The New York Times data. Here is the github and Hourly weather information for New York since in. Shiny Demos are a series of apps created by the Shiny developers and are designed to highlight specific features of the shiny package. HK that are either newly made available or with destination path updated in the past 14 days. Easily organize, use, and enrich data — in real time, anywhere. Show heights: Hover. Each app is presented along with its source code to help you implement these features in your apps.
Copy path. It includes a number of example specifications that showcase both the visual encodings and interaction techniques. We beat the other guys. Data Set Information: This is perhaps the best known database to be found in the pattern recognition literature. For the 11 years covered in this dataset, the DWRs consisted of four pages each day.
Spring's asynchronous, nonblocking architecture means you can get more from your computing resources. The world's most accurate weather service, pinpointed to any microclimate. The Excel files with the weather data and Uber pick-up data should be joined together for the analysis. Choosing your tech stack, integrating APIs, selecting the right charts and beautifying with CSS styles can become tricky. Tutored undergrads needing remediation on fundamentals of finance and statistics.
Learn from a True Expert. A straightforward line plot. The data ingestion, basic data analysis, and visualizations are given in. Clear throughout the day.
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GitHub Gist: instantly share code, notes, and snippets. Segment is a customer data platform CDP that helps you collect, clean, and control your customer data. Flexible Licensing Tailored for your business. Historical Time Series solar irradiance and meteo data. Solar Fan and Envelope Find buildable volumes to maintain solar access.
Radiation Studies Quickly quantify solar energy falling on your geometry. View Studies Measure the visual connection to the outdoors. Psychrometric Charts Customize your familiar thermal comfort graphics. Adaptive Comfort Charts Evaluate the thermal comfort of your passive designs. Outdoor Thermal Comfort Account for sky heat exchange and use the latest outdoor comfort models.
Local Thermal Comfort Model radiant asymmetry, downdraft discomfort, and more. Shade Benefit Analysis Visualize the regions of a shade that are most are helpful and harmful to thermal comfort. Generative Shade Design Build shades based on the regions that are most helpful. Ray tracing Visualize the bouncing of light through geometry. Shadow Masks See the portions of sky blocked by shades and context Check for examples.
Renewables Estimate energy harvested from photovoltaics and solar hot water. You can click or tap on any numeric value displayed within a dimension line to display a simple editor that lets you directly enter numeric data. Clicking or tapping in the INFO panel on the left will also display an editor for numerically adjusting the main parameters of the currently selected object.
Daylight calculations use the split-flux method to determine the internally reflected component and raytracing to determine the direct sky and externally reflected components. Rays are used to calculate exactly which parts of the sky are visible from each grid point and which are occluded by external shading and obstructions.
You can selected any of the 16 standard sky types or load in a weather data file and have the sky distribution generated dynamically using hourly direct and diffuse solar radiation. For anyone interested, a detailed report on the methodologies and results of this testing is available. If you don't have Radiance installed, there is even a remote render service that will allow you to do your own visual comparison. At the moment all the daylight calculations are being done in Javascript, which is still blazingly fast.
However, I do have a GPU-based version which is even faster. But, given that there is so much else going on when you interact with the model especially when contours are displayed and multiple apertures are being checked for overlaps , it turns out that the daylighting calculations are only a relatively small component compared to the geometry validation, tesselation, contouring and mesh regeneration process.
Thus the speed increase due to using the GPU ends up not actually being that noticeable. Andrew J. Marsh, You can interactively adjust the 3D view of the model using a mouse , pen or stylus , or by touch on a tablet or phone. You can also use the items in the 3D View Settings popup. This applies to all increment buttons, scroll wheel motion, slider controls and input elements.
NOTE: You can use the scroll wheel to edit a data value when hovering over any slider, numeric input or even table rows that indicate their editibility. Bootstrap v3. Bootstrap-popover-x v1. KnockoutJS v3. Knockstrap v1. Leaflet Maps API v1. Unfortunately most browsers automatically download remotely generated files into a default location, typically a 'Downloads' folder in your user area, and do not let you overwrite existing files. This is why a new filename appears above every time you see this dialog.
