Please enter the following info in the fields above:
- Your Name as the Card title
- The link to your Module 2 folder in our Autodesk Construction Cloud project
Please also type the first few letters of your first name into the Link to Student field, then hover over your name from the list of matching records and click the plus sign to link this entry to your Design Journal.
Do not add any new properties.
Then, share your Design Journal entry here (replacing these instructions) ... Just delete this instruction text, and start typing your response.
- A screenshot of your finished model geometry
- Walk in the Park - an image of the Dynamo geometry
- Eliminate the Echo - an image of the Rhino geometry
- Happy Facade - an image of the Revit wall
- A few sentences describing your modeling approach
- The link to your Module 2 folder in our Autodesk Construction Cloud project.
The steps how I build this work is as below:
Step 1: I started with the grid generation with integer slider to variably define the length of each cuboid, which is also the value into steps for grids, then created each grid point based on x, y coordinates.
Step 2: The attractor point is created with its x and y values defined with number sliders for flexible adjustment.
Step 3: To define the height of each cuboid, math sin function is used to simulate the ripple effect; the parameters such as base-height, amplitude, number of waves, cuboid-distance, and max-distance are also defined to incorporate into the math function provided in instruction.
Step 4: To raise each cuboid with same base elevation, Geometry.Translate node is used and cut the cuboid height value in half for visualization.
The link to Module 2 folder:
https://acc.autodesk.com/docs/files/projects/6db2c3ca-7a2c-4f34-96a1-8a8189c7754d?folderUrn=urn%3Aadsk.wipprod%3Afs.folder%3Aco.bOSLCVOHRqWPuB8ItQ1MmQ&viewModel=detail&moduleId=folders