Simulation Science, Games and Animation: Finding Books

Unity 2020 Virtual Reality Projects by Jonathan Linowes Explore the latest features of Unity and build VR experiences including first-person interactions, audio fireball games, 360-degree media, art gallery tours, and VR storytelling Key Features Discover step-by-step instructions and best practices to begin your VR development journey Explore Unity features such as URP rendering, XR Interaction Toolkit, and ProBuilder Build impressive VR-based apps and games that can be experienced using modern devices like Oculus Rift and Oculus Quest Book Description This third edition of the Unity Virtual Reality (VR) development guide is updated to cover the latest features of Unity 2019.4 or later versions - the leading platform for building VR games, applications, and immersive experiences for contemporary VR devices. Enhanced with more focus on growing components, such as Universal Render Pipeline (URP), extended reality (XR) plugins, the XR Interaction Toolkit package, and the latest VR devices, this edition will help you to get up to date with the current state of VR. With its practical and project-based approach, this book covers the specifics of virtual reality development in Unity. You'll learn how to build VR apps that can be experienced with modern devices from Oculus, VIVE, and others. This virtual reality book presents lighting and rendering strategies to help you build cutting-edge graphics, and explains URP and rendering concepts that will enable you to achieve realism for your apps. You'll build real-world VR experiences using world space user interface canvases, locomotion and teleportation, 360-degree media, and timeline animation, as well as learn about important VR development concepts, best practices, and performance optimization and user experience strategies. By the end of this Unity book, you'll be fully equipped to use Unity to develop rich, interactive virtual reality experiences. What you will learn Understand the current state of virtual reality and VR consumer products Get started with Unity by building a simple diorama scene using Unity Editor and imported assets Configure your Unity VR projects to run on VR platforms such as Oculus, SteamVR, and Windows immersive MR Design and build a VR storytelling animation with a soundtrack and timelines Implement an audio fireball game using game physics and particle systems Use various software patterns to design Unity events and interactable components Discover best practices for lighting, rendering, and post-processing Who this book is for Whether you're a non-programmer unfamiliar with 3D computer graphics or experienced in both but new to virtual reality, if you're interested in building your own VR games or applications, this Unity book is for you. Any experience in Unity will be useful but is not necessary.

Computer Modeling in the Aerospace Industry by Iftikhar B. Abbasov (Editor) Devoted to advances in the field of computer simulation of aerospace equipment, this study is the most up-to-date coverage of the state-of-the-art on coastal and passenger aircraft, drones, and other recent developments in this constantly changing field. This book is devoted to unique developments in the field of computer modeling in aerospace engineering. The book describes the original conceptual models of amphibious aircraft, ground-effect vehicles, hydrofoil vessels, and others, from theory to the full implementation in industrial applications. The developed models are presented with the design of passenger compartments and are actually ready for implementation in the aircraft industry. The originality of the concepts are based on biological prototypes, which are ergonomic, multifunctional and aesthetically pleasing. The aerodynamic layout of prospective convertible land and ship-based aircrafts of vertical and short takeoff-landing is presented, as well as the development of the original model of the unmanned aerial vehicle, or drone. The results of full-scale experiments are presented, including the technology of modeling aerospace simulators based on the virtual reality environment with technical vision devices. Whether for the practicing engineer in the field, the engineering student, or the scientist interested in new aerospace developments, this volume is a must-have. This groundbreaking new volume: Presents unique developments of coastal aircraft concepts based on biological prototypes, from the idea to the finished model Gives the process of modeling the original unmanned aerial vehicle Investigates aerospace simulators based on virtual reality environment with technical vision devices Covers the original ideas of creating carrier-based aviation for sea ships and the results of field experiments simulating an unmanned aerial vehicle Provides many useful illustrations of naval aviation Audience: The book is intended for aerospace engineers, mechanical engineers, structural engineers, researchers and developers in the field of aerospace industry, for aircraft designers and engineering students. It will be useful for scientists, students, graduate students and engineers in the field of naval aviation and space simulators.

