to prevent human errors from resulting in defects. Shingo's teachings transformed Toyota's production system and had a major influence on modern manufacturing practices worldwide.
MIM04_Lean Product Design of Complex Products_Doubravka Vodárková_591551Doubravka Vodárková
1. The document discusses the evolution of manufacturing methods in the automobile industry from craft production to mass production pioneered by Henry Ford and lean production developed by Toyota.
2. It describes how Toyota implemented lean manufacturing principles like just-in-time production and the Toyota Production System to eliminate waste and improve efficiency compared to mass production.
3. The key aspects of lean production highlighted include defining value, organizing an uninterrupted flow, pulling work as needed, and continuously improving to pursue perfection. Toyota focused on eliminating all waste to reduce costs and increase profits through timely production to match demand.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
1) World Class Manufacturing (WCM) originated from the Toyota Production System and focuses on eliminating waste. The seven main types of waste are transportation, inventory, motion, waiting, overproduction, overprocessing, and defects.
2) WCM aims to bring manufacturing close to customers by reducing lead times, improving quality, and implementing total preventative maintenance. Key aspects of WCM include just-in-time production, total quality management, and value stream mapping.
3) India is emerging as a manufacturing hub, with many global companies outsourcing production there due to its large talent pool and improving quality and productivity. Indian companies are adopting global quality standards and winning international awards.
This document discusses just-in-time management. It begins by defining just-in-time manufacturing as eliminating waste to create a manufacturing system responsive to market needs. It was introduced to the US by Ford but adopted and publicized by Toyota. The document then discusses the history and philosophy of JIT, identifying seven types of waste. It notes the differences between JIT and more rigid systems, advantages like minimizing costs and inventory, and disadvantages like reliance on suppliers. It concludes with precautions for implementing JIT like management support, technology resources, and supplier relationships.
The Impact of Lean Production on the Cycle Time: A Case Study of a Welding As...ijsrd.com
The growing global competition is forcing the organisations to reduce the cost for increasing the profit. Lean manufacturing is a powerful tool for attaining this. The history of lean manufacturing starts from the craft production of 1900's. It is evolved through the contributions of F.W. Taylor, Henry Ford, Eiji Toyoda & Taiichi Ohno. The main concept of the lean manufacturing is the reduction in cost by eliminating waste. However, not all lean implementations have produced such results. In this study, a critical examination of lean manufacturing implementation experience at the welding department of a medium size industry located in Kerala, India. . Cycle time reduction is an important way by eliminating or reducing non-value-added activities. To reduce the overall cycle time of manufacturing, the cycle time of each sub-assembly needs to be reduced. Reducing cycle time will have a significant impact on a company's bottom line when implemented. The outcome of this study leads to substantial reduction in cycle time, reduced defects, better utilization of human resource and machines, and reduced cost of maintenance. It has been proved and validated by an empirical relation. The cause and effect diagram is used for analysing the cycle time reduction. The Quality control chart is also used. The improved return on investment (ROI) and reduction in cycle time shows the feasibility. The data for this study were obtained through interviews, Questionnaire survey and archival sources.
The Toyota Production System (TPS) was developed based on concepts from Sakichi Toyoda and Taiichi Ohno to eliminate waste and reduce costs in production. TPS consists of two aspects - "Hard" focuses on manufacturing like Just-In-Time (JIT) and Kanban systems, while "Soft" emphasizes respect for people. Key elements of TPS include JIT, Kanban, Kaizen (continuous improvement), Jidoka (error prevention), and developing strong supplier relationships. The overall goal of TPS is to produce only what is needed when it is needed through a pull-based production approach.
The document discusses key aspects of Lean Manufacturing and the Toyota Production System. It defines Lean as eliminating waste to continuously improve productivity. The Toyota Production System aims to reduce lead times through just-in-time production and autonomation (Jidoka). It emphasizes a pull-based system, continuous flow, and eliminating overproduction and waiting through techniques like kanban cards, poka-yoke, and standardized processes. The system respects people and helps suppliers continuously improve as well.
Similar to Quality Assurance Plan Template for Recreation and Wellness Intranet.docx (19)
According to Davenport (2014) social media and health care are c.docxmakdul
Social media is collaborating with healthcare to meet the needs of providers and patients, and is moving toward using analytics to evaluate its value within healthcare. The document instructs the reader to research areas of social media that could benefit from an analytic model combining data and value-based analytics, then evaluate a resource by discussing five major social media stakeholder roles, whether social media could improve medical practice and provide rationale, and concluding with main points.
According to (Fatehi, Gordon & Florida, N.D.) theoretical orient.docxmakdul
According to (Fatehi, Gordon & Florida, N.D.) theoretical orientation represent styles of mind for understanding reality. This theoretical orientation can be organized as a continuum from theoretical constructs that are independent and concrete as with the Behavioral/ CBT theories, to theoretical constructs that are interdependent and abstract as with the Psychodynamic theories (Fatehi, Gordon & Florida, N.D.). Family systems and Humanistic/Existential are theoretical midpoints (Fatehi, Gordon & Florida, N.D.). Trait theory tends to focus on the premise that we are born with traits or characteristics that make us unique and explain our behaviors (Cervone& Pervin, 2019). For example, introversion, extroversion, shyness, agreeableness, kindness, etc. all these innate characteristics that we are born help to explain why we behave in a certain manner according to the situations we face, (Cervone& Pervin, 2019). Psychoanalytic perspective on the other hand focuses on childhood experiences and the unconscious mind which plays a role in our personality development, (Cervone& Pervin, 2019).
According to Freud, (Cervone& Pervin, 2019) our unconscious mind includes all our hidden desires and conflicts which form the root cause of our mental health issues or maladaptive behaviors. The main difference between these two perspectives is that trait theory helps to explain why we behave in a certain manner, whereas psychoanalytic theory only describes the personality and predicting behavior and not really explaining why we behave the way we do. There is no such evident similarity between the two perspectives, but kind of rely on underlying mechanisms to explain personality. Also, there is some degree of subjectivity present in both the perspectives. Trait theories involve subjectivity regarding interpretations of which can be considered as important traits that explain our behaviors, and psychoanalytic theory is subjective and vague in the concepts been used like the unconscious mind. My opinions accord with the visible contrasts between the two, one focused on internal features describing our behaviors in clearer words, whilst other concentrating on unconscious mind in anticipating behavior which is ambiguous and harder to grasp.
References
Cervone, D., & Pervin, L. A. (2019). Personality: Theory and research (14th ed.). Wiley.
Fatehi, M., Gordon, R. M., & Florida, O. A Meta-Theoretical Integration of Psychotherapy Orientations.
.
According to Libertarianism, there is no right to any social service.docxmakdul
According to Libertarianism, there is no right to any social services besides those of a night-watchman state, protecting citizens from harming each other via courts, police, and military.
Consider this town
that decided to remove fire rescue as a basic social service. To benefit from it, one had to pay a yearly fee. Do you think libertarians would generally have to support such a policy in order to be consistent? Why or why not? Also, can you think of any other social services that might no longer exist in a libertarian society? (Btw, none has ever existed).
.
According to Kirk (2016), most of your time will be spent working wi.docxmakdul
Kirk (2016) identified four data action groups for working with data: data acquisition, data examination, data transformation, and data exploration. Data acquisition involves gathering the raw material.
According to cultural deviance theorists like Cohen, deviant sub.docxmakdul
This document discusses how cultural deviance theorists view subcultures as having their own value systems that oppose mainstream society's values. It asks how rap culture has perpetuated these subcultural values and promoted violence and crime among young men. It also asks how theorists would explain the persistence and popularity of rap culture given its deviation from conventional norms and values, citing examples from Tupac Shakur and 50 Cent. The document requests a 750-1000 word essay on this topic supported by 3-5 scholarly sources.
According to Gray et al, (2017) critical appraisal is the proce.docxmakdul
According to Gray et al, (2017) “critical appraisal is the process of carefully and systematically assessing the outcome of all aspects of a study, judging the strengths, limitation, trustworthiness, meaning, and its applicability to practice”. The steps involved in critical appraisal include “identifying the study's elements or processes, determining the strengths and weaknesses, and evaluating the credibility and trustworthiness of the study” (Gray et al., 2017). The journal article chosen is
“change in staff perspectives on indwelling urinary catheter use after implementation of an intervention bundle in seven Swiss acute care hospitals: a result of a before/after survey study”
by Niederhauser, Zullig, Marschall, Schweiger, John, Kuster, and Schwappach. (2019).
Identifying the study's elements or processes
A significant issue addressed by the study is the nursing “staffs’ perspective towards indwelling urinary catheter (IUC) and evaluation of changes in their perspectives towards indwelling urinary catheter (IUC) use after implementation of a 1-year quality improvement project” (Niederhauser et al, 2019). the process of the research was conducted in “seven acute care hospitals in Switzerland” (Niederhauser et al, 2019). With a “sample size of 1579 staff members participated in the baseline survey and 1527 participated in the follow-up survey. The survey captures all nursing and medical staff members working at the participating hospitals at the time of survey distribution, using a multimodal intervention bundle, consisting of an evidence-based indication list, daily re-evaluation of ongoing catheter needs, and staff training were implemented over the course of 9 months” (Niederhauser et al, 2019).
Determining the strengths and weaknesses
A great strength of the study is a large sample size of over 1000 and the use of well-constructed and easy-to-read heading for better understanding. Also, the use of figures, graphs, and tables make the article less cumbersome to read. Another strength is the implementation of the ethical principles of research by enabling informed consent and voluntary participation as well as confidentiality and anonymity of information.
On the other hand, the study has several weaknesses such as the use of “the theory of planned behavior to model intentions to reduce catheter use, but it is not possible to know if changes observed in staff perception led to a true change in practice” (Niederhauser et al, 2019). Another weakness of the study is the repeated survey design which allows assessment of changes in staff perspectives after implementation of a quality improvement intervention but the sustainability of the effects over time could not be evaluated.
Evaluating the credibility and trustworthiness of the study
Although the study used a larger sample size of over 1000, the “use of a single-group design and no control group weakens its credibility and trustworthiness because there are no causal inferences abou.
According to article Insecure Policing Under Racial Capitalism by.docxmakdul
According to article "Insecure: Policing Under Racial Capitalism" by Robin D.G. Kelley and the article "Yes, We Mean Literally Abolish the Police" by Mariame Kaba, the police are no longer an attribute of safety and security. The facts that are given in the articles are similar within the meaning of the content. The police do not serve for the benefit of the whole community. Racial and class division according to social status became the basis of lawlessness and injustice on the part of the police. Kaaba in his article cites several stories confirming the racial hatred that led to the murder of African Americans. After that, people massively took to the streets of many cities in several countries, demanding an end to racial discrimination and the murder of African Americans. Kelley's article describes numerous manifestos where demands for police abolition have been raised, but all have been rejected. In the protests, people suggested that they themselves would take care of each other, which the police could not do. I understand that the police system is far from ideal and the permissiveness of police representatives should be limited. Ruth Wilson Gilmore says that "capitalism is never racial." I think that this phrase she wants to say that the stronger people take away from the weak people and use them for their own well-being. And since the roots of history go back to slavery, then African Americans are the weak link. In this regard, a huge number of prisons and police power appeared. The common and small class do not feel protected, on the contrary; they expect a threat from people who must protect them. The police take an oath to respect and protect human and civil rights and freedoms, regardless of skin color and social status. If this does not happen, then you need to change the system.
