A SUMMER PROJECT REPORT ON Internship Feedback Form Submitted in partial fulfillment of the requirements for the award of the degree of BACHELOR OF COMPUTER APPLICATIONS To Guru Gobind Singh Indraprastha University, Delhi Under the guidance of Submitted By Nishika ma’am Arjun Maurya (00524002021) Assistant Professor BCA 3rd year 5th sem TRINITY INSTITUTE OF PROFESSIONAL STUDIES (Affiliated to Guru Gobind Singh Indraprastha University, Delhi) Ranked “A+” Institution by SFRC, Govt. of NCT of India Recognized under section 2(f) of the UGC Act, 1956 NAAC Accredited “B++” Grade Institution CERTIFICATE 1 Acknowledgment TRINITY INSTITUTE OF PROFESSIONAL STUDIES (Affiliated to Guru Gobind Singh Indraprastha University, Delhi) Ranked “A+” Institution by SFRC, Govt. of NCT of India Recognized under section 2(f) of the UGC Act, 1956 NAAC Accredited “B++” Grade Institution To Whom It May Concern I , Enrolment No. from BCA-V Sem of the Trinity Institute of Professional Studies, Delhi here by declare that the Summer Project/Training Reportentitled at is an original work and the same has not been submitted to any other Institute for the award of any other degree. Date: Signature of the Student Certified that the Summer Project Report submitted in partial fulfillment of Bachelor of Computer Applications (BCA) to be awarded by G.G.S.I.P. University, Delhi by Enrolment No. has been completed under my guidance and is satisfactory. Signature of the guide Ms. Nishika Assistant Professor 0 List of Abbreviations S.no Abbreviations Meaning 1 HTML Hypertext Markup Language 2 CSS Cascading Style Sheets 3 H/W Hardware 4 S/W Software 5 SDLC Software Development Life Cycle 1 TABLE OF CONTENT S.no Topic 1. Certificate 2. Acknowledgement 3. Abbreviation List 4. Table of Content 5. Chapter 1: Problem Formulation 6. 1.1 Introduction about the Company 1.2 Introduction about the Problem P.n0. Chapter 2: System Analysis 2.1 Feasibility Study 2.1.1 Technical Feasibility 2.1.2 Economical Feasibility 2.1.3 Operational Feasibility 2.2 Choice of the Platform 2.2.1 Software used 2.2.2 Hardware used 7. Chapter 3: System Design 3.1 Output Design 8. Chapter 4: Conclusion and References 4.1 Conclusion 4.2 References 2 CHAPTER 1 PROBLEM FORMULATION 3 1.1 INTRODUCTION ABOUT THE COMPANY At Bharat Intern, we are a privately-owned company, passionate about empowering innovations that shape a better future for businesses and individuals alike. Connects students with internships: Bharat Intern connects students with internships in a variety of fields. This gives students the opportunity to gain experience, skills, and a network. Gives students experience, skills, and a network: Internships can give students valuable experience in their field. They can also help students develop new skills and build a network of contacts. Is a great way to start your career: Internships can be a great way to start your career. They can help you gain experience, skills, and a network that can help you land your first job. 4 1.2 INTRODUCTION ABOUT THE PROBLEM I have designed a Netflix landing page and Portfolio website using HTML and CSS for the Bharat Intern for Automation and Technology. The Netflix landing page serves as a gateway to a vast world of entertainment, seamlessly blending simplicity with a wealth of options. The page's clean design focuses on intuitive navigation, allowing users to easily browse categories such as trending, new releases, and personalized recommendations tailored to their viewing history. The Portfolio website consist all the information about the person such as educational background , past experience , projects and contact details. I had learned a lot during my internship period and therefore was able to develop thisproject on my own. The technologies used are described in detail below: HTML: HTML stands for Hyper Text Markup Language. ● HTML is the standard markup language for creating Web pages ● HTML describes the structure of a Web page ● HTML consists of a series of elements ● HTML elements tell the browser how to display the content ● HTML elements label pieces of content such as "this is a heading", "this is aparagraph", "this is a link", etc. 5 CSS: Cascading Style Sheets (CSS) is a style sheet language used for describing the presentation of a document written in a markup language such as HTML or XML(including XML dialects such as SVG, MathML or XHTML).