1029 Mapping courses

Project Quality Management: In-House Training In today's environment, quality is the responsibility of everyone. Project success is no longer just the fulfillment of a project on schedule, on budget, and within the scope. Today, projects aren't successful unless the customer's needs are met at the highest level of quality at the lowest cost to the organization. Project Managers must know customer needs, and manage to them throughout the project lifecycle, in order to gain acceptance. Project Quality Management provides an interactive, hands-on environment for participants to practice identification of critical quality requirements (quality planning), fulfillment of those requirements through well-designed processes (Quality Assurance), and statistical awareness of technical specifications of project deliverables (Quality Control). What You Will Learn You'll learn how to: Plan for higher quality project deliverables Measure key performance indicators on projects, processes, and products Turn data into useful project information Take action on analyzed data that will drive down non-value-added costs and drive up customer acceptance and satisfaction Reduce defects and waste in current project management processes Foundation Concepts Quality Defined Customer Focus Financial Focus Quality Management Process Management Cost of Quality Planning for Quality Project Manager Role in Planning Voice of the Customer Quality Management Plan Measurement System Accuracy Data Gathering Data Sampling Manage Quality Process Management Process Mapping Process Analysis Value Stream Mapping Standardization Visual Workplace and 5S Error Proofing (Poka-Yoke) Failure Mode and Effect Analysis Control Quality The Concept of Variation Common Cause Special Cause Standard Business Reports Tracking Key Measurements Control Charts Data Analysis Variation Root Cause Analysis Variance Management Designing for Quality

LTE Airside training course description This course provides a concise insight into the LTE airside. Key parts of the course are detailed looks at the air interface protocol stack, cell acquisition, transmission and reception of data and of he layer 1 procedures along with layer 2 procedures. What will you learn Explain the RF optimisation flowchart. Describe the importance of Reference Signal Received Power (RSRP). List many of the 3GPP recommended KPIs. Describe the concept of APN AMBR and UE AMBR within LTE. Describe the use of planning and optimisation computer tools. LTE Airside training course details Who will benefit: Anyone working with LTE. Prerequisites: Essential LTE Duration 2 days LTE Airside training course contents Introduction and review of LTE This section describes the requirements of LTE and key technical features, and reviews the system architecture. LTE Architecture, UE, E-UTRAN and EPC. Specifications. OFDMA, SC-FDMA and MIMO antennas This section describes the techniques used in the LTE air interface, notably orthogonal frequency division multiple access (OFDMA) and multiple input multiple output (MIMO) antennas. Communication techniques for fading multipath channels. OFDMA, FFT processing and cyclic prefix insertion. SC-FDMA in the LTE uplink. Multiple antenna techniques including transmit & receive diversity and spatial multiplexing. Introduction to the air interface This section covers the operation of the air interface, the channels that it uses, and the mapping to the time and frequency domains of OFDMA and SC-FDMA. Air interface protocol stack. Logical, transport and physical channels. Frame and slot structure, the resource grid. Resource element mapping of the physical channels and physical signals. LTE spectrum allocation. Cell acquisition This is the first of three sections covering the air interface physical layer. Here, we cover mobile procedures to start low-level communications with the cell, and base station transmission of the corresponding information. Primary/secondary synchronisation signals. Downlink reference signals. The master information block. Physical control format indicator channel. Organisation and transmission of the system information. Data transmission and reception In this section, we cover procedures used for data transmission and reception on the shared channels, and describe in detail the individual steps. Data transmission and reception on the uplink and downlink. Scheduling commands and grants on the PDCCH. DL-SCH and UL-SCH. Physical channel processing of the PDSCH and PUSCH. Hybrid ARQ indicators on the PHICH. Uplink control information on the PUCCH. Uplink demodulation and sounding reference signals. Additional physical layer procedure This section concludes our discussion of the air interface physical layer, by discussing a number of procedures that support its operation. Transmission of the physical random access channel. Contention and non-contention based random access procedures. Discontinuous transmission in idle and connected modes. Uplink power control and timing advance. Air interface layer 2 This section describes the architecture and operation of layer 2 of the air interface protocol stack. MAC protocol, interactions with the physical layer, use for scheduling. RLC protocol, transparent, unacknowledged and acknowledged modes. PDCP, including header compression, security functions and recovery from handover.

ISO 30401 sets requirements and provides guidelines for establishing, implementing, maintaining, reviewing and improving an effective management system for knowledge management in organizations. All the requirements of this standard are applicable to any organization, regardless of its type or size, or the products and services it provides. Knowledge management is the intentional process of defining, structuring, retaining, and sharing an organization’s employees’ knowledge and experience.

