Patents by Inventor Douglas V. Limbaugh
Douglas V. Limbaugh has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11500374Abstract: A communications ecosystem and related methods of operation include an ecosystem safety level (ESL), a plurality of vehicles or systems, each vehicle or system having an individual safety level (ISL), a control system operable to determine whether the ISL for each vehicle or system meets or exceeds the ESL, and one or more communications links between any first vehicle or system having a first ISL that does not meet or exceed the ESL and a second vehicle or system with a second ISL that does meet or exceed the ESL such that the first vehicle or system operates at the second ISL.Type: GrantFiled: November 3, 2020Date of Patent: November 15, 2022Assignee: KUTTA TECHNOLOGIES, INC.Inventors: Michele Lee Atkinson, James A. Katlen, Michael William Landreth, Douglas V. Limbaugh
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Publication number: 20220137618Abstract: A communications ecosystem and related methods of operation include an ecosystem safety level (ESL), a plurality of vehicles or systems, each vehicle or system having an individual safety level (ISL), a control system operable to determine whether the ISL for each vehicle or system meets or exceeds the ESL, and one or more communications links between any first vehicle or system having a first ISL that does not meet or exceed the ESL and a second vehicle or system with a second ISL that does meet or exceed the ESL such that the first vehicle or system operates at the second ISL.Type: ApplicationFiled: November 3, 2020Publication date: May 5, 2022Applicant: KUTTA TECHNOLOGIES, INC.Inventors: Michele Lee ATKINSON, James A. KATLEN, Michael William LANDRETH, Douglas V. LIMBAUGH
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Publication number: 20220100209Abstract: Methods and systems for unmanned aerial vehicles are provided. One method includes receiving, by a control system, sensor data from a mobile ground-based platform and sensor data from a ground-based radar surveillance system, the control system configured to communicate with a first UAV and a second UAV; detecting, by the control system, an object likely to impede the second UAV flight within a flight path, the object detected based on the sensor data received from the mobile ground-based platform, the ground-based radar surveillance system or both the ground-based radar surveillance system and the mobile ground-based platform; generating, by the control system, an indicator indicating an object in the flight path; and transmitting, by the control system, the indicator to the first UAV.Type: ApplicationFiled: April 8, 2021Publication date: March 31, 2022Applicant: KUTTA TECHNOLOGIES, INC.Inventors: Robert Vallelonga, Douglas V. Limbaugh
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Patent number: 10026323Abstract: 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.Type: GrantFiled: February 17, 2017Date of Patent: July 17, 2018Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20170162058Abstract: 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.Type: ApplicationFiled: February 17, 2017Publication date: June 8, 2017Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Patent number: 9621258Abstract: Bi-directional personal communication systems and processes may be utilized to control unmanned systems. Such systems and processes may enable operator interface with unmanned systems as a replacement or a supplement to use of specialized hardware and rich, graphical interfaces. The bi-directional communication systems and methods also may be integrated as a subsystem within a ground control station. The system may include a personal communications device with a native interface for an operator to select command, control and/or communication (C3) messages to interact with the unmanned system, and a communication link operable to send the C3 messages selected by the operator to the unmanned system, wherein the unmanned system includes a receiver that receives the C3 messages over the communication link and an onboard computing device that processes and responds to the C3 messages received by the receiver.Type: GrantFiled: February 26, 2015Date of Patent: April 11, 2017Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David Howard Barnhard, Geoffrey David Simms
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Patent number: 9595198Abstract: 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 network-connected 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 network-connected 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.Type: GrantFiled: August 5, 2015Date of Patent: March 14, 2017Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20160080539Abstract: Bi-directional personal communication systems and processes may be utilized to control unmanned systems. Such systems and processes may enable operator interface with unmanned systems as a replacement or a supplement to use of specialized hardware and rich, graphical interfaces. The bi-directional communication systems and methods also may be integrated as a subsystem within a ground control station. The system may include a personal communications device with a native interface for an operator to select command, control and/or communication (C3) messages to interact with the unmanned system, and a communication link operable to send the C3 messages selected by the operator to the unmanned system, wherein the unmanned system includes a receiver that receives the C3 messages over the communication link and an onboard computing device that processes and responds to the C3 messages received by the receiver.Type: ApplicationFiled: February 26, 2015Publication date: March 17, 2016Inventors: Douglas V. Limbaugh, David Howard Barnhard, Geoffrey David Simms
