Download Free Surface Modeling Book in PDF and EPUB Free Download. You can read online Surface Modeling and write the review.

Mastering Surface Modeling with SOLIDWORKS 2021 focuses on surfacing tools, an important aspect of SOLIDWORKS’ design capabilities that fills in the gaps that might be left by using solid modeling alone. If you are a SOLIDWORKS user currently relying on solid modeling for designs, or are just not familiar with surface modeling techniques, this book will add these skills to your repertoire to help you create the highest-quality models. For instructors teaching this advanced skillset, this book’s proven techniques, practical examples and training files will give students a broad understanding of the procedures needed to build freeform shapes and place them well on their way to creating sophisticated surface designs of their own. This manual is one of only a few on the market completely dedicated to mastering surfacing tools. Each of the ten chapters has clean, clear instructions with plentiful diagrams to lead you through carefully selected exercises based on the author’s own work experience and techniques. You are guided from a review of surfacing basics, to advanced surface modeling of real-world objects, to an explanation and example of hybrid modeling, to surface repairs and patches. Peruse the table of contents and pick and choose the chapters you are interested in or complete all chapters consecutively to give you an in-depth understanding of all the tools and procedures needed to create surface designs. The projects you will work on in this book include a shoehorn, computer mouse, phone case, a modem housing, and stents. Woven into each of these are procedures, approaches and solutions for possible issues that might arise when you are using surfacing tools. These can be applied to any project you create. Each project touches on a variety of frequently used commands such as extrude, loft, boundary, and sweep; surface revolved, filled, split, and knit; using deform and configurations; mirroring bodies; creating an axis, curve driven and circular patterns, fillets, and molded parts. Look for the post-it notes next to commands for helpful tips and definitions. Throughout the book, you will learn techniques of hybrid modeling, the combination of surface and solid modeling. The last part of the book takes it one step further. Chapter 8 examines hybrid modeling in-depth, guiding you step-by-step from a 2D sketch to the final product, a handle housing. The last two chapters focus on molded parts, creating and saving visual properties of models and how to repair faulty surfaces. The advanced surfacing tools and techniques in this book give you the confidence to tackle projects using hybrid modeling. It is the best method to take full advantage of SOLIDWORKS’ modeling power and create more complex designs.
Mastering Surface Modeling with SOLIDWORKS 2022 focuses on surfacing tools, an important aspect of SOLIDWORKS’ design capabilities that fills in the gaps that might be left by using solid modeling alone. If you are a SOLIDWORKS user currently relying on solid modeling for designs, or are just not familiar with surface modeling techniques, this book will add these skills to your repertoire to help you create the highest-quality models. For instructors teaching this advanced skillset, this book’s proven techniques, practical examples and training files will give students a broad understanding of the procedures needed to build freeform shapes and place them well on their way to creating sophisticated surface designs of their own. This manual is one of only a few on the market completely dedicated to mastering surfacing tools. Each of the ten chapters has clean, clear instructions with plentiful diagrams to lead you through carefully selected exercises based on the author’s own work experience and techniques. You are guided from a review of surfacing basics, to advanced surface modeling of real-world objects, to an explanation and example of hybrid modeling, to surface repairs and patches. Peruse the table of contents and pick and choose the chapters you are interested in or complete all chapters consecutively to give you an in-depth understanding of all the tools and procedures needed to create surface designs. The projects you will work on in this book include a shoehorn, computer mouse, phone case, a modem housing, and stents. Woven into each of these are procedures, approaches and solutions for possible issues that might arise when you are using surfacing tools. These can be applied to any project you create. Each project touches on a variety of frequently used commands such as extrude, loft, boundary, and sweep; surface revolved, filled, split, and knit; using deform and configurations; mirroring bodies; creating an axis, curve driven and circular patterns, fillets, and molded parts. Look for the post-it notes next to commands for helpful tips and definitions. Throughout the book, you will learn techniques of hybrid modeling, the combination of surface and solid modeling. The last part of the book takes it one step further. Chapter 9 examines hybrid modeling in-depth, guiding you step-by-step from a 2D sketch to the final product, a handle housing. The last two chapters focus on molded parts, creating and saving visual properties of models and how to repair faulty surfaces. The advanced surfacing tools and techniques in this book give you the confidence to tackle projects using hybrid modeling. It is the best method to take full advantage of SOLIDWORKS’ modeling power and create more complex designs.
