The present invention relates generally to guidance instruments and more particularly to a traffic display.
Oceanic regions have little or no radio voice coverage and radar surveillance to assist in air traffic control. Because of these communication difficulties and navigational inaccuracies, separation standards utilized by oceanic air traffic control for clearances must be very large. Aircraft may utilize a system called Automatic Dependent Surveillance-Broadcast (ADS-B) to broadcast information over a dedicated radio data link. The information may include current position, current attitude, category of the aircraft, airspeed, identification, and whether the aircraft is changing course (turning, climbing, or descending). Aircraft which utilize ADS-B may also have a display rendering positions of surrounding aircraft in the vicinity, which may be utilized to provide an Airborne Separation Assurance System (ASAS). The utilization of ASAS mitigates limitations in oceanic regions by allowing the aircraft to assume responsibility for monitoring separations between air traffic control-designated aircraft.
One application of ASAS is an In-Trail procedure (ITP). ITP allows an aircraft to transit through a flight level occupied by another aircraft at a much lower separation than the normal standard. This allows an aircraft to achieve a flight level where normal separation standards can be maintained by transiting through the intermediate flight level where it is not possible to maintain the normal separation standard. This enables more frequent flight level changes to optimal altitudes for better flight and fuel efficiency. Additionally, this enables improved safety by avoiding turbulent flight levels. Typically, the need to climb or descend is determined and potentially blocking aircraft at intermediate levels are checked for. If a potentially blocking aircraft is present at an intermediate level, compliance with ITP conditions is checked (referencing the potentially blocking aircraft). If ITP conditions are satisfied, clearance is then granted for the ITP. The aircraft then re-checks compliance and performs the ITP.
However, existing traffic displays do not visually present necessary information concerning vertical and horizontal traffic separation for an ITP. Thus, the pilot of the aircraft does not have clear and intuitive means of understanding the flying environment related to the performance of the ITP, decreasing situational awareness and complicating the ITP. Consequently, it would be desirable to provide a traffic display to visualize the vertical and horizontal traffic separation for an ITP.
Accordingly, the present invention is directed to a traffic display for visualizing the vertical and horizontal traffic separation for an ITP (In-Trail Procedure).
The present invention is a traffic display for an aircraft which includes a vertical traffic indicator. The vertical traffic indicator includes flight levels. The flight levels represent various altitudes. The flight levels are depicted as patterned lines or other visual metaphors. Differing colors and line patterns are utilized to represent the current flight level of the aircraft, available flight levels for transit, and unavailable flight levels for transit. The vertical traffic indicator also includes aircraft indicators, representing the aircraft and other aircraft within an area of the aircraft, positioned in relation to flight levels to indicate the attitude of the aircraft. The aircraft indicators are depicted as triangles, dots, or other visual metaphors. The aircraft indicators may also include status indicators indicating separation standards for an aircraft, vertical trend or intent for an aircraft, or whether an aircraft is a reference aircraft for an ITP. The status indicators may be depicted as boxes, text, arrowed lines, or other visual metaphors. The traffic display may also include a closing speed indicator presenting information concerning the closing speed between the aircraft and another aircraft in the area of the aircraft which has been selected as a reference aircraft for an ITP. The closing speed indicator may be depicted as a meter or other visual metaphor, such as text.
The present invention provides a traffic display for visualizing the horizontal and vertical traffic separation for an ITP. The aircraft and other aircraft in the area of the aircraft are depicted, along with their respective flight levels. The flight levels which are available or are not available (for the aircraft to transit to) are immediately visually apparent from the traffic display. Thus, the pilot of the aircraft has clear and intuitive means of understanding the flying environment related to the performance of the ITP, increasing situational awareness and simplifying the ITP. The present invention is specifically advantageous for performance of an ITP, but may be integrated with displays including terrain, weather, flight plan waypoints, or TCAS (Traffic Collision Avoidance System) traffic without departing from the scope of the present invention.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention claimed. The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate an embodiment of the invention and together with the general description, serve to explain the principles of the invention.
The numerous objects and advantages of the present invention may be better understood by those skilled in the art by reference to the accompanying figures in which:
Reference will now be made in detail to exemplary embodiments of the invention, examples of which are illustrated in the accompanying drawings.
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Traffic display 100 may receive the altitude of the aircraft and the altitudes of other aircraft within an area of the aircraft. Traffic display 100 may include a receiver for receiving the altitude of the aircraft and the altitudes of other aircraft within an area of the aircraft.
Flight levels 102-106 may represent various attitudes. A flight level is a standard nominal altitude for an aircraft. Flight levels may be assigned a number which is the nominal altitude in feet divided by a hundred. As illustrated, flight level 102 is assigned a number 370 and represents a nominal altitude of 37,000 feet. As illustrated, flight level 102 shows absolute altitude (height of the aircraft above terrain). Alternatively, flight level 102 may show relative altitude (the vertical separation between aircraft), such as +100 (which represents a relative altitude of +1000) or −200 (which represents a relative altitude of −2000). Vertical traffic indicator 101 may display other flight levels than flight levels 102-106 in order to represent other altitudes. Vertical traffic indicator 101 may display a different number of flight levels than illustrated with flight levels 102-106, for instance two flight levels or ten flight levels. As illustrated, flight levels 102-106 are depicted as patterned lines. A solid line may indicate the current flight level of the aircraft. A pink or purple line may also indicate the current flight level of the aircraft. A dotted line may indicate a flight level which is unavailable for the aircraft. A white line may also indicate a flight level which is unavailable for the aircraft. A dashed line may indicate a flight level which is available for the aircraft. A green line may indicate a flight level which is available for the aircraft. Other colors and other line patterns may be utilized to represent the current flight level of the aircraft, available flight levels for transit, and unavailable flight levels for transit without departing from the scope of the present invention. In alternative embodiments, flight levels 102-106 may be depicted utilizing other visual metaphors than patterned lines, for instance text, bars, or groupings of shapes.
Vertical traffic indicator 101 also includes aircraft indicators 107-110. Aircraft indicator 107 represents the aircraft. Aircraft indicators 108-110 represent other aircraft within an area of the aircraft represented by the vertical traffic indicator 101. Aircraft indicators 107-110 are positioned on the vertical traffic indicator 101 in relation to flight levels 102-106 to indicate the altitude of the aircraft represented by aircraft indicators 107-110. As illustrated, aircraft indicators 107-110 are depicted as triangles. In alternative embodiments, aircraft indicators 107-110 may be depicted utilizing other visual metaphors, for instance text, circles, squares, or other shapes.
Vertical traffic indicator 101 may also include separation standard (a standard utilized to maintain proper spacing between aircraft) indicators 111. Separation standard indicators 111 indicate the separation standards for other aircraft within an area of the aircraft represented by the vertical traffic indicator 101. Separation standard indicators 111 represent the area in the front and aft of an aircraft which should not be violated by another aircraft. As illustrated, separation standard indicators 111 are depicted as boxes. In alternative embodiments, separation standard indicators 111 may be depicted utilizing colors and/or other visual metaphors, for instance text, lines, or shapes.
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Traffic display 200 may receive the altitude of the aircraft, the altitudes of other aircraft within an area of the aircraft, the speed of a reference aircraft for an ITP, and status information of other aircraft within an area of the aircraft. Traffic display 200 may include a receiver for receiving the altitude of the aircraft, the altitudes of other aircraft within an area of the aircraft, the speed of the aircraft and the speed of a reference aircraft for an ITP, and status information of other aircraft within an area of the aircraft.
Vertical traffic indicator 201 includes flight levels 202-206. Flight levels 202-206 may represent various altitudes. A flight level is a standard nominal attitude for an aircraft. Flight levels may be assigned a number which is the nominal altitude in feet divided by a hundred. As illustrated, flight level 202 is assigned a number 370 and represents a nominal altitude of 37,000 feet. As illustrated, flight level 102 shows absolute altitude (height of the aircraft above terrain). Alternatively, flight level 102 may show relative altitude (the vertical separation between aircraft), such as +100 (which represents a relative altitude of +1000) or −200 (which represents a relative altitude of −2000). Vertical traffic indicator 201 may display other flight levels than flight levels 202-206 in order to represent other altitudes. Vertical traffic indicator 201 may display a different number of flight levels than illustrated with flight levels 202-206, for instance two flight levels or ten flight levels. As illustrated, flight levels 202-206 are depicted as patterned lines. A solid line may indicate the current flight level of the aircraft. A pink or purple line may also indicate the current flight level of the aircraft. A dotted line may indicate a flight level which is unavailable for the aircraft. A white line may also indicate a flight level which is unavailable for the aircraft. A dashed line may indicate a flight level which is available for the aircraft. A green line may indicate a flight level which is available for the aircraft. Other colors and other line patterns may be utilized to represent the current flight level of the aircraft, available flight levels for transit, and unavailable flight levels for transit without departing from the scope of the present invention. In alternative embodiments, flight levels 202-206 may be depicted utilizing other visual metaphors than patterned lines, for instance text, bars, or groupings of shapes.
