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1. A system for generating object symbology presentable on an aircraft display unit, such system comprising: at least one aircraft system, where each aircraft system is an owner of at least one user application; anda cockpit display system comprised of a system configuration file,a plurality of definition files, anda windows generator configured to perform a first operation, where such first operation is configured to retrieve the system configuration file, retrieve one first definition file comprised of a first layer, wherethe first layer is comprised o...
1. A system for generating object symbology presentable on an aircraft display unit, such system comprising: at least one aircraft system, where each aircraft system is an owner of at least one user application; anda cockpit display system comprised of a system configuration file,a plurality of definition files, anda windows generator configured to perform a first operation, where such first operation is configured to retrieve the system configuration file, retrieve one first definition file comprised of a first layer, wherethe first layer is comprised of a plurality of first-layer widgets, whereeach first-layer widget is defined by a set of widget parameters, andone first-layer widget is defined with a set of first-layer widget parameters comprised ofa number of cells along a first axis ofa screen array parameter,a number of cells along a second axis of the screen array parameter,an angular measurement of size of each cell along the first axis of the screen array parameter, andan angular measurement of size of each cell along the second axis of the screen array parameter, andretrieve at least one second definition file, whereineach second definition file is comprised of at least one second layer, whereeach second layer is comprised of at least one second-layer widget, whereat least one second-layer widget is defined with a set of second-layer widget parameters comprised ofa number of rows parameter,a number of columns parameter, anda fill style parameter, wherethe fill style parameter is indicative of an object located along a third axis, andperform a second operation, where such second operation is configured to receive a first-layer widget data set, wherein the first-layer widget data set is representative of the set of first-layer widget parameters,receive at least one second-layer widget data set, whereineach second-layer widget data set is representative of one set of second-layer widget parameters, wherethe first-layer widget data set and each second-layer widget data set have been sent under one uniform communication interface protocol,determine the fill style of each screen array cell as a function of at leastthe first-layer widget data set, andeach second-layer widget data set, andgenerate a pixel data set responsive to the determination and representative of at least one fill style, such thatsymbology of each fill style is presentable for a three-dimensional perspective. 2. The system of claim 1, wherein the set of first-layer widget parameters is further comprised of a plurality of screen reference position parameters, anda plurality of field of view parameters. 3. The system of claim 1, wherein the set of second-layer widget parameters is further comprised of a number of cell layers parameter along the third axis. 4. The system of claim 1, wherein the first-layer widget data set is received from a first user application owned by an aircraft navigation system,at least one second-layer widget data is received from a second user application owned by a forward-looking radar system, orboth. 5. The system of claim 4, wherein the object is comprised of an atmospheric hazard. 6. The system of claim 4, wherein the object is comprised of terrain. 7. The system of claim 1, wherein the cockpit display system is further comprised of at least one display unit configured to receive the pixel data set provided by the windows generator, andpresent the symbology of each fill style represented in the pixel data set on the screen of each display unit. 8. A device for generating object symbology presentable on an aircraft display unit, such device comprising: a windows generator configured to perform a first operation, where such first operation is configured to retrieve a system configuration file;retrieve one first definition file comprised of a first layer, where the first layer is comprised of a plurality of first-layer widgets, whereeach first-layer widget is defined by a set of widget parameters, andone first-layer widget is defined with a set of first-layer widget parameters comprised ofa number of cells along a first axis of a screen array parameter,a number of cells along a second axis of the screen array parameter,an angular measurement of size of each cell along the first axis of the screen array parameter, andan angular measurement of size of each cell along the second axis of the screen array parameter; andretrieve at least one second definition file, wherein each second definition file is comprised of at least one second layer, whereeach second layer is comprised of at least one second-layer widget, whereat least one second-layer widget is defined with a set of second-layer widget parameters comprised ofa number of rows parameter,a number of columns parameter, anda fill style parameter, wherethe fill style parameter is indicative of an object located along a third axis; andperform a second operation, where such second operation is configured to receive a first-layer widget data set, wherein the first-layer widget data set is representative of the set of first-layer widget parameters;receive at least one second-layer widget data set, wherein each second-layer widget data set is representative of one set of second-layer widget parameters, wherethe first-layer widget data set and each second-layer widget data set have been sent under one uniform communication interface protocol;determine the screen array cell of each fill style as a function of at least the first-layer widget data set, andeach second-layer widget data set; andgenerate a pixel data set responsive to the determination and representative of at least one fill style, such that symbology of each fill style is presentable for a three-dimensional perspective. 9. The device of claim 8, wherein the set of first-layer widget parameters is further comprised of a plurality of screen reference position parameters, anda plurality of field of view parameters. 10. The device of claim 8, wherein the set of second-layer widget parameters is further comprised of a number of cell layers parameter along the third axis. 11. The device of claim 8, wherein the first-layer widget data set is received from a first user application owned by an aircraft navigation system,at least one second-layer widget data is received from a second user application owned by a forward-looking radar system, orboth. 12. The device of claim 11, wherein the object is comprised of an atmospheric hazard. 13. The device of claim 11, wherein the object is comprised of terrain. 14. The device of claim 8, wherein the windows generator is further configured to provide the pixel data set to at least one display unit, whereby the symbology of each fill style represented in the pixel data set is presented on the screen of each display unit. 15. A method for generating object symbology presentable on an aircraft display unit, such method comprising: performing a first operation, where such first operation is configured to retrieving a system configuration file;retrieving one first definition file comprised of a first layer, where the first layer is comprised of a plurality of first-layer widgets, where each first-layer widget is defined by a set of widget parameters, andone first-layer widget is defined with a set of first-layer widget parameters comprised ofa number of cells along a first axis of a screen array parameter,a number of cells along a second axis of the screen array parameter,an angular measurement of size of each cell along the first axis of the screen array parameter, andan angular measurement of size of each cell along the second axis of the screen array parameter; andretrieving at least one second definition file, wherein each second definition file is comprised of at least one second layer, where each second layer is comprised of at least one second-layer widget, whereat least one second-layer widget is defined with a set of second-layer widget parameters comprised ofa number of rows parameter,a number of columns parameter, anda fill style parameter, wherethe fill style parameter is indicative of an object located along third axis; andperforming a second operation, where such second operation is configured to receiving a first-layer widget data set, wherein the first-layer widget data set is representative of the set of first-layer widget parameters;receiving at least one second-layer widget data set, wherein each second-layer widget data set is representative of one set of second-layer widget parameters, where the first-layer widget data set and each second-layer widget data set have been sent under one uniform communication interface protocol;determining the screen array cell of each fill style as a function of at least the first-layer widget data set, andeach second-layer widget data set; andgenerating a pixel data set responsive to the determination and representative of at least one fill style, such that symbology of each fill style is presentable for a three-dimensional perspective. 16. The method of claim 15, wherein the set of first-layer widget parameters is further comprised of a plurality of screen reference position parameters, anda plurality of field of view parameters. 17. The method of claim 15, wherein the set of second-layer widget parameters is further comprised of a number of cell layers parameter along the third axis. 18. The method of claim 15, wherein the first-layer widget data set is received from a first user application owned by an aircraft navigation system,at least one second-layer widget data is received from a second user application owned by a forward-looking radar system, orboth. 19. The method of claim 18, wherein the object is comprised of an atmospheric hazard. 20. The method of claim 18, wherein the object is comprised of terrain. 21. The method of claim 15, further comprising: providing the pixel data set to at least one display unit, whereby the symbology of each fill style represented in the pixel data set is presented on the screen of each display unit.