.
Abstract In this experiment, examining the equivalence poi.docxmakdul
Abstract:
In this experiment, examining the equivalence point in a titration with NaOH identified an
unknown diprotic acid. The molar mass of the unknown was found to be 100.78 g/mol with pKa
values of 2.6 and 6.6. The closest diprotic acid to this molar mass is malonic acid with a percent
error of 3.48%.
Introduction:
The purpose of the experiment was to determine the identity of an unknown diprotic acid. The
equivalence and half-equivalence points on the titration curve give important information, which
can then be used to calculate the molecular weight of the acid. The equivalence point is the
moment when there is an equal amount of acid and NaOH. Knowing the concentration and
volume of added NaOH at that moment, the amount of moles of NaOH can be determined. The
amount of moles of NaOH is then equivalent to the amount of acid present. Dividing the original
mass of the acid by the moles present gave the molar mass of the acid.
In this particular titration, there were two equivalence points as the acid is diprotic.
Consequently, the titration curve had two inflection points. The acid dissociated in a two-step
process with the net reaction being:
H2X + 2 NaOH Na2X + 2 H2O
This was important to take into consideration when calculating the molar mass of the diprotic
acid. If the first equivalence point was to be used, the ratio of acid to NaOH was 1:1. If the
second equivalence point was used in the calculations, the ratio became 1:2 as now a second
set of NaOH molecules reacted with the acid to dissociate the second hydrogen ion. The
titration curve also showed the pKa values of the acid. This happened at the half-equivalence
point where half of the acid was dissociated to its conjugate base (again, because of the diprotic
properties of the acid, this happens twice on the curve). The Henderson Hasselbalch equation
pH = pKa+log(A-/HA)
shows that at the half-equivalence point, the pKa value equaled the pH and was visually
represented by the flattest part of the graphs.
Discussion:
The titration graph showed that the data was consistent with the methodology and proved to be
an precise execution of the procedure and followed the expected shape. One possible source of
error was the actual mass of the acid solid. While transferring the dust from the weigh boat to
the solution, some remained in the weigh boat this could have altered the molar mass
calculations and shifted the final the final mass lighter than actual.
The Vernier pH method was definitely a much more concrete method of interpreting the results.
It was possible to see which addition of NaOH gave the greatest increase in pH ( greatest 1st
derivative of the titration graph). The relying solely on the indicator color would make it very
difficult to judge at which precise point the color shifted most, as the shift was a lot more gradual
compared to the precise numbers. This may have been a more reliable method if there was a
de.
ACC 403- ASSIGNMENT 2 RUBRIC!!!
Points: 280
Assignment 2: Audit Planning and Control
Criteria
UnacceptableBelow 60% F
Meets Minimum Expectations60-69% D
Fair70-79% C
Proficient80-89% B
Exemplary90-100% A
1. Outline the critical steps inherent in planning an audit and designing an effective audit program. Based upon the type of company selected, provide specific details of the actions that the company should undertake during planning and designing the audit program.
Weight: 15%
Did not submit or incompletely outlined the critical steps inherent in planning an audit and designing an effective audit program. Did not submit or incompletely provided specific details of the actions that the company should undertake during planning and designing the audit program, based upon the type of company selected.
Insufficiently outlined the critical steps inherent in planning an audit and designing an effective audit program. Insufficiently provided specific details of the actions that the company should undertake during planning and designing the audit program, based upon the type of company selected.
Partially outlined the critical steps inherent in planning an audit and designing an effective audit program. Partially provided specific details of the actions that the company should undertake during planning and designing the audit program, based upon the type of company selected.
Satisfactorily outlined the critical steps inherent in planning an audit and designing an effective audit program. Satisfactorily provided specific details of the actions that the company should undertake during planning and designing the audit program, based upon the type of company selected.
Thoroughly outlined the critical steps inherent in planning an audit and designing an effective audit program. Thoroughly provided specific details of the actions that the company should undertake during planning and designing the audit program, based upon the type of company selected.
2. Examine at least two (2) performance ratios that you would use in order to determine which analytical tests to perform. Identify the accounts that you would test, and select at least three (3) analytical procedures that you would use in your audit.
Weight: 15%
Did not submit or incompletely examined at least two (2) performance ratios that you would use in order to determine which analytical tests to perform. Did not submit or incompletely identified the accounts that you would test; did not submit or incompletely selected at least three (3) analytical procedures that you would use in your audit.
Insufficiently examined at least two (2) performance ratios that you would use in order to determine which analytical tests to perform. Insufficiently identified the accounts that you would test; insufficiently selected at least three (3) analytical procedures that you would use in your audit.
Partially examined at least two (2) performance ratios that you would use in order to determine which analytical tests .
ACC 601 Managerial Accounting Group Case 3 (160 points) .docxmakdul
ACC 601 Managerial Accounting
Group Case 3 (160 points)
Instructions:
1. As a group, complete the following activities in good form. Use excel or
word only. Provide all supporting calculations to show how you arrived at
your numbers
2. Add only the names of group members who participated in the completion
of this assignment.
3. Submit only one copy of your completed work via Moodle. Do not send it to
me by email.
4. Due: No later than the last day of Module 7. Please note that your professor
has the right to change the due date of this assignment.
Part A: Capital Budgeting Decisions
Chee Company has gathered the following data on a proposed investment project:
Investment required in equipment ............. $240,000
Annual cash inflows .................................. $50,000
Salvage value ............................................ $0
Life of the investment ............................... 8 years
Required rate of return .............................. 10%
Assets will be depreciated using straight
line depreciation method
Required:
Using the net present value and the internal rate of return methods, is this a good investment?
Part B: Master Budget
You have just been hired as a new management trainee by Earrings Unlimited, a distributor of
earrings to various retail outlets located in shopping malls across the country. In the past, the
company has done very little in the way of budgeting and at certain times of the year has
experienced a shortage of cash. Since you are well trained in budgeting, you have decided to
prepare a master budget for the upcoming second quarter. To this end, you have worked with
accounting and other areas to gather the information assembled below.
The company sells many styles of earrings, but all are sold for the same price—$10 per pair. Actual
sales of earrings for the last three months and budgeted sales for the next six months follow (in pairs
of earrings):
January (actual) 20,000 June (budget) 50,000
February (actual) 26,000 July (budget) 30,000
March (actual) 40,000 August (budget) 28,000
April (budget) 65,000 September (budget) 25,000
May (budget) 100,000
The concentration of sales before and during May is due to Mother’s Day. Sufficient inventory should
be on hand at the end of each month to supply 40% of the earrings sold in the following month.
Suppliers are paid $4 for a pair of earrings. One-half of a month’s purchases is paid for in the month
of purchase; the other half is paid for in the following month. All sales are on credit. Only 20% of a
month’s sales are collected in the month of sale. An additional 70% is collected in the following
month, and the remaining 10% is collected in the second month following sale. Bad debts have been
negligible.
Monthly operating expenses for the company are given below:
Variable:
Sales commissions 4 % of sales
.
Academic Integrity A Letter to My Students[1] Bill T.docxmakdul
Academic Integrity:
A Letter to My Students[1]
Bill Taylor
Professor of Political Science
Oakton Community College
Des Plaines, IL 60016
[email protected]
Here at the beginning of the semester I want to say something to you about academic integrity.[2]
I’m deeply convinced that integrity is an essential part of any true educational experience, integrity on
my part as a faculty member and integrity on your part as a student.
To take an easy example, would you want to be operated on by a doctor who cheated his way through
medical school? Or would you feel comfortable on a bridge designed by an engineer who cheated her
way through engineering school. Would you trust your tax return to an accountant who copied his
exam answers from his neighbor?
Those are easy examples, but what difference does it make if you as a student or I as a faculty member
violate the principles of academic integrity in a political science course, especially if it’s not in your
major?
For me, the answer is that integrity is important in this course precisely because integrity is important in
all areas of life. If we don’t have integrity in the small things, if we find it possible to justify plagiarism or
cheating or shoddy work in things that don’t seem important, how will we resist doing the same in areas
that really do matter, in areas where money might be at stake, or the possibility of advancement, or our
esteem in the eyes of others?
Personal integrity is not a quality we’re born to naturally. It’s a quality of character we need to nurture,
and this requires practice in both meanings of that word (as in practice the piano and practice a
profession). We can only be a person of integrity if we practice it every day.
What does that involve for each of us in this course? Let’s find out by going through each stage in the
course. As you’ll see, academic integrity basically requires the same things of you as a student as it
requires of me as a teacher.
I. Preparation for Class
What Academic Integrity Requires of Me in This Area
With regard to coming prepared for class, the principles of academic integrity require that I come having
done the things necessary to make the class a worthwhile educational experience for you. This requires
that I:
reread the text (even when I’ve written it myself),
clarify information I might not be clear about,
prepare the class with an eye toward what is current today (that is, not simply rely on past
notes), and
plan the session so that it will make it worth your while to be there.
What Academic Integrity Requires of You in This Area
With regard to coming prepared for class, the principles of academic integrity suggest that you have a
responsibility to yourself, to me, and to the other students to do the things necessary to put yourself in
a position to make fruitful contributions to class discussion. This will require you to:
read the text before.
Access the Center for Disease Control and Prevention’s (CDC’s) Nu.docxmakdul
Access the Center for Disease Control and Prevention’s (CDC’s)
“Nutrition, Physical Activity, and Obesity: Data, Trends and Maps”
database. Choose a state other than your home state and compare their health status and associated behaviors. What behaviors lead to the current obesity status?
Initial discussion post should be approximately 300 words. Any sources used should be cited in APA format.
.
According to DSM 5 This patient had very many symptoms that sugg.docxmakdul
According to DSM 5 This patient had very many symptoms that suggested Major Depressive Disorder.
Objective(s)
Analyze psychometric properties of assessment tools
Evaluate appropriate use of assessment tools in psychotherapy
Compare assessment tools used in psychotherapy
.
Acceptable concerts include professional orchestras, soloists, jazz,.docxmakdul
Acceptable concerts include professional orchestras, soloists, jazz, Broadway musicals and instrumental or vocal ensembles, and comparable college or community groups performing music relevant to the content of this class. (Optionally, either your concert report
or
your concert review - but not both unless advance permission is given - may be based on a concert of non-western music selected from events on the concert list.)
Acceptable concerts include the following:
• Symphony orchestras • Concert bands and wind ensembles • Chamber Music (string quartets, brass and woodwind quintets, etc.) • Solo recitals (piano, voice, etc.) • Choral concerts • Early music concerts • Non-western music • Some jazz concerts • Opera• Broadway Musicals• Flamenco• Ballet• Tango
Assignment Format
The following are required on the concert review assignment and, thus, may affect your grade.