Vertical traffic indicator 201 also includes aircraft indicators 207-210. Aircraft indicator 207 represents the aircraft. Aircraft indicators 208-210 represent other aircraft within an area of the aircraft represented by the vertical traffic indicator 201. Aircraft indicators 207-210 are positioned on the vertical traffic indicator 101 in relation to flight levels 202-206 to indicate the altitude of the aircraft represented by aircraft indicators 207-210. As illustrated, aircraft indicators 207-210 are depicted as triangles. In alternative embodiments, aircraft indicators 207-210 may be depicted utilizing other visual metaphors, for instance text, circles, squares, or other shapes.
Aircraft indicators 208-210 include status indicators 214 and 215. Status indicators 214 and 215 show any status information that has been received about other aircraft in the area of the aircraft, such as intent or vertical trend. Vertical trend may be ascending, descending, or maintaining. Intent is the intended future action of the aircraft, such as the intent to proceed to a flight plan waypoint. A flight plan waypoint is a point of reference useful for navigation. As illustrated, status indicators 214 and 215 depict vertical trend with arrowed lines. Status indicator 214 depicts a forward pointing arrowed line, indicating that a vertical trend of maintain has been received for the other aircraft represented by aircraft indicator 209. Status indicator 215 depicts a line ending in a point, indicating that a vertical trend of maintain and an intent to proceed to a waypoint has been received for the other aircraft represented by aircraft indicator 210. Aircraft indicator 208 does not depict a status indicator, indicating that status information has not been received for the other aircraft represented by aircraft indicator 208. In alternative embodiments, status indicators 214 and 215 may be depicted utilizing other visual metaphors, such as shapes or text.
Aircraft indicator 210 includes reference aircraft indicator 213. Reference aircraft indicator 213 indicates that the other aircraft represented by aircraft indicator 210 is a reference aircraft for an ITP that the aircraft intends to perform. As illustrated, reference aircraft indicator 213 is depicted as a green box around aircraft indicator 210. In alternative embodiments, reference aircraft indicator 213 may be depicted utilizing other visual metaphors, such as colors, shapes, or text.
Traffic display 200 may also include a closing speed indicator 216. Closing speed indicator 216 displays information concerning the closing speed between the aircraft and another aircraft in the area of the aircraft which has been selected as a reference aircraft for an ITP. As illustrated, closing speed indicator 216 is depicted as a meter displaying the closing speed. In alternative embodiments, closing speed indicator 216 may depict closing speed utilizing other visual metaphors, such as text.
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The present invention provides a traffic display for visualizing the horizontal and vertical traffic separation for an ITP. The aircraft and other aircraft in the area of the aircraft are depicted, along with their respective flight levels. The flight levels which are available or are not available (for the aircraft to transit to) are immediately visually apparent from the traffic display. Thus, the pilot of the aircraft has clear and intuitive means of understanding the flying environment related to the performance of the ITP, increasing situational awareness and simplifying the ITP. The present invention is specifically advantageous for performance of an ITP, but may be integrated with displays including terrain, weather, flight plan waypoints, or TCAS (Traffic Collision Avoidance System) traffic without departing from the scope of the present invention.
It is understood that the present invention is not limited to any underlying implementing technology. The present invention may be implemented utilizing any combination of software and hardware technology. The present invention may be implemented using a variety of technologies without departing from the scope and spirit of the invention or without sacrificing all of its material advantages.
It is understood that the specific order or hierarchy of steps in the processes disclosed is an example of exemplary approaches. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the processes may be rearranged while remaining within the scope of the present invention. The accompanying method claims present elements of the various steps in a sample order, and are not meant to be limited to the specific order or hierarchy presented.
It is believed that the present invention and many of its attendant advantages will be understood by the foregoing description, and it will be apparent that various changes may be made in the form, construction, and arrangement of the components thereof without departing from the scope and spirit of the invention or without sacrificing all of its material advantages. The form herein before described being merely an explanatory embodiment thereof, it is the intention of the following claims to encompass and include such changes.
Number | Name | Date | Kind |
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6348877 | Berstis et al. | Feb 2002 | B1 |
7382285 | Horvath et al. | Jun 2008 | B2 |
20050007270 | Block | Jan 2005 | A1 |