If you would like to see a File Save As dialog, you need to specifically set your browser to prompt you for the location of each download within its advanced settings. For more information, see JSON data types and syntax and try again. This is an experimental feature to test my remote render service.
Please feel free to use it but, to keep costs down, it is only running on my own personal mac mini cluster so I cannot make any uptime or quality of service guarantees. Choose this to retrieve results from the server and display them in this application, replacing the current model.
Choose this to save a zipped archive of all the Radiance files used so that you can re-run it for yourself if you have Radiance installed. You must first select a weather data file. EPW and an occupancy schedule. If you have DIVA installed, simply unzip the files into a folder of their own and run the Windows batch file contained within.
The first step is to import the JSON file that contains the model geometry used for the calculations. Only skip this step if you have already loaded it or are absolutely sure that the current model is exactly the same as that used in the calculations. After that, you can load and view any of the following data files:. Daylight Autonomy maps the percentage of time that daylight illuminance levels at each grid point are at or above a minimum threshold value. The default is lux as DA is common in many guidances and full daylght occupancy, but both may be customised to meet any other standard using the controls below.
Continuous Daylight Autonomy is a bit different as it also awards partial credits for those periods when the daylight illuminance levels at a grid point are below the specified threshold.
This is done by applying a linear scale between zero and the minimum threshold. Again, the default threshold is lux. Useful Daylight Illuminance maps the percentage of time that daylight levels at each grid point are within upper and lower illuminance thresholds, as set below.
The ranges given above present the most common options, but these can be adjusted under UDI-u to meet other standards or to measure required supplementary lighting or shading from excessive light as needed. Daylight Saturation Percentage is similar to Useful Daylight Illuminance in that it has both upper and lower thresholds, but penalises periods when illuminance levels are above the upper threshold by subtracting them from the total time count.
Annual Solar Exposure maps the number of hours that direct sunlight illuminance levels at each grid point are greater than the threshold value set below. As such, this is more of a sunlight metric but is very useful as an indicator of potential glare and the need for shading controls. This is very useful when sizing shading devices to maximise total gains in Winter whilst minimising them in Summer.
NOTE: Calculation requires annual hourly weather data. NOTE: Hourly illuminances will be recalculated.
The No-Sky Line NSL is a contour that separates those areas of the working plane from which some part of the sky is directly visible from those where it isn't.
For practical purposes, a threshold value of 0. Click here to comment on this page. Andrew Marsh. Figure 1 - A screenshot of the Dynamic Daylighting app running in a web browser. Launch web app in new tab Changing the Model To change the size of the room, simply select any of its bounding surfaces and then drag the appropriate arrow in the direction you want. Daylight Calculation Method Daylight calculations in this tool use the split-flux method to determine the internally reflected component and raytracing to determine the direct sky and externally reflected components.
Interesting Features In this version, all the daylight calculations are still being done in JavaScript, which remains surprisingly and blazingly fast even with raytracing. Shading Devices and External obstructions The most important new feature of this version is the ability to add and edit external shading devices and site obstructions.
Figure 1a: Adding apertures and obstructions. Figure 1b: Generate a shading mask at any point. Figure 1c: Handling any number of obstructions. Figure 1d: Able to toggle obstructions on and off. Figure 2a: Using annual hourly weather data. Figure 2b: A range of dynamic daylight metrics. Figure 2c: Different options for each metric.
Figure 2d: Example excessive daylight levels. Figure 3a: Sun-path diagram properties. Figure 3b: Sky subdivision method and resolution. Figure 3c: The luminance scale and sky type. Figure 3d: Showing cumulative sky distributions. Figure 4a: All model dimensions are editable. Figure 4c: Editable fields change with selection. Figure 4d: More options for external obstructions.
Figure 5a: Spatial analysis data within the legend. Figure 5b: The percentage area above a target. Figure 6a: Setting the room dimensions. Figure 6b: Adjusting wall and ceiling thickness. Figure 6c: Selecting surface reflectances. Figure 6d: Setting window frame properties. Figure 6e: Adjusting glazing bar and pane sizes. Figure 6f: Selecting transmittances and albedo.
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