An unmanned aerial system (UAS) position reporting system may include an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) of a UAS and at least one remote terminal. The ATC-RS may include an automatic dependent surveillance broadcast (ADS-B) and traffic infor
An unmanned aerial system (UAS) position reporting system may include an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) of a UAS and at least one remote terminal. The ATC-RS may include an automatic dependent surveillance broadcast (ADS-B) and traffic information services broadcast (TIS-B) transceiver and one or more telecommunications modems. The ATC-RS may receive position data of at least one UAS in an airspace from the GCS and the at least one remote terminal and selectively communicate the position of the at least one UAS in the airspace to a civilian air traffic control center (ATC), to a military command and control (C2) communication center, or to both through the ADS-B and TIS-B transceiver. The ATC-RS may display the position of the at least one UAS in the airspace on a display screen coupled with the ATC-RS.
대표청구항▼
1. An unmanned aerial system position reporting system comprising: an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) and at least one remote terminal, the GCS and the at least one remote terminal in operational communication with at least one unmanned aeria
1. An unmanned aerial system position reporting system comprising: an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) and at least one remote terminal, the GCS and the at least one remote terminal in operational communication with at least one unmanned aerial system (UAS) for guidance during flight, the ATC-RS adapted to: gather from the GCS and the at least one remote terminal position data of the at least one UAS in an airspace, wherein the GCS and the at least one remote terminal receive the position data from the at least one UAS or the GCS and the at least one remote terminal generate the position data while the at least one UAS moves in the airspace;selectively communicate the position of the at least one UAS in the airspace to a civilian air traffic control center (ATC), to a military command and control (C2) communication center, or to both a civilian ATC and a military C2 communication center through transmission via automatic dependent surveillance broadcast (ADS-B)/traffic information services broadcast (TIS-B) or a related message format; anddisplay the position of the at least one UAS in the airspace on one or more display screens coupled with the ATC-RS. 2. The system of claim 1, wherein the ATC-RS is further adapted to communicate the position of the at least one UAS in a Standardization Agreement (STANAG) 4586 signal; a Cursor on Target (CoT) formatted signal; an ADS-B signal, TIS-B signal or signal in a related message format; a Standard Terminal Arrival Routes (STARS) signal, or an All Purpose Structured Eurocontrol Surveillance Information Exchange (ASTERIX) signal. 3. The system of claim 1, wherein: the ATC-RS further comprises one or more telecommunication modems; andthe ATC-RS is further adapted to communicate with the civilian ATC, with the military C2 communication center, or with both the civilian ATC and the military C2 communication center through voice and data using the one or more telecommunication modems. 4. The system of claim 3, wherein the ATC-RS further comprises: a UAS position data collector adapted to receive position data for the at least one UAS in the airspace from the GCS and the at least one remote terminal;a communications input/output (I/O) circuit adapted to receive position data of the at least one UAS in the airspace through a universal serial bus (USB) port connection with the GCS and the at least one remote terminal and to route data and voice information within the ATC-RS, the communications I/O circuit coupled with an ADS-B and TIS-B (or related message format) transceiver and the one or more telecommunication modems;an air traffic control (ATC) communication formatting module coupled with the communications I/O circuit, the ATC communication formatting module adapted to receive the position data from the UAS position data collector and to produce a civilian position data stream by formatting the position data to correspond with a civilian ATC data format; anda command and control (C2) communication formatting module coupled with the communications I/O circuit,wherein the C2 communication formatting module is adapted to receive the position data from the UAS position data collector and to produce a military position data stream by formatting the position data to correspond with a military C2 communication center data format. 5. The system of claim 1 wherein the at least one remote terminal is selected from the group comprising: a cell phone, a cell phone network, a computing device on a wired network, a computing device on a wireless network, and a radio. 6. The system of claim 1 wherein the position data received by the at least one remote terminal is received from one or more data sources selected from the group comprising: Motion Imagery Standards Board (MISB) Standard 0601.4 UAS Datalink Local Metadata Set, a wired or wireless connection to the GCS, and remote UAS monitoring/control using UAS industry standard messaging formats. 7. The system of claim 1 wherein the ATC-RS provides real-time position updates for the at least one UAS using time-division multiplexing (TDM). 8. An unmanned aerial system position reporting system comprising: an unmanned aerial system (UAS) ground control station (GCS) and at least one remote terminal, the GCS and the at least one remote terminal adapted to receive or generate data identifying the position of at least one UAS in an airspace and to allow an operator of the at least one UAS to operate the at least one UAS;an air traffic control reporting system (ATC-RS) coupled with the GCS and the at least one remote terminal, the ATC-RS adapted to gather from the GCS and the at least one remote terminal the data identifying the position of the at least one UAS and then selectively transmit the position of the at least one UAS in the airspace to an air traffic control center (ATC), or to a military command and control (C2) communication center, or to both an ATC and a military C2 communication center, the ATC-RS comprising:an automatic dependent surveillance broadcast (ADS-B) and traffic information services broadcast (TIS-B) transceiver adapted to transmit the position of the at least one UAS in the airspace as an ADS-B signal, a TIS-B signal or a signal in another related message format; andone or more display screens coupled with the ATC-RS, the one or more display screens adapted to display the position of the at least one UAS in the airspace. 