A 360-degree environmental analysis made possible

© Digital Architecture – YouTube

Comprehensive architectural design demands a multifaceted approach toward drafting and simulating models that can hold up to the rigors of the real world. Computer-Aided Design, or CAD, has been an essential tool for architects and designers to bring their concepts to life. Modern and contemporary architecture has only been possible because of new and developing software that enables users to create designs and models that seem almost impossible to produce in real life.

© Discourse – Ladybug Tools

Computers have also aided in streamlining the design process to a great degree allowing for detail-oriented work to be presented seamlessly. Ladybug is one such tool that has become an asset for enhancing environmental analysis.

Under the large CAD umbrella, parametric design software uses parameters or constraints to create object geometries with high precision and accuracy. As the field of architecture continues to develop, 3D modeling software like Revit, 3DsMax, and Rhinoceros have become very useful tools for architects to create and present their work to clients.

© Discourse – Ladybug Tools

Additional to the mentioned modalities, a particularly dynamic one needs to consider during design is the interactions the edifice will have with the environment and vice versa. While the push for neo-futuristic and innovative design is in constant stride, the need for climate-responsive architecture has always been the same. For example, the movement of the sun and the heat flux that occurs, as a result, can significantly influence the placement of multiple design features on a building, and gaining insight into this feature about a specific geographical location can be of great statistical use to any architect.

© Lucas Najle – YouTube

Creating “glass box” structures that depend entirely on artificial lighting and HVAC methods to run is a highly unsustainable model. Vernacular Architecture has been around for centuries, using passive cooling and natural lighting techniques. While using these techniques may seem ideal, in a modern-day scenario, they don’t work. Hence, creating software to design based on specific climates was developed.

© grasshopper3d

Software that could analyze, optimize and customize the design in a chosen climate setting could show the designers how the different elements of it could work in a real-life setting concerning the climate.

© Paramarch – Youtube

Therefore, numerous environmental analysis tools have been developed to aid and contribute to the design chain. These tools’ utility is maximized when they are available as plugins to popular CAD software. An apt example would be the plugin Ladybug to the Rhino/Grasshopper design bundle. Ladybug’s added benefits to the numerous dynamic design features offered in Rhino/Grasshopper revolve around its ability to simulate and present weather data onto the existing projects on the platform.

© Office of Urban Terrains Lab

Ladybug imports EnergyPlus weather files (.EPW), which can represent design relevant environmental data such as general climate and sun positions and use them to generate cogent data visualizations such as the wind-rose and sun path. These tools are crafted to make the drawing process extremely designer-friendly while offering multiple custom 2D and 3D solutions geared towards providing interactive diagrams that help assist and fortify decision-making at any design stage.

© McNeel Forum

History of Ladybug

Mostapha Sadeghipour Roudsari and Chris Mackey created LadyBug. The former, who created the software out of frustration, said, “I couldn’t stand the repetitive, simplified, and disconnected workflows that I had to use daily as well as the overall lack of knowledge about environmental building design. I wanted to educate more people about the principles of environmental building design, which happened to be through Ladybug!”.

© Seoul National University Graduate School of Environmental Studies

The first version of the software was created by Roudsari and released as a plug-in to Grasshopper in 2017. It contained weather data visualization, sunlight hour analysis, and solar radiation studies. Mackey joined at a later phase and added thermal comfort models to it. In 2016, Ladybug was re-written into ‘Ladybug Tools’ was created which was for cross-platform Python libraries and plugins for Grasshopper and Dynamo.

© Lucas Najle – YouTbe

The plugin is integrated seamlessly onto the Grasshopper and uses its tactile 3D modeling capabilities to expedite data analysis by automating calculations and visualizations, which can stack right onto a drawn project without additional tinkering. Being built on the same platform, the need to export relevant data and fit design specifications in another program is virtually eliminated by the Ladybug plugin.

The plugin’s wide range of mobility and adaptability is evident by its inclusion of many widely used energy and daylight engines like Radiance and Daysim. When combined with the parametric design tools that run on Grasshopper, these engines allow for immediate feedback on design modifications and tweaks, allowing for a more organic and involved design process that updates and modifies required graphics in real-time.

© discourse.ladybug.tools

The ability to have flexible design modalities allows for a much more comprehensive presentation of projects for more customer-facing applications, which allows for customized representations of all factors that may be of particular importance to a client. Furthermore, the plugin is used by many industry leaders and has an active user base online, which provides tutorials and tips to operate the software to the best of its ability.


© discourse.ladybug.tools

The software offers several simulation tools to help architects run their design in a climate-specific context and check for energy efficiency and data. The tools and their purpose are the following:

  1. Climate Data Plots – Analyze the design with data charts.
  2. Sunpath Graphics – Provides solar studies.
  3. Shadow Studies – For the understanding of shading and light.
  4. View from Sun – Analyzes the design from different angles and positions of the sun.
  5. Solar Access Studies – Assimilates which parts receive sunlight and which don’t.
  6. Solar fan and envelope – Analyzes the extent of the sunlight on the volume.
  7. Radiation Studies – Identifies the level of radiation on the design.
  8. View Studies – Identifies the visual connection to the context.
  9. Psychometric Charts – For thermal comfort.
  10. Adaptive Comfort Chart – Evaluates thermal comfort levels.
  11. Outdoor Thermal Comfort – Analyzes thermal comfort levels outside.
  12. Indoor Thermal Comfort – Analyzes local comfort levels inside.
  13. Shade Benefit Analysis – Visualizes shaded regions that increase thermal comfort.
  14. Generative Shade Design – Indicated location of shades required.
  15. Ray Tracing – Visualizes the bouncing of light through geometry.
  16. Shadow Masks – Analyzes which parts of the sky would be blocked by context.
  17. Renewables – Estimates energy harvested from photovoltaics and solar hot water.
© discourse.ladybug.tools

Being developed from within the community on an open-source platform allows for infinite customizability, prompt bug identifications and repair updates. The source code is readily available online and can be modified to suit a particular build or application at the user’s discretion. As an environmental analysis tool, the Ladybug plugin can provide all-encompassing functionality to subject any design to an infinite number of permutations and combinations of weather-related markers.

Creating environmentally sensitive structures is extremely important on a client or user-level basis. The designer is responsible for ensuring that their work is efficient in all aspects of the design to give the user the best possible solution and experience.

© discourse.ladybug.tools

LadyBug is an all-encompassing climate analysis tool that acts as an integrated simulator, which can be used anytime during the design and development stage. Such a powerful tool enables designers to constantly evaluate, assimilate and make design changes according to the results, which keep the design process in continuous motion, creating a design that’s much more relevant to our world today.

© discourse.ladybug.tools

About the Series

The series explores various software used globally in the 21st century, and this modeling software has proven to revolutionize architecture by exploring the unexplored. They are easing the process by finding new ways of construction through a blend of computational methods to support futurist designs. The series highlights software and tools like Rhino 3D, Grasshopper 3D, Ladybug, Honeybee, Pufferfish, Kangaroo, and more.

Read more about 10 Grasshopper plugins trending in the AEC industry.

Parenthetically, if you are curious to dive deeper into learning the parametric design and computational tools, you can check the workshops by PAACADEMY. These workshops are 7-session-long studio workshops devoted to exploring the computational design capabilities applied to architecture and design.

Leave a Comment

Your email address will not be published.