Industrial Systems Engineering, Supply Chain Management and a More Efficiently Growing World
Industrial Systems Engineering is based around complex systems of people, information, energy and how to develop, improve, implement and evaluate these systems. While many engineers are forced to narrow their search for jobs because of their distinct major, Industrial Systems Engineering is the perfect balance of its necessity and broadness (Fraser Abhijit 2010). Industrial Systems Engineers are the new face of healthcare reform to make hospitals run more efficiently, they are at the forefront businesses making new products hit the market with the greatest success rate, they are reducing the carbon footprint with the automobile industry, creating more efficient systems with the U.S. Postal Service so one will receive their mail sooner and with less mistakes and printed circuit board manufacturers in Taiwan distribute their products with a greener footprint. In all of these real world scenarios, supply chain management is the key to an Industrial Systems Engineers job.
Supply Chain Management is the science that improves the ways companies use raw materials to make a product or service and deliver it to the customer. Every product that reaches an end consumer is the result of a cooperative effort between several organizations. This means companies need to manage their product, not just inside of the business walls, but the path that their product takes to reach the final consumer. If companies only focus on their product and do not follow its way to the market, many inefficiencies may occur in the companies supply chain (Baltzan 2014). Businesses who cooperate in a successful supply chain are linked with one another and allow an easy flow ...
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...t to the market. Industrial Systems Engineering encompasses the necessary skills for a successful entrepreneur to develop a supply chain for their product and grow their business.
Industrial Systems Engineering is the wide-ranging degree that allows one to become involved with an endless number of opportunities and industries around the world. Their use of supply chain management helps not just a single industry, but many other industries that are involved with the creation of a final product or service. Whether it be reducing the environmental footprint of the automotive industry, increasing the efficiency of the healthcare system, helping the United States Postal Service remain a sustainable industry, or help small businesses start up as efficiently as possible., Industrial Systems Engineers use supply chain management to make the world a more efficient place.
...dustrial Distribution allows me to pursue my interests in both Business and Engineering, and therefore I chose that major. Also, it will help me to build my personal characteristics that will make me successful in this major. As my education continues, I look forward to learning how manufacturers and distributors maintain good communication and relations, so that the products can be distributed efficiently and avoid problems. If there are problems, I would also like to comprehend ways to solve those problems. In the future, I hope to work for a company such as Amazon, Dell, or Boeing in the field of logistics. These companies depend on logistics in planning and conducting their operations. Since logistics and relations between manufacturer and distributor are critical to the everyday operations of businesses, understanding this will help me in my future endeavors.
The industrial supply industry generates about 73 billion dollars in revenue and has a growth rate of 4.4% a year and employees about 95,000 people according to IBIS World. The interesting part of this industry is the fact there is no company with a dominant market share. Even though some revenue numbers might be higher for some companies, each company
A supply chain is a system through which organizations deliver their products and services to their customers. The network begins with the basic ingredients to start the chain of supply, which are the suppliers that supply raw materials, ingredients, and so on. From there, it will transfer the supplies to the manufacturer who builds, assembles, converts, or furnishes a product. The chain now needs to get the product to the consumer by transporting the finished product from the manufacturer through a warehouse or distribution center. An example is that Wal-Mart has a nearby distribution center where products are delivered there and then split up to be delivered to a retail Wal-Mart. “Wal-Mart will take responsibility for breaking down larger loads and delivering the product to other Wal-Mart stores” (Ehring 1).
They should know how to communicate with those whom are operating the machinery to diagnose and fix the problem. Workers need to know how to problem solve using mathematical and mechanical skills. It is very important that an employee be able to order equipment and stay within their budget. In this job, the employer has to know how to prioritize their work and be punctual while thorough in repairing the equipment. An industrial machinery mechanics typical workday will require the employee to pick up, push, pull or carry heavy objects.
“Supply Chain Management encompasses the planning and management of all activities involved in sourcing and procurement, conversion and all logistic activities. Importantly, it also includes coordination and collaboration with channel partners, which can be suppliers, intermediaries, third parties service providers and customers. In essence, Supply Chain Management integrates supply and demand management within and across companies.’
