Advanced Networking Coursework Example | Topics and Well Written Essays - 2250 words

Advanced Networking - Coursework Example The huge size of the organisation can be guessed by its year 2007 volume of credit and debit card transactions which grossed to 4 billion.The organisation is looking for evaluation and strategies to improve grey in the fields of Fault management, Configuration Management, Network management, Security Management and Account Management. Finally, the organisation is interested in developing a network Management tool to automate & simplify the areas mentioned before. This paper attempts to provide a strategic solution in all the areas of Fault management, Configuration Management, Network management, Security Management and Account Management.Fault Management is defined as the process of monitoring, identifying, correcting the errors in any system. The Fault management is of two types - Passive and Active. The Passive fault management is also knows the breakdown management as in this case the designated person or system does not work towards correcting the fault until the system has brok en down.In case of the active fault management, the complete system is monitored by an automated system which keeps on checking all the network connections and keeps sending the report to an operator. The operator, through a set of parameter values, determines if the values are in "safe" range else the remedial action can be taken before the breakdown of the system happens. The Fault Management systems are designed to operate in auto modes i.e. the system takes action on its own to correct the problem or else it sends an SMS, automated call to the escalation for any kind of human intervention to correct the problem. The following schematic diagram explains this system more clearly. Diagram 1: Schematic of the Active Fault Management System Following techniques are used to repair the faults identified in the network of the IT System - Remove / neutralize fault, using redundancy Retry without intervention (time redundancy) Reconstruct data/state (data redundancy) Work-around (configuration redundancy) Substitution (code redundancy) Tolerate fault: reduce service quality Reduce speed, reduce precision Use default, omit faulty parts Supportive functionality: Checkpointing - Dynamic Reconfiguration Organization of Fault Management at XYZ enterprise XYZ enterprise would be using all the techniques mentioned in the previous section to efficiently handle the Faults at the enterprise's complex system. The management would be pro-active with the agreed safe parameters along with formal documentation on the escalation procedure. Configuration Management Configuration Management is defined as the process of managing the software source code or any "configuration" items in its integrated format. All the changes to the configurable items are version controlled and are stored in software which allows the configurable items to be updated only after a set of processes are followed. Configuration Management helps to identify at any point of time, the current software code version, essential characteristics of the codes and any dependencies amongst the codes, if any. Unless, there is a methodology to manage the software codes, the changes to software can be a minor discomfort to a major issue with a potential to bring down the mission critical business applications. Another important use of the Configuration Management process is the reduction of development effort in applications by re-using the existing software available in the organisation. The identification of the characteristics of the existing source in the organisat

Industrial Engineers role in Theme Parks compared to supply chain Essay

Industrial Engineers role in Theme Parks compared to supply chain managers role in Theme Parks - Essay Example Mechanical engineering is in few cases considered equivalent to industrial engineering, but in reality, the two domains of engineering are entirely different. Mechanical engineering is appropriate to tangible mechanically powered machineries, their working and related technicalities, whereas industrial engineering is pertinent to optimization of production systems and engineering solution to real problems in process flow. â€Å"Solutions† entail decision where one has to prefer one reasonably feasible solution over a different viable solution. A proper understanding, illustrating the application of industrial and mechanical engineering based on situation of a theme park, is demonstrated in this technical report. The concept behind the industry of the theme park was originated from an American invention, but now it has established its roots globally. The wonder initiated with the Cyclone roller coaster once installed at Coney Island in New York City. The most important cause pe ople trip and resume tripping to theme parks is the thrilling rides. Presently, there are more than thirteen thousand roller coasters in the US. The speediest and most elevated is Kingda Ka at Six Flags Great Adventure in New Jersey. The Magic Kingdom at Walt Disney World has the highest visitors among all the theme parks in the world; this Magic World is located in Orlando, FL. One wonders as to how such mega theme parks are designed, developed, operated, maintained, improved, managed and sustained. The successful theme parks have huge employee resource allocated for each and every step. Among the employee resource industrial and mechanical engineers play a vital role in accomplishing the goals of theme park organizations and, thus, theme parks produce returns in the multiple billion dollars per annum. Hence, due to constant enforcement of brilliant resource, sales figures persist to grow with the passage of time. For attracting the visitors design innovations, frequent changes and developments are necessary, therefore, variety of engineering specialties are utilized in order to cope with the growing challenges. This paper enlightens the role of mechanical versus industrial engineers in the running of theme parks. The paper covers both aspects of engineering that are practical aspect as well as academic in order to illustrate the roles more explicitly. 2. Problem Statement The subject statement of ‘Industrial Engineers Role in Theme Parks Compared To Mechanical Engineers Role in Theme Parks’ is in a technical realm, where one has to figure out the academic grounds of the two domains of engineering and then analyzing the practical explanations, and finally linking it with the needs and challenges of a theme park. The countless hours of entertainment involve a tremendous amount of expertise in varying fields of industrial and mechanical engineering. At the same time as all the exertion of these engineers continues to happen behind the apparent pict ure, the ultimate objective is to make thrilling rides and involvements whilst ensuring the safety and confidence of every visitor and guest at the foremost point in the priority list. i. Job Diversity in Theme Park Theme park requires variety of job opportunities, as per engineering is concerned, theme parks require establishment of standard processes to maximize safety of operations, identification and analysis of