Overview EDMS Electronic Document Management System is basically a kind of IT-based system which is developed to manage the creation, tracking, storage and disposal of all physical and digital documents and records. Through this, we can easily keep track of various documents modified by different users. With the access of one application, many different tasks can be completed that revolve around document management. It enhances the security system where we can easily define whom to have access to what part of the documents. EDRMS is known by many other different names like Enterprise content management systems or digital asset management, document mapping and so on. This course shows participants how to deal with documents in an electronic way to get rid of the paper's hard copy which takes a lot of space and time. It will also update you with the EDRMS system and changes that happen to take place with the passage of time. The advanced technology leads to Advance EDRMS systems with enhanced features. 

Project Quality Management: Virtual In-House Training In today's environment, quality is the responsibility of everyone. Project success is no longer just the fulfillment of a project on schedule, on budget, and within the scope. Today, projects aren't successful unless the customer's needs are met at the highest level of quality at the lowest cost to the organization. Project Managers must know customer needs, and manage to them throughout the project lifecycle, in order to gain acceptance. Project Quality Management provides an interactive, hands-on environment for participants to practice identification of critical quality requirements (quality planning), fulfillment of those requirements through well-designed processes (Quality Assurance), and statistical awareness of technical specifications of project deliverables (Quality Control). What You Will Learn You'll learn how to: Plan for higher quality project deliverables Measure key performance indicators on projects, processes, and products Turn data into useful project information Take action on analyzed data that will drive down non-value-added costs and drive up customer acceptance and satisfaction Reduce defects and waste in current project management processes Foundation Concepts Quality Defined Customer Focus Financial Focus Quality Management Process Management Cost of Quality Planning for Quality Project Manager Role in Planning Voice of the Customer Quality Management Plan Measurement System Accuracy Data Gathering Data Sampling Manage Quality Process Management Process Mapping Process Analysis Value Stream Mapping Standardization Visual Workplace and 5S Error Proofing (Poka-Yoke) Failure Mode and Effect Analysis Control Quality The Concept of Variation Common Cause Special Cause Standard Business Reports Tracking Key Measurements Control Charts Data Analysis Variation Root Cause Analysis Variance Management Designing for Quality

Overview EDRMS Electronic Document and Record Management System is basically a kind of IT-based system which is developed to manage the creation, tracking, storage and disposal of all physical and digital documents and records. Through this, we can easily keep track of various documents modified by different users. With the access of one application, many different tasks can be completed that revolve around document management. It enhances the security system where we can easily define whom to have access to what part of the documents. EDRMS is known by many other different names like Enterprise content management systems or digital asset management, document mapping and so on. This course shows participants how to deal with documents in an electronic way to get rid of the paper's hard copy which takes a lot of space and time. It will also update you with the EDRMS system and changes that happen to take place with the passage of time. The advanced technology leads to Advance EDRMS systems with enhanced features. 

Project Quality Management: On-Demand In today's environment, quality is the responsibility of everyone. Project success is no longer just the fulfillment of a project on schedule, on budget, and within the scope. Today, projects aren't successful unless the customer's needs are met at the highest level of quality at the lowest cost to the organization. Project Managers must know customer needs, and manage to them throughout the project lifecycle, in order to gain acceptance. Project Quality Management provides an interactive, hands-on environment for participants to practice identification of critical quality requirements (quality planning), fulfillment of those requirements through well-designed processes (Quality Assurance), and statistical awareness of technical specifications of project deliverables (Quality Control). What You Will Learn You'll learn how to: Plan for higher quality project deliverables Measure key performance indicators on projects, processes, and products Turn data into useful project information Take action on analyzed data that will drive down non-value-added costs and drive up customer acceptance and satisfaction Reduce defects and waste in current project management processes Foundation Concepts Quality Defined Customer Focus Financial Focus Quality Management Process Management Cost of Quality Planning for Quality Project Manager Role in Planning Voice of the Customer Quality Management Plan Measurement System Accuracy Data Gathering Data Sampling Manage Quality Process Management Process Mapping Process Analysis Value Stream Mapping Standardization Visual Workplace and 5S Error Proofing (Poka-Yoke) Failure Mode and Effect Analysis Control Quality The Concept of Variation Common Cause Special Cause Standard Business Reports Tracking Key Measurements Control Charts Data Analysis Variation Root Cause Analysis Variance Management Designing for Quality