• Must be typed• Must be double-spaced• Must be between
2 and 4 pages
in length
not including the cover sheet
.• Must use conventional size and formatting of text - e.g. 10-12 point serif or sans serif fonts with normal margins. • Must include the printed program from the concert and/or your ticket stubs. Photocopies are unacceptable. (Contact me at least 24 hours before due date if any materials are unavailable.)• All materials (text, program, ticket stub) must be
stapled
together securely. Folded corners, paper clips, etc. instead of staples will not be accepted.• Careful editing, proofreading, and spelling are expected, although minor errors will not affect your grade.
Papers that do not follow these format guidelines may be returned for resubmission, and late penalties will apply.
Concert Review Assignment Content
I. Cover Sheet:
Include the following on a cover sheet attached to the front of your review:
• Title or other description of the event/performers you heard, along with the date and location of the performance. For example:
New World Symphony Orchestra
1258 Lincoln Road
Saturday, June 5, 2013
Lincoln Road Theater, Miami Beach
• Your name, assignment submission date, course. For example:
Pat Romero
October 31, 2013
Humanities 1020 MWF 8:05 a.m.
II. Descriptions
The main body of the concert review should include brief discussions of
three of the
pieces
in the concert you attend. In most cases, a single paragraph for each piece should be sufficient, although you may wish to break descriptions of longer pieces into separate short paragraphs, one per movement.
Your description of each piece (song) should include:
• The title of the piece and the composer's name if possible, as listed in the concert program.• A brief description of your reaction to the piece. For example:
When the piece started I thought it was going to be slow and boring, but the faster section in the first movement made it more exciting. A really great flute solo full of fast and high notes in the third movement caught my attention. I'm not sure, but I thought that som.
ACA was passed in 2010, under the presidency of Barack Obama. Pr.docxmakdul
ACA was passed in 2010, under the presidency of Barack Obama. Prior to this new act, there were plenty of votes that did not agree with the notion of accessible insurance. Before 2010, The private sector had been given coverage in such a way that Milstead and Short (2019) called it sickness insurance; meaning companies will risk incurring medical expenses as long as it was balanced by healthy people. They were doing so by excluding people that had pre-existing conditions, becoming a very solvent business (Milstead & Short, 2019). After ACA was passed that was no longer the case. When President Trump came into term he did so by bringing his own healthcare agenda, which attempted to repeal ACA, but ultimately failed to come up with a replacement.
In 2016, the Republican's party platform was to repeal ACA, while continuing Medicare and Medicaid, but on the other hand, democrats put down that Obamacare is a step towards the goals of universal health care, and that this was just the beginning (Physicians for a National Health Program, n.d.). As for the cost analysis of repealing the Affordable Care Act, this would increase the number of uninsured people by 23 million, and it will cost about 350 billion through 2027, as well as creating costly coverage provisions to replace it (Committee for a Responsible Federal Budget, 2017).
(2 references required)
.
Access the FASB website. Once you login, click the FASB Accounting S.docxmakdul
Access the FASB website. Once you login, click the FASB Accounting Standards Codification link. Review the materials in the FASB Codification, especially the links on the left side column. Next, write a 1-page memo to a friend introducing and explaining this new accounting research resource that you have found. Provide at least one APA citation to the FASB Codification and reference that citation using the APA guidelines.
.
Academic Paper Overview This performance task was intended to asse.docxmakdul
This document provides an overview of an academic paper performance task intended to assess students' ability to conduct scholarly research, articulate an evidence-based argument, and effectively communicate a conclusion. Specifically, the performance task evaluates students' capacity to generate a focused research question, explore relationships between multiple scholarly works, develop and support their own argument using relevant evidence, and integrate sources while distinguishing their own voice.
Academic Research Team Project PaperCOVID-19 Open Research Datas.docxmakdul
Academic Research Team Project Paper
COVID-19 Open Research Dataset Challenge (CORD-19)
An AI challenge with AI2, CZI, MSR, Georgetown, NIH & The White House
(1) FULL-LENGTH PROJECT
Dataset Description
In response to the COVID-19 pandemic, the White House and a coalition of leading research groups have prepared the COVID-19 Open Research Dataset (CORD-19). CORD-19 is a resource of over 44,000 scholarly articles, including over 29,000 with full text, about COVID-19, SARS-CoV-2, and related corona viruses. This freely available dataset is provided to the global research community to apply recent advances in natural language processing and other AI techniques to generate new insights in support of the ongoing fight against this infectious disease. There is a growing urgency for these approaches because of the rapid acceleration in new coronavirus literature, making it difficult for the medical research community to keep up.
Call to Action
We are issuing a call to action to the world's artificial intelligence experts to develop text and data mining tools that can help the medical community develop answers to high priority scientific questions. The CORD-19 dataset represents the most extensive machine-readable coronavirus literature collection available for data mining to date. This allows the worldwide AI research community the opportunity to apply text and data mining approaches to find answers to questions within, and connect insights across, this content in support of the ongoing COVID-19 response efforts worldwide. There is a growing urgency for these approaches because of the rapid increase in coronavirus literature, making it difficult for the medical community to keep up.
A list of our initial key questions can be found under the
Tasks
section of this dataset. These key scientific questions are drawn from the NASEM’s SCIED (National Academies of Sciences, Engineering, and Medicine’s Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats)
research topics
and the World Health Organization’s
R&D Blueprint
for COVID-19.
Many of these questions are suitable for text mining, and we encourage researchers to develop text mining tools to provide insights on these questions.
In this project, you will follow your own interests to create a portfolio worthy single-frame viz or multi-frame data story that will be shared in your presentation. You will use all the skills taught in this course to complete this project step-by-step, with guidance from your instructors along the way. You will first create a project proposal to identify your goals for the project, including the question you wish to answer or explore with data. You will then find data that will provide the information you are seeking. You will then import that data into Tableau and prepare it for analysis. Next, you will create a dashboard that will allow you to explore the data in-depth and identify meaningful insights. You will then give structure .
AbstractVoice over Internet Protocol (VoIP) is an advanced t.docxmakdul
Abstract
Voice over Internet Protocol (VoIP) is an advanced telecommunication technology which transfers the voice/video over
high speed network that provides advantages of flexibility, reliability and cost efficient advanced telecommunication
features. Still the issues related to security are averting many organizations to accept VoIP cloud environment due to
security threats, holes or vulnerabilities. So, the novel secured framework is absolutely necessary to prevent all kind of
VoIP security issues. This paper points out the existing VoIP cloud architecture and various security attacks and issues
in the existing framework. It also presents the defense mechanisms to prevent the attacks and proposes a new security
framework called Intrusion Prevention System (IPS) using video watermarking and extraction technique and Liveness
Voice Detection (LVD) technique with biometric features such as face and voice. IPSs updated with new LVD features
protect the VoIP services not only from attacks but also from misuses.
A Comprehensive Survey of Security Issues and
Defense Framework for VoIP Cloud
Ashutosh Satapathy* and L. M. Jenila Livingston
School of Computing Science and Engineering, VIT University, Chennai - 600127, Tamil Nadu, India;
[email protected], [email protected]
Keywords: Defense Mechanisms, Liveness Voice Detection, VoIP Cloud, Voice over Internet Protocol, VoIP Security Issues
1. Introduction
The rapid progress of VoIP over traditional services is
led to a situation that is common to many innovations
and new technologies such as VoIP cloud and peer to
peer services like Skype, Google Hangout etc. VoIP is the
technology that supports sending voice (and video) over
an Internet protocol-based network1,2. This is completely
different than the public circuit-switched telephone net-
work. Circuit switching network allocates resources to
each individual call and path is permanent throughout
the call from start to end. Traditional telephony services
are provided by the protocols/components such as SS7, T
carriers, Plain Old Telephone Service (POTS), the Public
Switch Telephone Network (PSTN), dial up, local loops
and anything under International Telecommunication
Union. IP networks are based on packet switching and
each packet follows different path, has its own header and
is forwarded separately by routers. VoIP network can be
constructed in various ways by using both proprietary
protocols and protocols based on open standards.
1.1 VoIP Layer Architecture
VoIP communication system typically consist of a front
end platform (soft-phone, PBX, gateway, call manager),
back end platform (server, CPU, storage, memory, net-
work) and intermediate platforms such as VoIP protocols,
database, authentication server, web server, operating sys-
tems etc. It is mainly divided into five layers as shown in
Figure1.
1.2 VoIP Cloud Architecture
VoIP cloud is the framework for delivering telephony
services in which resourc.
This study examined a problem, used a particular method to do so, and found results that were interpreted. It concluded by recommending future research on the topic.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
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Reimagining Your Library Space: How to Increase the Vibes in Your Library No ...Diana Rendina
Librarians are leading the way in creating future-ready citizens – now we need to update our spaces to match. In this session, attendees will get inspiration for transforming their library spaces. You’ll learn how to survey students and patrons, create a focus group, and use design thinking to brainstorm ideas for your space. We’ll discuss budget friendly ways to change your space as well as how to find funding. No matter where you’re at, you’ll find ideas for reimagining your space in this session.
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
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How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
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Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
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Chapter wise All Notes of First year Basic Civil Engineering.pptxDenish Jangid
Chapter wise All Notes of First year Basic Civil Engineering
Syllabus
Chapter-1
Introduction to objective, scope and outcome the subject
Chapter 2
Introduction: Scope and Specialization of Civil Engineering, Role of civil Engineer in Society, Impact of infrastructural development on economy of country.
Chapter 3
Surveying: Object Principles & Types of Surveying; Site Plans, Plans & Maps; Scales & Unit of different Measurements.
Linear Measurements: Instruments used. Linear Measurement by Tape, Ranging out Survey Lines and overcoming Obstructions; Measurements on sloping ground; Tape corrections, conventional symbols. Angular Measurements: Instruments used; Introduction to Compass Surveying, Bearings and Longitude & Latitude of a Line, Introduction to total station.
Levelling: Instrument used Object of levelling, Methods of levelling in brief, and Contour maps.
Chapter 4
Buildings: Selection of site for Buildings, Layout of Building Plan, Types of buildings, Plinth area, carpet area, floor space index, Introduction to building byelaws, concept of sun light & ventilation. Components of Buildings & their functions, Basic concept of R.C.C., Introduction to types of foundation
Chapter 5
Transportation: Introduction to Transportation Engineering; Traffic and Road Safety: Types and Characteristics of Various Modes of Transportation; Various Road Traffic Signs, Causes of Accidents and Road Safety Measures.
Chapter 6
Environmental Engineering: Environmental Pollution, Environmental Acts and Regulations, Functional Concepts of Ecology, Basics of Species, Biodiversity, Ecosystem, Hydrological Cycle; Chemical Cycles: Carbon, Nitrogen & Phosphorus; Energy Flow in Ecosystems.
