What is it?


VectorSection is an open source vector graphics converter and storage mechanism. It is a toolset for manipulating data from 2D and 3D CAD and graphics formats via common intermediate data schemas.


VectorSection is being built in stages. The goal is to be able to convert between and access most vector graphic file formats such as dxf, dwg, dgn, svg, pdf, ps, jpg, png, ogr, ifc.


Support


Professional training, support, and customization is available through Scratch Computing and several other companies worldwide. Please contact me for details.

Introduction to Vector Images

Vector graphics are techniques used in PC graphics to describe an image. The image depicted with a vector graph is called a vector image. In vector graphics, images are depicted by a set of geometric primitives that determine points, lines, curves, and polygons where colors and shadows can be determined. For example when you see agen Sbobet Indonesia the vector images is very neatly which is make you comfortable to play judi online. this is not too similar from a raster graph, described as a pixel box with the right color.

Advantage

The main advantages derived from vector graphics are:

  • The ability to express knowledge with steps that are immediately able to be understood by humans (eg SVG standards)
  • The ability to express knowledge in a format that uses less space.
  • The ability to make large images arbitrarily, without affecting the resolution.

This graphical info description system includes having the undeniable advantage that comes from greater knowledge compression: in practice, vector images can occupy fewer areas than the corresponding raster. This includes lighter to manage and change. For this reason, vector images are suitable for managing large amounts of data, like cartography which is mostly given in vector mode.

Picture quality

When vector images are displayed on devices with a higher resolution, they cannot lose their definition. A line that crosses transversely, unless the screen is represented by a filtered graph, stored as a series of color pixels arranged to form a line. If we try to expand parts of the line, we can see each pixel that forms a line. If a similar line is stored in vector mode, it can be stored as an equation so that it comes from a point, identified with the initial coordinates and ends with another point determined by the final coordinate.

Extending parts from these lines does not produce visual artifacts or display individual pixels that make up the image, because these lines can always be displayed against the highest resolution permitted by the monitor. For example, unless you confiscate a 2×24 pixel vector image and increase the resolution to 1024×768 pixels, the definition of the resulting image cannot change. As a result, vector images are always of high quality.

Application

Vector graphics are already widely used in the fields of publishing, architecture, engineering and computer graphics. All three-dimensional graphics programs save work by interpreting objects as primitive mathematical aggregates. On a personal PC, the most conscious use is the definition of the source. Almost all sources used by special PCs are created in vector mode, which is very possible for users to change the font size without losing the definition. Therefore, we are able to see that vector images have a variety of applications and are too useful because they take up less space.