Designing Immersive 3D Experiences by Renee Stevens A Designer's Guide to Creating Realistic 3D Experiences For Extended Reality Designing Immersive 3D Experiences helps visual designers move into the fast-growing fields of 3D and extended reality (XR) design. Author Renée Stevens (Powered by Design) introduces a proven approach and an effective design-thinking process you can use to create successful immersive user experiences. The book is grounded in familiar design principles and explores how you can build on these foundations, adapting them for virtual and augmented reality environments. Designing Immersive 3D Experiences prepares visual designers to succeed with 3D and XR design in multiple environments, from mobile, to web, to wearables. This book begins by exploring the basics of XR and 3D immersive design, how they are evolving, and how you may already be using them. It then moves into core concepts and technologies, from computer-human interaction, to spatial computing, to projection mapping and head-mounted displays. Learn how to: Adapt ideation strategies for new XR and 3D projects while incorporating design-thinking strategies, balancing innovation with practicality, and keeping it all human Build seamless, multi-modal, and accessible user experiences and interfaces in three dimensions Harness the power of visual perception and ways to activate the senses using XR technology Augment typography and create hierarchy in physical spaces that are dynamic and uncontrollable Enhance the user experience using spatial audio and voice Explore next steps in the industry and consider the ethical implications that come with advancement

3ds Max basics for modeling video game assets. Volume Two, Model, rig and animate characters for export to unity or other games engines by William Culbertson As a textbook for learning the fundamentals of modeling, rigging and animating 3D-modeled characters for use in video games, this step-by-step lesson book builds on the reader's modeling skills acquired from reading Volume I. The reader will model characters for the Castle Environment created in Volume I, which will be rigged using the Character Animation Toolkit (CAT) in 3ds Max and animated with game moves. The Skin Modifier is used for associating the meshes to the rigs and the characters are then exported to the Unity game engine and integrated into the Castle Scene with a Third Person Character camera. As the text introduces new modeling skills, it additionally calls on the reader to perform repetitive tasks, reinforcing skills learned in the process. The content is presented as if the reader is in a working video game studio, being responsible for researching asset design and providing the team with placeholder assets and final model assets that are unwrapped and custom textured using both box mapping and the 3ds Max Quick Peel tool. Although the text uses Autodesk 3ds Max for the modeling program, the principles are transferable to other major modeling programs.

Autodesk Maya 2020 Basics Guide by Kelly Murdock Written by a renowned author and 3D artist Autodesk Maya 2020 Basics Guide is designed to give new users a solid understanding of the fundamental skills needed to create beautiful 3D models and stunning animations with Autodesk Maya. Using clear and easy to follow instructions this book will guide you through learning all the major features of Maya. The text is complemented by video instruction. Each chapter has a corresponding video tutorial that introduces you to the topics and allows you to watch and learn how functions are performed in a way that a text alone cannot do. Autodesk Maya 2020 Basics Guide makes no assumptions about your previous experience with Autodesk Maya. It begins by helping you get comfortable with the user interface and navigating scenes before moving into modeling, texturing, lighting, animating, rendering and more. Additionally, more advanced features such as character rigging, skinning, animating with dynamics and MEL scripting are also introduced.aya.

Hands-On C++ Game Animation Programming by Gabor Szauer Learn animation programming from first principles and implement modern animation techniques that can be integrated into any game development workflow Key Features Build a functional and production-ready modern animation system with complete features using C++ Learn basic, advanced, and skinned animation programming with this step-by-step guide Discover the math required to implement cutting edge animation techniques such as inverse kinematics and dual quaternions Book Description Animation is one of the most important parts of any game. Modern animation systems work directly with track-driven animation and provide support for advanced techniques such as inverse kinematics (IK), blend trees, and dual quaternion skinning. This book will walk you through everything you need to get an optimized, production-ready animation system up and running, and contains all the code required to build the animation system. You'll start by learning the basic principles, and then delve into the core topics of animation programming by building a curve-based skinned animation system. You'll implement different skinning techniques and explore advanced animation topics such as IK, animation blending, dual quaternion skinning, and crowd rendering. The animation system you will build following this book can be easily integrated into your next game development project. The book is intended to be read from start to finish, although each chapter is self-contained and can be read independently as well. By the end of this book, you'll have implemented a modern animation system and got to grips with optimization concepts and advanced animation techniques. What you will learn Get the hang of 3D vectors, matrices, and transforms, and their use in game development Discover various techniques to smoothly blend animations Get to grips with GLTF file format and its design decisions and data structures Design an animation system by using animation tracks and implementing skinning Optimize various aspects of animation systems such as skinned meshes, clip sampling, and pose palettes Implement the IK technique for your game characters using CCD and FABRIK solvers Understand dual quaternion skinning and how to render large instanced crowds Who this book is for This book is for professional, independent, and hobbyist developers interested in building a robust animation system from the ground up. Some knowledge of the C++ programming language will be helpful.