• Teaches SOLIDWORKS users advanced surface modeling skills • Includes tips and techniques for hybrid modeling • Uses clear, step-by-step instructions to help you create real-world projects • Covers how to make molded parts and repair and patch surfaces Mastering Surface Modeling with SOLIDWORKS 2023 focuses on surfacing tools, an important aspect of SOLIDWORKS’ design capabilities that fills in the gaps that might be left by using solid modeling alone. If you are a SOLIDWORKS user currently relying on solid modeling for designs, or are just not familiar with surface modeling techniques, this book will add these skills to your repertoire to help you create the highest-quality models. For instructors teaching this advanced skillset, this book’s proven techniques, practical examples and training files will give students a broad understanding of the procedures needed to build freeform shapes and place them well on their way to creating sophisticated surface designs of their own. This manual is one of only a few on the market completely dedicated to mastering surfacing tools. Each of the ten chapters has clean, clear instructions with plentiful diagrams to lead you through carefully selected exercises based on the author’s own work experience and techniques. You are guided from a review of surfacing basics, to advanced surface modeling of real-world objects, to an explanation and example of hybrid modeling, to surface repairs and patches. Peruse the table of contents and pick and choose the chapters you are interested in or complete all chapters consecutively to give you an in-depth understanding of all the tools and procedures needed to create surface designs. The projects you will work on in this book include a shoehorn, computer mouse, phone case, a modem housing, and stents. Woven into each of these are procedures, approaches and solutions for possible issues that might arise when you are using surfacing tools. These can be applied to any project you create. Each project touches on a variety of frequently used commands such as extrude, loft, boundary, and sweep; surface revolved, filled, split, and knit; using deform and configurations; mirroring bodies; creating an axis, curve driven and circular patterns, fillets, and molded parts. Look for the post-it notes next to commands for helpful tips and definitions. Throughout the book, you will learn techniques of hybrid modeling, the combination of surface and solid modeling. The last part of the book takes it one step further. Chapter 9 examines hybrid modeling in-depth, guiding you step-by-step from a 2D sketch to the final product, a handle housing. The last two chapters focus on molded parts, creating and saving visual properties of models and how to repair faulty surfaces. The advanced surfacing tools and techniques in this book give you the confidence to tackle projects using hybrid modeling. It is the best method to take full advantage of SOLIDWORKS’ modeling power and create more complex designs.
• Teaches SOLIDWORKS users advanced surface modeling skills • Includes tips and techniques for hybrid modeling • Uses clear, step-by-step instructions to help you create real-world projects • Covers how to make molded parts and repair and patch surfaces Mastering Surface Modeling with SOLIDWORKS 2020 focuses on surfacing tools, an important aspect of SOLIDWORKS’ design capabilities that fills in the gaps that might be left by using solid modeling alone. If you are a SOLIDWORKS user currently relying on solid modeling for designs, or are just not familiar with surface modeling techniques, this book will add these skills to your repertoire to help you create the highest-quality models. For instructors teaching this advanced skillset, this book’s proven techniques, practical examples and training files will give students a broad understanding of the procedures needed to build freeform shapes and place them well on their way to creating sophisticated surface designs of their own. This manual is one of only a few on the market completely dedicated to mastering surfacing tools. Each of the ten chapters has clean, clear instructions with plentiful diagrams to lead you through carefully selected exercises based on the author’s own work experience and techniques. You are guided from a review of surfacing basics, to advanced surface modeling of real-world objects, to an explanation and example of hybrid modeling, to surface repairs and patches. Peruse the table of contents and pick and choose the chapters you are interested in or complete all chapters consecutively to give you an in-depth understanding of all the tools and procedures needed to create surface designs. The projects you will work on in this book include a shoehorn, computer mouse, phone case, a modem housing, and stents. Woven into each of these are procedures, approaches and solutions for possible issues that might arise when you are using surfacing tools. These can be applied to any project you create. Each project touches on a variety of frequently used commands such as extrude, loft, boundary, and sweep; surface revolved, filled, split, and knit; using deform and configurations; mirroring bodies; creating an axis, curve driven and circular patterns, fillets, and molded parts. Look for the post-it notes next to commands for helpful tips and definitions. Throughout the book, you will learn techniques of hybrid modeling, the combination of surface and solid modeling. The last part of the book takes it one step further. Chapter 8 examines hybrid modeling in-depth, guiding you step-by-step from a 2D sketch to the final product, a handle housing. The last two chapters focus on molded parts, creating and saving visual properties of models and how to repair faulty surfaces. The advanced surfacing tools and techniques in this book give you the confidence to tackle projects using hybrid modeling. It is the best method to take full advantage of SOLIDWORKS’ modeling power and create more complex designs.
