Guía Docente 2023-24
REDES Y SISTEMAS MULTIJUGADOR

BASIC DETAILS:

Subject: REDES Y SISTEMAS MULTIJUGADOR
Id.: 31830
Programme: DOBLE GRADO EN INGENIERÍA INFORMÁTICA Y DISEÑO Y DESARROLLO DE VIDEOJUEGOS
Module: PROGRAMACIÓN DE VIDEOJUEGOS
Subject type: OBLIGATORIA
Year: 3 Teaching period: Segundo Cuatrimestre
Credits: 6 Total hours: 150
Classroom activities: 68 Individual study: 82
Main teaching language: Inglés Secondary teaching language: Inglés
Lecturer: Email:

PRESENTATION:

This course presents an overview of the major concepts necessary to program a networked multiplayer game. The program starts by covering the basics of networking—how the Internet works and how to send data to other computers. Networks and their protocols are analyzed using the TCP/ IP architecture as a reference, and the basics of wireless networks and security are presented. Once the fundamentals are established, the course takes a practical approach and discusses how to add multiplayer and networking support to a game. The course ends with a practical part in which students work in teams to create a networked multiplayer game.

PROFESSIONAL COMPETENCES ACQUIRED IN THE SUBJECT:

General programme competences G01 Ability to use learning strategies independently for use in the continuous improvement of professional practice.
G02 Ability to analyse and synthesise problems of their professional activity and apply in similar environments.
G03 Ability to achieve common results through teamwork in a context of integration, cooperation and encouraging critical discussion.
G04 Ability to critically think about information, data and lines of action and their implementation in relevant social, scientific ethical issues.
G05 Ability to communicate in Spanish and English for professional issues in oral and written form.
G06 Ability to solve complex problems or contingencies that arise during professional activity within any organisation and adapt to the needs and demands of their professional environment.
G07 Ability to handle different complex knowledge models through a process of abstraction and its application to approach and solve problems.
G08 Ability to understand the role of the scientific method in the generation of knowledge and its application to a professional environment.
G09 Ability to work with respect for the environment and society through the proper use of technology and its application in promoting a sustainable economy and environment.
G10 Ability to master information and communication technologies and their application in their professional field.
Specific programme competences E01 Ability to solve mathematical problems inherent to engineering. Ability to apply knowledge about: algebra; geometry; differential and integral calculus; optimisation and numerical methods
E02 Ability to understand and master the concepts of the general laws of classical mechanics, fields, waves and electromagnetism and their application for solving video game development problems.
E03 Ability to develop the use and programming of computers, operating systems, databases and software and their application in the development of video games.
E04 Ability to understand and master the basic concepts of discrete logic, algorithmic mathematical and computational complexity, and their application for solving engineering problems.
E05 Ability to program applications both correctly, and efficiently, choosing the most appropriate paradigm and programming languages, applying knowledge of basic algorithmic procedures and using the types and structures of the most appropriate data.
E06 Ability to learn, understand and evaluate the structure and architecture of computers, as well as their basic components.
E07 Ability to design, analyse and implement applications based on the characteristics of the database.
E08 Ability to learn and master the features, functionality and structure of the Distributed Systems, Computer Networks and the Internet and design and implement applications based on them.
E09 Ability to learn and master the tools necessary for the storage, processing and access to information systems, including web-based.
E10 Ability to be familiar with the characteristics, functions and structure of operating systems.
E11 Ability to develop online games for multiple players.
E12 Ability to understand and analyse the structure, organisation, function and interconnection of the devices and systems in video game platforms.
E13 Ability to discover, design and assess the main foundations and techniques of player-computer interaction that guarantee the accessibility and userability of the systems, services and IT applications including video games.
E14 Ability to apply the main foundations and techniques of the smart systems and their practical application in diverse environments.
E15 Ability to apply the main foundations and techniques of programming in real time.
E16 Ability to fully manage and plan software projects and handle suitable tools to do so.
E17 Ability to understand and analyse the structure and function of the main hardware systems and peripherals in video game platforms.
E18 Ability to understand and apply the principles of ergonomics and "Design for all" in order to develop universally accessible interfaces and devices in the field of video games.
E19 Ability to recognise and apply the principles, methodologies and life cycle of software engineering.
E20 Ability to generate and analyse expressive and narrative resources and their application to video games.
E21 Ability to execute the art of video games, create characters and settings.
E22 Ability to manage techniques and tools used for artistic representation and expression.
E23 Ability to use creative processes in the design and development of video games.
E24 Ability to specially visualise and have knowledge of the graphical representation techniques, both in terms of traditional methods of metrical geometrics and descriptive geometrics using computer-assisted design application.
E25 Ability to design and create graphical elements and their application in the development of video games.
E26 Ability to perform the design and creation of animated characters and their application in the development of video games.
E27 Ability to apply the methods in the creation and preservation of synthetic images
E28 Ability to perform the design and construction of models with the information necessary for the creation and display interactive images.
E29 Ability to understand and apply the techniques of visualisation, animation, simulation and interaction on models
E30 Ability to design, develop, select and evaluate applications and systems, ensuring reliability, safety and quality, according to ethical principles and legislation and regulations.
E31 Ability to perform the evaluation of video games from their different approaches.
E32 Ability to evaluate, use and spread game engines.
E33 Ability to develop production developments in the field of video games.
E34 Ability to create and analyse games on their fundamentals and develop the understanding of what are the keys that determine how they work and their development.
E35 Ability to know and understand the video game industry from a business point of view
E36 Ability to identify and implement legal and ethical aspects of the gaming industry
E37 Ability to design and create sounds and sound environments and their application in game development
E38 Ability to produce an original project that integrates the skills acquired throughout the degree along with its presentation and defence before a university tribunal that relates to the field of design and game development.