9. The system of claim 8 wherein the at least one remote terminal is selected from the group comprising: a cell phone, a cell phone network, a computing device on a wired network, a computing device on a wireless network, and a radio. 10. The system of claim 8 wherein the data received by the at least one remote terminal is received from one or more data sources selected from the group comprising: Motion Imagery Standards Board (MISB) Standard 0601.4 UAS Datalink Local Metadata Set, a wired or wireless connection to the GCS, and remote UAS monitoring/control using UAS industry standard messaging formats. 11. The system of claim 8 wherein the ATC-RS provides real-time position updates for the at least one UAS using time-division multiplexing (TDM). 12. The system of claim 8, wherein the ATC-RS is further adapted to communicate the position of the at least one UAS in a Standardization Agreement (STANAG) 4586 formatted signal; a Cursor on Target (CoT) formatted signal; an ADS-B signal, TIS-B signal or a signal in a related message format; a Standard Terminal Arrival Routes (STARS) formatted signal, or an All Purpose Structured Eurocontrol Surveillance Information Exchange (ASTERIX) formatted signal. 13. The system of claim 10, wherein the ATC-RS further comprises: a UAS position data collector adapted to receive position data for the at least one UAS in the airspace from the GCS;a communications input/output (I/O) circuit adapted to receive the position data of the at least one UAS in the airspace through a universal serial bus (USB) port connection with the GCS and to route data and voice information within the ATC-RS, the communications I/O circuit coupled with the ADS-B and TIS-B transceiver and the one or more telecommunication modems;an air traffic control (ATC) communication formatting module coupled with the communications I/O circuit, the ATC communication formatting module adapted to receive the position data from the UAS position data collector and to produce a civilian position data stream by formatting the position data to correspond with a civilian ATC data format; anda command and control (C2) communication formatting module coupled with the communications I/O circuit, the C2 communication formatting module adapted to receive the position data from the UAS position data collector and to produce a military position data stream by formatting the position data to correspond with a military C2 communication center data format. 14. The system of claim 12, wherein the ATC-RS further comprises: a voice link module coupled with the communications I/O circuit and adapted to receive voice information from a microphone and to convert the voice information to a voice data signal. 15. An air traffic control reporting system (ATC-RS) on the ground, the ATC-RS comprising: an unmanned aerial system (UAS) position data collector, the UAS position data collector adapted to gather from a ground control station (GCS) and at least one remote terminal position data for at least one UAS in an airspace, the GCS and the at least one remote terminal in operational communication with the at least one UAS for guidance during flight;a communications input/output (I/O) circuit adapted to receive position data from the GCS of the at least one UAS and the at least one remote terminal in the airspace through a universal serial bus (USB) port connection with the GCS and the at least one remote terminal and to route data and voice information within the ATC-RS;an air traffic control (ATC) communication formatting module coupled with the communications I/O circuit, the ATC communication formatting module adapted to receive the position data from the UAS position data collector and to produce a civilian position data stream by formatting the position data to correspond with a civilian ATC data format;a command and control (C2) communication formatting module coupled with the communications I/O circuit, the C2 communication formatting module adapted to receive the position data from the UAS position data collector and to produce a military position data stream by formatting the position data to correspond with a military C2 communication center data format; andan automatic dependent surveillance broadcast (ADS-B) and traffic information services broadcast (TIS-B) transceiver coupled with the communications I/O circuit, the ADS-B transceiver adapted to receive the civilian position data stream and the military position data stream and to selectively transmit an ADS-B signal, a TIS-B signal or a signal in a related message format corresponding with the civilian position data stream, the military position data stream, or both the civilian position data stream and the military position data stream. 16. The system of claim 15, wherein the communications I/O circuit further comprises a USB hub, a Wide Area Augmentation System (WAAS) Global Positioning System (GPS) receiver, a Recommended Standard-232 (RS-232) and RS-422 to USB interface, one or more power converters, an embedded flash drive, and an external power supply. 17. The system of claim 15, the ATC-RS further comprising: a voice link module coupled with the communications I/O circuit and adapted to receive voice information from a microphone and to convert the voice information to a voice data signal. 18. The system of claim 15 wherein the at least one remote terminal is selected from the group comprising: a cell phone, a cell phone network, a computing device on a wired network, a computing device on a wireless network, and a radio. 19. The system of claim 15 wherein the position data received by the at least one remote terminal is received one or more data sources selected from the group comprising: Motion Imagery Standards Board (MISB) Standard 0601.4 UAS Datalink Local Metadata Set, a wired or wireless connection to the GCS, and remote UAS monitoring/control using UAS industry standard messaging formats. 20. The system of claim 15 wherein the ATC-RS provides real-time position updates for the at least one UAS using time-division multiplexing (TDM).
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