• Teaches SOLIDWORKS users advanced surface modeling skills • Includes tips and techniques for hybrid modeling • Uses clear, step-by-step instructions to help you create real-world projects • Covers how to make molded parts and repair and patch surfaces Mastering Surface Modeling with SOLIDWORKS 2024 focuses on surfacing tools, an important aspect of SOLIDWORKS’ design capabilities that fills in the gaps that might be left by using solid modeling alone. If you are a SOLIDWORKS user currently relying on solid modeling for designs, or are just not familiar with surface modeling techniques, this book will add these skills to your repertoire to help you create the highest-quality models. For instructors teaching this advanced skillset, this book’s proven techniques, practical examples and training files will give students a broad understanding of the procedures needed to build freeform shapes and place them well on their way to creating sophisticated surface designs of their own. This manual is one of only a few on the market completely dedicated to mastering surfacing tools. Each of the twelve chapters has clean, clear instructions with plentiful diagrams to lead you through carefully selected exercises based on the author’s own work experience and techniques. You are guided from a review of surfacing basics, to advanced surface modeling of real-world objects, to an explanation and example of hybrid modeling, to surface repairs and patches. Peruse the table of contents and pick and choose the chapters you are interested in or complete all chapters consecutively to give you an in-depth understanding of all the tools and procedures needed to create surface designs. The projects you will work on in this book include a shoehorn, computer mouse, phone case, a modem housing, and stents. Woven into each of these are procedures, approaches and solutions for possible issues that might arise when you are using surfacing tools. These can be applied to any project you create. Each project touches on a variety of frequently used commands such as extrude, loft, boundary, and sweep; surface revolved, filled, split, and knit; using deform and configurations; mirroring bodies; creating an axis, curve driven and circular patterns, fillets, and molded parts. Look for the post-it notes next to commands for helpful tips and definitions. Throughout the book, you will learn techniques of hybrid modeling, the combination of surface and solid modeling. The last part of the book takes it one step further. Chapter 9 examines hybrid modeling in-depth, guiding you step-by-step from a 2D sketch to the final product, a handle housing. The last two chapters focus on molded parts, creating and saving visual properties of models and how to repair faulty surfaces. The advanced surfacing tools and techniques in this book give you the confidence to tackle projects using hybrid modeling. It is the best method to take full advantage of SOLIDWORKS’ modeling power and create more complex designs.
This book focuses on the robustness analysis of high accuracy surface modeling method (HASM) to yield good performance of it. Understanding the sensitivity and uncertainty is important in model applications. The book aims to advance an integral framework for assessing model error that can demonstrate robustness across sets of possible controls, variable definitions, standard error, algorithm structure, and functional forms. It is an essential reference to the most promising numerical models. In areas where there is less certainty about models, but also high expectations of transparency, robustness analysis should aspire to be as broad as possible. This book also contains a chapter at the end featuring applications in climate simulation illustrating different implementations of HASM in surface modeling. The book is helpful for people involved in geographical information science, ecological informatics, geography, earth observation, and planetary surface modeling.
Written for practicing geophysicists, “Land Seismic Case Studies for Near-Surface Modeling and Subsurface Imaging” is a comprehensive guide to understanding and interpreting seismic data. The culmination of land seismic data acquisition and processing projects conducted by the author over the last two decades, this book contains more than nearly 800 figures from worldwide case studies—conducted in both 2D and 3D. Beginning with Chapter 1 on seismic characterization of the near-surface, Chapter 2 presents near-surface modeling by traveltime and full-wave inversion, Chapter 3 presents near-surface modeling by imaging, and then Chapter 4 includes detailed case studies for near-surface modeling. Chapter 5 reviews single- and multichannel signal processing of land seismic data with the key objective of removing surface waves and guided waves that are characterized as coherent linear noise. Uncommon seismic data acquisition methods, including large-offset acquisition in thrust belts to capture the large-amplitude supercritical reflections, swath-line acquisition, and joint PP and SH- SH seismic imaging are highlighted in Chapter 6, and Chapter 7 presents image-based rms velocity estimation and discusses the problem of velocity uncertainty. The final two chapters focus exclusively on case studies: 2D in Chapter 8 and 3D in Chapter 9. An outstanding teaching tool, this book includes analysis workflows containing processing steps designed to solve specific problems. Essential for anyone involved in acquisition, processing, and inversion of seismic data, this volume will become the definitive reference for understanding how the variables in seismic acquisition are directly reflected in the data.
Contains recent ideas and results in three areas of growing importance in curve and surface design: algebraic methods, variational surface design, and some special applications. Leading researchers from throughout the world have contributed their latest work and provided several promising solutions to open issues in surface modeling.
1 Aims and Features of This Book The contents of t. his book were originally planned t. o be included in a book en titled Geometric lIIodeling and CAD/CAM to be written by M. Hosaka and F. Kimura, but since the draft. of my part of the book was finished much earlier than Kimura's, we decided to publish this part separately at first. In it, geometrically oriented basic methods and tools used for analysis and synthesis of curves and surfaces used in CAD/CAM, various expressions and manipulations of free-form surface patches and their connection, interference as well as their qualit. y eval uation are treated. They are important elements and procedures of geometric models. And construction and utilization of geometric models which include free-form surfaces are explained in the application examples, in which the meth ods and the techniques described in this book were used. In the succeeding book which Kimura is to write, advanced topics such as data structures of geometric models, non-manifold models, geometric inference as well as tolerance problems and product models, process planning and so on are to be included. Conse quently, the title of this book is changed to Modeling of Curves and Surfaces in CAD/CAM. Features of this book are the following. Though there are excellent text books in the same field such as G. Farin's Curves and Surfaces for CAD /CAM[l] and C. M.