145 Mapping courses in London

About this Training The expanding human population and industrialisation are increasing the demand for energy worldwide. This has resulted in numerous challenges such as environmental pollution, reliable supply of fossil fuels, and increased demand of electricity supply, which must be overcome. To fulfil the energy demands and overcome these challenges, numerous projects and funds are involved in finding an adequate solution. Transport accounts for around one-fifth of global carbon dioxide (CO2) emissions and road travel accounts for three-quarters of transport emissions. Most of this comes from passenger vehicles. Emission limits are increasingly stringent, and the fuel industry must change its approach to product formulation to meet the challenge. Training Objectives Upon completion of this course, participants will be able to: Get a clear overview of the different types of bio and alternative fuels Understand how different bio and alternative fuels are produced Have an overview of feedstock utilised for biofuels production Realize how the biofuels production could be integrated in modern refinery Understand how bio and alternative fuels function as single and blended fuels Understand what impact bio and alternative fuels have on car engine Get an overview of the environmental impact of bio and alternative fuels Get the overview of regulation related to bio and alternative fuel Target Audience The course is intended for individuals who are interested in or developing in the field of bio and alternative fuels. The following personnel will benefit from the knowledge shared in this course: Refinery Technical Personnel Trading and blending personnel Sales, marketing, and product trading personnel Laboratory supervisors and technical personnel Policymakers Professionals who are interested in or developing in the field of bio and alternative fuels Process, project, and consultant engineers involved in bioenergy, petrochemical and chemical industries Course Level Basic or Foundation Trainer Your expert course leader is an experienced manager with more than 25 years of operational experience in the downstream Oil & Gas industry. She is a recognised expert in conventional, biofuels and alternative fuels with extensive experience in the crude selection process and formulation of finished products including product portfolio strategy, product quality road mapping and benchmarking. She is a long-time laboratory manager with comprehensive experience in laboratory processes, including financing, benchmarking, efficiency improvement and total quality management processes. POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

Who is this course for? Mastering 3ds Max: Complete Basic to Advanced Training. Looking to learn 3D modelling and animation? Look no further than our comprehensive 3ds Max beginner course! Gain a strong foundation in 3ds Max and learn essential skills for creating stunning 3D models and visualizations. Check our Website Training Duration: 40 hours Method: 1-on1 Sessions and Customized Content. Schedule: Choose your preferred time slot between 9 am and 7 pm, Mon to Sat, tailored to fit your schedule. Course Title: 3ds Max and V-Ray Comprehensive Training Program (40 Hours) Course Overview: Dive deep into the world of 3D visualization and rendering with our intensive 3ds Max and V-Ray training program. Over the course of 40 hours, you'll master the fundamental concepts, advanced techniques, and practical applications of both 3ds Max and V-Ray, empowering you to create stunning, photorealistic visualizations for various industries. Course Outline: Module 1: Introduction to 3ds Max (8 hours) Understanding the 3ds Max interface and tools Basic 3D modeling techniques and workflows Material creation and texture mapping Lights and cameras setup for scenes Module 2: Advanced 3ds Max Techniques (8 hours) Character modeling and animation Particle systems and dynamics Advanced lighting and shading techniques Scene composition and camera animation Module 3: V-Ray Fundamentals (8 hours) Introduction to V-Ray rendering engine V-Ray materials and texture mapping Lighting with V-Ray lights and HDRI maps V-Ray camera settings and depth of field Module 4: Advanced V-Ray Rendering (8 hours) Global illumination and image-based lighting V-Ray proxies and instancing Advanced V-Ray shaders and displacement maps Render elements and post-production techniques Module 5: Architectural Visualization with V-Ray (8 hours) Interior and exterior scene setup Realistic materials for architectural elements Lighting strategies for different times of the day Creating lifelike environments and atmospheric effects Course Features: Hands-On Learning: Engage in practical exercises and real-world projects to reinforce your skills and knowledge. Industry-Standard Tools: Work with the latest versions of 3ds Max and V-Ray, widely used in the professional 3D visualization industry. Expert Instruction: Learn from certified trainers and industry professionals with extensive experience in 3D modeling and rendering. Project-Based Assessments: Apply learned techniques to comprehensive projects, receiving feedback and guidance to refine your skills. Flexible Learning: Choose between in-person and online sessions, accommodating various schedules and learning