C++ Game Development by Example by Siddharth Shekar Explore modern game programming and rendering techniques to build games using C++ programming language and its popular libraries Key Features Learn how you can build basic 2D and complex 3D games with C++ Understand shadows, texturing, lighting, and rendering in 3D game development using OpenGL Uncover modern graphics programming techniques and GPU compute methods using the Vulkan API Book Description Although numerous languages are currently being used to develop games, C++ remains the standard for fabricating expert libraries and tool chains for game development. This book introduces you to the world of game development with C++. C++ Game Development By Example starts by touching upon the basic concepts of math, programming, and computer graphics and creating a simple side-scrolling action 2D game. You'll build a solid foundation by studying basic game concepts such as creating game loops, rendering 2D game scenes using SFML, 2D sprite creation and animation, and collision detection. The book will help you advance to creating a 3D physics puzzle game using modern OpenGL and the Bullet physics engine. You'll understand the graphics pipeline, which entails creating 3D objects using vertex and index buffers and rendering them to the scene using vertex and fragment shaders. Finally, you'll create a basic project using the Vulkan library that'll help you get to grips with creating swap chains, image views, render passes, and frame buffers for building high-performance graphics in your games. By the end of this book, you'll be ready with 3 compelling projects created with SFML, the Vulkan API, and OpenGL, and you'll be able take your game and graphics programming skills to the next level. What you will learn Understand shaders and how to write a basic vertex and fragment shader Build a Visual Studio project and add SFML to it Discover how to create sprite animations and a game character class Add sound effects and background music to your game Grasp how to integrate Vulkan into Visual Studio Create shaders and convert them to the SPIR-V binary format Who this book is for If you're a developer keen to learn game development with C++ or get up to date with game development, this book is for you. Some knowledge of C++ programming is assumed.

The Game Production Toolbox by Heather Chandler The Game Production Toolbox focuses on the nuts and bolts of producing interactive content and how you can organize and support the creative, technical, and business efforts that are all part of interactive game development. This book isn't going to tell you how to design a game or what technologies to use. Instead it provides techniques for and insights into managing, from concept to release, all the pieces that must come together in order to get a game into the hands of a player. Readers will learn about each phase of game production: prototyping, defining the requirements, assembling the team, making the game, and releasing to the players. Interviews from professional game developers give a behind-the-scenes look at what it takes to make a game. Key Features A framework for how to get an interactive game from concept to release, including information on financing and pitching to publishers and investors. Techniques for working with the game development team to get effective prototypes and documentation to prove out game concept and mechanics. Concrete information on how to plan and execute the different aspects of game production, such as audio, localization, testing, and software ratings. Advice from industry experts on managing teams, project management, communicating effectively, and keeping everyone happy. Information about working effectively with marketing, PR, and other people that are involved with the publishing and release process.

Unreal engine virtual reality quick start guide : design and develop immersive virtual reality experiences with unreal engine 4 by Jessica Plowman

Mismatch by Kat Holmes (Narrated by); John Maeda (Foreword by) Sometimes designed objects reject their users: a computer mouse that doesn't work for left-handed people, for example, or a touchscreen payment system that only works for people who read English phrases, have 20/20 vision, and use a credit card. These mismatches are the building blocks of exclusion. In Mismatch, Kat Holmes describes how design can lead to exclusion, and how design can also remedy exclusion.Holmes tells stories of pioneers of inclusive design, many of whom were drawn to work on inclusion because of their own experiences of exclusion. A gamer and designer who depends on voice recognition shows Holmes his "Wall of Exclusion," which displays dozens of game controllers that require two hands to operate; an architect shares her firsthand knowledge of how design can fail communities; an astronomer who began to lose her eyesight adapts a technique called "sonification" so she can "listen" to the stars.Designing for inclusion is not a feel-good sideline. Holmes shows how inclusion can be a source of innovation and growth, especially for digital technologies. It can be a catalyst for creativity and a boost for the bottom line as a customer base expands. And each time we remedy a mismatched interaction, we create an opportunity for more people to contribute to society in meaningful ways.