161 PIP courses delivered Live Online

Why Choose Mastering Maya Basics to Intermediate Course? Click here for more info: Website Our courses cater to graphic designers, animators, and beginners, providing industry-standard animation skills. Dive into 3D animation, modeling, simulation, and rendering for film, TV, games, and ads. Duration: 20 hours Approach: 1-on-1 Sessions. Schedule: Design your own schedule by pre-booking a convenient hour of your choice, available Mon to Sat between 9 am and 7 pm. I. Introduction to Maya (1.5 hours) Understanding Maya and its Applications Navigating the Maya Interface and Basic Tools Creating and Managing Projects II. 3D Modeling (3 hours) Basics of Polygon Modeling Creating Simple and Complex 3D Shapes Organic Shape Creation using NURBS Advanced Techniques: Extrusions, Bevels, and Editable Objects III. Texturing and Materials (1.5 hours) Introduction to Texturing and Material Creation UV Unwrapping and Texture Mapping Importing and Applying Textures and Images IV. Lighting and Rendering (2 hours) Fundamental Lighting Techniques Camera Setup and Composition Rendering Images and Animations Output Options and File Formats V. Animation (4 hours) Keyframe Animation and Animation Curves Rigging and Animating Characters Motion Paths and Animation Layers Editing Animation Clips VI. Rigging (2 hours) Introduction to Rigging and Skeletons Binding Skin and Weight Maps Creating Rigging Systems for Characters VII. Special Effects (1.5 hours) Particle Systems and Dynamics Creating Fluids, Fire, and Other Effects Special Effects Editing: Explosions, Smoke, and more VIII. Advanced Modeling Techniques (1.5 hours) Complex Objects using Booleans and Deformers Modifying Curves and Surfaces Organic Shape Creation with Sculpting Tools IX. Conclusion and Next Steps (0.5 hours) Course Review Further Learning Tips and Resources Q&A and Feedback Please note: The course content and duration are flexible, tailored to match learners' needs and skill levels. Throughout the course, lifetime email support ensures you receive guidance with any challenges you face. Embark on your Autodesk Maya journey, exploring 3D modeling and animation with confidence. Additional Topics Covered: Modeling: Surfaces, Control Vertex, Polygons, Extrusion, Vertices, Edges, Bridge Tool, Combining, Smooth, Mirror Geometry, Merging Vertices, Subdivision Modeling. Deformations: Twist, Lattice, Flare, Bend. Shapes: Lines, Pen Tools. Animations: Basic Keyframes, Vertex Animation, Clusters, Path Animations, Skeletons, Bones, IK Handle Tool, Skinning. Dynamics: Fire, Lighting, Soft and Rigid Bodies, Particles, Collisions, Gravity. Fur and Paint Effects: Fur Basics, Fur Color Corrections, Paint Effects, Paint Modifier, Brush Animations. Texturing: Diffuse and Bump Maps, Reflections, Transparency, Shaders, Toon Shaders, Glow Textures. Lighting: Basic and Advanced Lights, Shadows, Special Light Effects. Camera: Free and Aim Cameras, Camera Effects, Path Animations. Fluid Effects and Ncloth: 2D and 3D Containers, Collision Effects, Gravity, Wind Effects. Rendering: Images and Animations, Render Techniques, Resolution Settings, Batch Rendering. Download Maya Maya Proficiency: Master Maya's interface, tools, and functions, advancing from basic to intermediate levels. 3D Modeling Expertise: Create diverse 3D models using polygonal and NURBS techniques, from simple shapes to intricate designs. Texturing and Rendering Skills: Apply textures, create materials, and utilize advanced rendering techniques for high-quality visuals. Animation Techniques: Understand keyframe animation, rigging, and character animation, producing engaging animations and special effects. Special Effects and Dynamics: Explore particle systems, fluid dynamics, and advanced visual effects, enhancing realism in animations. Advanced Modeling and Sculpting: Master complex modeling techniques, including Booleans, deformers, and organic shape creation through sculpting tools. Professional Portfolio: Develop a diverse portfolio