preferences. Upon completing this 40-hour course, you will be equipped with the expertise to create visually stunning 3D renderings and animations, making you proficient in both 3ds Max and V-Ray for a successful career in architectural visualization, gaming, film production, and more. Upon completion, participants will: Master 3ds Max & V-Ray: Acquire advanced skills in 3ds Max and V-Ray for creating realistic 3D visualizations. Expert in Architectural Visualization: Specialize in architectural visualization techniques, ideal for interior designers and architects. Project-Based Proficiency: Apply learned skills to real projects, developing a professional portfolio. Recommended Jobs: Architectural Visualization Artist 3D Animator Product Visualization Specialist Interior Designer VR Developer Freelance 3D Artist Game Environment Artist Visualization Consultant This training opens doors to diverse roles in architecture, gaming, design, and more. Duration: 40 Hours Focus: Master 3ds Max and V-Ray for advanced 3D visualizations and architectural rendering. Learning Format: One-on-One Training for personalized attention. Availability: Book your sessions Monday to Saturday, 9 am to 7 pm, tailored to your schedule. Outcome: Expertise in 3ds Max, V-Ray, and specialized architectural visualization skills. Practical Focus: Hands-on projects and real-world applications for skill reinforcement. Certification: Upon completion, receive a certificate showcasing your advanced 3D modeling and rendering skills. This one-on-one course offers tailored training sessions from Monday to Saturday, 9 am to 7 pm, ensuring personalized attention and flexibility to suit your schedule. Download 3ds max Ongoing Email Support: We offer continuous email assistance, ensuring your queries are promptly addressed even after the course completion. Comprehensive Resources: Access extensive handouts and valuable documents designed to reinforce your learning experience. Flexible Financial Options: Explore adaptable financial support options, including installment plans and assistance through job center plus and DWP. Reach out to us for specific details. Satisfaction Guarantee: Although it's highly improbable given our exceptional quality and skilled tutors, if you find dissatisfaction after your initial session, we will promptly address your concerns. If necessary, a refund may be provided (Terms and conditions apply). Optimized Software Experience: Receive guidance on optimizing your computer for enhanced software performance in applications like Autocad, 3ds Max, and Photoshop, whether you're on MAC or PC platforms. Industry Connections: Leverage our industry ties as we actively showcase your portfolio to potential employers. Many of our students have secured jobs through our recommendations, offering valuable career opportunities.

Why Choose Complete Rhino 3D and V-Ray Training Program: Basic to Intermediate? Learn Rhino 3D and V-Ray for Rhino Basic to Intermediate Training Course. Suitable for beginners and experienced users alike, this program equips you with vital modeling and rendering skills. Opt for in-person or live online sessions. Click here for more info: Website Duration: 16 hours. Approach: 1-on-1 Sessions, Customized Content and Flexible Learning. Scheduling Flexibility: Tailor your sessions from Mon to Sat between 9 am and 7 pm. Course Title: Complete Rhino 3D and V-Ray Training Program: Basic to Intermediate - 16 Hours Session 1-2: Introduction to Rhino 3D Basics (2 hours) Understanding Rhino Interface: Navigating toolbars, command line, and properties panel. Basic Geometric Shapes: Creating lines, circles, and polygons with precision. Editing Tools: Mastering move, rotate, scale, and mirror commands. Session 3-4: Advanced Rhino 3D Modeling Techniques (2 hours) Curves and Surfaces: Delving into NURBS curves, creating complex surfaces, and blending techniques. Modeling Aids: Utilizing grids, snaps, and construction planes for accuracy. Organizing with Layers: Managing complex projects efficiently. Session 5-6: Introduction to V-Ray for Rhino (2 hours) V-Ray Interface: Understanding V-Ray toolbar and settings. Basic Lighting: Exploring different light types and their effects on scenes. Materials: Creating realistic materials, understanding diffuse, reflection, and transparency. Session 7-8: Intermediate V-Ray Concepts (2 hours) Advanced Lighting: Mastering HDRI lighting, creating natural outdoor lighting scenarios. Texture Mapping: Understanding UV mapping, applying textures seamlessly. Rendering Optimization: Reducing noise, optimizing settings for quicker, high-quality renders. Session 9-10: Rhino-V-Ray Integration (2 hours) Model Preparation: Optimizing Rhino models for V-Ray rendering. Advanced Material Manipulation: Creating complex materials, incorporating textures. Interactive Rendering: Real-time adjustments for immediate feedback. Session 11-12: Advanced Modeling Techniques in Rhino (2 hours) Advanced Surface Modeling: Creating organic shapes, advanced surfacing techniques. Precision Modeling: Advanced curve editing, filleting, and trimming. Working with 3D Text: Creating custom 3D text for design projects. Session 13-14: Scene Composition and Presentation (2 hours) Camera Settings: Understanding focal length, depth of field, and perspective. Scene Composition: Design principles, rule