![Projection calculator software for curved screens](https://kumkoniak.com/42.jpg)
The tool is based on R, with Shiny package. standard errors and confidence intervals). Improvements affect only measures of accuracy around estimates (i.e. The methodology was updated considering the complex sample design of most of the recent surveys, compared to the methodology used in Anthro software (below). It offers analysis for four indicators: length/height-for-age, weight-for-age, weight-for-length, weight-for-height and body mass index-for-age. The WHO Anthro Survey Analyser aims to promote best practices on data collection, analyses and reporting of anthropometric indicators. It’s up to developers on how they specifically implement Warp API into their application.To facilitate re-running of nutritional survey data based on standardized approach, WHO has developed an online tool to analyse child anthropometric data. Not shown in the code above is swapping out the Warp data for each displayID but this is straightforward after the mesh has been captured. The last step is just associating the Warp Mesh with the displayID and using the NvAPI_GPU_SetScanoutWarping api call. WARP mesh could be predefined shape based on the model of a screen interactive mechanism for moving warp coordinates to match the screen or some cases developers use a camera based solution to automatically calculate the shape of the display. NVAPI SDK has samples showing how to find the displayID for each display.Ĭalculating the WARP mesh is something that the software developer would do. Printf("NvAPI_GPU_SetScanoutWarping: %s\n", estring) This step is generally bespoke per developer.įor (int i = 0 i < layout.number_displays i )Įrror = NvAPI_GPU_SetScanoutWarping(_Id,