showcasing 3D modeling and animation skills, ready for presentation to employers or clients. Problem-Solving Skills: Learn creative approaches to solve complex 3D challenges effectively. Collaborative Abilities: Understand team dynamics and collaboration within the 3D production pipeline. Recommended Books: "Introducing Autodesk Maya 202X" by Dariush Derakhshani and Randi L. Derakhshani: Comprehensive beginner's guide to Maya's essential tools and techniques. "Mastering Autodesk Maya 20XX" by Todd Palamar: In-depth intermediate guide covering advanced features, modeling, animation, and rendering. "Maya Character Creation: Modeling and Animation Controls" by Chris Maraffi: Focuses on character creation, covering modeling, rigging, and animation. "Maya Secrets of the Pros" by Todd Palamar: Expert tips and techniques from professional Maya artists, detailing advanced workflows and best practices. "Stop Staring: Facial Modeling and Animation Done Right" by Jason Osipa: Specialized book on facial modeling and animation, perfect for character expression enthusiasts. "The Art of 3D Computer Animation and Effects" by Isaac Kerlow: Offers foundational knowledge in 3D computer animation principles, applicable to various software, including Maya. Mastering Maya Basics to Intermediate Course Benefits: Comprehensive Skill Development: Master essential tools and techniques, from basics to intermediate, with hands-on projects mirroring real industry scenarios. Industry-Grade Proficiency: Acquire expertise in Autodesk Maya, enhancing credibility in animation, visual effects, and gaming industries. Creative Exploration: Unlock creative potential through advanced shading, lighting, dynamics, and simulations, enabling imaginative project realization. Portfolio Enhancement: Build a strong portfolio showcasing skills in 3D modeling, animation, and rendering for career advancement. Individualized Support: Receive personalized guidance and feedback, ensuring tailored learning experiences and skill refinement. Potential Jobs After Course: 3D Animator: Create lifelike character animations for films, games, and advertisements. 3D Modeler: Design detailed 3D characters, environments, and objects for various applications. Visual Effects Artist: Produce stunning visual effects for movies, TV shows, and commercials. Texture/Lighting Artist: Develop intricate textures and set the mood with expert lighting. Rigging Specialist: Rig characters and objects for realistic movement in animations. Rendering Specialist: Optimize rendering capabilities for high-quality images and animations. Game Developer: Contribute to interactive game development using Maya's features. Freelance Artist/Animator: Work independently on diverse projects, collaborating with studios and agencies. Skill Advancement: Progressive Mastery: Develop from basics to intermediate levels in Autodesk Maya, honing essential tools for stunning 3D visuals and animations. Hands-On Learning: Interactive Practice: Engage in practical projects, refining your skills in 3D modeling, advanced materials, character animation, and high-quality renders. Industry-Ready Proficiency: In-Demand Skills: Acquire proficiency in Autodesk Maya, a key software in animation and gaming, enhancing your employability. Creative Exploration: Unlock Creativity: Experiment with advanced shading, lighting, and dynamic animations, unleashing your creative potential in Maya. Flexible Support: Tailored Learning: Access recorded lessons for review, deepening your understanding, with lifetime email support for continuous guidance.

The Revit MEP course (£525), offers you individual learning (One to One) to improve your skills in Revit, and this course extends to 15 hours.

This course will enable you to bring value to the business by putting data science concepts into practice. Data is crucial for understanding where the business is and where it's headed. Not only can data reveal insights, but it can also inform - by guiding decisions and influencing day-to-day operations.

