Products related to Production:
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Special Event Production: The Resources
This must-have guide to special event production resources looks deep behind the scenes of an event and dissects what it is that creates success.It analyses the resources and is an extensive reference guide to the technical details of a big event.It provides a thorough grounding on the specifications and performance of lighting and audio systems, visual presentation technology, special effects and temporary outdoor venues. This new edition includes:New content on: new audio –visual technology, industry safety standards, special effect platforms, décor and new custom forms of staging for both indoor and outdoor events. Updated and new case studies from USA, Canada, India, Russia and Malaysia New Industry Voice feature, including interviews with industry experts from around the world. Comprehensive coverage of venues, staging, seating, rigging, lighting, video, audio, scenic design and décor, CADD, entertainment, special effects, tenting, electrical power, fencing and sanitary facilities in a variety of indoor and outdoor event settings.Enhanced online resources including: PowerPoint lecture slides, checklists, glossaries, additional questions and challenges, web links and video links.Incorporating pedagogical features, this easy-to-read book is packed with photographs, diagrams, flow charts, checklists, sample forms and real-life examples.The vast varieties of audio-visual technologies, outdoor venues, décor and staging are presented.A must have resource for event planners, managers, caterers and students. This text is part two of a two book set - also available is Special Events Production: The Process (978-1-138-78565-6).This book analyses the process - the planning and business aspects - to provide a unique guide to producing a variety of events from weddings to festivals.
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Machine Learning Production Systems : Engineering Machine Learning Models and Pipelines
Using machine learning for products, services, and critical business processes is quite different from using ML in an academic or research setting-especially for recent ML graduates and those moving from research to a commercial environment.Whether you currently work to create products and services that use ML, or would like to in the future, this practical book gives you a broad view of the entire field. Authors Robert Crowe, Hannes Hapke, Emily Caveness, and Di Zhu help you identify topics that you can dive into deeper, along with reference materials and tutorials that teach you the details.You'll learn the state of the art of machine learning engineering, including a wide range of topics such as modeling, deployment, and MLOps.You'll learn the basics and advanced aspects to understand the production ML lifecycle. This book provides four in-depth sections that cover all aspects of machine learning engineering:Data: collecting, labeling, validating, automation, and data preprocessing; data feature engineering and selection; data journey and storageModeling: high performance modeling; model resource management techniques; model analysis and interoperability; neural architecture searchDeployment: model serving patterns and infrastructure for ML models and LLMs; management and delivery; monitoring and loggingProductionalizing: ML pipelines; classifying unstructured texts and images; genAI model pipelines
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Online Education Using Learning Objects
'E-learning is integral to on-site education institutions worldwide, and the rapid explosion of interest in the subject means that this timely, cutting-edge book will be an instant and indispensable resource.Among educators, the development of reusable learning objects made accessible via the internet is ever more important to teaching and learning.This book provides a comprehensive look at a state-of-the-art online education, and presents advice on the creation, adaptation and implementation of learning objects and metadata.Including articles written by some of the leading innovators in the field, this book takes the reader through: designing effective learning objects; creating learning objects; transforming existing content into reusable learning objects; building a metadata management system.This book will be essential reference material for learning technologists, course developers at learning institutions, postgraduate students, teachers and learners in the field of e-learning.'
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Distance Learning and Online Education
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How do multistage production processes work in mathematics?
Multistage production processes in mathematics involve breaking down a complex problem or task into smaller, more manageable stages. Each stage represents a specific part of the overall process, and the output of one stage becomes the input for the next stage. This approach allows for a systematic and organized way of solving problems or completing tasks, making it easier to manage and understand the overall process. Multistage production processes are commonly used in areas such as algebra, calculus, and optimization problems to simplify complex calculations and problem-solving.
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How is the energy production and the reserves of energy resources?
The energy production and reserves of energy resources vary greatly depending on the type of energy source. Fossil fuels such as coal, oil, and natural gas continue to be major sources of energy production, with significant reserves in many parts of the world. However, there is growing concern about the environmental impact of these sources and the finite nature of their reserves. Renewable energy sources such as solar, wind, and hydroelectric power are also increasing in production and have the advantage of being more sustainable, with virtually unlimited reserves. Overall, there is a shift towards diversifying energy production and increasing reliance on renewable resources to meet future energy needs.
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What is the difference between 1. production manager, 2. production manager, set production manager, and location production manager?
A production manager is responsible for overseeing the overall production process, including scheduling, budgeting, and coordinating the various departments involved in a project. A set production manager specifically focuses on managing the production activities on the set, including coordinating with the director, cast, and crew. A location production manager is responsible for managing the production activities at specific filming locations, including obtaining permits, coordinating with local authorities, and ensuring the smooth operation of the production at that location. Each role has a specific focus within the overall production process, with the production manager overseeing the entire production, the set production manager focusing on the activities on set, and the location production manager managing the activities at specific filming locations.