[1] CSS is a cornerstone technology of the World Wide Web, alongside HTML and JavaScript. CSS is designed to enable the separation of content and presentation, including layout, colors, and fonts. This separation can improve content accessibility; provide more flexibility and control in the specification of presentation characteristics; enablemultiple web pages to share formatting by specifying the relevant CSS in a separate .css file, which reduces complexity and repetition in the structural content; and enable the .css file to be cached to improve the page load speed between the pages that share the file and its formatting. Separation of formatting and content also makes it feasible to present the same markup page in different styles for different rendering methods, such as on-screen, inprint, by voice (via speech-based browser or screen reader), and on Braille-based tactile devices. CSS also has rules for alternate formatting if the content is accessed on a mobile device. 6 CHAPTER 2 SYSTEM ANALYSIS 7 2.1 SYSTEM FEASIBILITY STUDY SDLC Waterfall Model The Waterfall Model was the first Process Model to be introduced. It is also referred to as a linear-sequential life cycle model. It is very simple to understand and use. In a waterfall model, each phase must be completed before the next phase can begin and there is no overlapping in the phases. The Waterfall model is the earliest SDLC approach that was used for software development. The waterfall Model illustrates the software development process in a linear sequential flow. This means that any phase in the development process begins only if the previous phase is complete. In this waterfall model, the phases do not overlap. Waterfall Model - Design Waterfall approach was first SDLC Model to be used widely in Software Engineering to ensure success of the project. In "The Waterfall" approach, the whole process of software development is divided into separate phases. In this Waterfall model, typically, the outcome of one phase acts as the input for the next phase sequentially. 8 The sequential phases in Waterfall model are − Requirement Gathering and analysis − All possible requirements of the system to be developed are captured in this phase and documented in a requirement specification document. System Design − The requirement specifications from first phase are studied in this phase and the system design is prepared. This system design helps in specifying hardware and system requirements and helps in defining the overall system architecture. Implementation − With inputs from the system design, the system is first developed in small programs called units, which are integrated in the next phase. Each unit is developed and tested for its functionality, which is referred to as Unit Testing. Integration and Testing − All the units developed in the implementation phase are integrated into a system after testing of each unit. Post integration the entire system is tested for any faults and failures. Deployment of system − Once the functional and nonfunctional testing is done; the product is deployed in the customer environment or released into the market. Maintenance − There are some issues which come up in the client environment. To fix those issues, patches are released. Also to enhance the product some better versions are released. Maintenance is done to deliver these changes in the customer environment. 9 All these phases are cascaded to each other in which progress is seen as flowing steadily downwards (like a waterfall) through the phases. The next phase is started only after the defined set of goals are achieved for previous phase and it is signed off, so the name "Waterfall Model". In this model, phases do not overlap. Waterfall Model - Application Every software developed is different and requires a suitable SDLC approach to be followed based on the internal and external factors. Some situations where the use of Waterfall model is most appropriate are − ● Requirements are very well documented, clear and fixed. ● Product definition is stable. ● Technology is understood and is not dynamic. ● There are no ambiguous requirements. ● Ample resources with required expertise are available to support the ● product. The project is short. Waterfall Model - Advantages The advantages of waterfall development are that it allows for departmentalization and control. A schedule can be set with deadlines for each stage of development and a product can proceed through the development process model phases one by one. Development moves from concept, through design, implementation, testing, installation, troubleshooting, and ends up at operation and maintenance. Each phase of development proceeds in strict order. 