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ALISON: Diploma in Project Management


Comments about Case study conclusion - The use/evaluation phase of the SDLC case study

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- Module: Case study conclusion
- Topic: The use/evaluation phase of the SDLC case study

Latest Comments

  • Cyrus Wanjohi Kenya Even though the system has been put in place, evaluating it should be a continual process to examine if it continue to meet it's set out objectives and also to improve it where necessary
    2014-11-19 12:11:07

  • Janvier Nyandamu Rwanda It's true that Mura has saved the company in its difficult moment.
    2014-11-14 07:11:36

  • George Ugim Nigeria what happen after Mira's adventure, yet there is no speedy profit making tool?
    2014-11-10 15:11:34

  • Nothando Gumpo United Kingdom Even though the system has been put in place, evaluating it should be a continual process to examine if it continue to meet it's set out objectives and also to improve it where necessary
    2014-11-05 01:11:31

  • Moh'd Aminu bukhari Nigeria the company has been successfully guided at its difficult period of development by mira so the future of that company is assured...a project manager should be able to identify all the constraints in a process of implementation and and see it through for a better outcome.
    2014-10-30 14:10:38

  • Mikaya Andu South Sudan up to what extend will the certificate be released
    2014-10-22 13:10:03

  • Ralph Webster South Africa Say goodbye to Mira, Muse of the Spheres and Musicale Musak! Mira has successfully guided the company through a difficult period of development and now the future of the company is assured!
    2014-10-20 08:10:05

  • Robert Robert Nigeria why is the video not showing
    2014-10-14 16:10:29

  • George Fragos Greece What the results of trainee??
    2014-10-08 09:10:19

  • Segedin Dragan United Arab Emirates well, if she is not sure if portal is or is not user-friendly than I'm afraid that task was not fulfilled properly.
    2014-09-28 10:09:43

  • Shewangizaw Zenebe Ethiopia The future of the company can be assured implementing what has been documented and experienced during the implementation project here lesson learned , challenges and the way forward can be mentioned have paramount significance to safeguard the project in a sustainable manner.
    2014-09-24 10:09:38

  • Philip Tersor Akoso Nigeria the effective management of a project results in quality output. a project manager in a construction firm should be able to recognise the snaggs in a project. this course has improved and broadened my horizon
    2014-09-23 09:09:42

  • ANNETTE ROBINSON United States of America This is a good course for me. I am anticipating sitting for the PMI certification within the next 6 months.
    2014-09-19 18:09:38

  • ARIHO SIMPLISIO Uganda Thank you for evaluating her critically, i believe we shall be more than her . That's the achievement of studying this course. Thank all of you who participated in this course. I am so glad to study with Alison
    2014-08-28 09:08:38

  • Sonam Bumtap Bhutan wonderful course, I have learnt all aspects of Project Management.
    2014-08-21 10:08:32

    • Yai Deng Yai South Sudan Wow very interesting, I am also trying learning this crucial course with hope that I would like it.
      2014-08-27 19:08:44
  • Yasser Ezz El Din Egypt In the last few years’ businesses have really started to see the importance of Project Management. If you scan any national newspaper you will find a number of jobs for people with Project Management skills. This was not the case a couple of years ago. Within the workforce contract work is becoming more common. This means that employees are more likely to work on short set projects that must be completed within a specific time frame. Project Management techniques are extremely useful for organising work when strict budgets and timeframes are involved. I have decided to focus on upgrading my Project Management skills because I find that these skills are highly regarded in all industries, but especially in the field of any Internet-based or multimedia work.
    2014-08-10 05:08:18

