4 ArcGIS Pro [1]
5 ArcGIS Pro [1]
Select Sun Shadow Volume (3D Analyst Tools).
You will use the multipoint feature ‘Building_MP_Campus’ as an input. On January 1st, 2021 the sunrise is at 7:54 am and sunset is 5:52 pm. Set the start and end date as below. Pennsylvania is in the Eastern Standard Time zone. Change the Iteration Interval to 2 and Iteration Unit to Hours. Click Run.
Turn on UP_Roof_Segment and turn off Building_Mp_Campus. Change the color of SunShadow_January to ‘Topaz Sand’. Right-click on the layer, select Properties. Click Elevation and make sure the features are relative to the ground. This is the result of your analysis.
On the top ribbon, under appearance, click Symbology. Select Unique Values.
Select set 3 for the color scheme.
On the content pane or in the symbology pane you can explore the categories.
The first category is the shadow created by the sun at 7:54 am and the last one is the shadow created at 3:54 pm. Because of the overlaying layers, you cannot see each shadow clearly.
On the top ribbon, click appearance. In Effects Category, define Layer Transparency as 30%.
Making a Layer transparent, you can see different shadow volumes easier. However, there are more efficient ways to see your results.
ArcGIS Pro offers a few ways to show an area of interest for your data, including visibility ranges, definition queries, and range. To visualize your data as a dynamic range, you can use any layer, or set of layers, that contain numeric, non-date fields. Once you define the range properties for your layer, an interactive, on-screen slider is used to explore the data through a range you customized’.5
On the content pane, right-click on SunShadow_January1 layer and select properties. Click the Range Tab. Setting the range properties of the layer, you can explore the data interactively using a range slider.
Click Add Range. Click the drop-down menu of Field. You will see that DATE_TIME is not in the list of fields that can be used because it is not a numerical field. You can select Azimuth. Set the extent from 120 to 236. Click Add. Click OK.
Defining a range, you will be able to use a tool in ArcGIS Pro called Range Slider. This tool gives you the ability to filter overlapping content to make it more accessible and visible. You can see the Slider on the right side of your map.
To set the Slider, on the top ribbon, under Map, click Range. Under Full Extent choose Sun Shadow_January1. Make sure the min and max are set to 120 and 236.
Make sure the active range is Azimuth, the same field you defined in layer properties.
Take a look at your map. You can see the first visible range now is from 123 to 144. This azimuth range belongs to the first hour of the sunrise from 7:54 am to 9:54 am
Where is the shadow's direction of the first range? (From 7:54 am to 9:54 am)
Click for the answer.
This belongs to 8:35 am to 9:54 am. If you continue with the Range slider, you can see all 5 categories of time frames.
The last step shows you the changes in shadow volume and its direction towards the end of the day. The shadow moves from North West in the morning to the East towards the end of the day.
Instead of clicking next, you can play the slider and it will play ranges after each other with the pace you have chosen. The pace, from slower to faster can be defined on the top ribbon, Range tab.
You have learned how to change symbology in Lesson 5. To make a more presentable animation of the shadow volumes, define the symbology of ‘SunShadow_January1’ using a gradual color change from lighter colors to darker colors. You need 5 gradual colors; for instance, you can choose a color ramp of Blue or Orange or Green or any other color you find appropriate.
Note: make sure to change the current range from 123 to 230 to see all shadow calcifications under the ‘SunShadow_January1’ layer.