Birmingham ; ; Mumbai : , : Packt, , [2018]

©2018

1-78934-774-2

1 online resource (173 pages)

006.312

Information visualization - Computer programs

Computer graphics - Computer programs

JavaScript (Computer program language)

Inglese

Includes index.

This book will help you build interactive graphs that are viewable in any web browser using JavaScript, D3.js, and SVG. You will learn how to make a scatter plot, a bar graph, a pie chart, a force directed graph, and a map. Key Features Takes you through the most common graphs you'll need Add interactivity to your visualizations Easy to follow builds Book Description D3.js is a JavaScript library that allows you to create graphs and data visualizations in the browser with HTML, SVG, and CSS. This book will take you from the basics of D3.js, so that you can create your own interactive visualizations, to creating the most common graphs that you will encounter as a developer, scientist, statistician, or data scientist. The book begins with an overview of SVG, the basis for creating two-dimensional graphics in the browser. Once the reader has a firm understanding of SVG, we will tackle the basics of how to use D3.js to connect data to our SVG elements. We will start with a scatter plot that maps run data to circles on a graph, and expand our scatter plot to make it interactive. You will see how you can easily allow the users of your graph to create, edit, and delete run data by simply dragging and clicking the graph. Next, we will explore creating a bar graph, using external data from a mock API. After that, we will explore

animations and motion with a bar graph, and use various physics-based forces to create a force-directed graph. Finally, we will look at how to use GeoJSON data to create a map. What you will learn Build a scatter plot Build a bar graph Build a pie chart Build a force-directed graph Build a map Build interactivity into your graphs Who this book is for This book is for web developers, interactive news developers, data scientists, and anyone interested in representing data through interactive visualizations on the Web with D3. Some basic knowledge of JavaScript is expected, but no prior experience with data visualization or D3 is required to follow this book.

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2019

3-030-19894-4

1 online resource (662 pages)

Springer Proceedings in Physics, , 1867-4941 ; ; 224

620.11

Building materials

Nanoscience

Electrochemistry

Semiconductors

Microtechnology

Microelectromechanical systems

Ceramic materials

Structural Materials

Nanophysics

Microsystems and MEMS

Ceramics

Inglese

From the contents: Effects of Modifying with Simple (MnO2, CuO) and Combined (MnO2+NiO, Bi2O3+Fe2O3) Dopants of Multi-element Media Based on Alkali Niobates -- Fracture Prediction of the Self-adjusting File Using Force and Vibration Signature Analysis -- Application of Deep Convolutional Neural Networks in the Defects Identification Problem -- Identification of Properties of a Piezopolymer Functionally Graded Disc in the Analysis of Radial Oscillations -- New Theory of Laser: Method of Density Matrix -- The Effect of High-Voltage Nanosecond Pulses on the Structural Defects and Technological Properties of Natural Dielectric Minerals -- Influence of Activity of Mineral Additives on Physico-Mechanical Properties of Concrete Compositions -- Rapid in-situ Remediation of Glass Fiber Wind Turbine Blades Using UV Curing Composites -- Web-application Development for Network Access to the FEM Modules of the ACELAN Package -- MEMSaccelerometer with SAW -- Magnetic Particles Detections in Biological Objects -- Deep UV Surface Acoustic Wave ZnO Based Photodetectors -- Elastic Properties of CNT-reinforced Silver Nanocomposite Using FEM -- Mathematical Modeling of Indentation Process for Layered Sample Taking into Account Plastic Properties of Layers Material -- Stress-Strain State in Transverse Isotropic Plane-Layered Media at Pulse Impacts -- Growth of the Nanometer Column Zinc Oxide by Hydrothermal Method for Fabrication of the Hydrophone Acoustics Sensors.

This book includes selected, peer-reviewed contributions from the 2018 International Conference on “Physics and Mechanics of New Materials and Their Applications”, PHENMA 2018, held in Busan, South Korea, 9–11 August 2018. Focusing on manufacturing techniques, physics, mechanics, and applications of modern materials with special properties, it covers a broad spectrum of nanomaterials and structures, ferroelectrics and ferromagnetics, and other advanced materials and composites. The authors discuss approaches and methods in nanotechnology; newly developed, environmentally friendly piezoelectric techniques; and physical and mechanical studies of the microstructural and other properties of materials. Further, the book presents a range of original theoretical, experimental and computational methods and their application in the solution of various technological, mechanical and physical problems. Moreover, it highlights modern devices demonstrating high accuracy, longevity and the abilityto operate over wide temperature and pressure ranges or in aggressive media. The developed devices show improved characteristics due to the use of advanced materials and composites, opening new horizons in the investigation of a variety of physical and mechanical processes and phenomena.