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VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function
Posted by Zachary Edwards on Mar-22-2018
The VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function will look at each of its internal resources one by one to assess whether these provide sustained competitive advantage. The Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis also mentions at each stage whether these resources could be improved to provide a greater competitive advantage. Lastly, the resources analysed are summarised as to whether they offer sustained competitive advantage, has an unused competitive advantage, temporary competitive advantage, competitive parity or competitive disadvantage.
Valuable
- The Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis shows that the financial resources of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are highly valuable as these help in investing into external opportunities that arise. These also help Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function in combating external threats.
- According to the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function, its local food products are a valuable resource as these are highly differentiated. This makes the perceived value for these by customers high. These are also valued more than the competition by customers due to the differentiation in these products.
- The Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis shows that Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function's employees are a valuable resource to the firm. A significant portion of the workforce is highly trained, and this leads to more productive output for the organisation. The employees are also loyal, and retention levels for the organisation are high. All of this translates into greater value for the end consumers of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function's products.
- According to the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function, its patents are a valuable resource as these allow the firm to sell its products without competitive interference. This results in greater revenue for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. These patents also provide Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function with licensing revenue when it licenses these patents out to other manufacturers.
- The Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis shows that Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function’s distribution network is a valuable resource. This helps it in reaching out to more and more customers. This ensures greater revenues for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. It also ensures that promotion activities translate into sales as the products are easily available.
- According to the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function, its cost structure is not a valuable resource. This is because the methods of production lead to greater costs than that of competition, which affects the overall profits of the firm. Therefore, its cost structure is a competitive disadvantage that needs to be worked on.
- The Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis shows that the research and development at Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function is not a valuable resource. This is because research and development are costing more than the benefits it provides in the form of innovation. There have been very few innovative features and breakthrough products in the past few years. Therefore, research and development are a competitive disadvantage for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. It is recommended that the research and development teams are improved, and costs are cut for these.
Rare
- The financial resources of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are found to be rare according to the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. Strong financial resources are only possessed by a few companies in the industry.
- The local food products are found to be not rare as identified by Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. These are easily provided in the market by other competitors. This means that competitors can use these resources in the same way as Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function and inhibit competitive advantage. This means that the local food products result in competitive parity for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. As this resource is valuable, Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function can still make use of this resource.
- The employees of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are a rare resource as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. These employees are highly trained and skilled, which is not the case with employees in other firms. The better compensation and work environment ensure that these employees do not leave for other firms.
- The patents of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are a rare resource as identified by the Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. These patents are not easily available and are not possessed by competitors. This allows Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function to use them without interference from the competition.
- The distribution network of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function is a rare resource as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. This is because competitors would require a lot of investment and time to come up with a better distribution network than that of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. These are also possessed by very few firms in the industry.
Imitable
- The financial resources of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are costly to imitate as identified by the Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. These resources have been acquired by the company through prolonged profits over the years. New entrants and competitors would require similar profits for a long period of time to accumulate these amounts of financial resources.
- The local food products are not that costly to imitate as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. These can be acquired by competitors as well if they invest a significant amount in research and development. These also do not require years long experience. Therefore, the local food products by Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function provide it with a temporary competitive advantage that competitors can too acquire in the long run.
- The employees of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are also not costly to imitate as identified by the Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. This is because other firms can also train their employees to improve their skills. These companies can also hire employees from Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function by offering better compensation packages, work environment, benefits, growth opportunities etc. This makes the employees of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function a resource that provides a temporary competitive advantage. Competition can acquire these in the future.
- The patents of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are very difficult to imitate as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. This is because it is not legally allowed to imitate a patented product. Similar resources to be developed and getting a patent for them is also a costly process.
- The distribution network of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function is also very costly to imitate by competition as identified by the Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. This has been developed over the years gradually by Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. Competitors would have to invest a significant amount if they are to imitate a similar distribution system.
Organisation
- The financial resources of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are organised to capture value as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. These resources are used strategically to invest in the right places; making use of opportunities and combatting threats. Therefore, these resources prove to be a source of sustained competitive advantage for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function.
- The Patents of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function are not well organised as identified by the Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function VRIO Analysis. This means that the organisation is not using these patents to their full potential. An unused competitive advantage exists that can be changed into a sustainable competitive advantage if Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function starts selling patented products before the patents expire.
- The distribution network of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function is organised as identified by the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function. Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function uses this network to reach out to its customers by ensuring that products are available on all of its outlets. Therefore, these resources prove to be a source of sustained competitive advantage for Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function.
From the VRIO Analysis of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function, it was identified that the financial resources and distribution network provide a sustained competitive advantage. The patents are a source of unused competitive advantage. There exists a temporary competitive advantage for employees. There exists a competitive parity for local food products. Lastly, the cost structure of Optimizing Metal Cutting Cost by Integration of Cost of Quality Using Taguchi s Loss Function is a competitive disadvantage. Research and Development is also a competitive disadvantage.
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