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Software Engineering - Agile Model | VCMIT

Agile Model The meaning of Agile is swift or versatile."Agile process model" refers to a software development approach based on iterative development. Agile methods break tasks into smaller iterations, or parts do not directly involve long term planning. The project scope and requirements are laid down at the beginning of the development process. Plans regarding the number of iterations, the duration and the scope of each iteration are clearly defined in advance. Each iteration is considered as a short time "frame" in the Agile process model, which typically lasts from one to four weeks. The division of the entire project into smaller parts helps to minimize the project risk and to reduce the overall project delivery time requirements. Each iteration involves a team working through a full software development life cycle including planning, requirements analysis, design, coding, and testing before a working product is demonstrated to the client. Phases of Agile Model

Software Engineering - Incremental Model | VCMIT

Incremental Model Incremental Model is a process of software development where requirements divided into multiple standalone modules of the software development cycle. In this model, each module goes through the requirements, design, implementation and testing phases. Every subsequent release of the module adds function to the previous release. The process continues until the complete system achieved. The various phases of incremental model are as follows: 1. Requirement analysis: In the first phase of the incremental model, the product analysis expertise identifies the requirements. And the system functional requirements are understood by the requirement analysis team. To develop the software under the incremental model, this phase performs a crucial role. 2. Design & Development: In this phase of the Incremental model of SDLC, the design of the system functionality and the development method are finished with success. When software develops new practicality, the incremental mode

Software Engineering - Spiral Model | VCMIT

Spiral Model The spiral model, initially proposed by Boehm, is an evolutionary software process model that couples the iterative feature of prototyping with the controlled and systematic aspects of the linear sequential model. It implements the potential for rapid development of new versions of the software. Using the spiral model, the software is developed in a series of incremental releases. During the early iterations, the additional release may be a paper model or prototype. During later iterations, more and more complete versions of the engineered system are produced. Each cycle in the spiral is divided into four parts: Objective setting: Each cycle in the spiral starts with the identification of purpose for that cycle, the various alternatives that are possible for achieving the targets, and the constraints that exists. Risk Assessment and reduction: The next phase in the cycle is to calculate these various alternatives based on the goals and constraints. The focus of evaluation

Software Engineering - RAD (Rapid Application Development) Model | VCMIT

RAD (Rapid Application Development) Model RAD is a linear sequential software development process model that emphasizes a concise development cycle using an element based construction approach. If the requirements are well understood and described, and the project scope is a constraint, the RAD process enables a development team to create a fully functional system within a concise time period. RAD (Rapid Application Development) is a concept that products can be developed faster and of higher quality through: Gathering requirements using workshops or focus groups Prototyping and early, reiterative user testing of designs The re-use of software components A rigidly paced schedule that refers design improvements to the next product version Less formality in reviews and other team communication The various phases of RAD are as follows: 1.Business Modelling: The information flow among business functions is defined by answering questions like what data drives the business process, what data

Software Engineering - Waterfall Model | VCMIT

Waterfall model Winston Royce introduced the Waterfall Model in 1970.This model has five phases: Requirements analysis and specification, design, implementation, and unit testing, integration and system testing, and operation and maintenance. The steps always follow in this order and do not overlap. The developer must complete every phase before the next phase begins. This model is named "Waterfall Model", because its diagrammatic representation resembles a cascade of waterfalls. 1. Requirements analysis and specification phase: The aim of this phase is to understand the exact requirements of the customer and to document them properly. Both the customer and the software developer work together so as to document all the functions, performance, and interfacing requirement of the software. It describes the "what" of the system to be produced and not "how."In this phase, a large document called Software Requirement Specification (SRS) document is created whic

Software Requirements In Software Engineering | VCMIT

Software Requirements The software requirements are description of features and functionalities of the target system. Requirements convey the expectations of users from the software product. The requirements can be obvious or hidden, known or unknown, expected or unexpected from client’s point of view. Requirement Engineering The process to gather the software requirements from client, analyze and document them is known as requirement engineering. The goal of requirement engineering is to develop and maintain sophisticated and descriptive ‘System Requirements Specification’ document. Requirement Engineering Process It is a four step process, which includes – Feasibility Study Requirement Gathering Software Requirement Specification Software Requirement Validation Let us see the process briefly - Feasibility study When the client approaches the organization for getting the desired product developed, it comes up with rough idea about what all functions the software must perform and which
// Assuming you have fetched the search query and blog posts // Function to calculate the similarity score between search query and post function calculateSimilarity(query, post) { // You can use a similarity algorithm here, like TF-IDF or cosine similarity // Return a score that represents how relevant the post is to the query } // Function to suggest relevant posts based on search query function suggestPosts(searchQuery, blogPosts) { const suggestedPosts = []; for (const post of blogPosts) { const similarityScore = calculateSimilarity(searchQuery, post); if (similarityScore > 0) { suggestedPosts.push({ post, similarityScore }); } } // Sort the suggested posts based on similarity score suggestedPosts.sort((a, b) => b.similarityScore - a.similarityScore); // Return the sorted list of suggested posts return suggestedPosts.map(item => item.post); } // Example usage const searchQuery = "your search query"; const allBlogPosts = [/* array of your blog posts */]; const suggestedPosts = suggestPosts(searchQuery, allBlogPosts); // Now you can display suggestedPosts to the user