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Publication number: 20160012731Abstract: 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 network-connected 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 network-connected 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.Type: ApplicationFiled: August 5, 2015Publication date: January 14, 2016Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Patent number: 9129520Abstract: 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 an unmanned aerial system. 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 be adapted to receive position data of the UAS in an airspace from the GCS and to selectively communicate the position of the UAS in the airspace to a civilian air traffic control center (ATC), to a military command and control (C2) communication center, or to both the civilian ATC and the military C2 communication center through the ADS-B and TIS-B transceiver. The ATC-RS may also be adapted to display the position of the UAS in the airspace on a display screen coupled with the ATC-RS.Type: GrantFiled: January 29, 2013Date of Patent: September 8, 2015Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20140226024Abstract: In various implementations, systems and processes may be utilized to reduce the affect of latency in teleoperated cameras. For example, various processes may be utilized to determine latency periods and generate user interfaces based on the latency periods and/or inputs provided to the systems.Type: ApplicationFiled: February 7, 2014Publication date: August 14, 2014Applicant: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, Bruce D. Elliott, Mark M. Johnson
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Publication number: 20140025282Abstract: 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 an unmanned aerial system. 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 be adapted to receive position data of the UAS in an airspace from the GCS and to selectively communicate the position of the UAS in the airspace to a civilian air traffic control center (ATC), to a military command and control (C2) communication center, or to both the civilian ATC and the military C2 communication center through the ADS-B and TIS-B transceiver. The ATC-RS may also be adapted to display the position of the UAS in the airspace on a display screen coupled with the ATC-RS.Type: ApplicationFiled: January 29, 2013Publication date: January 23, 2014Applicant: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Patent number: 8437956Abstract: Methods of communicating the location of an unmanned aerial system (UAS). Implementations of the method may include receiving position data for a UAS with an air traffic control reporting system (ATC-RS) from a ground control station (GCS) in communication with the UAS, where the ATC-RS and the GCS are coupled together and located on the ground. The method may include transmitting the position data using one or more telecommunication modems included in the ATC-RS to an air traffic control center (ATC) and transmitting the position data using an automatic dependent surveillance broadcast (ADS-B) and traffic information services broadcast (TIS-B) receiver to one or more aircraft.Type: GrantFiled: February 12, 2009Date of Patent: May 7, 2013Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Patent number: 8386175Abstract: An unmanned aerial system (UAS) position reporting system. Implementations may include an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) of an unmanned aerial system where the ATC-RS includes an automatic dependent surveillance broadcast (ADS-B) and a traffic information services broadcast (TIS-B) transceiver and one or more telecommunications modems. The ATC-RS may be adapted to receive position data of the UAS in an airspace from the GCS and communicate the position of the UAS in the airspace to a civilian air traffic control center (ATC) or to a military command and control (C2) communication center through an ADS-B signal or through a TIS-B signal through the ADS-B and TIS-B transceiver. The ATC-RS may also be adapted to display the position of the UAS in the airspace on one or more display screens coupled with the ATC-RS.Type: GrantFiled: February 12, 2009Date of Patent: February 26, 2013Assignee: Kutta Technologies, Inc.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20100066604Abstract: An unmanned aerial system (UAS) position reporting system. Implementations may include an air traffic control reporting system (ATC-RS) coupled with a ground control station (GCS) of an unmanned aerial system where the ATC-RS includes an automatic dependent surveillance broadcast (ADS-B) and a traffic information services broadcast (TIS-B) transceiver and one or more telecommunications modems. The ATC-RS may be adapted to receive position data of the UAS in an airspace from the GCS and communicate the position of the UAS in the airspace to a civilian air traffic control center (ATC) or to a military command and control (C2) communication center through an ADS-B signal or through a TIS-B signal through the ADS-B and TIS-B transceiver. The ATC-RS may also be adapted to display the position of the UAS in the airspace on one or more display screens coupled with the ATC-RS.Type: ApplicationFiled: February 12, 2009Publication date: March 18, 2010Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20090248287Abstract: Methods of communicating the location of an unmanned aerial system (UAS). Implementations of the method may include receiving position data for a UAS with an air traffic control reporting system (ATC-RS) from a ground control station (GCS) in communication with the UAS, where the ATC-RS and the GCS are coupled together and located on the ground. The method may include transmitting the position data using one or more telecommunication modems included in the ATC-RS to an air traffic control center (ATC) and transmitting the position data using an automatic dependent surveillance broadcast (ADS-B) and traffic information services broadcast (TIS-B) receiver to one or more aircraft.Type: ApplicationFiled: February 12, 2009Publication date: October 1, 2009Applicant: KUTTA TECHNOLOGIES, INC.Inventors: Douglas V. Limbaugh, David H. Barnhard, Thomas H. Rychener
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Publication number: 20090088074Abstract: Systems and methods for communication in enclosed areas. Implementations of a method may include sending a first high frequency (HF) signal using a first HF radio, receiving the first HF signal with a first medium frequency (MF) repeater, converting the first HF signal to an MF signal using the first MF repeater, and sending the MF signal to one or more second MF repeaters located in an enclosed space. The method may include receiving the MF signal with the one or more second MF repeaters, converting the MF signal to a second HF signal using the one or more second MF repeaters, and sending the second HF signal to a second HF radio. Implementations of radio communication systems may utilize MF repeaters with MF antennas which may be omnidirectional.Type: ApplicationFiled: July 21, 2008Publication date: April 2, 2009Inventors: Douglas V. Limbaugh, Patrick A. Murphy, Brian L. Pease, Metthew J. Savoca, Geoffrey D. Simms