Water Pollution: Water Quality standards, Introduction to Treatment & Disposal of Waste Water. Reuse and Saving of Water, Rain Water Harvesting. Solid Waste Management: Classification of Solid Waste, Collection, Transportation and Disposal of Solid. Recycling of Solid Waste: Energy Recovery, Sanitary Landfill, On-Site Sanitation. Air & Noise Pollution: Primary and Secondary air pollutants, Harmful effects of Air Pollution, Control of Air Pollution. . Noise Pollution Harmful Effects of noise pollution, control of noise pollution, Global warming & Climate Change, Ozone depletion, Greenhouse effect
Text Books:
1. Palancharmy, Basic Civil Engineering, McGraw Hill publishers.
2. Satheesh Gopi, Basic Civil Engineering, Pearson Publishers.
3. Ketki Rangwala Dalal, Essentials of Civil Engineering, Charotar Publishing House.
4. BCP, Surveying volume 1
Chapter wise All Notes of First year Basic Civil Engineering.pptx
Quality Assurance Plan Template for Recreation and Wellness Intranet.docx
1. Quality Assurance Plan Template for Recreation and Wellness
Intranet Project
III. Managerial Process
3.1.6. Quality Assurance Plan
1.0 Introduction
(Explain the purpose and value of managing project quality)
2.0 Quality Assurance Processes
2.1 Planning Quality Management
2.2 Performing Quality Assurance
2.2.1 Audit Process
2.3 Performing Quality Control
2.3.1 Tools and Techniques
2.4 Evaluation (testing) Process
2.5 Quality Improvement (Six Sigma)
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346
14 LEAN SUPPLY CHAINS
Learning Objectives
LO14-1 Explain what lean production is.
LO14-2 Illustrate how lean concepts can be applied to supply
chain processes.
LO14-3 Analyze supply chain processes using value stream
mapping.
LO14-4 Apply lean concepts to service processes.
FOR LEAN FACTORIES, NO BUFFER
As seen in the diagram (right), the just-in-time approach to
manufacturing has swept the world’s factories over the
past two decades, resulting in a major reduction in inventory at
U.S. companies. But some manufacturers think it
has gone too far and that having a little extra padding might be
a healthier option.
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EXTENSIVE DAMAGE SHOWN AT THE SENDAI AIRPORT
FOLLOWING THE 9.0 MAGNITUDE EARTHQUAKE AND
TSUNAMI THAT ROCKED JAPAN IN
2011.
Although being lean helps manufacturers hold down costs by
keeping stockpiles of components and finished
3. goods low, it can leave them high and dry if production supplies
don’t arrive as expected, a risk highlighted by the
parts shortages caused by the earthquake and tsunami in Japan.
The March 11, 2011, disaster that damaged
factories and hobbled ports in Japan has thrown the situation
into sharp relief. The disruptions quickly radiated
out, putting kinks in the global supply chains of several
industries. Auto plants in the midwest United States and
electronics factories across Asia scrambled to find substitutes
for Japanese-made parts. Many other industries
say they are still assessing how the disruptions will filter back
to them.
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347
Closer to the Bone
INVENTORIES AT U.S. COMPANIES, RELATIVE TO
DEMAND, HAVE BEEN TRENDING LOWER FOR MORE
THAN A DECADE, PARTLY REFLECTING THE
INFLUENCE OF JUST-IN-TIME MANUFACTURING.
STOCKPILES SPIKED DURING THE RECESSION,
HOWEVER, AS PLUNGING DEMAND LEFT
FACTORIES STUCK WITH UNSOLD GOODS. AS A RESULT,
4. SOME OF THEM ARE HESITANT TO RAMP UP AS THE
ECONOMY RECOVERS.
Steps factories are taking to prevent disruptions:
Sources: Commerce Dept.; WSJ reporting.
Just-in-time makes sense, but it makes supply chains vulnerable
to disruptions, so what we’re seeing now is
theoretical concepts being adapted to meet the practical world.
Nobody expects manufacturers to revert to their
old ways of piling up masses of parts and products, but many
manufacturers may have gotten stretched too thin in
recent years.
Source: Adapted from Timothy Aeppel, The Wall Street Journal,
April 29, 2011.
LO14–1
Explain what lean production is.
LEAN PRODUCTION
The most significant operations and supply management
approach of the past 50 years is lean production. In the context
of supply
chains, lean production refers to a focus on eliminating as much
waste as possible. Moves that are not needed, unnecessary
processing steps, and excess inventory in the supply chain are
targets for improvement during the learning process. Some
consultants in industry have coined the phrase value chain to
refer to the concept that each step in the supply chain processes
that
delivers products and services to customers should create value.
If a step does not create value, it should be removed from the
process. Lean production may be one of the best tools for
implementing green strategies in manufacturing and service
5. processes.
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Lean production
Integrated activities designed to achieve high-volume, high-
quality production using minimal inventories of raw materials,
work-in-
process, and finished goods.
The basis of lean thinking came from the just-in-time (JIT)
production concepts pioneered in Japan at Toyota. Even though
JIT
gained worldwide prominence in the 1970s, some of its
philosophy can be traced to the early 1900s in the United States.
Henry
Ford used JIT concepts as he streamlined his moving assembly
lines to make automobiles. For example, to eliminate waste, he
used
the bottom of the packing crates for car seats as the floor board
of the car. Although elements of JIT were being used by
Japanese
industry as early as the 1930s, it was not fully refined until the
1970s when Tai-ichi Ohno of Toyota Motors used JIT to take
Toyota’s cars to the forefront of delivery time and quality.
Customer value, in the context of lean production, is defined as
something for which the customer is willing to pay. Value-
adding activities transform materials and information into
something the customer wants. Non–value-adding activities
6. consume
resources and do not directly contribute to the end result desired
by the customer. Waste, therefore, is defined as anything that
does
not add value from the customer’s perspective. Examples of
process wastes are defective products, overproduction,
inventories,
excess motion, processing steps, transportation, and waiting.
Customer value
In the context of lean production, something for which the
customer is willing to pay.
Waste
Anything that does not add value from the customer’s
perspective.
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348
exhibit 14.1 Lean Production Pull System
Strategy
Lean production is an integrated set of activities designed to
7. achieve production using minimal inventories of raw materials,
work-in-process, and finished goods. Parts arrive at the next
workstation “just-in-time” and are completed and move through
the
process quickly. Lean is also based on the logic that nothing
will be produced until it is needed. Exhibit 14.1 illustrates the
process.
Production need is created by actual demand for the product.
When an item is sold, in theory, the market pulls a replacement
from
the last position in the system—final assembly in this case. This
triggers an order to the factory production line, where a worker
then pulls another unit from an upstream station in the flow to
replace the unit taken. This upstream station then pulls from the
next
station further upstream and so on back to the release of raw
materials. To enable this pull process to work smoothly, lean
production demands high levels of quality at each stage of the
process, strong vendor relations, and a fairly predictable
demand for
the end product.
The Toyota Production System
Here we develop the philosophy and elements of lean
production developed in Japan and embodied in the Toyota
Production
System—the benchmark for lean manufacturing. The Toyota
Production System was developed to improve quality and
productivity
and is predicated upon two philosophies that are central to the
Japanese culture: elimination of waste and respect for people.1
Elimination of Waste Waste, as defined by Toyota’s past
president, Fujio Cho, is “anything other than the minimum
amount of
8. equipment, materials, parts, and workers (working time) which
are absolutely essential to production.” An expanded lean
definition
advanced by Fujio Cho identifies seven prominent types of
waste to be eliminated from the supply chain: (1) waste from
overproduction, (2) waste of waiting time, (3) transportation
waste, (4) inventory waste, (5) processing waste, (6) waste of
motion,
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and (7) waste from product defects.2
Respect for People Respect for people is a key to the Toyota
Production System. It has traditionally strived to assure lifetime
employment for permanent positions and to maintain level
payrolls even when business conditions deteriorate. Permanent
workers
(about one-third of the total workforce of Japan) have job
security and tend to be more flexible, remain with a company,
and do all
they can to help a firm achieve its goals. (Global recessions
have caused many Japanese companies to move away from this
ideal.)
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349
Company unions at Toyota as well as elsewhere in Japan exist
to foster a cooperative relationship with management. All
employees receive two bonuses a year in good times. Employees
know that if the company performs well, they will get a bonus.
This encourages workers to improve productivity. Management
views workers as assets, not as human machines. Automation
and
robotics are used extensively to perform dull or routine jobs so
employees are free to focus on important improvement tasks.
Toyota relies heavily on subcontractor networks. Indeed, more
than 90 percent of all Japanese companies are part of the
supplier
network of small firms. Some suppliers are specialists in a
narrow field, usually serving multiple customers. Firms have
long-term
partnerships with their suppliers and customers. Suppliers
consider themselves part of a customer’s family.
Lean Supply Chains Processes
The focus of the Toyota Production System is on elimination of
waste and respect for people. As the concepts have evolved and
become applied to the supply chain, the goal of maximizing
customer value has been added. Customer value when
considered from
the entire supply chain should center on the perspective of the
10. end customer with the goal being to maximize what the
customer is
willing to pay for a firm’s goods or services. The value stream
consists of the value-adding and non– value-adding activities
required to design, order, and provide a product or service from
concept to launch, order to delivery, and raw materials to
customers. This all-inclusive view of the system is a significant
expansion of the scope of application of the lean concepts
pioneered
by Toyota. When applied to supply chains, waste reduction
relates to the optimization of the value-adding activities and the
elimination of non–value-adding activities that are part of the
value stream.
Value stream
These are the value-adding and non– value-adding activities
required to design, order, and provide a product from concept to
launch, order to delivery, and raw materials to customers.
Waste reduction
The optimization of value-adding activities and elimination of
non– value-adding activities that are part of the value stream.
In the following paragraphs we discuss the different components
of a supply chain and what would be expected using a lean
focus:
Lean Suppliers Lean suppliers are able to respond to changes.
Their prices are generally lower due to the efficiencies of lean
processes, and their quality has improved to the point that
incoming inspection at the next link is not needed. Lean
suppliers
deliver on time and their culture is one of continuous
improvement. To develop lean suppliers, organizations should
include
them in their value stream planning. This will help them fix
11. problems and share savings.
Lean Procurement A key to lean procurement is automation.
The term e-procurement relates to automatic transaction,
sourcing, bidding and auctions using web-based applications,
and the use of software that removes human interaction and
integrates with the financial reporting of the firm. Another key
to lean procurement is visibility. Suppliers must
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VOICE-DIRECTED ORDER FULFILLMENT ALLOWS
WORKERS HANDS-FREE OPERATION FOR FASTER,
SAFER, AND MORE ACCURATE INVENTORY PICKING. IT
ALSO SUPPORTS THE USE OF MULTIPLE LANGUAGES.
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350
12. BOXES OF COCA-COLA CO. CANS MOVE DOWN A SPIRAL
CONVEYOR BELT AT THE COMPANY’S SWIRE BOTTLING
PLANT IN SALT LAKE CITY, UTAH.
be able to “see” into each customer’s operations and customers
must be able to “see” into their suppliers’ operations. The
overlap of these processes needs to be optimized to maximize
value from the end-customer perspective.