Coyle, J., Langley, C., Gibson, B., Novack, R. and Bardi, E. (2008).Supply Chain Management: A Logistics Perspective. 8th ed. Cengage Learning, p.366.
In manufacturing industry there are manufacturing engineers who generally decide, plan and execute manufacturing process for product being produced. While in initial stage the process of manufacturing engineering plays vital role in decision making about ‘How’ the products will be produced efficiently, fast, error free and of highest standard.
Musgrave group, (2007). Technology in business implementing a supply chain management system. Irish times. [online] Available at: www.business2000.ie/pdf/pdf_10/musgrave_10th.pdf [Accessed 26 May. 2014].
Supply chain management has been defined as that process that involves the management of information, materials, and all the finances that are handled within and across the entire supply chain process (Christopher, 2016). The management is usually done through out the entire supply chain management from that moment when the suppliers are involved through all the manufacturing activities, different distribution activities, and the way that the products are served to the final product consumer (Turban, et al., 2002). The process also includes all the activities that different organizations offers to their customers as after sale services for purposes perfecting their services and products towards their highly valued customers (Christopher,
As an Industrial Engineer with more than 15 years of work experience, I choose Supply Chain Management (SCM) because I believe that logistics is the most dynamic, vibrant, challenging, technology driven area, and the future of any big national and international companies. It will give me the opportunity to know behind the scene of improving the companies’ performance by using SCM tools. If I work in this field, I can get my answers and a chance to work in the market of raw material, purchasing, production, distribution, logistics, and final goods. After finishing two semesters in the College of Business at University of Houston Downtown (UHD), I am really passionate about it and want to gain my knowledge in the logistics sector, learn new techniques and skills, and seek new opportunities.
Completing high school education from an illustrious junior college, my academic accomplishments at school earned me admission in Sri Sairam Engineering College, Chennai. Ranked 3rd in the southern region of India by Outlook and The Week, and is affiliated to prestigious Anna University. I am pursuing my bachelors in Production Engineering. I have a commodious curriculum which enunciates on latest manufacturing techniques, production management until my junior year. In my senior year, I have electives like Operation's research, Ergonomics. This opened the gates to the field of Industrial engineering and that moment, I realized that manufacturing alone is not the crux of an Industry but there are many other segments, which have to be given equal importance for the amelioration of the Industry, which made me decide to augment my knowledge to these areas rather than merely focusing on manufacturing.
‘Supply chain management integrates supply and demand management within and across companies. It encompasses the planning and management of all activities involved in sourcing and procurement, conversion, and all logistics management activities. Importantly, it also includes coordination and collaboration with channel partners, which can be suppliers, intermediaries, thir- party service providers, and customers’. (Web: Council for Supply Chain Management Pr...
My second interest in Supply Chain Management arose from my assessment that it is a ‘rational’ specialty. I understood that its simplistic applications could find solutions for essential needs of humanity. I realized that Mechanical Engineering has an enormous reach from automobiles and manufacturing to medical equipment and nanotechnology. I studied an extremely stimulating curriculum diligently focusing on Basic Mechanical Engineering and Operations research which gave me a holistic overview of the engineering field. Hence, my penchant for the range and extent of science with Mechanical engineering as the cynosure grew.
Industrial Engineering Industrial Engineering is concerned with the design, improvement, and installation of integrated systems of people, materials, equipment, information, and energy in the most efficient manner possible. Efficiency is one of an engineers major concerns. Being able to complete the job, solve the problem, and put the solution in process are all very important, but making the process efficient allows less waste and more profit. It draws upon specialized knowledge and skill in the mathematical, physical, and social sciences together with the principles and methods of engineering analysis and design to specify, predict and evaluate the results to be obtained from such systems. Their jobs are also concerned with performance, reliability, cost efficiency, quality control, plant design, and management of human resources.
Industrial engineers, for example, need to have a passion for improvement. Industrial engineering is about optimizing processes and finding ways to eliminate practices that are non-value added. As an industrial engineer, you must be able to think critically and be resourceful. It takes persistence and patience to determine the best way to fix a problem. The answer to many engineering problems only comes after extensive investigation and trial and error. Industrial engineers have to continuously verify and validate many different models and simulations to improve a system. A good industrial engineer is able to use their passion for improvement to continuously question how they can make things