Why Choose V-Ray for Rhino Essentials Training? Master photorealistic rendering in Rhino with our intensive V-Ray training. Led by certified experts, learn lighting, material manipulation, rendering configurations, textures, and global illumination.  Check our Website Training Duration: 10 hours Approach: 1-on-1, in-Person and Live online and Customized Content.   Flexibility: 1-on-1 sessions scheduled at your convenience, from Mon to Sat between 9 am and 7 pm. Vray for Rhino Essentials - 10 Hours Course Session 1: Introduction to Vray and Rhino Integration Overview of Vray: Understanding its importance in architectural and product visualization. Setting up Vray in Rhino: Installation, basic configurations, and interface exploration. Understanding the Rhino-Vray workflow: Navigating between Rhino and Vray seamlessly. Session 2: Basic Lighting Techniques Exploring different light sources: Domes, spotlights, and area lights. Adjusting light intensity and color temperature for realistic ambiance. Creating natural lighting scenarios: Daylight, twilight, and night scenes. Session 3: Mastering Material Creation Introduction to Vray materials: Diffuse, reflection, refraction, and bump maps. Crafting realistic materials: Wood, glass, metal, and fabrics. Utilizing the material editor efficiently for precise adjustments. Session 4: Advanced Rendering Configurations Global Illumination: Understanding photon mapping and irradiance mapping. Fine-tuning render settings: Quality vs. speed, resolution, and anti-aliasing. Exploring Vray frame buffer: Post-processing and image enhancement. Session 5: Texture Manipulation and Mapping Understanding UV mapping: Unwrapping complex geometries for accurate textures. Applying textures in Vray: Diffuse, bump, displacement, and normal maps. Realistic texture manipulation: Scaling, rotation, and blending textures seamlessly. Session 6: Camera Settings and Scene Composition Camera configurations: Focal length, depth of field, and exposure settings. Composing visually appealing scenes: Rule of thirds, focal points, and balance. Rendering interior and exterior scenes: Managing lighting challenges and reflections. Session 7: Real-Time Feedback and Interactive Rendering Introduction to Vray interactive rendering: Real-time feedback for quick adjustments. Utilizing Vray's denoiser for noise reduction in interactive mode. Enhancing productivity with interactive rendering: Modifying materials and lighting on the fly. Session 8: Optimizing Render Times Efficient render optimization techniques: Reducing noise and enhancing quality. Distributed rendering: Utilizing multiple machines for faster rendering. Troubleshooting common rendering issues: Flickering, artifacts, and texture problems. Session 9: Post-Processing and Presentation Post-production in Photoshop: Enhancing renders, adding depth, and adjusting colors. Creating compelling visual narratives: Adding people, context, and atmosphere. Designing professional presentation boards: Layout, annotations, and graphic elements. Session 10: Final Project and Portfolio Review Participants showcase their final Vray-rendered projects. Instructor-led critique and feedback session. Tips for building a strong portfolio: Choosing the best renderings and presenting your work effectively. By the end of this 10-hour course, participants will have a comprehensive understanding of Vray for Rhino, enabling them to create photorealistic renderings and significantly enhance their design visualization skills. Upon completing the Vray for Rhino Essentials course, participants will: Master Lighting Techniques: Expertly utilize various light sources. Create realistic lighting scenarios for diverse scenes. Advanced Material Proficiency: Manipulate complex materials and textures for lifelike renders. Understand reflective surfaces and material interaction. Optimize Rendering Settings: Fine-tune render configurations for optimal quality and speed. Implement noise reduction techniques for cleaner renders. Texture Mapping Mastery: Perfect UV mapping methods for accurate texture application. Seamlessly blend textures for realistic surface mapping. Effective Camera Use and Composition: Configure camera settings, depth of field, and exposure. Compose visually appealing scenes for impactful renders. Real-Time Rendering Skills: Utilize interactive rendering for immediate feedback and adjustments. Enhance scenes in real time for efficient workflow. Post-Processing Expertise: Enhance renders in post-production using software tools. Add depth, adjust colors, and create visually compelling final images. Professional Presentation Techniques: Design layouts, annotations, and context to create impactful visual narratives. Curate a strong portfolio with the best-rendered projects. By honing these skills, participants will produce photorealistic renders and significantly enhance their architectural and product visualization capabilities. Skills You'll Gain: Master lighting techniques for realistic visualization. Learn material manipulation and texture enhancement in Vray. Understand advanced rendering configurations for high-quality results. Explore global illumination concepts for lifelike scenes. Career Opportunities: Upon completing Vray for Rhino Essentials, you'll be well-equipped for various roles in the design and visualization industry, including: Architectural Visualizer: Create stunning architectural visualizations for presentations and client approvals. Product Designer: Enhance product design by creating photorealistic prototypes and visualizations. Interior Designer: Craft immersive interior spaces with realistic lighting and material textures. 3D Visualization Artist: Work in animation studios, gaming companies, or marketing agencies, producing high-quality 3D visualizations. Freelance Rendering Specialist: Offer your skills on platforms like Upwork or Fiverr, providing rendering services to clients worldwide. Course Highlights: Acquire fundamental skills in V-Ray for Rhino, covering lighting, materials, and rendering setups. Explore advanced techniques for lifelike textures, reflections, and global illumination effects. Master the workflow for crafting architectural renderings, both interior and exterior. Harness the power of V-Ray features like proxies, fur, and particle systems for dynamic visuals. Optimize render times and quality using efficient techniques and expert tips. Validate your expertise with a Certificate of Completion, showcasing your V-Ray proficiency. Access recorded lessons for future reference, enabling self-paced learning and continuous improvement. Professional Guidance: Learn from certified tutors and industry experts with extensive practical experience. Gain valuable insights and personalized feedback as you progress through the course, ensuring a comprehensive understanding of V-Ray for Rhino.

