something which mesmerized me‚ then it has to be huge structures like railroads‚ airports‚ highways and all such Mega Structures. After I grew up‚ I learnt that all my areas of interest coincided with what the course of Civil Engineering offered. This made Civil Engineering as my obvious choice for under-graduation. I worked hard towards my interest and secured admission into Chaitanya Bharathi Institute of Technology‚ Hyderabad which is one of the premier technical institutions of the country.
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Pursuing engineering as my future was a natural consequence of my love for machines‚ science and technology. ‘Learning to excel’ is the principal reason that strives everyone to turn efficient through self-perfection and I’m no exception in this regard. Even before my passion towards these machines‚ I have been in love with automobiles for as long as I can remember and this naturally intrigued me to explore‚ learn and develop ideas into practical solutions. As an undergrad‚ I was exposed to a stimulating
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Reverse Engineering A brilliant method of taking an object apart and disassembling all of its mechanical components and analyze every bit of detail‚ enough to recreate a duplicate without fully understanding the original. Reverse engineering is used for many reasons‚ for example; a military obtains an enemy tank that is in good enough condition to be operated‚ they can have their engineers take the machinery apart and gain the knowledge on how to duplicate the same class tank without having to
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STATEMENT OF PURPOSE FOR MS IN ELECTRICAL ENGINEERING Life has always been a smooth flowing brook with small dashes here and there. It has certainly reached a critical juncture when I have to desire where to turn and what to do next and my idea of life can be best quoted by this very famous quotation: “Life is like riding a bicycle. To keep your balance‚ you must keep moving.”
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Software Engineering Spiral Model and Combining Paradigm SPIRAL MODEL SPIRAL MODEL Barry Boehm in 1988. Combining various models. ◦ Prototyping ◦ Linear Sequential Model/Waterfall model Iterative and Incremental Development is at the heart of a cyclic software development process developed in response to the weaknesses of the waterfall model. It starts with an initial planning and ends with deployment with the cyclic interactions in between. SPIRAL MODEL Liaison/Customer Communication
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INTRODUCTION Production is a formal activity that adds value to goods and services‚ including creation‚ transport‚ and warehousing until used. Production is an organized process with specific goals. It implies the creation of a utility or services. Operation is that part of as organization‚ which is concerned with the transformation of a range of inputs into the required output (services) having the requisite quality level. Production function is ‘the part of an organisation‚ which is concerned
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UNIVERSITY TIRUCHIRAPPALLI Tiruchirappalli – 620 024 Regulations 2008 Curriculum B.E. ELECTRICAL AND ELECTRONICS ENGINEERING SEMESTER III S. No. 1 2 3 4 5 6 7 8 9 Subject Code MA1201 EI1202 EE1201 HS1201 EC1209 CS1201 EC1210 CS1203 EI1203 Subject Theory Transforms and Partial Differential Equations Measurements and Instrumentation Electromagnetic Theory Environmental Science and Engineering Electron Devices and Circuits Data Structures Practical Electron Devices and Circuits Laboratory Data Structures
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Software Requirement Engineering through Use case Mrs Mirza Zainab‚ Lecturer in IT Dept‚ M.H.S.S. COE‚ Byculla‚ India Mirza_zainab@yahoo.com ABSTRACT By now‚ it is well known that shortcomings in requirements definition and management lead to excessive rework on software projects and products that fail to achieve full customer satisfaction. In systems engineering and software engineering‚ requirements analysis encompasses all of the tasks that go into the investigation‚ scoping and definition
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Application of linear algebraic equation for chemical engineering problem The chemical engineering system models often outcome of set of linear algebraic equations. These problems may range in complexity from a set of two simultaneous linear algebraic equations to a set involving 1000 or even 10‚000 equations. The solution of a set two or three linear algebraic equations can be obtained easily by the algebraic elimination of variables or by the application of cramer’s rule. However for systems involving
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FURPS + F > Functionality- Feature set‚ Capabilities‚ Generality‚ Security U> Usability- Human factors‚ Aesthetics‚ Consistency‚ Documentation R> Reliability- Frequency/severity of failure‚ Recoverability‚ Predictability‚ Accuracy‚ Mean time to failure P> Performance- Speed‚ Efficiency‚ Resource consumption‚ Throughput‚ Response time S> Supportability- Testability‚ Extensibility‚ Adaptability‚ Maintainability‚ Compatibility‚ Configurability‚ Serviceability‚ Installability‚ Localizability
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