AJAX progress indicator
  • a

  • アン accelerometer is used to determine the position and orientation of a ドローン during flight. The accelerometer is used to provide the acceleration force the ドローン is subjected to in all three axes, X, Y, and Z. It also determines the tilt angle of the ドローン in a stationary position. The accelerometer also gives linear acceleration in the horizontal and vertical directions. This data can be used to calculate the velocity, movement, and even rate of change of altitude of the ドローン. Reference- Sensors Used in Drones
  • アコースティック counter-宇宙科学研究所 sensors are passive and use high-sensitivity microphone arrays coupled with audio analysis applications to 見つける, トラック そして 特定する sounds produced by UAV motors and propellers. The spinning of different types of UAV propellers produce unique アコースティック patterns, which makes it possible to create a library of these アコースティック signatures to 特定する different types of UAV and determine the general direction of the sound source. The approximate 場所 of a UAV can be determined using triangulation methods with multiple spatially separated microphone stations. By analyzing the Doppler-induced frequency shift of the source signal over a period of time, some C-UAS may be able to report the approximate speed and direction of the sound source. High levels of sound pollution, like those in urban environments, can degrade the performance of C-UAS that rely on アコースティック sensors. アコースティック sensors are ideally employed to “quiet” remote locations such as rural prisons or for border protection applications. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Acro-Mode is an "acrobatic" flight control mode for experienced ドローン pilots who want full control over the ドローン, also known as manual mode. Acro-Mode disables self-leveling controls, allowing for advanced aerial maneuvers such as flips and rolls. Reference- ドローン Tech Aerospace
  • 防空 includes defensive measures designed to destroy attacking aircraft and aerodynamic missiles or to nullify or reduce the effectiveness of such attack. It includes the use of aircraft, SAMs, antiaircraft artillery, electromagnetic warfare (EW) (including directed energy), multiple sensors, and other available weapons or capabilities. Reference- Counterair Operations
  • 防空 includes defensive measures designed to destroy attacking aircraft and aerodynamic missiles or to nullify or reduce the effectiveness of such attack. It includes the use of aircraft, SAMs, antiaircraft artillery, electromagnetic warfare (EW) (including directed energy), multiple sensors, and other available weapons or capabilities. Reference- Counterair Operations
  • Active defense measures are a multi-step sequence that an organization or individual can do to 見つける, 特定する, decide, and potentially engage an unknown 宇宙科学研究所. The quicker these steps can be applied, the more effective the response against the threat of 宇宙科学研究所. Reference- Counter-Unmanned Aircraft Systems (ATP 3-01.81)
  • アン 飛行場 is a defined area, on land or on water, on a fixed, fixed offshore, or floating structure, including any buildings, installations, and equipment thereon, intended to be used either wholly or in part for the arrival, departure, and surface movement of aircraft. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Above Ground Level, or AGL, describes the literal height above the ground over which you are flying. Reference- ドローン Pilot Ground School
  • Above Ground Level, or AGL, describes the literal height above the ground over which you are flying. Reference- ドローン Pilot Ground School
  • 航空・ミサイル防衛 (AMD) are direct (active and passive) defensive actions taken to destroy, nullify, or reduce the effectiveness of hostile air and ballistic missile threats against friendly forces and assets. Reference- U.S. Army 航空・ミサイル防衛 Operations  
  • 航空・ミサイル防衛 (AMD) are direct (active and passive) defensive actions taken to destroy, nullify, or reduce the effectiveness of hostile air and ballistic missile threats against friendly forces and assets. Reference- U.S. Army 航空・ミサイル防衛 Operations  
  • Air Defense Artillery (自動データ収集) are weapons and equipment for actively combating air targets from the ground. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • Air Defense Artillery (自動データ収集) are weapons and equipment for actively combating air targets from the ground. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • Air interdiction is defined as air operations to perform interdiction conducted at such distances from friendly forces that detailed integration of each air mission with the fire and movement of friendly forces is not required. Reference- ATP 3-01.81 Counter-Unmanned Aircraft Systems
  • アン 航空会社 is any public or private entity providing air navigation services for general air traffic. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • アン 航空会社 is any public or private entity providing air navigation services for general air traffic. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • 航空管制 is a service provided for a) preventing collisions between aircraft and in the maneuvering area between aircraft and obstructions and b) expediting and maintaining an orderly flow of air traffic. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • 航空管制 is a service provided for a) preventing collisions between aircraft and in the maneuvering area between aircraft and obstructions and b) expediting and maintaining an orderly flow of air traffic. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • アン 空港 is any land area specifically adapted for the landing, taking-off and maneuvering of aircraft, including the ancillary installations which these operations may involve for the requirements of aircraft traffic and services, including the installations needed to assist commercial air services. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • について airport environment are the conditions in which the 空港 activities operate. The airport environment refers to the areas inside the 空港 perimeter. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA  
  • アン airprox is a situation in which, in the opinion of a pilot or air traffic services personnel, the distance between aircraft and their relative positions and speeds has been such that the safety of the aircraft involved may have been compromised. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Airspace Control Authority is the commander or leader designated to assume overall responsibility for the operation of the airspace control system in the airspace control area. (JP 3-52) Reference- Airspace Control
  • について airspace control plan is a military term for the document approved by the joint force commander that provides specific planning guidance and procedures for the airspace control system for the joint operational area. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • Assess in the context of the ぼうくうミサイルぼうえい engagement sequence is the analysis of the effectiveness of the engagement and of the potential for reengagements. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • Atti-Mode (attitude-mode) is a DJI flight control mode that allows the ドローン pilot to control the ドローン's pitch and roll while the ドローン flight controller maintains its altitude and heading. This mode is often used for aerial photography and cinematography. Reference- ドローン Tech Aerospace
  • Autonomous flight is a navigation method in which the UAV is self-controlled by an internal navigation system using the built-in GPS, レーダー, or machine vision for obstacle avoidance, machine vision, and inertial navigation. Reference- ドローン Tech Aerospace
  • Aviation security is the combination of measures and human and material resources intended to safeguard civil aviation against acts of unlawful interference that jeopardize its security. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • b