Lean Manufacturing Lean manufacturing systems produce what
the customer wants, in the quantity they want, when they
want it, and with minimum resources. Applying lean concepts in
manufacturing typically presents the greatest opportunities for
cost reduction and quality improvement.
Lean Warehousing This relates to eliminating non–value-added
steps and waste in product storage processes. Typical
functions include the following: receiving material; putting-
away/storing; replenishing inventory; picking inventory;
packing
for shipment; and shipping. Waste can be found in many
warehousing processes including shipping defects, which
creates
returns; overproduction or overshipment of products; excess
inventory, which requires extra space and reduces warehouse
efficiency; excess motion and handling; waiting for parts; and
inadequate information systems.
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Lean Logistics Lean concepts can be applied to the functions
associated with the movement of material through the system.
13. Some of the key areas include optimized mode selection and
pooling orders; combined multistop truckloads; optimized
routing;
cross docking; import/export transportation processes; and
backhaul minimization. Just as with the other areas, these
logistics
functions need to be optimized by eliminating non–value-adding
activities while improving the value-adding activities.
Lean Customers Lean customers have a great understanding of
their business needs and specify meaningful requirements.
They value speed and flexibility and expect high levels of
delivery performance. Lean customers are interested in
establishing
effective partnerships with their suppliers. Lean customers
expect value from the products they purchase and can then
provide
value to their own customers.
The benefits of a lean supply chain primarily are in the
improved responsiveness to the customer. As business
conditions
change, the supply chain adapts to dynamic needs. The ideal is a
culture of rapid change with a bias for change when it is
needed.
The reduced inventory inherent in a lean supply chain reduces
obsolescence and reduces flow time through the value-added
processes. The reduced cost along with improved customer
service allows the firms using a lean supply chain a significant
competitive advantage when competing in the global
marketplace.
LO14–2
Illustrate how lean concepts can be applied to supply chain
processes.
LEAN SUPPLY CHAIN PROCESSES
14. Looking for ways to improve supply chain processes should be
based on ideas that have been proven over time. In the
following,
we review a set of key principles that can guide the design of
lean supply chains. We divide our design principles into three
major
categories. The first two sets of principles relate to internal
production processes. These are the processes that actually
create the
goods and services within a firm. The third category applies
lean concepts to the entire supply chain. These principles
include:
1. Lean layouts
a. Group technology
b. Quality at the source
c. JIT production
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351
2. Lean production schedules
a. Uniform plant loading
b. Kanban production control system
15. c. Minimized setup times
3. Lean supply chains
a. Specialized plants
b. Collaboration with suppliers
c. Building a lean supply chain
Process
Lean Layouts
Lean requires the plant layout be designed to ensure balanced
work flow with a minimum of work-in-process inventory. Each
workstation is part of a production line, whether or not a
physical line actually exists. Capacity is balanced using the
same logic for
an assembly line, and operations are linked through a pull
system. In addition, the system designer must visualize how all
aspects of
the internal and external logistics system tie to the layout.
Preventive maintenance is emphasized to ensure that flows are
not interrupted by downtime or malfunctioning equipment.
Preventive maintenance involves periodic inspection and repair
designed to keep a machine reliable. Operators perform much of
the
maintenance because they are most familiar with their machines
and because machines are easier to repair, as lean operations
favor
several simple machines rather than one large complex one.
Preventive maintenance
Periodic inspection and repair designed to keep equipment
reliable.
Group Technology Group technology (GT) is a philosophy in
which similar parts are grouped into families, and the processes
16. required to make the parts are arranged in a manufacturing cell.
Instead of transferring jobs from one specialized department to
another, GT considers all operations required to make a part and
groups those machines together. Exhibit 14.2 illustrates the
difference between the clusters of different machines grouped
into cells versus departmental layouts. The group technology
cells
eliminate movement and queue (waiting) time between
operations, reduce inventory, and reduce the number of
employees required.
Workers, however, must be flexible to run several machines and
processes. Due to their advanced skill level, these workers have
increased job security.
Group technology
A philosophy in which similar parts are grouped into families,
and the processes required to make the parts are arranged in a
specialized workcell.
Quality at the Source Quality at the source means do it right the
first time and, when something goes wrong, stop the process
or assembly line immediately. Factory workers become their
own inspectors, personally responsible for the quality of their
output.
Workers concentrate on one part of the job at a time so quality
problems are uncovered. If the
Quality at the source
Philosophy of making factory workers personally responsible
for the quality of their output. Workers are expected to make
the part
correctly the first time and to stop the process immediately if
there is a problem.
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exhibit 14.2 Group Technology versus Departmental Specialty
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352
pace is too fast, if the worker finds a quality problem, or if a
safety issue is discovered, the worker is obligated to push a
button to
stop the line and turn on a visual signal. People from other
areas respond to the alarm and the problem. Workers are
empowered to
do their own maintenance and housekeeping until the problem is
fixed.
JIT Production JIT (just-in-time) means producing what is
needed when needed and no more. Anything over the minimum
amount necessary is viewed as waste because effort and
material expended for something not needed now cannot be
utilized now.
18. This is in contrast to relying on extra material just in case
something goes wrong.
JIT is typically applied to repetitive manufacturing, which is
when the same or similar items are made one after another. JIT
does not require large volumes and can be applied to any
repetitive segments of a business regardless of where they
appear. Under
JIT the ideal lot size or production batch is one. Although
workstations may be geographically dispersed, it is important to
minimize transit time and keep transfer quantities small—
typically one-tenth of a day’s production. Vendors even ship
several times
a day to their customers to keep lot sizes small and inventory
low. The goal is to drive all inventory queues to zero, thus
minimizing
inventory investment and shortening lead times.
When inventory levels are low, quality problems become very
visible. Exhibit 14.3 illustrates this idea. If the water in a pond
represents inventory, the rocks represent problems that could
occur in a firm. A high level of water hides the problems
(rocks).
Management assumes everything is fine, but as the water level
drops in an economic downturn, problems are presented. If you
deliberately force the water level down (particularly in good
economic times), you can expose and correct problems before
they
cause worse problems. JIT manufacturing exposes problems
otherwise hidden by excess inventories and staff.
Lean Production Schedules
As noted earlier, lean production requires a stable schedule over
a lengthy time horizon. This is accomplished by level
scheduling,
freeze windows, and underutilization of capacity. A level
19. schedule is one that requires material to be pulled into final
assembly in a
pattern uniform enough to allow the various elements of
production to respond to pull signals. It does not necessarily
mean that the
usage of every part on an assembly line is identified hour by
hour for days on end; it does mean that a given production
system
equipped with flexible setups and a fixed amount of material in
the pipelines can respond to the dynamic needs of the assembly
line.3
Level schedule
A schedule that pulls material into fi nal assembly at a constant
rate.
exhibit 14.3 Inventory Hides Problems
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353
The term freeze window refers to that period of time during
which the schedule is fixed and no further changes are possible.
An
added benefit of the stable schedule is seen in how parts and
components are accounted for in a pull system. Here, the
concept of
backflush is used where the parts that go into each unit of the
product are periodically removed from inventory and accounted
for
based on the number of units produced. For example, if 1,000
road bicycles are made, 1,000 of the appropriate handlebars,
2,000
tires, one seat, and so forth, are automatically removed from on-
hand inventory. This eliminates much of the shop-floor data
collection activity, which is required if each part must be
tracked and accounted for during production.
Underutilization and overutilization of capacity are
controversial features of lean production. Conventional
approaches use
safety stocks and early deliveries as a hedge against production
problems like poor quality, machine failures, and unanticipated
bottlenecks in traditional manufacturing. Under lean production,
excess labor, machines, and overtime provide the hedge. The
excess capacity in labor and equipment that results is much
cheaper than carrying excess inventory. When demand is greater
than
expected, overtime must be used. Often part-time labor is used
when additional capacity is needed. During idle periods,
personnel
can be put to work on other activities such as special projects,
21. work group activities, and workstation housekeeping.
Freeze window
The period of time during which the schedule is fixed and no
further changes are possible.
Backflush
Calculating how many of each part were used in production and
using these calculations to adjust actual on-hand inventory
balances. This eliminates the need to actually track each part
used in production.
Uniform Plant Loading Smoothing the production flow to
dampen the reaction waves that normally occur in response to
schedule variations is called uniform plant loading. When a
change is made in a final assembly, the changes are magnified
throughout the line and the supply chain. The only way to
eliminate the problem is to make adjustments as small as
possible by
setting a firm monthly production plan for which the output rate
is frozen.
Uniform plant loading
Smoothing the production flow to dampen schedule variation.
Toyota found it could do this by building the same mix of
products every day in small quantities. Thus, it always has a
total mix
available to respond to variations in demand. A Toyota example
is shown in Exhibit 14.4. Monthly car style quantities are
reduced
to daily quantities (assuming a 20-day month) in order to
compute a model cycle time (defined here as the time between
two
identical units being completed on the line). The cycle time
figure is used to adjust resources to produce the precise quantity
22. needed. The speed of equipment or of the production line is
adjusted so only the needed quantity is produced each day. JIT
strives
to produce on schedule, on cost, and on quality.
Kanban Production Control Systems
A kanban control system uses a signaling device to regulate JIT
flows. Kanban means “sign” or “instruction card” in Japanese.
In a
paperless control system, containers can be used instead of
cards. The cards or containers make up the kanban pull system.
The
authority to produce or supply additional parts comes from
downstream operations. Consider Exhibit 14.5, where we show
an
assembly line that is supplied with parts by a machine center.
The machine center makes two parts, A and B. These two parts
are
stored in containers that are located next to the assembly line
and next to the machine center. Each container next to the
assembly
line has a withdrawal kanban, and each container next to the
machine center has a production kanban. This is often referred
to as a
two-card kanban system.
Kanban
A signaling device used to control production.
Kanban pull system
An inventory or production control system that uses a signaling
device to regulate flows.
exhibit 14.4 Toyota Example of Mixed-Model Production Cycle
in a Japanese Assembly Plant
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Sequence: Sedan, hardtop, sedan, wagon, sedan, hardtop, sedan,
wagon, and so on (one minute apart)
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354
Process
exhibit 14.5 Flow of Two Kanbans
When the assembly line takes the first part A from a full
container, a worker takes the withdrawal kanban from the
container,
and takes the card to the machine center storage area. In the
machine center area, the worker finds a container of part As,
removes
24. the production kanban, and replaces it with the withdrawal
kanban. Placement of this card on the container authorizes the
movement of the container to the assembly line. The freed
production kanban is placed on a rack by the machine center,
which
authorizes the production of another lot of material. A similar
process is followed for part B. The cards on the rack become the
dispatch list for the machine center. Cards are not the only way
to signal the need for production of a part; other visual methods
are
possible, as shown in Exhibit 14.6.