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Why don't the children use the online learning resources?
There could be several reasons why the children are not using online learning resources. Some possible reasons could include lack of access to technology or internet connectivity, difficulty navigating the online platforms, lack of motivation or engagement with the material, or preference for traditional in-person learning methods. It is important to understand the specific barriers that are preventing the children from using online resources in order to address them effectively and promote their learning.
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Machine Learning in Production : From Models to Products
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Kubeflow for Machine Learning : From Lab to Production
If you're training a machine learning model but aren't sure how to put it into production, this book will get you there.Kubeflow provides a collection of cloud native tools for different stages of a model's lifecycle, from data exploration, feature preparation, and model training to model serving.This guide helps data scientists build production-grade machine learning implementations with Kubeflow and shows data engineers how to make models scalable and reliable. Using examples throughout the book, authors Holden Karau, Trevor Grant, Ilan Filonenko, Richard Liu, and Boris Lublinsky explain how to use Kubeflow to train and serve your machine learning models on top of Kubernetes in the cloud or in a development environment on-premises.Understand Kubeflow's design, core components, and the problems it solvesLearn how to set up Kubeflow on a cloud provider or on an in-house clusterTrain models using Kubeflow with popular tools including scikit-learn, TensorFlow, and Apache SparkLearn how to add custom stages such as serving and predictionKeep your model up-to-date with Kubeflow PipelinesUnderstand how to validate machine learning pipelines
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Beyond Virtual Production : Integrating Production Technologies
Beyond Virtual Production brings together a range of creative practice research projects that have been undertaken in The Void, an early-adopter university-based virtual production studio at Flinders University in South Australia. From a cross-disciplinary short virtual production film, to a VR simulation of the last 100 seconds of life of earth, to the live performance of the virtual band Big Sands, to augmented and extended reality, to archaeological projects, this collection captures the potential applications of virtual production technology and provides a framework for cross-disciplinary work and industry collaborations both in a university context and beyond.It offers insight into the development of virtual production courses and encompasses research into theories of performance, liveness, methods for co-creation, gender in virtual production careers, and object digitization and its representation while highlighting significant pathways of industry partnerships alongside experimental art practices. Creative technology and interdisciplinary practitioners, researchers, students and teachers will find inspiration and practical guidance in these chapters.
Price: 36.99 £ | Shipping*: 0.00 £ -
Beyond Virtual Production : Integrating Production Technologies
Beyond Virtual Production brings together a range of creative practice research projects that have been undertaken in The Void, an early-adopter university-based virtual production studio at Flinders University in South Australia. From a cross-disciplinary short virtual production film, to a VR simulation of the last 100 seconds of life of earth, to the live performance of the virtual band Big Sands, to augmented and extended reality, to archaeological projects, this collection captures the potential applications of virtual production technology and provides a framework for cross-disciplinary work and industry collaborations both in a university context and beyond.It offers insight into the development of virtual production courses and encompasses research into theories of performance, liveness, methods for co-creation, gender in virtual production careers, and object digitization and its representation while highlighting significant pathways of industry partnerships alongside experimental art practices. Creative technology and interdisciplinary practitioners, researchers, students and teachers will find inspiration and practical guidance in these chapters.
Price: 135.00 £ | Shipping*: 0.00 £
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'Warehouse or Production?'
When deciding between a warehouse or production facility, it is important to consider the specific needs of your business. A warehouse is typically used for storing and distributing finished goods, while a production facility is used for manufacturing products. If your business focuses on storing and distributing goods, a warehouse may be more suitable. However, if your business involves manufacturing products, a production facility would be more appropriate. Ultimately, the decision should be based on the nature of your business operations and requirements.
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What is the difference between series production and batch production?
Series production involves producing a large quantity of identical products continuously, often using assembly line techniques, while batch production involves producing a specific quantity of products at a time before moving on to the next batch. In series production, the production process is more streamlined and efficient, as it is optimized for producing the same product repeatedly. Batch production allows for more flexibility in terms of product variations and customization, as each batch can be adjusted to meet specific requirements. Overall, series production is more suitable for high-volume production, while batch production is better suited for smaller quantities and more diverse product lines.
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What is the difference between batch production and continuous production?
Batch production involves producing a specific quantity of a product before moving on to the next batch, with each batch having a distinct start and end point. On the other hand, continuous production involves a constant flow of raw materials and output, with production running 24/7 without stopping. Batch production is more flexible and allows for easier customization of products, while continuous production is more efficient and cost-effective for high-volume production of standardized goods.
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What is the difference between bench production and workshop production?
Bench production involves individual workers completing a specific task or product at their own workstations, while workshop production involves a group of workers collaborating on different aspects of a project in a shared workspace. Bench production is more suitable for smaller-scale, specialized tasks, while workshop production is better for larger projects that require multiple skills and resources. Workshop production allows for more flexibility and creativity in problem-solving, while bench production can be more efficient for repetitive tasks.
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