    • Yai Deng Yai South Sudan That is true friend and appreciate alot ALISON management for availing this free learning opportunities to people who can afford to attend regular school classes given fact that not everyone is financially well off even if you have mental ability to study and perform well the issue of school fees block many people with that burning desire to exploit their potential which requires skills and experience on the subject matter.
      2014-08-27 19:08:43
  • Jones Hanungu Munang'andu Zambia operations management, planning and control of industrial processes to ensure that they move smoothly at the required level. Techniques of production management are employed in service as well as in manufacturing industries. It is a responsibility similar in level and scope to other specialties such as marketing or human resource and financial management. In manufacturing operations, production management includes responsibility for product and process design, planning and control issues involving capacity and quality, and organization and supervision of the workforce. The “five M's” Production management's responsibilities are summarized by the “five M's”: men, machines, methods, materials, and money. “Men” refers to the human element in operating systems. Since the vast majority of manufacturing personnel work in the physical production of goods, “people management” is one of the production manager's most important responsibilities. The production manager must also choose the machines and methods of the company, first selecting the equipment and technology to be used in the manufacture of the product or service and then planning and controlling the methods and procedures for their use. The flexibility of the production process and the ability of workers to adapt to equipment and schedules are important issues in this phase of production management. The production manager's responsibility for materials includes the management of flow processes—both physical (raw materials) and information (paperwork). The smoothness of resource movement and data flow is determined largely by the fundamental choices made in the design of the product and in the process to be used. The manager's concern for money is explained by the importance of financing and asset utilization to most manufacturing organizations. A manager who allows excessive inventories to build up or who achieves level production and steady operation by sacrificing good customer service and timely delivery runs the risk that overinvestment or high current costs will wipe out any temporary competitive advantage that might have been obtained. Planning and control Although the five M's capture the essence of the major tasks of production management, control summarizes its single most important issue. The production manager must plan and control the process of production so that it moves smoothly at the required level of output while meeting cost and quality objectives. Process control has two purposes: first, to ensure that operations are performed according to plan, and second, to continuously monitor and evaluate the production plan to see if modifications can be devised to better meet cost, quality, delivery, flexibility, or other objectives. For example, when demand for a product is high enough to justify continuous production, the production level might need to be adjusted from time to time to address fluctuating demand or changes in a company's market share. This is called the “production-smoothing” problem. When more than one product is involved, complex industrial engineering or operations research procedures are required to analyze the many factors that impinge on the problem. Inventory control is another important phase of production management. Inventories include raw materials, component parts, work in process, finished goods, packing and packaging materials, and general supplies. Although the effective use of financial resources is generally regarded as beyond the responsibility of production management, many manufacturing firms with large inventories (some accounting for more than 50 percent of total assets) usually hold production managers responsible for inventories. Successful inventory management, which involves the solution of the problem of which items to carry in inventory in various locations, is critical to a company's competitive success. Not carrying an item can result in delays in getting needed parts or supplies, but carrying every item at every location can tie up huge amounts of capital and result in an accumulation of obsolete, unusable stock. Managers generally rely on mathematical models and computer systems developed by industrial engineers and operations researchers to handle the problems of inventory control. To control labour costs, managers must first measure the amount and type of work required to produce a product and then specify well-designed, efficient methods for accomplishing the necessary manufacturing tasks. The concepts of work measurement and time study introduced by Taylor and the Gilbreths, as well as incentive systems to motivate and reward high levels of worker output, are important tools in this area of management. In new operations particularly, it is important to anticipate human resource requirements and to translate them into recruiting and training programs so that a nucleus of appropriately skilled operators is available as production machinery and equipment are installed. Specialized groups responsible for support activities (such as equipment maintenance, plant services and production scheduling, and control activities) also need to be hired, trained, and properly equipped. This type of careful personnel planning reduces the chance that expensive capital equipment will stand idle and that effort, time, and materials will be wasted during start-up and regular operations. The effective use and control of materials often involves investigations of the causes of s and waste; this, in turn, can lead to alternative materials and handling methods to improve the production process. The effective control of machinery and equipment depends on each machine's suitability to its specific task, the degree of its utilization, the extent to which it is kept in optimum running condition, and the degree to which it can be mechanically or electronically controlled.
    2014-07-27 21:07:44

