| Patent application number | Description | Published |
|---|
| 20090103473 | METHOD TO ESTABLISH AND MAINTAIN AN AIRCRAFT AD-HOC COMMUNICATION NETWORK - An ad-hoc communication network including at least two vehicles such as at least two aircraft. Each vehicle includes surveillance equipment, a surveillance transmitter, a surveillance receiver, a communication management function (CMF), a communication transmitter, and a communication receiver. The surveillance equipment is configured to generate at least position and ID information. The surveillance transmitter is configured to transmit the at least position and ID information. The surveillance receiver is configured to receive at least position and ID information from other vehicles. The communication management function (CMF) is configured to determine a network topology based on the received at least position and ID information and determine a route for a communication signal based on the determined network topology and the communication transmitter is configured to transmit the communication signals to a select communication receiver pursuant to the determined route. | 04-23-2009 |
| 20090133112 | USE OF DATA LINKS FOR AERONAUTICAL PURPOSES WITHOUT COMPROMISING SAFETY AND SECURITY - A method of ensuring secure and cost effective communication of aeronautical data to and from an aircraft is provided. The method includes uplinking air-ground aircraft data communications via an aeronautical safety data link and downlinking air-ground aircraft data communications via a consumer data link separated from the aeronautical safety data link by a one-way firewall. | 05-21-2009 |
| 20090141669 | TRAVEL CHARACTERISTICS-BASED AD-HOC COMMUNICATION NETWORK ALGORITHM SELECTION - A method of operating an ad-hoc communication system is provided. The method comprises determining a pattern type relating to mobile node travel characteristics over a defined traveling region. Based on the pattern type, selecting a neighbor discovery and route determination algorithm. Implementing the neighbor discovery and route determination algorithm on received location and identification mobile node information to determine communication routes to at least one of mobile nodes and stationary communication stations in the ad-hoc communication system. | 06-04-2009 |
| 20090197595 | USE OF ALTERNATE COMMUNICATION NETWORKS TO COMPLEMENT AN AD-HOC MOBILE NODE TO MOBILE NODE COMMUNICATION NETWORK - A method of communicating aircraft messages is provided. The method comprises forming an at-hoc communication network of mobile nodes. Communicating messages between the mobile nodes via the at-hoc communication network using mobile node-to-mobile node communication signals and supplementing communication gaps in the ad-hoc communication network with alternative communication signals. | 08-06-2009 |
| 20090276149 | COGNITIVE ARICRAFT HAZARD ADVISORY SYSTEM (CAHAS) - Integrated surveillance systems and methods for processing multiple sensor inputs and determining a best route for avoiding multiple hazards. An example method performed on a first aircraft includes generating a plurality of routes for avoiding a previously determined alert from a first advisory system. Then, probability of success information is generated at other advisory systems for each of the plurality of routes. The best route of the plurality of routes is determined based on the generated probabilities and output to the flight crew or other aircraft. The probability of success information includes a previously defined uncertainty value. The uncertainty value corresponds to quality of data provided to or provided by the respective advisory system. | 11-05-2009 |
| 20090318137 | INTERNETWORKING AIR-TO-AIR NETWORK AND WIRELESS NETWORK - Methods and systems of operating a communication system are provided. One method comprises establishing at least one communication link between a mobile-to-mobile communication network of mobile nodes and at least one route computing system via gateway node. The gateway node is one of the mobile nodes that is in communication with a wireless network. Moreover, the route computing system is in communication with a terrestrial network that is also in communication with the wireless network. The at least one established communication link is then used to communicate messages. | 12-24-2009 |
| 20100075614 | COMMUNICATION MANAGEMENT UNIT SERVER CAPABILITY - An avionic communication unit with interface capabilities is provided. The communication unit includes at least one first type port, at least one second type port and a communication function. The at least one first type port is configured to couple a communication link using a first communication format to the communication unit. The at least one second type port is configured to couple a communication link using a second communication format to the communication unit. The communication function is configured to provide communications to and from an aircraft. The communication function is further configured to interface communications between the at least one first type port and the at least one second type port wherein avionic devices located on the aircraft and using different communication formats coupled to the respective ports can communicate. | 03-25-2010 |
| 20100245164 | SYSTEMS AND METHODS FOR COLLECTING WEATHER INFORMATION USING AN AIRBORNE AIRCRAFT - Weather information recording systems and methods are operable to record information detected by airborne aircraft. An exemplary embodiment generates a trigger event corresponding to the presence of weather of interest, stores weather information collected by an aviation electronics system in a memory in response to generating the trigger event, and downloads the stored weather information to a remote memory. | 09-30-2010 |
| 20100245165 | SYSTEMS AND METHODS FOR ASSESSING WEATHER IN PROXIMITY TO AN AIRBORNE AIRCRAFT - Dynamic weather model systems and methods are operable to assess weather in proximity to an airborne aircraft. An exemplary embodiment receives a radar return from the weather, determines reflectivity information from the received radar return, retrieves a weather model from a weather model data base, compares the weather with the retrieved weather model and the determined reflectivity information, predicts a characteristic of the weather based upon the comparison of the weather and the weather model, and determines if the predicted characteristic is potentially hazardous to the airborne aircraft. The weather model is defined by at least one weather modeling algorithm, and is defined by at least one of a parameter and a variable parameter range residing in a weather characteristics database. | 09-30-2010 |