of thirds, focal points, and balance. Post-Processing: Enhancing renders in Photoshop, adding atmosphere and context. Session 15-16: Final Project and Portfolio Review (2 hours) Final Project Work: Participants apply learned skills to create a complex 3D scene. Instructor-led Critique: Feedback session for final projects. Portfolio Guidance: Tips for selecting the best works for a professional portfolio. By the end of this 16-hour course, participants will have a deep understanding of both Rhino 3D and V-Ray, allowing them to create intricate 3D models and produce high-quality, realistic renders for various applications. Upon completing the Rhino 3D and V-Ray Basic to Intermediate Training Course, participants can expect to achieve the following learning outcomes: Proficiency in Rhino 3D and V-Ray: Develop a comprehensive understanding of Rhino 3D and V-Ray interfaces, tools, and functionalities, enabling participants to navigate and utilize the software effectively. 3D Modeling Skills: Master the art of creating captivating 3D objects and shapes using Rhino 3D, including editing, transforming, and refining designs for diverse applications. Material Application: Acquire the ability to apply and customize materials and textures to enhance the visual appeal and realism of 3D models, elevating the quality of designs. Lighting Techniques: Gain expertise in utilizing V-Ray lighting tools, such as V-Ray lights and HDRI maps, to achieve striking lighting effects in rendered scenes. Rendering Excellence: Learn to optimize V-Ray render settings, control global illumination, and apply dynamic effects like depth of field and motion blur for high-quality and impressive renders. Advanced Modeling: Develop skills in advanced modeling techniques, including handling curves, surfaces, and solids, enabling participants to tackle complex design challenges. Lighting Mastery: Acquire the knowledge and expertise to create and adjust artificial lights, utilize the Sun and Sky system, and craft custom HDR images for realistic lighting setups. Seamless File Management: Understand various file formats for exporting and importing 3D models, facilitating efficient collaboration and preparation for 3D printing. Creative Problem-Solving: Enhance creative thinking and problem-solving abilities through hands-on practice and exploration of diverse design scenarios. Professional Presentation: Learn post-production techniques in Photoshop to enhance renders and create visually appealing design presentations for effective communication. Continuous Learning: Access valuable resources and tips to encourage continuous learning and professional growth in Rhino 3D and V-Ray. Skills You'll Gain: Master Rhino 3D basics: Curves, surfaces, modeling aids, and precision techniques. Explore intermediate V-Ray concepts: Advanced lighting, material manipulation, and texture mapping. Understand Rhino-V-Ray integration for seamless 3D modeling and rendering workflows. Optimize render settings for high-quality output and reduced rendering times. Career Opportunities: Upon completing this program, you'll be prepared for various roles in the design and visualization industry, such as: 3D Modeler: Create detailed 3D models for diverse industries, including architecture and product design. Architectural Visualizer: Produce realistic architectural visualizations for presentations and marketing materials. Product Designer: Develop visually appealing product prototypes and visualizations for marketing and manufacturing. Visualization Specialist: Work in design studios, advertising agencies, or game development companies, creating immersive visual content. Freelance Designer: Offer your skills on platforms like Upwork or Fiverr, providing 3D modeling and rendering services to clients worldwide. Solidify Rhino 3D Expertise: Master foundational modeling skills, including intricate geometries and surface manipulation, establishing a robust foundation for your 3D design journey. Unlock V-Ray for Rhino: Explore the potential of V-Ray for Rhino, learning to create mesmerizing visualizations and achieve lifelike rendering results that bring vitality to your designs. Enhance Visual Appeal: Grasp advanced lighting techniques, material application, and texture methods to elevate the visual allure of your 3D creations, making them more immersive and authentic. Explore Advanced Concepts: Delve into optimizing rendering settings, post-production tactics, and efficient workflows, advancing your design proficiency to higher levels. Hands-On Experience: Engage in practical exercises and real-world projects, applying your skills in practical contexts to enrich your portfolio and showcase your capabilities effectively. Certification of Achievement: Receive a valuable Certificate of Completion, confirming your expertise in Rhino 3D and V-Ray for Rhino, enhancing your professional credibility as a skilled designer. Flexible Learning Paths: In-Person or Live Online: Opt for in-person sessions, fostering collaborative learning, or choose live online classes for convenience and accessibility, tailoring your learning experience to your preferences. Personalized Guidance: Regardless of your chosen format, benefit from tailored instruction and guidance, ensuring optimal learning outcomes and continuous support throughout the course.

