![]() Note that the video capture was performed at 10 frames-per-second so these two videos are not as smooth as they would be if I used a graphics video capture card. I would suggest that you watch the two short videos below (I recorded all the videos on my home Tower) – as they will give you a quick idea of the utility of using NASA’s WorldWind Earth modeling and simulation tool. The developer is only limited by his or her imagination. Why I think it’s Very Coolįrom my perspective it’s a high fidelity Earth model that has a tremendous amount of unique and exciting capabilities and features (trust me – this article doesn’t even scratch the surface – no pun intended – of what this system is capable of doing). So if you use the latest / greatest version of WorldWind along with a full set of terrain files, the model will look much better than what is seen in these videos. Note that for this article I used an older version of WorldWind and a limited set of terrain files. ![]() The specific site for the Java application side is here – This article covers the application of WorldWind Java – but the classes are pretty much the same across all three application types. Organizations around the world use WorldWind to monitor weather patterns, visualize cities and terrain, track vehicle movement, analyze geospatial data and educate humanity about the Earth.ġ) Web WorldWind – to build Web applications in your browser.Ģ) WorldWind Android – to build Android applications.ģ) WorldWind Java – to build standalone Java applications for Linux or Windows. WorldWind allows developers to quickly and easily create interactive visualizations of 3D globe, map and geographical information. WorldWind is an open source virtual globe API. Returns: a parameter list containing the modifier key-value pairs.What is WorldWind? Well let me quote NASA’s site directly: params - a parameter list in which to place the modifier key-value pairs, or null to allocateĪnd return a new parameter list. Parameters: code - the symbol modifier code to parse. This provides a consistent way to identify feint/dummy modifier status for both units/equipment and In the latter case, this also sets the modifier key Symbolog圜onstants.FEINT_DUMMY toīoolean.TRUE. Note that the installation modifier code indicates that an installation is either a normal installation or aįeint/dummy installation. The following key-value pairs are used to indicate each modifier: Not in the SymbolModifier field are ignored. This adds modifier keys only for those modifiers present in the SymbolModifier field. Schemes: echelon, headquarters, task force, feint/dummy, installation, equipment mobility, and auxiliaryĮquipment. ![]() Recognizes modifier codes used by the Warfighting, Stability Operations, and Emergency Management symbology Which fields are populated after parsing a symbol code depends on the MIL-STD-2525 symbology set the symbol codeĬomputes and returns the modifier key-value pairs associated with the specified SymbolModifier code. SymbolCodes supports the following fields: After parsing, each field can be accessed by calling the appropriate accessor methods (forĮxample: getScheme/setScheme). If anyįield in the code is unrecognized SymbolCode throws an exception and indicates the problematic fields in theĮxception's message. SymbolCode validates and parses the string, and populates its fields according to the contents of the string. To parse a symbol code string, construct a new SymbolCode passing in the identifier string as the sole argument. A SymbolCode can either be created by parsing a 15-character symbol code string or byĬreating an empty SymbolCode and manually specifying its fields. SymbolCode provides a utility for parsing and representing the individual fields of a MIL-STD-2525 symbol
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |