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Rfid On Automotive Industry
These RFID standards offer the specifications as well as guidelines for the various RFID products. They describe the working systems of RFID, the frequencies they operate at as well as the communication and data transfers between the tag and the reader. The application of the various RFID technologies is meeting the standard guidelines in the automotive industry assist in the refining of the production processes as well as increasing the profitability of the industry players (Barjis & Chatfield, 2010). RFID entails a model of an automatic identification system that makes it possible to track the work in progress in the automotive industry in addition to the other industries such as retail, pharmaceutical and medical among others. The utilization of RFID in the tracking of inventories in a supply chain to the product level assists in the reduction of cycle times as well as increasing the visibility in the supply chain (Saranga, 2012). About the infrastructure, the radio frequency identification entails the interrogators (readers) as well as tags also referred to as labels. The majority of the RFID tags made of a minimum of two tags. The first one being an integrated circuit used for storing as well as processing information, modulating along with demodulating the radio a radio frequency signal. The second part of the RFID made of an antenna that is significant in receiving as well as transmitting signals (Günther and Spiekermann, 2012).
The application of RFID can assist in the reduction of the manual scan transactions during the production process. RFID eliminates numerous requirements as well as activities that are complicates needed by the utilization of the bar code such capturing the necessary data manually. The application of RFID assists in the automation of the majority of these scan processes thus helping the organization to save time as well as money (Juels and Weis 2010). An example of RFID application is by Lexus, which partnered with MyDealerLot for the utilization of the RFID in the tracking of inventory on the two sides. They have applied the RFID tags on the vehicles that have been manufactured while they leave the production lines utilizing the information and sharing it with their dealers. Through an emphasis on the same objective, BMW has also applied RFID to assist them regulate the inventory status as well as enable their customers regulate their inventory in a more superior manner (Günther and Spiekermann, 2012).
Simplification of the Working Process
Application of the RFID technology assists in the simplification of the working process in the automotive manufacturing sector in a myriad of ways. The advantage in applying RFID it reduces paperwork in the industry which is normally costly as well as the fact that it can lead to a document mix-up as well as faulty data maintenance. In this case, the utilization of the RFID tags is with the objective of overcoming the problems whereby the records of the conducted operations automatically written from the machines to the tags (Bono et al., 2012). The additional application of the technology in the industry is that the process of the customers utilizing the cars additionally simplified. The case in point is of the Toyota Prius along with some models of the Lexus, which utilize the RFID circuit to permit the reorganization of the keys in a distance of 3 feet of the sensor. It makes it possible for the drivers to open the doors to their cars without having to pool the keys out of their pockets (Juels and Weis 2010).
Automation of Asset Tracking
The other benefit that comes with the application of RFID in the automotive industry is the fact that it allows for the automation of the tracking of assets. The comprehension of spatial assets location is normally crucial in the success of the production process. The assets should be at the right places and at the right time for the success of the production process to avoid the interruption that lowers the productivity along with the reputation of the company (Bono et al., 2012). Automotive manufacturers normally apply RFID technology by ensuring that the tags, as well as registers, are fitted within the stationary readers at the vital production points. For instance Ford, the motor company has been using the RFID tags to assists them in keeping track of the chassis skid for every car while the chassis moves from one assembly point to the next. The RFID readers in this case automatically read the assembly requirements of the chassis to make it possible for the correct parts to be installed (Barjis & Chatfield, 2010).
Through the utilization of the basic triangulation, the RTLS, which uses RFID tags assists in the location of the tagged items in the manufacturing process. The approach coupled with the modern logistics and monitoring software can assist in the location of the vehicles specifically where they locate on the shop floor or even the warehouse. The technology is also instrumental in the location of the misplaced tools in the production warehouse resulting in the reduction of the queue duration (Günther and Spiekermann, 2012).The application of the RFID technology assists the automotive manufacturers monitor the deliveries of their vehicles from their warehouses to the dealers as well as the end customers. The attribute facilitates the after sales services via the storage of the service history as well as the information of the customer.
The RFID offers some challenges in its implementation that needs solving such as the technical problems as interference, spectrum control, range as well as the collisions. The IT challenges that the technology faces include interfacing with legacy systems, compatibility as well as storage of the data to managerial issues as redesigning processes. The RFIDs do not just benefit the company’s operational logistics but also are useful in the assembly floor of the automotive warehouse. For instance, the Yoshikazu Suzuki’s assembly workstation is used for the non-repetitive production of the products that are application specific. The workstation is encompassed a computer screen, a barcode reader as well as an RFID (Barjis & Chatfield, 2010). The digital yatai utilizes barcodes as well as RFID tags on tools as well as parts to detect the completion in every step as well as display the instructions on the screen of the computer. The adoption of the technology has assisted in the reduction of the assembly durations by 50%. Additionally it is reducing the errors found in the set up of the stations, picking tools and parts as well as the processing (Bono et al., 2012).
The application of the RFID technology assists the various aspects of the automotive industry by assisting in the production planning. In this case, the RFID tags assist in matching of the material flow with the flow of the necessary information by the ERP system thus coordinating the production plan. In the context of providing visibility of inventory in real time, the passive tags rack the parts for assembly (Brintrup, Ranasinghe, & McFarlane, 2010). The active tags attached to the products newly manufactured having the machine set up data and quality metrics. In the tracking as well as recall of the products, the RFID tags are attached to the assembly fixtures that require maintenance making easy for the identification of the maintenance history. Additionally the products recalls as a result of the shorter innovation cycles are avoided since the manufacturer can recall just the products that belong to the faulty easily via scanning the attached RFID tag. The attachment of the RFID on the assets that are reusable in the containers, equipment and truck trailers, it is easy to avoid the costly overstocking since they are easily tracked and dispatched (Barjis & Chatfield, 2010).
A. Juels and S. Weis (2010). “Authenticating Pervasive Devices with Human Protocols,” Advances in Cryptology: Proc. 25th Int’l Cryptology Conf., LNCS 3126, V. Shoup, ed., Springer-Verlag, pp. 293–309
Barjis, J & Chatfield, A (2010). Business Process Management Journal: Business impacts of RFID applications, Emerald Group Publishing Limited, viewed July 29, 2015, Ebook Library (EBL)
Brintrup, A, Ranasinghe, D & McFarlane, D (2010). ‘RFID opportunity analysis for leaner manufacturing’, International Journal of Production Research, vol. 48, no. 9, pp. 2745-2764, viewed July 29, 2015, Business Source Complete (EBSCO).
Sherry Roberts is the author of this paper. A senior editor at Melda Research in 24 hour college papers services. If you need a similar paper you can place your order for a custom research paper from custom nursing essay services.
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