"Vector graphics is a form of computer graphics in which visual images are created directly from geometric shapes defined on a Cartesian plane, such as points, lines, curves and polygons."
The creation of digital art using geometric shapes and curves rather than pixels.
Vector vs Raster: Understanding the difference between vector and raster images, and why vector is preferred for digital art.
Pen tool basics: Learning how to use the pen tool to create and edit vector paths.
Curves and shapes: Understanding how to create curves and combine shapes to create complex illustrations.
Layers: Understanding how layers work in vector software and how to use them to organize your artwork.
Color theory: Learning about color theory and how to use color effectively in your artwork.
Gradient and mesh tools: Discovering how to use gradient and mesh tools to create realistic shading and depth.
Typography: Understanding how to work with type in vector software, including font selection, kerning, and tracking.
Brushes and effects: Learning how to use brushes and effects to add texture and depth to your artwork.
Exporting and printing: Understanding the process of exporting and printing vector artwork, including file format options and print specifications.
Workflow and shortcuts: Learning time-saving workflow techniques and essential keyboard shortcuts to optimize your creative process.
Vector tracing: Understanding how to trace raster images to convert them into scalable vector artwork.
Drawing and illustrating techniques: Discovering advanced drawing techniques and illustrating methods to create more complex artwork.
Digital painting: Learning how to use vector software for digital painting, including brushes and blending modes.
Perspective and 3D: Understanding how to use perspective and 3D tools to create realistic illustrations.
Vector animation: Discovering how to use vector software to create animations, including frame-by-frame and motion graphics.
Vector graphics for web: Learning how to create vector graphics for web design, including SVG files.
Vector icon design: Understanding how to design icons using vector software.
Vector logos and branding: Learning how to design logos and branding materials using vector software.
Vector infographic design: Discovering how to use vector software to create informative and engaging infographics.
Vector illustration styles: Exploring different styles of vector illustration, including flat design, isometric, and hand-drawn.
Line Art: A minimalist style that includes only lines and shapes.
Cartoons: A simplified, exaggerated style commonly found in comics and animations.
Mascots: A character or figure designed to represent a brand, company or organization.
Logos: A visual symbol or icon that represents a brand, company or organization.
Illustrations: A drawing or picture that accompanies text or tells a story.
Infographics: A graphic representation of data or information.
Maps: A diagrammatic representation of an area or region.
Realistic Vector Art: A style that replicates real-life objects or scenery.
Abstract Vector Art: A style that emphasizes shape, form, and color over representational accuracy.
Retro Vector Art: A style that imitates the design and aesthetic of past decades or time periods.
Typographic vector art: A style that combines typography with graphic elements.
3D Vector Art: A style that uses three-dimensional shapes and lines to create depth and dimension.
Fantasy Vector Art: A style that depicts imaginary worlds or creatures.
Steampunk Vector Art: A style that combines Victorian-era design with modern technology.
Digital Art Portraits: A style of art that uses digital techniques to create portraits.
"The associated mechanisms may include vector display and printing hardware, vector data models and file formats, as well as the software based on these data models."
"Especially graphic design software, computer-aided design, and geographic information systems."
"Each having advantages and disadvantages in specific situations."
"Thus, it is the preferred model for domains such as engineering, architecture, surveying, 3D rendering, and typography."
"Entirely inappropriate for applications such as photography and remote sensing, where raster is more effective and efficient."
"Some application domains, such as geographic information systems (GIS) and graphic design, use both vector and raster graphics at times, depending on purpose."
"Vector graphics are based on the mathematics of analytic or coordinate geometry."
"Vector graphics...is not related to other mathematical uses of the term vector."
"Especially when a high degree of geometric precision is required, and when complex information can be decomposed into simple geometric primitives."
"The associated mechanisms may include vector display and printing hardware, vector data models and file formats, as well as the software based on these data models."
"It is the preferred model for domains such as engineering, architecture, surveying, 3D rendering, and typography."
"Vector hardware has largely disappeared in favor of raster-based monitors and printers."
"Each having advantages and disadvantages in specific situations."
"Especially when a high degree of geometric precision is required."
"Where raster is more effective and efficient."
"Visual images are created directly from geometric shapes defined on a Cartesian plane."
"Such as geographic information systems (GIS) and graphic design."
"Vector data models and file formats."
"This can lead to some confusion in disciplines in which both meanings are used."