About this Training Course This course aims to help geologists, geophysicists, stratigraphers and reservoir engineers gain a thorough understanding of the concepts and practical applications of sequence stratigraphy through integration of seismic sequence stratigraphy with well log sequence stratigraphy and the application of biostratigraphy to sequence stratigraphy. The course examines the geological principles, processes and terminology related to the interpretation and use of seismic sequence stratigraphy and its integration with well log sequence stratigraphy and biostratigraphy. Concepts are illustrated with field examples of seismic, well-log, core, and outcrop data and reinforced with practical exercises using real data. Course Content in Summary: Introduction to concepts, eustatic controls, seismic stratigraphy and definition of key terms. Controls - eustatic and basinal controls, accommodation and equilibrium types, systems tracts and systems tract boundaries. Sequences and systems tracts - highstand, falling stage, lowstand, transgressive and shelf margin systems tracts. Key surfaces and their identification from well logs, core, outcrop and seismic reflections. Sequence expression in well logs - log characters of parasequences, maximum flooding surfaces and criteria for picking sequence boundaries. Interpretation of systems tracts from well logs - integration of well log sequence stratigraphy with seismic sequence stratigraphy. Seismic expression of sequences - Interpretation of seismic reflections in depositional sequences - seismic sequence; seismic facies. Clastic and carbonate depositional environments - depositional responses to changes in relative sea level. Mixed systems and evaporites. Variations on the model. A review of application and exploration significance. Training Objectives By the end of this course, participants will be able to: Gain an understanding of sequence stratigraphic controls and concepts. Recognise sequence stratigraphic surfaces, systems tracts and stratigraphic sequences on well-log cross-sections, seismic lines, and outcrop profiles and depositional facies. Construct a sequence stratigraphic model by integrating lithological, biostratigraphical, seismic and well data. Apply sequence stratigraphy effectively for facies predictions in exploration and production. Target Audience This course will benefit explorationists, geologists, stratigraphers and geophysicists who wish to extend their knowledge through integration of seismic sequence stratigraphy with well log sequence stratigraphy. Trainer Your expert course leader is the Geosciences Technical Director for PetroEdge. She was previously, the manager of Robertson Petroleum Training Centre and a Senior Project Scientist at Robertson CGG. She has over 20 years of experience in teaching geology and leading field trips. Prior to her 8 years at Robertson, she was in academia as a lecturer for 6 years and a Research Fellow for 3 years. She has conducted fieldwork and led field trips in the US and many areas in the UK. In addition, she has led university regional geology day schools and has comprehensive experience in course and study programme writing. She has extensive experience in delivering courses and in Clastic and Carbonate Reservoir Geology, Deepwater Turbidites, Sandstone Reservoirs, Wireline Log Interpretation, Integrated Sequence Stratigraphy, Basin Analysis and Exploration & Appraisal workshops globally. In delivering the Exploration Team Management Workshop, she has project managed and taught key principles and modules on project planning, data collection/collation, geophysical assessment, stratigraphy and facies mapping, source rock facies and hydrocarbon generation, play fairway mapping, risking and prospect evaluation. Her knowledge and enthusiasm for instructing is reflected in consistently being rated as excellent by trainees, and clients specifically requesting her participation in courses. 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

Learn Blender 3D modeling, animation, UV mapping, and texture painting; build game assets; and learn 3D Game Development with Unity