10 Some of the major advantages of the Waterfall Model are as follows − ● Simple and Easy to use and understand. ● Easy to manage due to the rigidity of the model. Each phase has specific deliverables and a review process. ● Phases are processed and completed one at a time. ● Works well for smaller projects where requirements are very well understood. ● Clearly defined stages. ● Well understood milestones. ● Easy to arrange tasks. ● Process and results are well documented. Waterfall Model - Disadvantages The disadvantage of waterfall development is that it does not allow much reflection or revision. Once an application is in the testing stage, it is very difficult to go back and change something that was not well-documented or thought upon in the concept stage. The major disadvantages of the Waterfall Model are as follows − ● No working software is produced until late during the life cycle. ● High amounts of risk and uncertainty. ● Not a good model for complex and object-oriented projects. ● Poor model for long and ongoing projects. ● Not suitable for the projects where requirements are at a moderate to high risk of changing. So, risk and uncertainty is high with this process model. ● It is difficult to measure progress within stages. 11 ● Cannot accommodate changing requirements. ● Adjusting scope during the life cycle can end a project. ● Integration is done as a “big-bang at the very end, which doesn’t allowidentifying any technological or business bottleneck or challenges early. 2.1.1 Technical Feasibility: Objective: To assess the technological aspects of the proposed project. Considerations: Evaluate the availability of necessary hardware and software, the feasibility of integrating new technology with existing systems, and the technical expertise required for development and maintenance. 2.1.2 Economic Feasibility: Objective: To evaluate the financial viability of the project. Considerations: Conduct a cost-benefit analysis, taking into account both the initial investment and the projected returns. Assess operating costs, potential revenue streams, and the overall financial sustainability of the project. 2.1.3 Operational Feasibility: Objective: To examine the practicality of implementing the project within the organization. Considerations: Analyze the impact on daily operations, assess whether the project aligns with existing processes, and determine the ease of integration. Consider training requirements for employees and the potential disruption to current workflows. 12 2.2 CHOICE OF PLATFORM Choosing the right platform for web development depends on various factors, including the project's requirements, technical capabilities, scalability needs, and your team's expertise. 2.2.1 Hardware Used: Processor: Intel i5 10th generation with Radeon Graphics 3.00 GHz Installed RAM: 8 GB System type : 64-bit operating system, x64-based processor Edition: Windows 10 Home Single Language 2.2.2 Software Used: Visual Studio Code CHAPTER 3 SYSTEM DESIGN 3.1 OUTPUT DESIGN Output design is a crucial aspect of system design that focuses on determining the format, content, and method of presenting information to users or other systems. The primary goal of output design is to provide the necessary information in a clear, concise, and user-friendly manner. 3.1.1 Portfolio Website 3.1.2 Landing Page of Netflix CHAPTER 4 Conclusion and References 4.1 Conclusion In conclusion, I can say that this internship was a great experience. Thanks to this project, I acquired deeper knowledge concerning my technical skills, but I also personally benefited. Currently HTML is a common part of web applications, and it is one of the most popular language for web designing used by professionals worldwide. If we surf internet, we can see millions of websites designed with HTML and CSS. I learned to live in a different environment from the one I am used to. Indeed, I grew more independent in work and also in everyday life. I realized that I could do more things than I thought, like learning new things by myself. There are huge opportunities available for the students who want to work in this field. Many private and public organizations hire web designer for their online work and website development. With the rapid advent of online industry, the demand of web development professionals is increasing, and this has created a huge job opportunity for the aspirants in the upcoming days. Also, an experienced person in this field can also work as a freelancer; there are many online companies which provide online projects to the individuals. Future Scope: If someone has no experience in this field, finding work can be a real challenge. A successful internship can help an individual turn an experience into a career opportunity. So as a successful internship some future scopes are: • To work in IT company. • Can work as a Software Engineer. • Can work as a Web Designer. • Can work as a Web Developer. • Can work as a QA Tester. 4.2 REFERENCES ● Web Development - GeeksforGeeks ● Web Development (w3schools.com) ● Web Development Course: Learn Full Stack Web Development(internshala.com) THANK YOU