Innovation Project Management: Virtual In-House Training Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. Innovation is needed and someone must manage these innovation projects. Over the past two decades, there has been a great deal of literature published on innovation and innovation management. Converting a creative idea into reality requires projects and some form of project management. Unfortunately, innovation projects, which are viewed as strategic projects, may not be able to be managed using the traditional project management philosophy we teach in our project management courses. There are different skill sets needed, different tools, and different life-cycle phases. Innovation varies from industry to industry and even companies within the same industry cannot come to an agreement on how innovation project management should work. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. What you Will Learn Explain the links needed to bridge innovation, project management, and business strategy Describe the different types of innovation and the form of project management each require Identify the differences between traditional and innovation project management, especially regarding governance, human resources management challenges, components of an innovative culture and competencies needed by innovation project managers Establish business value and the importance of new metrics for measuring and reporting business value Relate innovation to business models and the skills needed to contribute in the business model development Recognize the roadblocks affecting innovation project management and their cause to determine what actions can be taken Determine the success and failure criteria of an innovation project Foundation Concepts Understanding innovation Role of innovation in a company Differences between traditional (operational) and strategic projects Innovation management Differences between innovation and R&D Differing views of innovation Why innovation often struggles Linking Innovation Project Management to Business Strategy The business side of innovation project management The need for innovation targeting Getting close to the customers and their needs The need for line-of-sight to the strategic objectives The innovation enterprise environmental factors Tools for linking Internal Versus External (Co-creation) Innovation Open versus closed innovation Open innovation versus crowdsourcing Benefits of internal innovation Benefits of co-creation (external) innovation Selecting co-creation partners The focus of co-creation The issues with intellectual property Understanding co-creation values Understanding the importance of value-in-use Classification of Innovations and Innovation Projects Types of projects Types of innovations Competency-enhancing versus competency-destroying innovations Types of innovation novelty Public Sector of Innovation Comparing public and private sector project management Types of public service innovations Reasons for some public sector innovation failures An Introduction to Innovation Project Management Why traditional project management may not work The need for a knowledge management system Differences between traditional and innovation project management Issues with the 'one-size-fits-all' methodology Using end-to-end innovation project management Technology readiness levels (TRLs) Integrating Kanban principles into innovation project management Innovation and the Human Resources Management Challenge Obtaining resources Need for a talent pipeline Need for effective resource management practices Prioritizing resource utilization Using organizational slack Corporate Innovation Governance Types of innovation governance Business Impact Analysis (BIA) Innovation Project Portfolio Management Office (IPPMO) Using nondisclosure agreements, secrecy agreements, confidentiality agreements, and patents Adverse effects of governance decisions Innovation Cultures Characteristics of a culture for innovation Types of cultures Selecting the right people Linking innovation to rewards Impact of the organizational reward system Innovation Competencies Types of innovation leadership The need for active listening Design thinking Dealing with ambiguity, uncertainty, risks, crises, and human factors Value-Based Innovation Project Management Metrics Importance of innovation project management metrics Understanding value-driven project management Differences between benefits and value - and when to measure Traditional versus the investment life cycle Benefits harvesting Benefits and value sustainment Resistance to change Tangible and intangible innovation project management metrics Business Model Innovation Business model characteristics Impact of disruptive innovation Innovation Roadblocks Roadblocks and challenges facing project managers Ways to overcome the roadblocks Defining Innovation Success and Failure Categories for innovation success and failure Need for suitability and exit criteria Reasons for innovation project failure Predictions on the Future of Innovation Project Management The Six Pillars of changing times Some uses for the new value and benefits metrics

