Introduction to 3D Animation

• Grasp the complete 3-D production pipeline—from modelling and UV mapping through rigging, animation, lighting, rendering, and real-time deployment—so students see how every phase connects.
• Achieve tool proficiency in industry software (Autodesk Maya, Blender, and Unity), enabling learners to switch comfortably between DCC packages and game engines while following best-practice workflows.
• Create clean, efficient 3-D geometry by mastering primitive types, editing tools (extrude, bevel, loop-cut, sculpt, etc.), and topology rules for both hard-surface props and organic characters.
• Unwrap, texture, and shade assets convincingly, applying UV-mapping strategies, texture-map types (albedo, normal, roughness, etc.), and physically based shading to reach targeted visual styles or realism.
• Light, render, and composite scenes for mood and readability, selecting appropriate light types, HDRIs, and render-engine settings (Cycles, Eevee, Arnold) to achieve cinematic or real-time quality outputs.
• Rig characters and mechanical models for animation, building joint hierarchies, skin weights, deformers, and IK/FK systems that support expressive facial/body motion and technical accuracy.
• Animate believable motion and performances, employing pose-to-pose and straight-ahead techniques, graph-editor refinement, timing/spacing principles, and asset-management discipline.
• Integrate and script assets in Unity, using prefabs, particle systems, lighting, and C# scripts to create interactive scenes, optimize performance, and prepare multi-platform builds.
• Collaborate effectively on 3-D projects, applying version control, asset-naming conventions, milestones, and peer review to keep a production on schedule.
• Deliver a polished capstone project that demonstrates concept development, technical execution, debugging, and final presentation skills equivalent to entry-level studio or indie-game standards.

• Create clean, production-ready hard-surface and organic models in Maya / Blender, selecting appropriate primitives, edit tools (extrude, bevel, loop-cut, sculpt, etc.) and maintaining correct topology and scale.
• Unwrap complex assets, generate and apply PBR texture maps (albedo, normal, roughness, metallic, emission) and build physically-based materials in both offline (Arnold / Cycles) and real-time (Eevee / Unity) workflows.
• Configure key, fill, rim and HDRI setups; choose render engines and settings; and output stills or sequences that communicate mood, depth and readability for interior, exterior and product scenes.
• Construct joint hierarchies, skin weights, deformers, constraints and IK / FK switches to deliver animation-ready rigs for bipeds, quadrupeds and mechanical props, including basic facial controls.
• Animate convincing body mechanics, facial performance and camera moves using pose-to-pose, straight-ahead and graph-editor refinement, applying weight shift, timing / spacing and follow-through principles.
• Import optimised assets, set up prefab hierarchies, materials, lighting and particle systems; write C# scripts for interaction; and build playable scenes for desktop or mobile deployment.
• Diagnose and improve performance through polygon budgeting, LODs, light-baking, texture packing and profiling tools to keep projects within target platform budgets.
• Apply asset-naming conventions, version control, milestones and task tracking to collaborate effectively in multi-disciplinary teams from pre-production through final delivery.
• Evaluate personal and peer work against aesthetic, technical and user-experience criteria, delivering constructive critiques and iterating to improve quality.
• Plan, build, test and present a polished short film or interactive level that integrates modelling, texturing, rigging, animation, lighting and scripting, demonstrating readiness for entry-level studio or indie-game roles.

The Academic Approach of the course focuses on the “work centric” education i.e. begin with work (and not from a book !), derive knowledge from work and apply that knowledge to make the work more wholesome, useful and delightful. The ultimate objective is to empower the Learner to engage in socially useful and productive work. It aims at leading the learner to his/her rewarding career as well as development of the society.

Learning methodology

• Learners are given an overview of the course and its connection to life and work.
• Learners are then exposed to the specific tool(s) used in the course through the various real-life applications of the tool(s).
• Learners are then acquainted with the careers and the hierarchy of roles they can perform at workplaces after attaining increasing levels of mastery over the tool(s).
• Learners are then acquainted with the architecture of the tool or Tool Map so as to appreciate various parts of the tool, their functions and their inter-relations.
• Learners are then exposed to simple application development methodology by using the tool at the beginner’s level
• Learners then perform the differential skills related to the use of the tool to improve the given ready-made outputs.
• Learners are then engaged in appreciation of real-life case studies developed by the experts.
• Learners are then encouraged to proceed from appreciation to imitation of the experts.
• After imitation experience, they are required to improve the expert’s outputs so that they proceed from mere imitation to emulation.
• Finally, they develop the integral skills involving optimal methods and best practices to produce useful outputs right from scratch, publish them in their ePortfolio and thereby proceed from emulation to self-expression.

Evaluation Pattern of KLiC Courses consists of 4 Sections as per below table:

MKCL’s KLiC Certificate will be provided to the learner who will satisfy the below criteria:

1. Learners who have successfully completed above mentioned 3 Sections i.e. Section 1, Section 2 and Section 3
2. Additionally, learner should have completed Section 4 (i.e. Section 4 will comprise of SUPWs i.e. Socially Useful and Productive Work in form of Assignments)
   • Learner has to complete and upload minimum 2 out of 5 Assignments