Airport guidance and safety system incorporating navigation...

Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Traffic analysis or control of aircraft

Reexamination Certificate

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Details

C701S301000, C701S117000, C342S036000

Reexamination Certificate

active

06182005

ABSTRACT:

BACKGROUND—DESCRIPTION OF PRIOR ART
Today's airport terminal operations are complex and varied from airport to airport. Airports today are, in many cases, the limiting factor in aviation system capacity. Each airport has a unique set of capacity limiting factors which may include; limited tarmac, runways, suitable approaches, navigational or/and Air Traffic Control (ATC) facilities.
Furthermore, operational requirements in the terminal area involve all facets of aviation, communication, navigation and surveillance. The satisfaction of these requirements with technological/procedural solutions should be based upon three underlying principles; improved safety, improved capacity and cost effectiveness.
Today airport air traffic control procedures and general airport aviation operations are based on procedures from the 1950's. These air traffic control procedures were initially developed to separate aircraft while in the air. The separation surveillance system initially was a radar system consisting of a rotating radar antenna. The antenna rotated typically about once every 4.8 seconds while transmitting a signal, another receiving antenna picked up a reflected signal from a target. The surveillance system then calculated a range (based on transit time) and an azimuth angle based on the physical orientation of the antenna. The 2-dimensional position was then usually plotted on a display with other detected targets, objects and clutter. Radar today relies on faster rotating antennas or electronically scanned antennas to provide more frequent updates and higher resolution. To further enhance the performance of the target returns, provide altitude information and an identifier, a transponder is used on the aircraft. The transponder is the key element in radar surveillance systems, since without it no identification and no altitude information is provided to the air traffic control system.
Surveillance data from multiple surveillance systems (radars) is then discretely mosaiced or “tiled” into a semi-continuous system. Controllers today separate traffic visually by the rule of “green in between” the target tracks. This is a highly manual method for separation of aircraft, placing stress on the controllers and limits any true automation assistance for the controller.
Airport lighting functions currently are controller primarily on a manual basis from the airport tower. A 1991 effort conducted by MIT Lincoln Laboratory (Lincoln Lab Journal Vol. 4 #2 1991) used airport surface radar surveillance for the control of airport lights. A localized radar compatible processing environment was used with radar based position reports. The processing was not specifically compatible with seamless globally applicable GNSS position and velocity information nor GNSS based navigation. Other less sophisticated systems using buried magnetic sensors, buried weight sensors and even optical detection systems have been utilized in the control of airport lights. These lighting systems all fail to integrate gracefully into the a GNSS compatible overall airport processing environment as presented here.
In the high density and high precision airport environment numerous single function airport systems have been developed over the years to support air traffic control and pilot needs. Precise landing navigation is currently provided by the Instrument Landing System (ILS), while airside navigation is provided by VOR/DME, LORAN and NDB's. Airport air traffic controller surveillance is provided thorough visual means, airport surface detection radar (ASDE), secondary surveillance radar, parallel runway monitoring radar and in some cases primary radar. Each of these systems is single function, local in nature and operation and provides accuracy which is a function of distance to the object being tracked. Merging these navigation and surveillance systems into a 4-dimensional seamless airport environment is technically difficult and expensive. MIT Lincoln Laboratories is attempting to provide an improved radar based Air Traffic Control environment and has received three U.S. Pat. Nos. 5,374,932, 5,519,618 and 5,570,095 reflecting those efforts.
These patents relate to improvements of the current localized surveillance and navigation airport environment without the use of GNSS compatible seamless techniques as described by Pilley. These localized systems have served the aviation system well for nearly 50 years and numerous mishaps have been prevented over this period through their use. With the advent of new multi-function technologies superior performance is available at a fraction of the cost of today's current single function systems. The technologies of Global Navigation Satellite Systems, digital communication and low cost commercial computers can support seamless 4-dimensional airport operations at smaller airports unable to justify the heavy financial investment in today's single function navigation and surveillance systems.
BACKGROUND OF THE INVENTOR
The inventor having been involved with the FAA's Advanced Automation System became aware that airport program segments were not getting the attention they deserved, nor were advanced technologies being investigated. The inventor set out to demonstrate that new technologies could be used to support airport navigation, surveillance and lighting control. The multi-year efforts of the inventors are summarized in the book titled: GPS BASED AIRPORT OPERATIONS, Requirements, Analysis, Algorithms US copyright # TX 3 926 573, (Library of Congress # 94-69078), (ISBN 0-9643568-0-5). This book provides much of the back ground for this patent application. In addition to the book the following publications and professional papers have been published by the inventor in efforts of due diligence to promote this life saving technology.
Publications:
Institute of Navigation, ION GPS-91, 9-12-91, Technical Paper, “Airport Navigation and Surveillance Using GPS and ADS”.
GPS WORLD Magazine, 10-91, Article, “GPS, Aviation and Airports the Integrated Solution”.
71st Transportation Research Board, Annual Meeting, 1-14-92, Technical Paper, “Applications of Satellite CNS in the Terminal Area”.
Institute of Navigation National Technical Meeting, 1-28-92, Technical Paper, “Terminal Area Surveillance Using GPS”.
Institute of Navigation, ION GPS-92, Technical Paper, “Collision Prediction and Avoidance Using Enhanced GPS”.
Institute of Navigation, 49th Annual Meeting, June 1993, Technical Paper, “Runway Incursion Avoidance Using GPS”.
Airport Surface Traffic Automation Technical Information Group FAA & Industry Forum, 7-15-93, Presentation.
Commercial Aviation News, 7-19-93, “Airport Test to Look at Collision Avoidance”.
IEEE Vehicle Navigation and Intelligent Vehicle (VNIS), Conference, 10-14-93, Technical Paper, “Demonstration Results of
GPS for Airport Surface Control and Management”. Institute of Navigation, ION GPS-93, 9-23-93, Technical Paper,
“GPS for Airport Surface Guidance and Traffic Management”. Avionics Magazine, 10-93, “Differential GPS Runway Navigation System Demonstrated”.
IEEE PLANS '94, April 1994, Technical Paper, “GPS, 3-D Maps and ADS Provide A Seamless Airport Control and Management Environment”.
Institute of Navigation, ION GPS-94, 9-22-94, Technical Paper, “DGPS for Seamless Airport Operations”.
Presentation Seattle, Wash., May 9, 1995. International Civil Aviation Organization of the United Nations, Advanced Surface Movement Guidance and Control (SMGCS) meeting, Presentation and demonstration “GPS based SMGCS”.
As the list of presentations and publications shows the inventors have been active in getting the government and the aviation community to accept this life saving cost effective airport technology.
The United States alone currently contains some 17,000 airports, heliports and seabases. Presently only the largest of these can justify the investment in dedicated navigation and surveillance systems while the vast majority of smaller airports have neither. Clearly, a new approach is required to satisfy aviation user, airport

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