Why Choose Rhino Introduction to Intermediate Training Course? Learn: 3D NURBS models. Master: Surfacing modeling. Interface: Rhino's navigation. Rendering Skills: Enhance presentations with Rhino renderings. Check our Website Flexible Scheduling: 1-on-1 training sessions according to your convenience. Choose any hour between 9 a.m. and 7 p.m., Mon to Sat. You can call us at 02077202581 to book over the phone. Duration: 10 hours. Methods: Personalized training either in-person, or live online. Introduction and Navigation Become acquainted with Rhino's interface, menus, and screen layout. Efficiently traverse through Rhino models, ensuring precision in 2D lines, polylines, and NURBS curves. Utilize modeling setup features, incorporating constraints like snap, ortho, and planar for accuracy. Leverage object snaps and Smart Track functionality to enhance precision. Solid and Surface Modeling Develop rapid 3D solids and surfaces, employing Rhino's organized layering system. Utilize coordinates and constraints for meticulous modeling, exploring 3D space and elevations. Create diverse shapes, such as rectangles, circles, arcs, ellipses, and polygon curves. Elevate models with Rhino render and render color, incorporating free-form curves, helix, and spiral curves. Efficiently handle model views with pan, zoom, and view management tools. Implement various editing commands for curve manipulation and transform curves into surfaces and solids. Utilize history tracking for advanced editing and execute general editing actions: move, copy, rotate, mirror, and scale. Create arrays with both polar and rectangular arrangements and employ boolean operations like union, difference, and intersection. Offset curves and surfaces effectively, ensuring meticulous detailing. Intermediate Edit and Surfacing Introduce key NURBS modeling concepts and terminologies. Edit curves and surfaces via control point manipulation and rebuild them for optimal refinement. Employ the nudge modeling aid for precise adjustments and generate deformable shapes. Create curves through projection techniques and split surfaces using curves and surfaces. Blend surfaces seamlessly, utilizing symmetry tools, lighting, and rendering effects. Convert intricate 3D objects into detailed 2D drawings, expertly crafting page layouts. Advanced Surfacing and Solid Modeling Construct model primitives and solid text, employing techniques such as pipe and extrusion. Modify solids efficiently using Boolean tools, expanding your surface modeling capabilities. Employ techniques like extrusion, lofting, and revolving for intricate surfaces. Create sweeps using 1 and 2 rail curves, mastering surface network techniques for complex shapes. Upon completion, you will: Master Rhino Tools: Navigate interfaces, utilize advanced tools for precise modeling, and employ features like object snaps and Smart Track. Expert Solid and Surface Modeling: Develop intricate 3D solids and surfaces, create diverse shapes, and use Rhino render effectively. Advanced Editing Skills: Apply intermediate and advanced editing techniques, including symmetry tools and realistic rendering. Precision Modeling: Utilize coordinates, constraints, and advanced aids for accurate detailing and problem-solving. Professional Project Execution: Create high-quality renderings, 2D drawings, and polished 3D models for real-world design scenarios. Upon completion, you'll be adept at 3D modeling, product design, and architecture, positioning you as a valuable asset in the design industry. Why Choose Our Rhino Courses? Rhino, also known as Rhinoceros, stands as a robust 3D computer graphics and computer-aided design software, utilized extensively in domains like architecture, industrial design, and multimedia. Our Rhino courses are meticulously crafted to empower you in mastering this software. Led by seasoned instructors, our courses provide a comprehensive understanding of Rhino, enabling you to create exceptional designs. Rhino 3D Training: Our Rhino 3D training caters to beginners and those seeking advanced techniques. Course Highlights: Precise 3D Modeling: Master free-form 3D NURBS models with precision. Advanced Functionality: Explore Rhino's features, including advanced surfacing commands. User Interface Mastery: Navigate Rhino's interface and hone skills in curves, surfaces, and solids. Expert Guidance: Acquire expertise in Rhino's modeling environment under expert guidance. Modeling Techniques: Learn free-form and precision modeling techniques. Modeling Aids: Utilize tools for accurate modeling and create basic Rhino renderings. Benefits of our Courses: Expert Guidance: Receive instruction from experienced architects and designers, providing practical, real-world insights for comprehensive learning. Comprehensive Resources: Access bespoke video tutorials for additional learning and reference, enhancing your understanding of the course materials. Digital Reference Material: Receive a digital reference book to support your revision efforts, providing a comprehensive resource for your studies. Ongoing Support: Enjoy free after-support through phone or email even after course completion, ensuring continuous assistance and guidance. Tailored Learning Experience: Customize your learning journey by adapting the syllabus and projects to align with your specific needs and interests, fostering a personalized educational experience. Certificate: Upon completion, earn a certificate from us, validating your achievement and recognizing your expertise in the field.