  • Jones Hanungu Munang'andu Zambia operations management, planning and control of industrial processes to ensure that they move smoothly at the required level. Techniques of production management are employed in service as well as in manufacturing industries. It is a responsibility similar in level and scope to other specialties such as marketing or human resource and financial management. In manufacturing operations, production management includes responsibility for product and process design, planning and control issues involving capacity and quality, and organization and supervision of the workforce. The “five M's” Production management's responsibilities are summarized by the “five M's”: men, machines, methods, materials, and money. “Men” refers to the human element in operating systems. Since the vast majority of manufacturing personnel work in the physical production of goods, “people management” is one of the production manager's most important responsibilities. The production manager must also choose the machines and methods of the company, first selecting the equipment and technology to be used in the manufacture of the product or service and then planning and controlling the methods and procedures for their use. The flexibility of the production process and the ability of workers to adapt to equipment and schedules are important issues in this phase of production management. The production manager's responsibility for materials includes the management of flow processes—both physical (raw materials) and information (paperwork). The smoothness of resource movement and data flow is determined largely by the fundamental choices made in the design of the product and in the process to be used. The manager's concern for money is explained by the importance of financing and asset utilization to most manufacturing organizations. A manager who allows excessive inventories to build up or who achieves level production and steady operation by sacrificing good customer service and timely delivery runs the risk that overinvestment or high current costs will wipe out any temporary competitive advantage that might have been obtained. Planning and control Although the five M's capture the essence of the major tasks of production management, control summarizes its single most important issue. The production manager must plan and control the process of production so that it moves smoothly at the required level of output while meeting cost and quality objectives. Process control has two purposes: first, to ensure that operations are performed according to plan, and second, to continuously monitor and evaluate the production plan to see if modifications can be devised to better meet cost, quality, delivery, flexibility, or other objectives. For example, when demand for a product is high enough to justify continuous production, the production level might need to be adjusted from time to time to address fluctuating demand or changes in a company's market share. This is called the “production-smoothing” problem. When more than one product is involved, complex industrial engineering or operations research procedures are required to analyze the many factors that impinge on the problem. Inventory control is another important phase of production management. Inventories include raw materials, component parts, work in process, finished goods, packing and packaging materials, and general supplies. Although the effective use of financial resources is generally regarded as beyond the responsibility of production management, many manufacturing firms with large inventories (some accounting for more than 50 percent of total assets) usually hold production managers responsible for inventories. Successful inventory management, which involves the solution of the problem of which items to carry in inventory in various locations, is critical to a company's competitive success. Not carrying an item can result in delays in getting needed parts or supplies, but carrying every item at every location can tie up huge amounts of capital and result in an accumulation of obsolete, unusable stock. Managers generally rely on mathematical models and computer systems developed by industrial engineers and operations researchers to handle the problems of inventory control. To control labour costs, managers must first measure the amount and type of work required to produce a product and then specify well-designed, efficient methods for accomplishing the necessary manufacturing tasks. The concepts of work measurement and time study introduced by Taylor and the Gilbreths, as well as incentive systems to motivate and reward high levels of worker output, are important tools in this area of management. In new operations particularly, it is important to anticipate human resource requirements and to translate them into recruiting and training programs so that a nucleus of appropriately skilled operators is available as production machinery and equipment are installed. Specialized groups responsible for support activities (such as equipment maintenance, plant services and production scheduling, and control activities) also need to be hired, trained, and properly equipped. This type of careful personnel planning reduces the chance that expensive capital equipment will stand idle and that effort, time, and materials will be wasted during start-up and regular operations. The effective use and control of materials often involves investigations of the causes of s and waste; this, in turn, can lead to alternative materials and handling methods to improve the production process. The effective control of machinery and equipment depends on each machine's suitability to its specific task, the degree of its utilization, the extent to which it is kept in optimum running condition, and the degree to which it can be mechanically or electronically controlled.
    2014-07-27 21:07:19

