Supply Chain Collaboration Between the Organization and Suppliers Essay Example

Supply Chain Collaboration Between the Organization and Suppliers Essay Example Supply Chain Collaboration Between the Organization and Suppliers Essay Supply Chain Collaboration Between the Organization and Suppliers Essay In most organizations, supply chain collaboration between the organization and suppliers can reduce inventory costs with the use of information technology (IT). Laudon and Laudon (2007) suggest that IT consists of all hardware and software that a firm needs to use in order to achieve its business objectives. Computers, printers, and handheld personal digital assistants are considered hardware components. Software includes operating systems such as Linux or Windows, the Microsoft Office desktop productivity suite, and other computer programs essential to an organization that is currently on the market. Information technology offers a competitive advantage, reduces and controls costs, improves customer and supplier intimacy, and access to the global economy. Information Technology Competitive Advantage According to Laudon and Laudon (2007), more than 23 million managers and 113 million workers in the United States’ labor force rely on information systems to conduct business. IT offers the supply chain organization a competitive advantage by achieving operational excellence, customer and supplier intimacy, and improved decision making. IT allows the supply chain to respond to customers in real time, thus all improvements add up to higher sales and higher profits to the organization (Laudon and Laudon 2007). Reducing and Controlling Costs Gendron (2006) states, â€Å"Studies by the Aberdeen Group have shown that non-production materials like office supplies, computer equipment and maintenance, repair and operating provisions (MRO) can account for 30% to 60% of a company’s total expenditures yet they remain poorly controlled and costly to process at most organizations† (p. 91). Information technology permits the supply chain organization to control and process purchasing requisition for supplies efficiently and at reduced costs. Amazon. com, though is an e-commerce company, is a company that uses IT to track orders, place orders from suppliers, and also tracks where items are stored within the facility. Supply chain departments have access to several tools that can help in reducing costs. Enterprise resource planning (ERP) systems are used by large corporations to use the Web efficiently when purchasing suppliers. Gendron (2006) states, â€Å"Studies have also noted that off-contract buying is more prevalent for services than for direct or indirect products, and service supplier networks are huge, averaging nearly 75 suppliers per purchasing employee more than double the number of suppliers per buyer of direct goods† (p. 91). The supply chain organization purchasing responsibilities is one of the fastest payback areas using the Web, because the online bidding process can be used (Gendron 2006). Global Economy Opportunities Information technology offers the supply chain organization several advantages in a global economy to help reduce inventory costs. Laudon and Laudon (2007) state, â€Å"The emergence of the Internet into a full-blown international communications system has drastically reduced the costs of operating on a global scale† (p. 7). The supply chain organization can shop a worldwide marketplace, obtaining quality and price information reliably 24 hours a day. The key advantage is that the supply chain organization can achieve extraordinary cost reductions by finding low-cost suppliers and managing production facilities in other countries. Summary Information technology offers the supply chain organization several advantages to reduce costs and improve customer relations. Information technology offers a competitive advantage by reducing and controlling costs, improving customer and supplier intimacy, and provides access to the global economy. To stay competitive, the supply chain organization must use information technology to grow the business and reduce inventory costs. References Gendron, M. P. (2006). Creating the new e-business company: Innovative strategies for real-world applications. Mason, OH: The Thomson Corporation. Laudon, K. C. Laudon, J. P. (2007). Management information systems: Managing the digital firm. Upper Saddle River, NJ: Pearson Prentice Hall.

Biography of Emmett Chappelle, American Inventor

Biography of Emmett Chappelle, American Inventor Emmett Chappelle (born October 24, 1925) is an African-American scientist and inventor who worked for NASA for several decades. He is the recipient of 14 U.S. patents for inventions related to medicine, food science, and biochemistry. A member of the National Inventors Hall of Fame, Chappelle is one of the most distinguished African-American scientists and engineers of the 20th century. Fast Facts: Emmett Chappelle Known For: Chappelle is a scientist and inventor who received over a dozen patents while working for NASA; he devised ways for scientists to measure plant health and detect bacteria in outer space.Born: October 24, 1925 in Phoenix, ArizonaParents: Viola Chappelle and Isom ChappelleEducation: Phoenix College, University of California at Berkeley, University of WashingtonAwards and Honors: National Inventors Hall of FameSpouse: Rose Mary PhillipsChildren: Emmett William Jr., Carlotta, Deborah, and Mark Early Life Emmett Chappelle was born on October 24, 1925, in Phoenix, Arizona, to Viola White Chappelle and Isom Chappelle.  His family farmed cotton and cows on a small farm. As a child, he enjoyed exploring the desert environment of Arizona and learning about nature. Chappelle was drafted into the U.S. Army right after graduating from Phoenix Union Colored High School in 1942 and was assigned to the Army Specialized Training Program, where he was able to take some engineering courses. Chappelle was later reassigned to the all-black 92nd Infantry Division and served in Italy. After returning to the United States, he went on to study electrical engineering and earn his associates degree from Phoenix College. He then earned a B.S. in biology from the University of California at Berkeley. After graduating, Chappelle went on to teach at the Meharry Medical College in Nashville, Tennessee, from 1950 to 1953, where he also conducted his own research. His work was soon recognized by the scientific community and he accepted an offer to study at the University of Washington, where he received his masters degree in biology in 1954. Chappelle continued his graduate studies at Stanford University, though he did not complete a Ph.D. degree. In 1958, Chappelle joined the Research Institute for Advanced Studies in Baltimore, Maryland, where his research on single-celled organisms and photosynthesis contributed to the creation of an oxygen supply system for astronauts. He went on to work for Hazelton Laboratories in 1963. Innovations at NASA In 1966, Chappelle began working at NASAs Goddard Space Flight Center in Greenbelt, Maryland. His work as a research chemist supported NASAs manned space flight initiatives. Chappelle pioneered a way to develop the ingredients ubiquitous in all cellular material. Later, he developed techniques that are still widely used for the detection of bacteria in urine, blood, spinal fluids, drinking water, and foods. Chappelles research helped NASA scientists develop a way to remove soil from Mars as part of the Viking program. In 1977, Chappelle turned his research efforts toward the remote measurement of vegetation health through laser-induced fluorescence (LIF). Working with scientists at the Beltsville Agricultural Research Center, he advanced the development of LIF as a sensitive means of detecting plant stress. Chappelle was the first person to identify the chemical composition of bioluminescence (the emission of light by living organisms). Through his studies of this phenomenon, he proved that the number of bacteria in water can be measured by the amount of light given off by that bacteria. He also showed how satellites can measure luminescence levels to monitor the health of crops (growth rates, water conditions, and harvest timing) and enhance food production. Chappelle used two chemicals produced by fireflies- luciferase  and  luciferin- to develop a technique for detecting adenosine triphosphate (ATP), an organic compound found in all living organisms: You  start out  with the fire fly  which you  have to obtain by the way. Either you catch it yourself or you pay the little kids to run around  catching  them for you. Then you  bring  them into the lab. You chop off their tails, grind them up and get a solution out of these ground-up tails...You add adenosine triphosphate to  that  mixture and you get  light. Chappelles method for identifying ATP is unique in that it works outside of earths atmosphere- meaning it could, in theory, be used to identify extraterrestrial life. The field of exobiology- the study of life beyond the planet Earth- owes much to Chappelles work. The scientist himself, in an interview with The HistoryMakers, said he is inclined to believe there is life beyond Earth: I  think its  likely. Its not life as we know it here on Earth. But I think its likely that theres, there are organisms up there that reproduce. Chappelle retired from NASA in 2001 to live with his daughter and son-in-law in Baltimore, Maryland. Along with his 14 U.S. patents, he has produced more than 35 peer-reviewed scientific or technical publications and nearly 50 conference papers. He has co-authored and edited numerous other publications on a variety of subjects. Accolades Chappelle earned an Exceptional Scientific Achievement Medal from NASA for his work. He is a member of the American Chemical Society, the American Society of Biochemistry and Molecular Biology, the American Society of Photobiology, the American Society of Microbiology, and the American Society of Black Chemists. Throughout his career, he has mentored talented minority high school and college students in his laboratories. In 2007, Chappelle was inducted into the National Inventors Hall of Fame for his work on bioluminescence. He is often included on lists of the most important scientists of the 20th century. Sources Carey, Charles W. African Americans in Science: An Encyclopedia of People and Progress. ABC-CLIO, 2008.Dunbar, Brian. â€Å"Goddard Scientist Inducted Into National Inventors Hall of Fame.† NASA, NASA.â€Å"Emmett Chappelle.† The HistoryMakers.â€Å"Fireflies Light Gains New Uses in Medical and Technical Research.† The New York Times, The New York Times, 25 Aug. 1975.Kessler, James H. Distinguished African American Scientists of the 20th Century. Oryx Press, 1996.