Who is this course for? Beginner to Intermediate 3ds Max Training Program. Learn 3D modeling with our in-depth 3ds Max training program. Beginners to intermediate learners, this course is led by certified instructors and industry professionals. Learn 3D modeling, animation, and visualization. In-person or live online sessions. Click here for more info: Website Duration: 20 hours Method: 1-on-1 Personalized Attention. Schedule: Design your own schedule, hours of your choice, offered Mon to Sat from 9 am to 7 pm. 3ds Max and Vray Basic to Intermediate Training Course - 20 Hours Course Outline: Module 1: Introduction to 3ds Max (2 hours) Familiarizing with the 3ds Max interface and navigation Understanding the workspace setup for efficient workflow Mastering object creation, modification, and manipulation Exploring the basics of scene organization and management Module 2: 3D Modeling in 3ds Max (4 hours) Creating primitive and complex shapes using standard tools Utilizing modifiers for advanced modeling techniques Mastering spline modeling for precision and creativity Combining multiple objects for seamless compositions Module 3: Texture Mapping and Material Creation (4 hours) Understanding UVW mapping and texture coordinates Applying materials and shaders for realistic surfaces Utilizing Vray materials for enhanced visual effects Customizing materials for unique and captivating designs Module 4: Lighting and Rendering with Vray (4 hours) Implementing Vray lights for various lighting setups Exploring Vray's global illumination for realism Configuring render settings for high-quality output Fine-tuning the rendering process for efficiency and speed Module 5: Animation and Camera Techniques (4 hours) Setting up animation keyframes for dynamic motion Utilizing cameras for captivating viewpoints and perspectives Creating smooth camera animations and walkthroughs Incorporating animated objects to bring scenes to life Module 6: Scene Optimization and Advanced Features (2 hours) Streamlining scene organization for better workflow Leveraging Vray proxies for optimized performance Exploring advanced Vray features for stunning effects Using Vray render elements for post-processing control Module 7: Project Work and Review (2 hours) Applying the learned skills in hands-on projects Reviewing and refining the projects with instructor guidance Consolidating knowledge and addressing any remaining queries Course Requirements: A computer with 3ds Max and Vray installed (trial versions available on Autodesk and Chaos Group websites) Basic familiarity with 3D modeling concepts is beneficial but not mandatory Enthusiasm for learning 3ds Max and Vray to create impressive 3D models, visualizations, and animations By the end of the 3ds Max and Vray Basic to Intermediate Training Course, participants will be able to: Navigate and utilize the 3ds Max interface with ease for efficient 3D modeling and scene management. Create a variety of 3D models using different techniques, including primitive shapes, modifiers, and spline modeling. Apply textures and materials to their models, utilizing Vray materials for enhanced visual effects. Set up lighting and render scenes using Vray, understanding global illumination for realistic renders. Animate objects and cameras, producing dynamic and engaging animations within their 3D scenes. Optimize scenes and use advanced Vray features, like proxies and render elements, for improved performance and post-processing control. Apply the learned skills to hands-on projects, gaining practical experience in creating captivating 3D models and animations. Review and refine their projects, receiving instructor guidance and feedback to enhance their work. Gain confidence in using 3ds Max and Vray, allowing them to continue exploring and advancing their 3D modeling and rendering skills independently. Showcase their newfound abilities through an impressive portfolio of 3D models and animations, ready to take on new creative challenges in various industries. Skills Acquired: Mastering Fundamental 3D Modeling Techniques in 3ds Max Developing Texturing and Material Application Skills Understanding Lighting and Rendering Fundamentals Grasping Animation Basics and Keyframe Animation Gaining Proficiency in Scene Composition and Camera Setup Career Opportunities: Entry-Level 3D Modeler Junior 3D Animator Texturing and Lighting Assistant CAD Designer in Architectural Firms Product Visualization Artist in Marketing Agencies Upon completing our 3ds Max Beginner Course, students will acquire foundational 3D modeling and animation skills, opening doors to entry-level positions in various industries, including animation studios, architectural firms, and marketing agencies. Personalized Guidance: Expert trainers cater to your unique learning needs through tailored one-on-one coaching. Hands-On Learning: Engage in practical demonstrations, reinforcing skills applicable to industries like design, gaming, and film. Comprehensive Resources: Access a Certificate of Attendance and detailed training guides for continuous reference. Interactive Sessions: Interact live with tutors, receiving valuable feedback and access to recorded sessions. Flexible Options: Choose between online or in-person sessions, fitting your schedule and preferences. Value and Support: Enjoy competitive rates, discounts for referrals, and lifetime assistance via email and phone. Smooth Start: Receive assistance with software installation, ensuring a seamless learning experience.