Our new and improved pipe and pump sizing calculator tool. This one hour session will provide an introduction into the following: Justifying the default values (maximum & minimum velocities, pressure loss etc) Preparing a schematic as a reference. Labelling sections and identifying circuits. Picking rooms or radiators for total mass flow rate (kg/s) Selecting flow temperatures and delta temperatures. Selecting pipe sizes for each section. Reviewing the automated velocity checks (m/s) Reviewing the automated maximum pressure drop allowance (Pa/m) Creating circuits Reviewing the index circuit Final results to size your circulation pump. Q & A session after the above is explained and demonstrated.

For new users and the curious. Hello, For new users and the curious. IMPORTANT: Firstly, once you are signed up, send us your requests on what you would like to see within the demonstration and learn on the course. We will then cater for your needs and answer them during the session. This is designed to be an introduction into how to start a room by room survey using the Heat Engineer app, then sending this survey to the online dashboard. We will then go through the different steps to complete this heat loss report. Optional pages will also be worked through and shown. Examples of how to select the flow temperature and the heat source (heat pumps and boilers) will be presented once the heat loss result is completed.

Why Opt for the Rhino 3D Training Course in Jewelry Design? Click here for more info Within a span of 10 hours, you'll master the interface and gain insights into how Rhino leverages points, lines, surfaces, and solids to fashion printable 3D objects. Moreover, you'll explore the art of crafting repetitive and intricate geometric shapes, perfect for creating minimalist and elegant jewelry. Flexible Scheduling: 1-on-1 training sessions tailored to your schedule. Pick any hour between 9 am and 7 pm from Mon to Sat. Course Duration: 10 hours. Training Methods: Choose between in-person sessions or live online training. Why Choose Our Rhino 3D Training Course for Jewelry Design? Rhino, also known as Rhinoceros, stands as a robust 3D computer graphics and computer-aided design software extensively utilized in various industries, including architecture, industrial design, and multimedia. LDTC offers meticulously crafted Rhino courses to empower you in mastering this software. Led by experienced instructors, our courses ensure a comprehensive understanding of Rhino, equipping you to create exceptional designs, specifically tailored for jewelry creation. Rhino 3D Training for Jewelry Design: Our Rhino 3D training caters to both beginners and those aspiring to acquire advanced techniques, emphasizing its application in jewelry design. Course Highlights: Precise 3D Modeling: Master the art of crafting free-form 3D NURBS models with utmost precision. Advanced Functionality: Explore Rhino's advanced surfacing commands and features tailored for jewelry design. User Interface Mastery: Navigate Rhino's interface seamlessly and refine your skills in curves, surfaces, and solids. Expert Guidance: Acquire expertise in Rhino's modeling environment under the guidance of seasoned professionals. Modeling Why Choose Our Rhino 3D Training Course for Jewelry Design? Rhino, also known as Rhinoceros, stands as a robust 3D computer graphics and computer-aided design software extensively utilized in various industries, including architecture, industrial design, and multimedia. LDTC offers meticulously crafted Rhino courses to empower you in mastering this software. Led by experienced instructors, our courses ensure a comprehensive understanding of Rhino, equipping you to create exceptional designs, specifically tailored for jewelry creation. Rhino for Jewelry Design - 16-Hour Course Module 1: Introduction and Navigation Get acquainted with Rhino's interface, menus, and screen layout. Navigate Rhino models with precision in 2D lines, polylines, and NURBS curves. Use modeling setup features like snap, ortho, and planar constraints for accuracy. Leverage object snaps and Smart Track functionality for enhanced precision. Module 2: Solid and Surface Modeling Fundamentals Rapidly develop 3D solids and surfaces using Rhino's organized layering system. Utilize coordinates and constraints for meticulous modeling in 3D space. Create diverse shapes, including rectangles, circles, arcs, ellipses, and polygon curves. Enhance models with Rhino render, render color, and free-form curves. Efficiently handle model views with pan, zoom, and view management tools. Implement various editing commands for curve manipulation and transforming curves into surfaces and solids. Utilize history tracking for advanced editing and execute