  • Jones Hanungu Munang'andu Zambia operations management, planning and control of industrial processes to ensure that they move smoothly at the required level. Techniques of production management are employed in service as well as in manufacturing industries. It is a responsibility similar in level and scope to other specialties such as marketing or human resource and financial management. In manufacturing operations, production management includes responsibility for product and process design, planning and control issues involving capacity and quality, and organization and supervision of the workforce. The “five M's” Production management's responsibilities are summarized by the “five M's”: men, machines, methods, materials, and money. “Men” refers to the human element in operating systems. Since the vast majority of manufacturing personnel work in the physical production of goods, “people management” is one of the production manager's most important responsibilities. The production manager must also choose the machines and methods of the company, first selecting the equipment and technology to be used in the manufacture of the product or service and then planning and controlling the methods and procedures for their use. The flexibility of the production process and the ability of workers to adapt to equipment and schedules are important issues in this phase of production management. The production manager's responsibility for materials includes the management of flow processes—both physical (raw materials) and information (paperwork). The smoothness of resource movement and data flow is determined largely by the fundamental choices made in the design of the product and in the process to be used. The manager's concern for money is explained by the importance of financing and asset utilization to most manufacturing organizations. A manager who allows excessive inventories to build up or who achieves level production and steady operation by sacrificing good customer service and timely delivery runs the risk that overinvestment or high current costs will wipe out any temporary competitive advantage that might have been obtained. Planning and control Although the five M's capture the essence of the major tasks of production management, control summarizes its single most important issue. The production manager must plan and control the process of production so that it moves smoothly at the required level of output while meeting cost and quality objectives. Process control has two purposes: first, to ensure that operations are performed according to plan, and second, to continuously monitor and evaluate the production plan to see if modifications can be devised to better meet cost, quality, delivery, flexibility, or other objectives. For example, when demand for a product is high enough to justify continuous production, the production level might need to be adjusted from time to time to address fluctuating demand or changes in a company's market share. This is called the “production-smoothing” problem. When more than one product is involved, complex industrial engineering or operations research procedures are required to analyze the many factors that impinge on the problem. Inventory control is another important phase of production management. Inventories include raw materials, component parts, work in process, finished goods, packing and packaging materials, and general supplies. Although the effective use of financial resources is generally regarded as beyond the responsibility of production management, many manufacturing firms with large inventories (some accounting for more than 50 percent of total assets) usually hold production managers responsible for inventories. Successful inventory management, which involves the solution of the problem of which items to carry in inventory in various locations, is critical to a company's competitive success. Not carrying an item can result in delays in getting needed parts or supplies, but carrying every item at every location can tie up huge amounts of capital and result in an accumulation of obsolete, unusable stock. Managers generally rely on mathematical models and computer systems developed by industrial engineers and operations researchers to handle the problems of inventory control. To control labour costs, managers must first measure the amount and type of work required to produce a product and then specify well-designed, efficient methods for accomplishing the necessary manufacturing tasks. The concepts of work measurement and time study introduced by Taylor and the Gilbreths, as well as incentive systems to motivate and reward high levels of worker output, are important tools in this area of management. In new operations particularly, it is important to anticipate human resource requirements and to translate them into recruiting and training programs so that a nucleus of appropriately skilled operators is available as production machinery and equipment are installed. Specialized groups responsible for support activities (such as equipment maintenance, plant services and production scheduling, and control activities) also need to be hired, trained, and properly equipped. This type of careful personnel planning reduces the chance that expensive capital equipment will stand idle and that effort, time, and materials will be wasted during start-up and regular operations. The effective use and control of materials often involves investigations of the causes of s and waste; this, in turn, can lead to alternative materials and handling methods to improve the production process. The effective control of machinery and equipment depends on each machine's suitability to its specific task, the degree of its utilization, the extent to which it is kept in optimum running condition, and the degree to which it can be mechanically or electronically controlled.
    2014-07-27 21:07:07