Maya Evening Learning Sessions. Maya Evening Learning Sessions offer flexibility for professionals, interactive classes, supportive community, and skill enhancement in a convenient after-work schedule. Perfect for work-life balance and continued education. Click here for more info: Website Tailored Learning: Custom curriculum catering to your skill level. Course Duration: 10 hours. Approach: 1-to-1  Schedule: Craft your learning path by pre-booking hours from Mon to Sat, 9 am to 7 pm, accommodating your convenience. Maya 10-Hour Course Key Details: Duration: 10 hours of intensive training. Approach: Hands-on, interactive sessions focusing on essential Maya concepts and techniques. Curriculum Highlights: Introduction to Maya: Understanding the software interface and basic tools. 3D Modeling: Mastering polygon modeling techniques and object manipulation. Texturing and Materials: Learning to apply textures, materials, and UV mapping. Lighting and Rendering: Exploring lighting setups, camera compositions, and rendering methods. Animation Fundamentals: Grasping keyframe animation, editing clips, and basic character rigging. Special Effects and Dynamics: Creating particle systems, fluid simulations, and basic special effects. Who Should Attend: Beginners: Individuals new to 3D modeling and animation. Aspiring 3D Artists: Those aiming to pursue careers in animation, gaming, or visual effects. Creative Professionals: Designers and artists looking to expand their skill set into 3D graphics. Job Opportunities: Completing this Maya course equips participants with the skills necessary for various roles, including: 3D Modeler: Creating detailed 3D models for games, movies, or simulations. Animator: Bringing characters and scenes to life through animation. Texture Artist: Designing textures and materials to enhance 3D models. Lighting Artist: Illuminating scenes to evoke specific moods and atmospheres. Visual Effects Artist: Specializing in creating stunning visual effects for films and games. Participants completing the Maya 10-Hour Course will: Master Maya basics including modeling, texturing, lighting, and animation. Create 3D models, apply textures, and understand lighting and rendering principles. Develop essential skills in animation and special effects. Troubleshoot common issues in 3D projects. Recommended Books: "Introducing Autodesk Maya 2022" by Derakhshani: Comprehensive guide with hands-on tutorials. "Maya Character Creation" by Maraffi: Focuses on character modeling and animation techniques. "The Animator's Survival Kit" by Williams: Timeless principles applicable to any animation software. Maya 10-Hour Course Key Details: Duration: 10 hours of intensive training. Approach: Hands-on, interactive sessions focusing on essential Maya concepts and techniques. Curriculum Highlights: Introduction to Maya: Understanding the software interface and basic tools. 3D Modeling: Mastering polygon modeling techniques and object manipulation. Texturing and Materials: Learning to apply textures, materials, and UV mapping. Lighting and Rendering: Exploring lighting setups, camera compositions, and rendering methods. Animation Fundamentals: Grasping keyframe animation, editing clips, and basic character rigging. Special Effects and Dynamics: Creating particle systems, fluid simulations, and basic special effects. Who Should Attend: Beginners: Individuals new to 3D modeling and animation. Aspiring 3D Artists: Those aiming to pursue careers in animation, gaming, or visual effects. Creative Professionals: Designers and artists looking to expand their skill set into 3D graphics. Job Opportunities: Completing this Maya course equips participants with the skills necessary for various roles, including: 3D Modeler: Creating detailed 3D models for games, movies, or simulations. Animator: Bringing characters and scenes to life through animation. Texture Artist: Designing textures and materials to enhance 3D models. Lighting Artist: Illuminating scenes to evoke specific moods and atmospheres. Visual Effects Artist: Specializing in creating stunning visual effects for films and games. Adaptable Evening Maya Classes In-Depth 10-Hour Maya Program Hands-On Maya Projects Professional Maya Expertise Diverse Maya Applications Guidance from Experts Tailored Learning Experience Ongoing Email Assistance Access to Maya Trial and Resources Ignite Your Creative Potential!