PRE-REQUISITES:

This course will be delivered in English. Academic reading and writing skills are expected from students.

SUBJECT PROGRAMME:

Subject contents:

1 - Networking basics
    1.1 - Computer networks and the Internet
    1.2 - Application layer
    1.3 - Transport layer
    1.4 - Network layer
    1.5 - Link layer
    1.6 - Wireless and mobile networks
    1.7 - Security
2 - Multiplayer systems
    2.1 - Specific networking issues for games
    2.2 - Game servers
    2.3 - Multiplayer game design and programming

Subject planning could be modified due unforeseen circumstances (group performance, availability of resources, changes to academic calendar etc.) and should not, therefore, be considered to be definitive.


TEACHING AND LEARNING METHODOLOGIES AND ACTIVITIES:

Teaching and learning methodologies and activities applied:

During this course a variety of teaching methods will be used including lectures, exercises and laboratory sessions, and group work. One of the main requirements of this course is to complete a group work project and to present it to the class. Another important requirement is to participate actively in class and to contribute to discussion about the topics being analyzed. 

Student work load:

Teaching mode Teaching methods Estimated hours
Classroom activities
Master classes 36
Practical work, exercises, problem-solving etc. 18
Laboratory practice 11
Assessment activities 3
Individual study
Tutorials 4
Individual study 27
Individual coursework preparation 15
Group cousework preparation 26
Research work 2
Compulsory reading 8
Total hours: 150

ASSESSMENT SCHEME:

Calculation of final mark:

Written tests: 30 %
Individual coursework: 20 %
Group coursework: 25 %
Final exam: 20 %
Attendance and participation: 5 %
TOTAL 100 %

*Las observaciones específicas sobre el sistema de evaluación serán comunicadas por escrito a los alumnos al inicio de la materia.

BIBLIOGRAPHY AND DOCUMENTATION:

Basic bibliography:

KUROSE, JF and ROSS, KW. Computer networking. A Top-down approach (6º Ed.). Pearson, 2012.

Recommended bibliography:

GLAZE, Joshua and MADHAV, Sanjay. Multiplayer game programming: architecting networked games. Addison-Wesley, 2016.

Recommended websites:

CISCO www.cisco.com
UNITY https://docs.unity3d.com/Manual/index.html


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