general editing actions. Module 3: Intermediate Edit and Surfacing Techniques Introduce essential NURBS modeling concepts and terminologies. Edit curves and surfaces through control point manipulation and rebuilding for optimal refinement. Use the nudge modeling aid for precise adjustments and generate deformable shapes. Create curves through projection techniques and split surfaces using curves and surfaces. Blend surfaces seamlessly, utilizing symmetry tools, lighting, and rendering effects. Convert intricate 3D objects into detailed 2D drawings and craft page layouts. Module 4: Advanced Surfacing and Solid Modeling Techniques Construct model primitives and solid text using techniques such as pipe and extrusion. Efficiently modify solids using Boolean tools, expanding surface modeling capabilities. Utilize techniques like extrusion, lofting, and revolving for intricate surfaces. Create sweeps using 1 and 2 rail curves and master surface network techniques for complex shapes. Downlaod Rhino. Upon completion of the Rhino 3D Training Course for Jewelry Design, participants can expect the following learning outcomes: Mastering Rhino Interface: Gain a comprehensive understanding of Rhino's interface, menus, and screen layout. Precision in Modeling: Navigate Rhino models with precision using 2D lines, polylines, and NURBS curves. Modeling Setup Proficiency: Utilize modeling setup features such as snap, ortho, and planar constraints for accurate designs. Enhanced Navigation Techniques: Leverage object snaps and Smart Track functionality for enhanced precision during navigation. Solid and Surface Modeling Skills: Rapidly develop 3D solids and surfaces with Rhino's organized layering system. Coordination and Constraint Application: Utilize coordinates and constraints for meticulous modeling in 3D space. Diverse Shape Creation: Create diverse shapes, including rectangles, circles, arcs, ellipses, and polygon curves. Rendering and Enhancement Techniques: Enhance models with Rhino render, render color, and free-form curves. Efficient Model View Handling: Efficiently handle model views with pan, zoom, and view management tools. Intermediate Edit and Surfacing Techniques: Edit curves and surfaces through control point manipulation and rebuilding for optimal refinement. NURBS Modeling Mastery: Introduce essential NURBS modeling concepts and terminologies. Advanced Editing and Modeling Skills: Use the nudge modeling aid for precise adjustments and generate deformable shapes. Complex Shape Creation: Create sweeps using 1 and 2 rail curves and master surface network techniques for intricate shapes. Solid Modeling Proficiency: Construct model primitives and solid text using techniques such as pipe and extrusion. Application of Boolean Tools: Efficiently modify solids using Boolean tools, expanding surface modeling capabilities. Advanced Surfacing Techniques: Utilize techniques like extrusion, lofting, and revolving for intricate surfaces. Conversion and Crafting of 2D Drawings: Convert intricate 3D objects into detailed 2D drawings and craft page layouts. Hands-On Project Experience: Engage in practical exercises and hands-on projects tailored for jewelry design applications. Upon mastering these skills, participants will be well-equipped to create sophisticated jewelry designs using Rhino 3D modeling software.

This Renewables Technical Surveying training short two day course is specifically designed for individuals and companies that want to train themselves and their staff on exactly how to carry out Renewables Technical Site Surveying prior to any renewables installation measures, this includes for heating systems, solar systems and EV Charge point installations. The course is primarily aimed at Energy Suppliers, Equipment Manufacturers, Renewable Installers, Domestic Energy Assessors, Retrofit Assessors, Retrofit Co-ordinators, Renewables sales staff and suitable individuals with a basic level of knowledge in varying building structures, heating systems and varying renewable technologies.

For new users and the curious. Hello, For new users and the curious. IMPORTANT: Firstly, once you are signed up, send us your requests on what you would like to see within the demonstration and learn on the course. We will then cater for your needs and answer them during the session. This is designed to be an introduction into how to start a room by room survey using the Heat Engineer app, then sending this survey to the online dashboard. We will then go through the different steps to complete this heat loss report. Optional pages will also be worked through and shown. Examples of how to select the flow temperature and the heat source (heat pumps and boilers) will be presented once the heat loss result is completed.