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Use Cases for Business Analysis The use case is a method for documenting the interactions between the user of a system and the system itself. Use cases have been in the software development lexicon for over twenty years, ever since it was introduced by Ivar Jacobson in the late 1980s. They were originally intended as aids to software design in object-oriented approaches. However, the method is now used throughout the Solution Development Life Cycle from elicitation through to specifying test cases, and is even applied to software development that is not object oriented. This course identifies how business analysts can apply use cases to the processes of defining the problem domain through elicitation, analyzing the problem, defining the solution, and confirming the validity and usability of the solution. What you will Learn You'll learn how to: Apply the use case method to define the problem domain and discover the conditions that need improvement in a business process Employ use cases in the analysis of requirements and information to create a solution to the business problem Translate use cases into requirements Getting Started Introductions Course structure Course goals and objectives Foundation Concepts Overview of use case modeling What is a use case model? The 'how and why' of use cases When to perform use case modeling Where use cases fit into the solution life cycle Use cases in the problem domain Use cases in the solution domain Use case strengths and weaknesses Use case variations Use case driven development Use case lexicon Use cases Actors and roles Associations Goals Boundaries Use cases though the life cycle Use cases in the life cycle Managing requirements with use cases The life cycle is use case driven Elicitation with Use Cases Overview of the basic mechanics and vocabulary of use cases Apply methods of use case elicitation to define the problem domain, or 'as is' process Use case diagrams Why diagram? Partitioning the domain Use case diagramming guidelines How to employ use case diagrams in elicitation Guidelines for use case elicitation sessions Eliciting the problem domain Use case descriptions Use case generic description template Alternative templates Elements Pre and post conditions Main Success Scenario The conversation Alternate paths Exception paths Writing good use case descriptions Eliciting the detailed workflow with use case descriptions Additional information about use cases Analyzing Requirements with Use Cases Use case analysis on existing requirements Confirming and validating requirements with use cases Confirming and validating information with use cases Defining the actors and use cases in a set of requirements Creating the scenarios Essential (requirements) use case Use case level of detail Use Case Analysis Techniques Generalization and Specialization When to use generalization or specialization Generalization and specialization of actors Generalization and specialization of use cases Examples Associating generalizations Subtleties and guidelines Use Case Extensions The <> association The <> association Applying the extensions Incorporating extension points into use case descriptions Why use these extensions? Extensions or separate use cases Guidelines for extensions Applying use case extensions Patterns and anomalies o Redundant actors Linking hierarchies Granularity issues Non-user interface use cases Quality considerations Use case modeling errors to avoid Evaluating use case descriptions Use case quality checklist Relationship between Use Cases and Business Requirements Creating a Requirements Specification from Use Cases Flowing the conversation into requirements Mapping to functional specifications Adding non-functional requirements Relating use cases to other artifacts Wire diagrams and user interface specifications Tying use cases to test cases and scenarios Project plans and project schedules Relationship between Use Cases and Functional Specifications System use cases Reviewing business use cases Balancing use cases Use case realizations Expanding and explaining complexity Activity diagrams State Machine diagrams Sequence diagrams Activity Diagrams Applying what we know Extension points Use case chaining Identifying decision points Use Case Good Practices The documentation trail for use cases Use case re-use Use case checklist Summary What did we learn, and how can we implement this in our work environment?

Management of Value (MoV®) Foundation This interactive MoV® Foundation course provides a modular and case-study-driven approach to learning Management of Value (MoV). The core knowledge is structured and comprehensive; and well-rounded modules cover the methodology and various techniques. A case study is used to help appreciate the relevance of MoV in its practical application. What you will Learn Upon completion of an MoV course candidates should be able to discuss and explain: The main processes and techniques used within MoV and the reasons for using them How MoV may be applied at portfolio, program, project and operational levels The differences in applying MoV at different stages in a project and the expected outputs from a MoV Study at each stage The circumstances under which MoV should be used The concept of value and how value may be improved The main benefits arising from the use of MoV Approaches for implementing MoV How to respond to external and internal influences The principles of embedding MoV into an organization The key topics in document checklists, the toolbox, health check, organizational maturity and individual competence. Upon successful completion of this course, you will be able to: Organize and contribute constructively to a Management of Value (MoV) Study Demonstrate a knowledge of MoV principles, processes, approach and environment Analyse a company, program or project to establish its organizational value; includes identification and weighting of Value