  • Jones Hanungu Munang'andu Zambia operations management, planning and control of industrial processes to ensure that they move smoothly at the required level. Techniques of production management are employed in service as well as in manufacturing industries. It is a responsibility similar in level and scope to other specialties such as marketing or human resource and financial management. In manufacturing operations, production management includes responsibility for product and process design, planning and control issues involving capacity and quality, and organization and supervision of the workforce. The “five M's” Production management's responsibilities are summarized by the “five M's”: men, machines, methods, materials, and money. “Men” refers to the human element in operating systems. Since the vast majority of manufacturing personnel work in the physical production of goods, “people management” is one of the production manager's most important responsibilities. The production manager must also choose the machines and methods of the company, first selecting the equipment and technology to be used in the manufacture of the product or service and then planning and controlling the methods and procedures for their use. The flexibility of the production process and the ability of workers to adapt to equipment and schedules are important issues in this phase of production management. The production manager's responsibility for materials includes the management of flow processes—both physical (raw materials) and information (paperwork). The smoothness of resource movement and data flow is determined largely by the fundamental choices made in the design of the product and in the process to be used. The manager's concern for money is explained by the importance of financing and asset utilization to most manufacturing organizations. A manager who allows excessive inventories to build up or who achieves level production and steady operation by sacrificing good customer service and timely delivery runs the risk that overinvestment or high current costs will wipe out any temporary competitive advantage that might have been obtained. Planning and control Although the five M's capture the essence of the major tasks of production management, control summarizes its single most important issue. The production manager must plan and control the process of production so that it moves smoothly at the required level of output while meeting cost and quality objectives. Process control has two purposes: first, to ensure that operations are performed according to plan, and second, to continuously monitor and evaluate the production plan to see if modifications can be devised to better meet cost, quality, delivery, flexibility, or other objectives. For example, when demand for a product is high enough to justify continuous production, the production level might need to be adjusted from time to time to address fluctuating demand or changes in a company's market share. This is called the “production-smoothing” problem. When more than one product is involved, complex industrial engineering or operations research procedures are required to analyze the many factors that impinge on the problem. Inventory control is another important phase of production management. Inventories include raw materials, component parts, work in process, finished goods, packing and packaging materials, and general supplies. Although the effective use of financial resources is generally regarded as beyond the responsibility of production management, many manufacturing firms with large inventories (some accounting for more than 50 percent of total assets) usually hold production managers responsible for inventories. Successful inventory management, which involves the solution of the problem of which items to carry in inventory in various locations, is critical to a company's competitive success. Not carrying an item can result in delays in getting needed parts or supplies, but carrying every item at every location can tie up huge amounts of capital and result in an accumulation of obsolete, unusable stock. Managers generally rely on mathematical models and computer systems developed by industrial engineers and operations researchers to handle the problems of inventory control. To control labour costs, managers must first measure the amount and type of work required to produce a product and then specify well-designed, efficient methods for accomplishing the necessary manufacturing tasks. The concepts of work measurement and time study introduced by Taylor and the Gilbreths, as well as incentive systems to motivate and reward high levels of worker output, are important tools in this area of management. In new operations particularly, it is important to anticipate human resource requirements and to translate them into recruiting and training programs so that a nucleus of appropriately skilled operators is available as production machinery and equipment are installed. Specialized groups responsible for support activities (such as equipment maintenance, plant services and production scheduling, and control activities) also need to be hired, trained, and properly equipped. This type of careful personnel planning reduces the chance that expensive capital equipment will stand idle and that effort, time, and materials will be wasted during start-up and regular operations. The effective use and control of materials often involves investigations of the causes of s and waste; this, in turn, can lead to alternative materials and handling methods to improve the production process. The effective control of machinery and equipment depends on each machine's suitability to its specific task, the degree of its utilization, the extent to which it is kept in optimum running condition, and the degree to which it can be mechanically or electronically controlled.
    2014-07-27 21:07:46

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