Gujarat University
Program Code
Level
Duration
Department name
| Semester | Sr no | CourseCode | Course | CourseCredit |
|---|---|---|---|---|
| Sem-1 | 1 | MTNT111 | DESIGN & ANALYSIS OF ALGORITHMS | 4 |
| Sem-1 | 2 | MTNT112 | NETWORKING-I | 6 |
| Sem-1 | 3 | MTNT113 | INTERNET PROGRAMMING | 6 |
| Sem-1 | 4 | MTNT114 | MOBILE ADHOC NETWORKS | 6 |
| Sem-1 | 5 | MTNT115 | RESEARCH METHODOLOGY FOR COMPUTER SCIENCE | 4 |
| Sem-2 | 1 | MTNT121 | FOUNDATIONS OF CRYPTOGRAPHY | 4 |
| Sem-2 | 2 | MTNT122 | DATA ANALYTICS | 6 |
| Sem-2 | 3 | MTNT123 | NETWORKING- II | 6 |
| Sem-2 | 4 | MTNT124 | NETWORK SECURITY | 6 |
| Sem-2 | 5 | MTNT125 | NETWORK ANALYSIS AND DESIGN | 4 |
| Sem-3 | 1 | MTNT211 | CLOUD COMPUTING | 4 |
| Sem-3 | 2 | MTNT212 | ROUTING TECHNOLOGY | 6 |
| Sem-3 | 3 | MTNT213 | ELECTIVE | 4 |
| Sem-3 | 4 | MTNT214 | DISSERTATION PHASE-1 | 12 |
| Sem-3 | 5 | MTNT213(1) | Software Defined Networking | 4 |
| Sem-3 | 6 | MTNT213(2) | Internet of Things | 4 |
| Sem-3 | 7 | MTNT213(3) | Network Modelling | 4 |
| Sem-4 | 1 | MTNT221 | DISSERTATION PHASE-2 | 26 |
| CourseType | Shift | |||||||
|---|---|---|---|---|---|---|---|---|
| General | EWS | SEBC | SC | ST | Male | Female | ||
| HPP/Self Finance | Morning | 13 | 2 | 7 | 2 | 3 | 25000 | 25000 |
Statements: CO1: To develop proficiency in problem solving and programming CO2: To be able to carry out the Analysis of various Algorithms for mainly Time and Space Complexity. CO3: To get a good understanding of applications of Data Structures. CO4:To develop a base for advanced study in Computer Science.
Statements: CO1:To learn the principles of Computer Networks CO2: To know the principles of Data Communications for Computer Networks CO3: To understand functionality of layers of OSI model and TCP/IP model and interactions between them. CO4:To gain basic insight of programming for network solutions.
Statements: CO1: To introduce the principles of Python Programming CO2: To introduce the principles of Network Programming CO3: To understand and use functionality of various Python libraries for Network Programming CO4: To gain basic insight of programming that can be used over Internet and World Wide Web.
Statements: CO1:Analyze the issues in ad hoc networks CO2: Configure the routing parameters in ad hoc network CO3: Propose solutions for security issues
Statements: CO1:Enable students to understand what research is and what it is not. CO2: Introduce the concept of research problem- and to discuss what a researchable problem is CO3:Evaluate literature, form a variety of sources, pertinent to the research objectives. CO4:Identify and justify the basic components of the research framework, relevant to the tackled research problem. CO5:Explain and justify how researchers will collect research data CO6:Discuss how to cite sources, using different reference management systems CO7:Consider the kind of language to use in an academic written work. CO8:Put forward a credible research proposal
Statements: CO1:To understand the state-of-the-art in the area of Applied Cryptography CO2: To study the underlying principles for confidentiality, integrity and authentication CO3:To develop a base for advanced study of subjects pertaining to Network Security and Web Security CO4:To implement various open source tools related to network security
Statements: CO1: To enable students to understand key concepts of data, data mining, data analysis and data analytics CO2:To understand how data is created, stored, accessed CO3: To understand tools to effectively organize and visualize dataTo understand application of learning algorithms to data
Statements: CO1: To understand the state-of-the-art in network protocols, architectures and applications CO2: To study the functionality of the higher layers of the OSI model and TCP/IP model and understand the interactions between them CO3: To develop strong analysis, design, implementation, testing and troubleshooting skills regarding TCP/IP based networks and services CO4:Design and implement customized TCP/IP based application layer services
Statements: CO1:To understand the state-of-the-art in network security and computer security CO2: To study the security mechanisms at various layers of TCP/IP Model CO3:To develop strong analysis, testing and troubleshooting skills regarding to computer network security CO4:To implement various open source tools related to network security
Statements: CO1:To introduce the principles of Network Design CO2:To understand the process of Network Deployments CO3:To gain basic insight of Network Operations and Maintenance
Statements: CO1: Implement business solutions over cloud computing platform CO2:To understand the service model with reference to cloud computing CO3: To appreciate the role of Virtualization Technologies with reference to cloud infrastructure CO4:Deploy programs and software over cloud infrastructure
Statements: CO1: Understand the major routing algorithms and protocols. CO2: Understand the architecture and components of routers. CO3:Appreciate open research issues related to routing, traffic engineering, flow and capacity design.
Statements: CO1: To apply the concepts of research skills and research design. CO2: To learn framing of research problem, pursuing literature review and framing the hypothesis
Statements: CO1: To demonstrate the research and problem solving skills by developing innovative solutions to the research problem identified. CO2: To contribute innovations to academia and industry
Statements: CO1: Able to deploy software defined networks CO2: Understand emerging networking technologies for cloud infrastructure CO3:Obtain skills to do research in software defined networking (SDN) CO4:Use software programs to perform varying and complex networking tasks
Statements: CO1: Understand general concepts of Internet of Things (IoT) CO2:Recognize various devices, sensors and applications CO3:Apply design concept to IoT solutions CO4:Analyze various M2M and IoT architectures CO5:Evaluate design issues in IoT applications CO6:Create IoT solutions using sensors, actuators and Devices
Statements: CO1: Identify the causes of poor performance (losses and delays) in the Internet. CO2: Quantify the performance of simple network systems by developing appropriate.analytical models CO3:Critique emerging technologies used by Internet Service Providers for offering Quality of Service (QoS) to Internet traffic CO4:Construct and evaluate practical tools for performance evaluation.
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