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How to Use Visual Lighting Software for Your Lighting Design Projects
Visual lighting software is a powerful tool that can help you create stunning lighting designs for interior and exterior spaces. Whether you are a professional lighting designer, an architect, an engineer, or a student, visual lighting software can help you achieve your design goals and meet the standards of your industry.
In this article, we will show you how to use visual lighting software to develop a lighting design from start to finish. We will cover the following topics:
What is visual lighting software and what are its features
How to import your design files and set up your project parameters
How to select and place lighting fixtures and controls
How to perform lighting calculations and analysis
How to visualize and present your lighting design
What is visual lighting software and what are its features
Visual lighting software is a comprehensive lighting analysis desktop application designed for demanding interior and exterior applications. It is developed by Acuity Brands, a leading provider of lighting and controls solutions. Visual lighting software combines an advanced 3-D interface with the latest advances in radiosity theory to provide efficient and highly accurate analysis of complex architectural spaces[^1^].
Some of the features of visual lighting software are:
It allows you to import PDF, DWG, or Google Map images as your design background.
It has a large database of lighting fixtures and controls from various manufacturers.
It supports multiple calculation methods, such as point-by-point, zonal cavity, lumen method, etc.
It calculates various lighting metrics, such as illuminance, luminance, uniformity, glare ratings, daylighting, etc.
It generates photometrically accurate renderings to visualize your design in different views and modes.
It exports your lighting design to the Visual Controls software for creating lighting controls design and documentation.
It creates professional reports and documentation for your design project.
How to import your design files and set up your project parameters
The first step in using visual lighting software is to import your design files and set up your project parameters. You can import PDF, DWG, or Google Map images as your design background. You can also create your own geometry using the built-in drawing tools. You can then define the scale, orientation, location, and units of your project. You can also specify the reflectances of the surfaces, the sky conditions, the calculation grid, and other settings for your project.
How to select and place lighting fixtures and controls
The next step is to select and place lighting fixtures and controls for your design. You can browse through the large database of lighting fixtures and controls from various manufacturers. You can filter by category, type, brand, model, etc. You can also search by keywords or part numbers. You can then drag and drop the fixtures and controls onto your design background. You can also copy, paste, rotate, align, group, or edit the fixtures and controls as needed. You can also assign dimming levels, schedules, sensors, or other control features to the fixtures and controls.
How to perform lighting calculations and analysis
The next step is to perform lighting calculations and analysis for your design. You can choose from different calculation methods, such as point-by-point, zonal cavity, lumen method, etc. You can also select different calculation modes, such as electric only, daylight only, or combined electric and daylight. You can then run the calculations and view the results on the calculation grid or on the surfaces. You can also view various lighting metrics, such as illuminance, luminance, uniformity,
glare ratings (UGR), daylighting factors (DF), etc. You can also compare different scenarios or alternatives for your design.
How to visualize and present your lighting design
The final step is to visualize and present your lighting design. You can generate photometrically accurate renderings to visualize your design in different views and modes. You can choose from different rendering modes,
such as shaded view (SV), false color view (FCV), contour view (CV), 061ffe29dd