Drivers Pass the AXELOS MoV Foundation Examination Introduction to value management and MoV Value and Value Management Capabilities, Outcomes, Benefits and Disbenefits What is Value? What is Management of Value (MoV)? Why use MoV? Where use MoV? When MoV should be used? What using MoV involve? Selected MoV benefits Relationship with other AXELOS Global Best Practices and Models How MoV fits with other AXELOS Global Best Practice Guides MoV principles Align with organization's objectives Focus on functions and required outcomes Balance the variables to maximise value Apply throughout the investment decision Tailor MoV to suit the subject Learn from experience and improve Assign clear roles and responsibilities and build a supportive culture MoV processes Frame the programme or project Gather information Analyse information Process information Evaluate and select Develop Value Improving Proposals Implement and share outputs MoV techniques Function Analysis Function Analysis System Technique (FAST) Traditional (or classic) FAST Technical FAST Customer FAST Value Trees Measuring value Value profiling (a.k.a. value benchmarking) Simple multi-attribute rating technique (a.k.a. SMART) Value index Value metrics Value for money (VfM) ratio Value Engineering / Analysis Common techniques used in MoV Analysis of information Benchmarking Process Mapping Root Cause Analysis Discounted Cash Flow Analysis Generating Ideas Brainstorming Evaluation and option selection Option Selection Matrix Idea selection Allocation to Categories Idea Selection Matrix Weighting techniques Paired Comparisons Points Distribution Developing VIPs Developing Proposals Cost Benefit Analysis Building Decisions Implementing VIPs Implementation Plans Feedback Following up Tracking Benefits Approach to Implementation Generic approach to MoV implementation Plan the MoV activities Understand and articulate value Prioritize value Improve value Quantify value Monitor improvements in value Learn lessons Environmental factors Portfolio Considerations Programme considerations Project considerations Operational Considerations Embedding MoV into an organization Benefits of Embedding MoV into an organization MoV Policy MoV Policy Composition Embedding MoV into an organisation Key steps Suggested MoV Management Structure Overcoming barriers We do it anyway It takes up too much time We can't afford to make the changes What's in it for me? Don't fix it if it ain't broke Fixed returns on investment MoV products Briefing Meeting Agenda (A.1) Communications Checklist (A.2) Equipment list for an Effective Study/Workshop (A.3) Invitation to join the Study Team (A.4) Option Evaluation Matrix (A.5) Plan the Study (A.6) Recording Idea Selection (A.7) Reporting Study outputs (A.8) Scoping the Study (A.9) Study or Workshop Handbook (A.10) Value-Improvement Proposal Forms (A.11) Value Improvement Tracking Report (A.12) MoV toolbox MoV health check and maturity model P3M3 Maturity Model MoV Maturity Model (aligned with P3M3)

Management of Value (MoV®) Foundation This interactive MoV® Foundation course provides a modular and case-study-driven approach to learning Management of Value (MoV). The core knowledge is structured and comprehensive; and well-rounded modules cover the methodology and various techniques. A case study is used to help appreciate the relevance of MoV in its practical application. What you will Learn Upon completion of an MoV course candidates should be able to discuss and explain: The main processes and techniques used within MoV and the reasons for using them How MoV may be applied at portfolio, program, project and operational levels The differences in applying MoV at different stages in a project and the expected outputs from a MoV Study at each stage The circumstances under which MoV should be used The concept of value and how value may be improved The main benefits arising from the use of MoV Approaches for implementing MoV How to respond to external and internal influences The principles of embedding MoV into an organization The key topics in document checklists, the toolbox, health check, organizational maturity and individual competence. Upon successful completion of this course, you will be able to: Organize and contribute constructively to a Management of Value (MoV) Study Demonstrate a knowledge of MoV principles, processes, approach and environment Analyse a company, program or project to establish its organizational value; includes identification and weighting of Value Drivers Pass the AXELOS MoV Foundation Examination Introduction to value management and MoV Value and Value Management Capabilities, Outcomes, Benefits and Disbenefits What is Value? What is Management of Value (MoV)? Why use MoV? Where use MoV? When MoV should be used? What using MoV involve? Selected MoV benefits Relationship with other AXELOS Global Best Practices and Models How MoV fits with other AXELOS Global Best Practice Guides MoV principles Align with organization's objectives Focus on functions and required outcomes Balance the variables to maximise value Apply throughout the investment decision Tailor MoV to suit the subject Learn from experience and improve Assign clear roles and responsibilities and build a supportive culture MoV processes Frame the programme or project Gather information Analyse information Process information Evaluate and select Develop Value Improving Proposals Implement and share outputs MoV techniques Function Analysis Function Analysis System Technique (FAST) Traditional (or classic) FAST Technical FAST Customer FAST Value Trees Measuring value Value profiling (a.k.a. value benchmarking) Simple multi-attribute rating technique (a.k.a. SMART) Value index Value metrics Value for money (VfM) ratio Value Engineering / Analysis Common techniques used in MoV Analysis of information Benchmarking Process Mapping Root Cause Analysis Discounted Cash Flow Analysis Generating Ideas Brainstorming Evaluation and option selection