The following are some other possible approaches:
Kanban squares. Some companies use marked spaces on the
floor or on a table to identify where material should be stored.
When the square is empty, the supplying operations are
authorized to produce; when the square is full, no parts are
needed.
Container system. Sometimes the container itself can be used as
a signal device. In this case, an empty container on the factory
floor visually signals the need to fill it. The amount of
inventory is adjusted by simply adding or removing containers.
Colored golf balls. At a Kawasaki engine plant, when a part
used in a subassembly is down to its queue limit, the assembler
rolls a colored golf ball down a pipe to the replenishment
machine center. This tells the operator which part to make next.
Many
variations have been developed on this approach.
exhibit 14.6 Diagram of Outbound Stockpoint with Warning
Signal Marker
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355
The kanban pull approach can be used not only within a
manufacturing facility but also between manufacturing facilities
(pulling engines and transmissions into an automobile assembly
operation, for example) and between manufacturers and external
suppliers.
Analytics
Determining the Number of Kanbans Needed Setting up a
kanban control system requires determination of the number of
kanban cards (or containers) needed. In a two-card system, we
are finding the number of sets of withdrawal and production
cards.
The kanban cards represent the number of containers of material
that flow back and forth between the supplier and the user
areas.
26. Each container represents the minimum production lot size to be
supplied. The number of containers, therefore, directly controls
the
amount of work-in-process inventory in the system.
Accurately estimating the lead time needed to produce a
container of parts is the key to determining the number of
containers.
This lead time is a function of the processing time for the
container, any waiting time during the production process, and
the time
required to transport the material to the user. Enough kanbans
are needed to cover the expected demand during this lead time
plus
some additional amount for safety stock. The number of kanban
card sets is
[14.1]
where
k = Number of kanban card sets
D = Average number of units demanded per period (lead time
and demand must be expressed in the same time units)
L = Lead time to replenish an order (expressed in the same units
as demand)
S = Safety stock expressed as a percentage of demand during
the lead time (this can be based on a service level and variance
as
shown in Chapter 20).
C = Container size
Observe that a kanban system does not produce zero inventory;
rather, it controls the amount of material that can be in process
at a time—the number of containers of each item. The kanban
27. system can be easily adjusted to fit the current way the system
is
operating because card sets can be easily added or removed
from the system. If the workers find that they are not able to
consistently replenish the item on time, an additional container
of material, with the accompanying kanban cards, can be added.
If it
is found that excess containers of material accumulate, card sets
can be easily removed, thus reducing the amount of inventory.
EXAMPLE 14.1: Determining the Number of Kanban Card Sets
Meritor, a company that makes muffler assemblies for the
automotive industry, is committed to the use of kanban to pull
material through its manufacturing cells. Meritor has designed
each cell to fabricate a specific family of muffler products.
Fabricating a muffler assembly involves cutting and bending
pieces of pipe that are welded to a muffler and a catalytic
converter. The mufflers and catalytic converters are pulled into
the cell based on current demand. The catalytic converters are
made in a specialized cell.
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For a step-by-step walkthrough of this example, visit
www.mhhe.com/jacobs14e_sbs_ch14.
28. Catalytic converters are made in batches of 10 units and are
moved in special hand carts to the fabrication cells. The
catalytic converter cell is designed so that different types of
catalytic converters can be made with virtually no setup loss.
The
cell can respond to an order for a batch of catalytic converters
in approximately four hours. Because the catalytic converter
cell is right next to the muffler assembly fabrication cell,
transportation time is virtually zero.
http://www.mhhe.com/jacobs14e_sbs_ch14.
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356
The muffler assembly fabrication cell averages approximately
eight assemblies per hour. Each assembly uses the same
catalytic converter. Due to some variability in the process,
management has decided to have safety stock equivalent to 10
percent of the needed inventory.
How many kanban sets are needed to manage the replenishment
of the catalytic converters?
SOLUTION
29. In this case, the lead time for replenishment of the converters
(L) is four hours. The demand (D) for the catalytic converters is
eight per hour. Safety stock (S) is 10 percent of the expected
demand, and the container size (C) is 10 units.
In this case, we would need four kanban card sets, and we
would have four containers of converters in the system. In all
cases, when we calculate k, we will round the number up
because we always need to work with full containers of parts.
When
the first unit of a batch of 10 catalytic converters is used in the
muffler fabrication cell, a “signal” card is sent to the catalytic
converter cell to trigger the production of another batch.
Minimized Setup Times
The reductions in setup and changeover times are necessary to
achieve a smooth flow. Exhibit 14.7 shows the relationship
between
lot size and setup costs. Under a traditional approach, setup cost
is treated as a constant, and the optimal order quantity is shown
as
six. Under the kanban approach, setup cost is significantly
reduced and the corresponding optimal order quantity is
reduced. In the
exhibit, the order quantity has been reduced from six to two
under lean methods by employing setup-time–saving
procedures. This
organization will ultimately strive for a lot size of one.
In a widely cited example from the late 1970s, Toyota teams of
press operators producing car hoods and fenders were able to
change an 800-ton press in 10 minutes, compared with the
average of six hours for U.S. workers and four hours for
German
workers. (Now, however, such speed is common in most U.S.
auto plants.) To achieve such setup time reduction, setups are
30. divided
into internal and external activities. Internal setups must be
done while a machine
exhibit 14.7 Relationship between Lot Size and Setup Cost
k = = = 3.52 or 4 sets
8 × 4(1 + .1)
10
35.2
10
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Definitions: Holding cost includes the costs of storing inventory
and the cost of money tied up in inventory. Setup cost includes
the wage costs attributable
to workers making the setup, and various administrative and
supplies costs. (These are defined in total in Chapter 20,
“Inventory Management.”)
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357
is stopped. External setups can be done while the machine is
running. Other time-saving devices such as duplicate tool
holders also
are used to speed setups.
Lean Supply Chains
Strategy
Building a lean supply chain involves taking a systems approach
to integrating the partners. Supply must be coordinated with the
need of the production facilities, and production must be tied
directly to the demand of the customers for products. The
importance
of speed and steady consistent flow that is responsive to actual
customer demand cannot be overemphasized. Concepts that
relate to
lean network design are discussed next.
Specialized Plants Small specialized plants rather than large
vertically integrated manufacturing facilities are important.
Large
operations and their inherent bureaucracies are difficult to
manage and not in line with the lean philosophy. Plants
designed for one
purpose can be constructed and operated more economically.
These plants need to be linked together so they can be
synchronized to
one another and to the actual need of the market. Speed and
32. quick response to changes are keys to the success of a lean
supply
chain.
Collaboration with Suppliers Just as customers and employees
are key components of lean systems, suppliers are also
important to the process. If a firm shares its projected usage
requirements with its vendors, they have a long-run picture of
the
demands that will be placed on their production and distribution
systems. Some vendors are linked online with a customer to
share
production scheduling and input needs data. This permits them
to develop level production systems. Confidence in the supplier
or
vendor’s delivery commitment allows reductions of buffer
inventories. Maintaining stock at a lean level requires frequent
deliveries
during the day. Some suppliers even deliver directly to a
location on the production line and not at a receiving dock.
When vendors
adopt quality practices, incoming receiving inspections of their
products can be bypassed.
Building a Lean Supply Chain A supply chain is the sum total of
organizations involved—from raw materials firms through
tiers of suppliers to original equipment manufacturers, onward
to the ultimate distribution and delivery of the finished product
to the
customer. Womack and Jones, in their seminal work Lean
Thinking, provide the following guidelines for implementing a
lean
supply chain: 4
• Value must be defined jointly for each product family along
with a target cost based on the customer’s perception of value.
33. • All firms along the value stream must make an adequate
return on their investments related to the value stream.
• The firms must work together to identify and eliminate muda
(waste).
• When cost targets are met, the firms along the stream will
immediately conduct new analyses to identify remaining muda
and
set new targets.
• Every participating firm has the right to examine every
activity in every firm relevant to the value stream as part of the
joint
search for waste.
To summarize: To be lean, everyone’s got to be on the same
page!
Value stream mapping
A graphical way to analyze where value is or is not being added
as material flows through a process.
LO14–3
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Analyze supply chain processes using value stream mapping.
VALUE STREAM MAPPING
Value stream mapping (VSM) is a special type of flowcharting
34. tool that is valuable for the development of lean processes. The
technique is used to visualize product flows through various
processing steps. The tool also illustrates information flows that
result
from the process as well as information used to control flow
through the process. The aim of this section is to provide a brief
introduction to VSM and to illustrate its use with an example.
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Process
To create a lean process, one needs to have a full understanding
of the business, including production processes, material flows,
and information flows. In this section we discuss this in the
context of a production process where a product is being made.
VSM is
not limited to this context and can be readily applied to service,
logistics, distribution, or virtually any type of process.
ln the context of a production process such as a manufacturing
plant, the technique is used to identify all of the value-adding as
well as non–value-adding processes that materials are subjected
35. to within a plant, from raw material coming into the plant
through
delivery to the customer. Exhibit 14.8 is a sample map that
depicts a production process. With this map, identification of
wasteful
processes and flows can be made so that they can be modified or
eliminated, and the manufacturing system made more
productive.
Details explaining the symbols will be discussed later in the
section but here it is useful to discuss what the information in
the
map depicted in Exhibit 14.8 actually means.5 Startng from the
left, we see that material is supplied on a weekly basis and
deposited in a raw material inventory indicated by the triangle.
The average level for this inventory is 2,500 units. This
material is
run through a five-step process consisting of machining,
drilling, cleaning, inspection, and packaging. The machining,
drilling,
inspection, and packaging processes all use a single operator.
Under each of these process symbols is the activity cycle time
(CT),
changeover time (C/O time to switch from one type of item to
another), lot size, available number of seconds per day, and
percentage of uptime. The cleaning activity is a multistep
process where items are handled on a first-come-first-served
basis. In
between each process are inventory buffers with the average
inventory in these buffers depicted in the exhibit.
exhibit 14.8 Manufacturing Process Map
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359
exhibit 14.9 Value Stream Mapping Symbols
Information flows are shown on the map. In Exhibit 14.8 we see
that production control issues monthly demand forecasts,
weekly orders to the supplier, and a weekly production schedule
that is managed by the supervisor on a daily basis. Monthly
forecasts are provided by the customer and it places its orders
on a weekly basis. The time line at the bottom shows the
processing
time for each production activity (in seconds) together with the
average inventory wait time. Adding these times together gives
an
estimate of the lead time through the entire system.
VSM symbols are somewhat standardized but there are many
variations. Several common symbols are depicted in Exhibit
37. 14.9.
These are categorized as Process, Material, Information, and
General symbols.
Value stream mapping is a two-part process—first depicting the
“current state” of the process and second a possible “future
state.” Exhibit 14.10 depicts another map of the same process
with suggested improvements. The map has been annotated
using
Kaizen bursts that suggest the areas for improvement. Kaizen is
the Japanese philosophy that focuses on continuous
improvement.
