Building a 2D Game Physics Engine, 1st ed. Using HTML5 and JavaScript
Langue : Anglais
Auteurs : Tanaya Michael, Chen Huaming, Pavleas Jebediah, Sung Kelvin
Build your very own 2D physics-based game engine simulation system for rigid body dynamics. Beginning from scratch, in this book you will cover the implementation technologies, HTML5 and JavaScript; assemble a simple and yet complete fundamental mathematics support library; define basic rigid body behaviors; detect and resolve rigid body collisions; and simulate collision responses after the collisions.
In this way, by the end of Building a 2D Game Physics Engine, you will have an in?depth understanding of the specific concepts and events, implementation details, and actual source code of a physics game engine that is suitable for building 2D games or templates for any 2D games you can create and can be played across the Internet via popular web?browsers.
What You'll Learn
- Gain an understanding of 2D game engine physics and how to utilize it in your own games
- Detect collisions between rigid bodies
- Resolve interpretations after rigid body collisions
- Model and implement rigid body impulse responses
Who This Book Is For
Game enthusiasts, hobbyists, and anyone who is interested in building their own 2D physics game engines but is unsure of how to begin.
1. Introduction to 2D Game Physics Engine Development.- 2. Implementing the 2D Physics Engine Core.- 3. Incorporating Collision Detection.- 4. Completing the Physics Engine and Rigid Shape Component,- 5. Summarizing the Physics Engine.
Michael Tanaya is an international graduate student from Indonesia in the Computer Science and Software Engineering program at the University of Washington Bothell (UWB). He received his Bachelor of Computer Science in 2014 from the University of Minnesota at Twin Cities. During his time as an undergraduate he took interests in computer games and web application development. In his free time, he enjoys playing competitive video games, designing and developing video games with Unity™ and Cocos2D™. Currently Michael is working with Professor Kelvin Sung on developing a system that integrates virtual and augmented reality technologies in creating a multimedia environment for active hands-on learning. He will be graduating in Spring 2017.
Huaming Chen is an international graduate student from China in the Computer Science and Software Engineering program at the University of Washington Bothell (UWB). He received dual undergraduate degrees, in Computer Science and Economics, from Xiamen University in 2015. During his time as an undergraduate, he was interested in data mining and video game design. His projects include a large number of website groups that related to each other and a software system that recommend useful information based on those website groups. He also developed a mobile game using Unity. Currently Hua Ming is working on a project that focuses on designing video games that simplify vision therapy. He will be graduating in Spring 2017.
Jebediah Pavleas is a software engineer that received his Master of Science in Computer Science and Software Engineering from the University of Washington Bothell (UWB) in 2016 as well as a Bachelor of Science in 2012 where he was the recipient of the Chancellor’s Medal for his class. In 2015 he interned at Microsoft Research where he worked on improving the safety and usability of an eye gaze wheelchair. During his time as a student he took a gre
A unique and practical all-in-one resource on 2D game physics Features easy to read and follow content and utilizes a learn-by-doing approach Allows you to integrate with existing game engines
Date de parution : 01-2017
Ouvrage de 116 p.
15.5x23.5 cm
Mots-clés :
game; physics; 2d; engine; game development; programming; HTML5; JavaScript; CSS; Web
© 2024 LAVOISIER S.A.S.