Option Selection Matrix Idea selection Allocation to Categories Idea Selection Matrix Weighting techniques Paired Comparisons Points Distribution Developing VIPs Developing Proposals Cost Benefit Analysis Building Decisions Implementing VIPs Implementation Plans Feedback Following up Tracking Benefits Approach to Implementation Generic approach to MoV implementation Plan the MoV activities Understand and articulate value Prioritize value Improve value Quantify value Monitor improvements in value Learn lessons Environmental factors Portfolio Considerations Programme considerations Project considerations Operational Considerations Embedding MoV into an organization Benefits of Embedding MoV into an organization MoV Policy MoV Policy Composition Embedding MoV into an organisation Key steps Suggested MoV Management Structure Overcoming barriers We do it anyway It takes up too much time We can't afford to make the changes What's in it for me? Don't fix it if it ain't broke Fixed returns on investment MoV products Briefing Meeting Agenda (A.1) Communications Checklist (A.2) Equipment list for an Effective Study/Workshop (A.3) Invitation to join the Study Team (A.4) Option Evaluation Matrix (A.5) Plan the Study (A.6) Recording Idea Selection (A.7) Reporting Study outputs (A.8) Scoping the Study (A.9) Study or Workshop Handbook (A.10) Value-Improvement Proposal Forms (A.11) Value Improvement Tracking Report (A.12) MoV toolbox MoV health check and maturity model P3M3 Maturity Model MoV Maturity Model (aligned with P3M3)

Use Cases for Business Analysis: In-House Training The use case is a method for documenting the interactions between the user of a system and the system itself. Use cases have been in the software development lexicon for over twenty years, ever since it was introduced by Ivar Jacobson in the late 1980s. They were originally intended as aids to software design in object-oriented approaches. However, the method is now used throughout the Solution Development Life Cycle from elicitation through to specifying test cases, and is even applied to software development that is not object oriented. This course identifies how business analysts can apply use cases to the processes of defining the problem domain through elicitation, analyzing the problem, defining the solution, and confirming the validity and usability of the solution. What you will Learn You'll learn how to: Apply the use case method to define the problem domain and discover the conditions that need improvement in a business process Employ use cases in the analysis of requirements and information to create a solution to the business problem Translate use cases into requirements Getting Started Introductions Course structure Course goals and objectives Foundation Concepts Overview of use case modeling What is a use case model? The 'how and why' of use cases When to perform use case modeling Where use cases fit into the solution life cycle Use cases in the problem domain Use cases in the solution domain Use case strengths and weaknesses Use case variations Use case driven development Use case lexicon Use cases Actors and roles Associations Goals Boundaries Use cases though the life cycle Use cases in the life cycle Managing requirements with use cases The life cycle is use case driven Elicitation with Use Cases Overview of the basic mechanics and vocabulary of use cases Apply methods of use case elicitation to define the problem domain, or 'as is' process Use case diagrams Why diagram? Partitioning the domain Use case diagramming guidelines How to employ use case diagrams in elicitation Guidelines for use case elicitation sessions Eliciting the problem domain Use case descriptions Use case generic description template Alternative templates Elements Pre and post conditions Main Success Scenario The conversation Alternate paths Exception paths Writing good use case descriptions Eliciting the detailed workflow with use case descriptions Additional information about use cases Analyzing Requirements with Use Cases Use case analysis on existing requirements Confirming and validating requirements with use cases Confirming and validating information with use cases Defining the actors and use cases in a set of requirements Creating the scenarios Essential (requirements) use case Use case level of detail Use Case Analysis Techniques Generalization and Specialization When to use generalization or specialization Generalization and specialization of actors Generalization and specialization of use cases Examples Associating generalizations Subtleties and guidelines Use Case Extensions The <> association The <> association Applying the extensions Incorporating extension points into use case descriptions Why use these extensions? Extensions or separate use cases Guidelines for extensions Applying use case extensions Patterns and anomalies o Redundant actors Linking hierarchies Granularity issues Non-user interface use cases Quality considerations Use case modeling errors to avoid Evaluating use case descriptions Use case quality checklist Relationship between Use Cases and Business Requirements Creating a Requirements Specification from Use Cases Flowing the conversation into requirements Mapping to functional specifications Adding non-functional requirements Relating use cases to other artifacts Wire diagrams and user interface specifications Tying use cases to test cases and scenarios Project plans and project schedules Relationship between Use Cases and Functional Specifications System use cases Reviewing business use cases Balancing use cases Use case realizations Expanding and explaining complexity Activity diagrams State Machine diagrams Sequence diagrams Activity Diagrams Applying what we know Extension points Use case chaining Identifying decision points Use Case Good Practices The documentation trail for use cases Use case re-use Use case checklist Summary What did we learn, and how can we implement this in our work environment?