The Kaizen bursts identify specific short-term projects (often
referred to as “Kaizen events”) that teams work on to implement
changes to the process. In this exhibit we see a totally
redesigned process where the individual production operations
have been
combined into a workcell operated by three employees. In
addition, rather than “pushing” material through the system
based on
weekly schedules generated by production control, the entire
process is converted to a pull system that is operated directly in
response to customer demand. Note that the lead time in the new
system is only 5 days, compared to the 34-day lead time with
the
old system.
Kaizen
Japanese philosophy that focuses on continuous improvement.
To study another example using value stream mapping (VSM),
consider the Solved Problem 2 at the end of the chapter. VSM is
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a great visual way to analyze an existing system and to find
areas where waste can be eliminated. Value stream maps are
simple to
draw and it is possible to construct the maps totally with paper
and pencil. These maps can, however, be more easily
constructed
using standard office software or graphics packages.
Additionally, dedicated VSM software is available from
Strategos
(www.strategosinc.com) and Systems2win
(www.Systems2win.com).
http://www.strategosinc.com/
http://www.systems2win.com/
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360
exhibit 14.10 Analysis Showing Potential Areas for Improving a
Process
39. LO14–4
Apply lean concepts to service processes.
LEAN SERVICES
Waste elimination is a reasonable goal in service processes, just
as it is in manufacturing processes, but there is a difference in
the
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sources of variation that cause the waste. Manufacturing
processes, compared to service processes, are far more
controllable.
Uncertainty does result from material and labor inputs, but
those can be anticipated and controlled to a great extent. The
workers,
the design of the product, and the production tools are all under
the control of operations to a very large extent. If sales and
marketing are part of the process, the demand uncertainty also
can be reduced.
In contrast, services operate in a sea of uncertainty and
variability that is much harder to control. Let’s look at these
sources.
• Uncertainty in task times. The nature of service products is
that the execution of each service delivery has some uniqueness.
This variability typically leads to a negative exponential
distribution of task times. Simply put, this means that while
40. most task
executions will fall within some tight range, some executions
will take a long time. Consider airplane boarding. There’s
uncertainty here, yet Southwest found a way to reduce the
uncertainty and achieve faster turnaround times at airports,
increasing effective capacity.
• Uncertainty in demand. While service demand can be
forecasted, no forecast is 100 percent perfect. Manufacturers
can
buffer this forecast uncertainty with some finished goods
inventory. The simultaneous production and consumption in
services
precludes this tactic. The capacity must be available when the
demand arises. Think about the number of available tables
needed in a restaurant for peak dining hours.
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361
• Customers’ production roles. Both of the above uncertainties
have much to do with customer involvement in service
operations. Because customers typically have some role to play
in the production of a service, variability is introduced based
41. on how well the service provider performs his or her role.
Customers usually have to provide information to service agents
to
initiate service, and they typically have tangible tasks to
perform.
Lean production and Six Sigma work best in repeatable,
standardized operations. While many services are repeatable,
given the
above, how well can they be truly standardized? Let’s look at
the recent experience of the airline industry.
Airline companies such as Southwest have very efficient
operations, and they achieve high ratings in customer
satisfaction—
until a major storm causes a disruption. Consider the horrible
storms that often strike the eastern third of the United States in
the
spring. Weather is one of those uncertainties that the airlines
simply cannot control. Flights will be canceled, and passengers
will
need to be rebooked. This is an extreme example of demand
uncertainty that leads to huge demand spikes.
At the same time, to eliminate waste and become more efficient,
airlines have tended to cut capacity and fill flights. Today you
seldom fly on a plane that isn’t 90 to 100 percent booked. With
few available seats, it can take days to rebook all passengers
from
flights canceled due to weather. Our point is that there is often
a price to pay for being lean, and that price often is at the
expense of
customer service when unlikely events occur. Whether in a
service or manufacturing business, potential trade-offs exist
with lean
production and must be dealt with.
42. Many lean techniques have been successfully applied by service
firms. Just as in manufacturing, the suitability of each
technique and the corresponding work steps depend on the
characteristics of the firm’s markets, production and equipment
technology, skill sets, and corporate culture. Service firms are
not different in this respect. Here are 10 of the more successful
techniques applied to service companies:
1. Organize Problem-Solving Groups Honeywell is extending
its use of quality teams from manufacturing into its service
operations. Other corporations as diverse as First Bank/Dallas,
Standard Meat Company, and MillerCoors Brewing Company
are using similar approaches to improve service. British
Airways used quality teams as a fundamental part of its strategy
to
implement new service practices.
Process
2. Upgrade Housekeeping Good housekeeping means more
than winning the clean broom award. It means that only the
necessary items are kept in a work area, that there is a place for
everything, and that everything is clean and in a constant state
of readiness. The employees clean their own areas.
Service organizations such as McDonald’s, Disneyland, and
Speedi-Lube have recognized the critical nature of
housekeeping. Their dedication to housekeeping has meant that
service processes work better, the attitude of continuous
improvement is easier to develop, and customers perceive that
they are receiving better service.
3. Upgrade Quality The only cost-effective way to improve
quality is to develop reliable process capabilities. Process
quality is
43. quality at the source—it guarantees first-time production of
consistent and uniform products and services.
McDonald’s is famous for building quality into its service
delivery process. It literally “industrialized” the service
delivery
system so that part-time, casual workers could provide the same
eating experience anywhere in the world. Quality doesn’t
mean producing the best; it means consistently producing
products and services that give the customers their money’s
worth.
4. Clarify Process Flows Clarification of flows, based on JIT
themes, can dramatically improve the process performance.
Here
are three examples:
First, FedEx Corporation changed air flight patterns from
origin-to-destination to origin-to-hub, where the freight is
transferred to an outbound plane heading for the destination.
This revolutionized the air transport industry. Second, the
order-
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entry department of a manufacturing firm converted from
functional sub-departments to customer-centered work groups
and
reduced the order processing lead time from eight to two days.
Finally, Supermaids sends in a team of house
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cleaners, each with a specific responsibility, to clean a part of
each house quickly with parallel processes. Changes in process
flows can literally revolutionize service industries.
5. Revise Equipment and Process Technologies Revising
technologies involves evaluation of the equipment and
processes for
their ability to meet the process requirements, to process
consistently within tolerance, and to fit the scale and capacity
of the
work group.
Speedi-Lube converted the standard service station concept to a
specialized lubrication and inspection center by changing
the service bays from drive-in to drive-thru and by eliminating
the hoists, and instead building pits under the cars where
employees have full access to the lubrication areas on the
vehicle.
A hospital reduced operating room setup time so that it had the
45. flexibility to perform a wider range of operations without
reducing the operating room availability.
6. Level the Facility Load Service firms synchronize
production with demand. They have developed unique
approaches to
leveling demand so they can avoid making customers wait for
service. McDonald’s offers a special breakfast menu in the
morning. Retail stores use take-a-number systems. The post
office charges more for next-day delivery. These are all
examples
of the service approach for creating uniform facility loads.
7. Eliminate Unnecessary Activities A step that does not add
value is a candidate for elimination. A step that does add value
may be a candidate for reengineering to improve the process
consistency or to reduce the time to perform the tasks.
A hospital discovered that significant time was spent during an
operation waiting for an instrument that was not available
when the operation began. It developed a checklist of
instruments required for each category of operation. Speedi-
Lube
eliminated steps, but also added steps that did not improve the
lubrication process but did make customers feel more assured
about the work being performed.
8. Reorganize Physical Configuration Work area
configurations frequently require reorganization during a lean
implementation.
Often manufacturers accomplish this by setting up
manufacturing cells to produce items in small lots, synchronous
to
demand.These cells amount to microfactories inside the plant.
Most service firms are far behind manufacturers in this area.
46. However, a few interesting examples do come out of the
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service sector. Some hospitals—instead of routing patients all
over the building for tests, exams, X-rays, and injections—are
reorganizing their services into work groups based on the type
of problem. Teams that treat only trauma are common, but other
work groups have been formed to treat less immediate
conditions like hernias. These amount to microclinics within the
hospital facility.
9. Introduce Demand-Pull Scheduling Due to the nature of
service production and consumption, demand-pull (customer-
driven) scheduling is necessary for operating a service business.
Moreover, many service firms are separating their operations
into “back room” and “customer contact” facilities. This
approach creates new problems in coordinating schedules
between the
facilities. The original Wendy’s restaurants were set up so
cooks could see cars enter the parking lot. They put a
preestablished
number of hamburger patties on the grill for each car. This pull
system was designed to have a fresh patty on the grill before
the customer even placed an order.
10. Develop Supplier Networks The term supplier networks in
the lean context refers to the cooperative association of
suppliers
and customers working over the long term for mutual benefit.
47. Service firms have not emphasized supplier networks for
materials because the service costs are often predominantly
labor. Notable exceptions include service organizations like
McDonald’s, one of the biggest food products purchasers in the
world, which has been developing lean practices. Manpower
and other employment agencies have established lean-type
relationships with a temporary employment service and a trade
school to develop a reliable source of trained assemblers.
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CONCEPT CONNECTIONS
LO14-1 Explain what lean production is.
Summary
Lean production is a concept that involves improving processes
by eliminating waste and excess inventory. The basis for the
concept is the just-in-time philosophy pioneered by Toyota. The
concept has now been expanded to include all supply chain
processes with the intent of creating value for the customer by
eliminating all non–value–adding activities.
48. Key Terms
Lean production
Waste
Waste reduction
Customer value
Value stream
LO14-2 Illustrate how lean concepts can be applied to supply
chain processes.
Summary
Lean concepts can be applied to virtually all the processes in
the supply chain. Key areas include production layouts, the
scheduling of production, and the design of the supply chain.
Flow throughout the supply chain can be managed using just-in-
time systems that pull material based on need. The kanban card
is an example of this type of system.
Key Terms
Preventive maintenance
Level schedule
Uniform plant loading
Group technology
Freeze window
Kanban
Quality at the source
Backflush
Kanban pull system
Key Formula
Determining the number of kanbans
[14.1]
LO14-3 Analyze supply chain processes using value stream
mapping.
49. k =
DL(1+S)
C
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Summary
Value stream mapping is a flowcharting tool used to visualize
flows through a process. A unique feature of the tool is the
identification of value-adding and non-value-adding activities
together with a time line that shows the processing time for
each
activity and the process as a whole. The tool can be applied to
internal processes, such as production of a product, and also
logistics and distribution processes. The goal in value stream
mapping is to identify ways to “lean” a process by eliminating
waste and creating value for the customer. A short-term project
designed to quickly improve a process is referred to as a Kaizen
event.
Key Terms
Value stream mapping
Kaizen
LO14-4 Apply lean concepts to service processes.
Summary
Just as with production processes, waste elimination and
50. customer value creation are also goals of service processes. One
major
difference is that services often operate in an environment with
more uncertainty that is difficult to control. Many of the lean
techniques, though, have been successfully applied by service
firms.
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Solved Problems
LO14–2 SOLVED PROBLEM 1
A local hospital wants to set up a kanban system to manage its
supply of blood with the regional blood bank. The regional
blood bank delivers blood to the hospital each day with a one-
day order lead time (an order placed by 6 p.m. today will be
delivered tomorrow afternoon). Internally, the hospital
purchasing group places orders for blood each day at 5 p.m.
Blood
is measured by the pint and is shipped in containers that contain
six pints. For a particular blood type, the hospital uses an
average of 12 pints per day. Due to the critical nature of a blood
shortage, the hospital wants to carry a safety stock of two
days’ expected supply. How many kanban card sets should the
51. hospital prepare?
Solution
This problem is typical of how a real application might look.
Using the data given, the variables for this problem are as
follows:
D = 12 pints per day (average demand)
L = 1 day (lead time)
S = 200 percent (safety stock, as a fraction this is 2.0)
C = 6 pints (container size)
This indicates that we need to prepare six kanban card sets.
Each time a new container of blood (containing six pints) is
opened, the card will be sent to purchasing and another six pints
of blood will be ordered. When the blood is received, the
card will be attached to the new container and moved to the
blood storage area.
LO14–3 SOLVED PROBLEM 2
52. Value Stream Mapping Example: Bolt Manufacturing6
A simple example will illustrate the use of value stream
mapping. Exhibit 14.11 depicts a bolt manufacturing operation
that ships 7,500 bolts per week. The current state map provides
cycle time and setup time information for each of the 15
processes used, and it provides inventory levels at each
location. The map also depicts information flow between the
steel
supplier, the bolt customer, and management via production
scheduling. The total value-added time, denoted as processing
time, is obtained by summing all of the individual value-added
contributions at each processing step on the time line. For
the example, it equals 28.88 seconds. At each inventory
location, lead time is calculated by dividing inventory level by
daily production demand, which is 1,500 bolts. Summing all of
the lead time produces an overall production lead time of
66.1 days, which is the entire time it takes an individual bolt to
make its way through the plant.
There are several possibilities to optimize the current
production scenario. Exhibit 14.12 provides a few of these,
shown as Kaizen bursts, including eliminating several
processing steps, modifying some of the existing processes, and
reducing travel distances between processes. Exhibit 14.13, the
future state map, illustrates the incorporation of these
53. modifications. As shown, the changes reduce production lead
time to 50.89 days, which is a 23 percent reduction. The
production scenario could be enhanced even more if pull
systems were incorporated at various locations.
k = = = 6
DL(1+S)
C
12(1+2)
6
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exhibit 14.11 Current State Map for Bolt Manufacturing
Example
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exhibit 14.12 Potential Process Changes for Bolt Manufacturing
Example
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exhibit 14.13 Future State Map for Bolt Manufacturing Example
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Discussion Questions
LO14–1
1. Is it possible to achieve zero inventories? Why or why not?
2. One way to help achieve lean production systems is to
employ flexible automated manufacturing equipment and
automated material handling systems. A natural result of such a
move is that fewer people are required in the process,
an issue addressed regularly in negotiations with labor unions.
Do you think there is a conflict between such a move
and the principle of Respect for People in the Toyota
Production System?
3. Can a supply chain become too lean? Explain your answer—
using examples if possible.
LO14–2
57. 4. Why must lean have a stable schedule?
5. What objections might a marketing manager have to uniform
plant loading?
6. What are the implications for cost accounting of lean
production?
7. What are the roles of suppliers and customers in a lean
system?
8. Explain how cards are used in a kanban system.
9. In which ways, if any, are the following systems analogous
to kanban: returning empty bottles to the supermarket and
picking up filled ones; running a hot dog stand at lunch-time;
withdrawing money from a checking account; raking
leaves into bags?
10. Why is lean hard to implement in practice?
11. Explain the relationship between quality and productivity
under the lean philosophy.
LO14–3
12. Stopping waste is a vital part of lean. Using value stream
mapping, identify some sources of waste in your home or
dorm and discuss how they may be eliminated.
13. How would you show a pull system in VSM symbols
58. between the blanking and CNC stages of the bolt
manufacturing Solved Problem 2?
14. What is value stream mapping?
15. What is the purpose of value stream mapping? How can it
be achieved?
LO14–4
16. Will lean work in service environments? Why or why not?
17. Discuss ways to use lean to improve one of the following:
a pizza restaurant, a hospital, or an auto dealership.
Objective Questions
LO14–1
1. What phrase refers to the idea that all steps in supply chain
processes that deliver goods and services to the customer
should create value?
2. What term refers to the optimization of value-adding
activities and elimination of non–value-adding activities that
are
part of a value stream?
3. List at least four of the seven prominent types of waste that
59. should be eliminated from the supply chain.
4. What lean concept relates to eliminating non–value-added
steps and waste in product storage processes?
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LO14–2
5. What term refers to a schedule that pulls material into final
assembly at a constant rate?
6. The periodic inspection and repair of equipment designed to
keep the equipment reliable, thus eliminating unplanned
downtime due to malfunctions is called_________.
7. What term refers to the concept of doing things right the
first time and, when problems occur, stopping the process to
fix the source of the problem?
8. In some JIT systems, marked spaces on a table or the floor
identify where material should be stored. Supplying
60. operations are signaled to produce more when the space is
empty. What are these spaces called?
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9. Under a kanban approach to lean manufacturing, order
quantities should be as small as possible. For a part that is
manufactured in-house, what part of its manufacturing process
needs to be reduced to reduce the optimal order
quantity for an item?
61. 10. A supplier of instrument gauge clusters uses a kanban
system to control material flow. The gauge cluster housings are
transported five at a time. A fabrication center produces
approximately 10 gauges per hour. It takes approximately
two hours for the housing to be replenished. Due to variations
in processing times, management has decided to keep
20 percent of the needed inventory as safety stock. How many
kanban card sets are needed?
11. Transmissions are delivered to the fabrication line four at
a time. It takes one hour for transmissions to be delivered.
Approximately four vehicles are produced each hour, and
management has decided that 50 percent of expected
demand should be maintained as safety stock. How many
kanban card sets are needed?
12. A bottling plant fills 2,400 bottles every two hours. The
lead time is 40 minutes and a container accommodates 120
bottles. The safety stock is 10 percent of expected demand. How
many kanban cards are needed?
13. Refer to Example 14.1 as the basis for this problem.
Meritor hires a team of consultants. The consultants suggest a
partial robotic automation as well as an increase in safety stock
to 12.5 percent. Meritor implements these
62. suggestions. The result is an increase in efficiency in both the
fabrication of muffler assembly and the making of
catalytic converters. The muffler assembly fabrication cell now
averages 16 assemblies per hour and the lead time has
been decreased to two hours’ response time for a batch of 10
catalytic converters. How many kanban cards are now
needed?
14. Meritor is so pleased with the outcome from previous
suggestions that the consultants are invited back for more
work. The consultants now suggest a more complete robotic
automation of the making of muffler assemblies and also
a reduction in container size to eight per container. Meritor
implements these suggestions and the result is that the
muffler assembly fabrication cell now averages approximately
32 assemblies per hour, and the catalytic converter
assembly cell can now respond to an order for a batch of
catalytic converters in one hour. The safety stock remains at
12.5 percent. How many kanban cards are needed?
LO14–3
15. In value stream mapping, what does an arrow in the shape
of a lightning bolt mean?
16. What does a triangle represent in a value stream map?
17. In a data box on a value stream map, what do the
63. abbreviations CT and C/O mean?
18. What is used to indicate suggested changes in a process
that may lead to improvements in a value stream?
LO14–4
19. Compared to manufacturing systems, what is it about the
environment of service operations that make them much
harder to control?
20. The chapter presents multiple techniques that service firms
can use to make their processes leaner. Which technique is
demonstrated by a restaurant that offers special discounts
midweek to attract more demand during a traditionally slow
period?
Case: Quality Parts Company (LO14–2)
Quality Parts Company supplies gizmos for a computer
manufacturer located a few miles away. The company produces
two different models of gizmos in production runs ranging from
100 to 300 units.
The production flow of models X and Y is shown in Exhibit
14.14. Model Z requires milling as its first step, but
otherwise follows the same flow pattern as X and Y. Skids can
64. hold up to 20 gizmos at a time. Approximate times per unit
by operation number and equipment setup times are shown in
Exhibit 14.15.
Demand for gizmos from the computer company ranges between
125 and 175 per month, equally divided among X, Y,
and Z. Subassembly builds up inventory early in the month to
make certain that a buffer stock is always available. Raw
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materials and purchased parts for subassemblies each constitute
40 percent of the manufacturing cost of a gizmo. Both
categories of parts are multiple-sourced from about 80 vendors
and are delivered at random times. (Gizmos have 40
different part numbers.)
Scrap rates are about 10 percent at each operation, inventory
turns twice yearly, employees are paid on a day rate,
65. employee turnover is 25 percent per year, and net profit from
operations is steady at 5 percent per year. Maintenance is
performed as needed.
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exhibit 14.14 Gizmo Production Flow
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exhibit 14.15 Operations and Setup Time
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371
The manager of Quality Parts Company has been contemplating
installing an automated ordering system to help
control inventories and to “keep the skids filled.” (She feels
that two days of work in front of a workstation motivates the
worker to produce at top speed.) She is also planning to add
three inspectors to clean up the quality problem. Further, she
is thinking about setting up a rework line to speed repairs.
Although she is pleased with the high utilization of most of her
equipment and labor, she is concerned about the idle time of the
milling machine. Finally, she has asked the industrial
engineering department to look into high-rise shelving to store
parts coming off machine 4.
Questions
1 Which of the changes being considered by the manager of
Quality Parts Company are counter to the lean philosophy?
2 Make recommendations for lean improvements in such areas
as scheduling, layout, kanban, task groupings, and
inventory. Use quantitative data as much as possible; state
necessary assumptions.
68. 3 Sketch the operation of a pull system for running Quality
Parts Company’s current system.
4 Outline a plan for introducing lean at Quality Parts
Company.
Case: Value Stream Mapping (LO14–3)
Value stream mapping involves first developing a baseline map
of the current situation of a company’s external and/or
internal operations, and then applying lean concepts, and
developing a future state map that shows improved operations.
Exhibit 14.16, for example, shows the current state with a
production lead time of 4.5 days. This system is a batch/push
system (indicated by striped arrows) resulting in long delays
and inventory buildups. Exhibit 14.17 shows the future state
map with a production lead time of 0.25 day. This was
accomplished by moving to a continuous-flow pull system and
attacking the seven wastes. Value stream mapping uses a
number of special icons and display formats of boxes and flows.
For a more complete discussion of the methodology, see Jared
Lovelle.7
Questions
1 Eliminating the queue of work dramatically quickens the
time it takes a part to flow through the system. What are the
69. disadvantages of removing those queues?
2 How do you think the machine operators would react to the
change?
3 What would you do to ensure that the operators were kept
busy?
exhibit 14.16 Map of the Current State
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Source: Jared Lovelle, “Mapping the Value Stream,” IIE