  • A ballistic missile is any missile that does not rely upon aerodynamic surfaces to produce lift and consequently follows a ballistic trajectory when thrust is terminated. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • A barometer is a sensor that measures air pressure. Drones use the air pressure data to calculate their altitude. Reference- Sensors Used in Drones
  • The U.S. 連邦航空局(FAA) defines beyond visual line of sight (BVLOS) as a broad spread of existing and potential uncrewed aircraft system (UAS) operations whose only common factor is the uncrewed aircraft (UA) being out of the direct visual line of sight of the remote pilot. Reference- SKYbrary
  • The U.S. 連邦航空局(FAA) defines beyond visual line of sight (BVLOS) as a broad spread of existing and potential uncrewed aircraft system (UAS) operations whose only common factor is the uncrewed aircraft (UA) being out of the direct visual line of sight of the remote pilot. Reference- SKYbrary
  • The objective of the Blue Team or a Blue Team Operation is to defend the asset of interest or 場所 より レッドチーム attacks using all available technology, processes, and systems as stated within the Rules of Engagement (RoE), Security Operations (SecOps), Concept of Operations (CONOPS), and Standard Operating Procedures (SOP). Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • c

  • について C-UAS Protection Cycle are the basic concepts that support organizations in developing the minimum viable security needs which will give their asset or 場所 an adequate level of protection. All four phases of the C-UAS Protection Cycle contribute to the overall C-UAS Strategy that will govern an asset or 場所 protection. C-UAS Protection cycle & strategy (Image Credit: Project Stadia)   Protection Phase 1: focuses on developing the processes that will be used to manage and respond to 宇宙科学研究所 threats. Protection Phase 2: examines the various C-UAS technologies that are available to mitigate these risks. Protection Phase 3: tests the operational procedures and deployed C-UAS technologies through Red Teaming adversarial testing to ensure all operational procedures (phase 1) and implemented C-UAS technology (phase 2) are effective as an overall defense of an asset or 場所. Protection Phase 4: highlights tactical responses and processes training needs identified (from Phases 1-3), ensuring that those responsible for security are fully equipped and confident to handle any 宇宙科学研究所 threat. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • A C-UAS Technology Assessment is the process of identifying counter-宇宙科学研究所 requirements and equipment based on the organization's 脅威評価, operating procedures, and response plans. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • C-UAS Technology Operators use the counter-宇宙科学研究所 technology deployed over the asset to defend against 宇宙科学研究所 または ドローン threats. These operators follow organizational policies, procedures, and training to use the designated equipment and its capabilities. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • A Careful UAS Operator is someone that is aware of and adheres to, regulations, ドローン control measures, and safe ドローン operations. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • A Careless UAS Operator may be aware of but may not adhere to regulations and ドローン control measures and whose intentions are deemed to be reckless. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • 分類 characterizes a detected object by its type, model, variant, nationality, and other distinguishing features or attributes. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • 分類 (or classify) is the assignment by the C-UAS technology (either autonomously or by an operator) of a potential target 宇宙科学研究所 to a high-level category such as 宇宙科学研究所 type, group, manufacturer and/or specific communication protocol. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • Clueless 宇宙科学研究所 Operators are 宇宙科学研究所 または ドローン operators who are unaware of and do not adhere to regulations, 宇宙科学研究所 control measures, or safe 宇宙科学研究所 operations but whose intentions are deemed non-malicious. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • A collision droneドローン designed to collide with an adversary ドローン. The objective is to disrupt, disable or destroy the adversary ドローン. Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • 宇宙科学研究所 Command and Control (C2) is a hardware and software subsystem that permits transmittal of instructions from the GCS に対する UAV, which generally leads to changes in the operation of the UAV. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • 宇宙科学研究所 Command and Control (C2) is a hardware and software subsystem that permits transmittal of instructions from the GCS に対する UAV, which generally leads to changes in the operation of the UAV. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Concept of Operations (CONOPS) is the procedure that determines a particular operation's objectives. It is crucial to have a CONOPS in place to determine the goals and objectives of the operations as well as a clear set of guidelines. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • Concept of Operations (CONOPS) is the procedure that determines a particular operation's objectives. It is crucial to have a CONOPS in place to determine the goals and objectives of the operations as well as a clear set of guidelines. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • Controlled airspace is an airspace of defined dimensions within which 航空交通管制 service is provided in accordance with the airspace 分類. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • カウンター宇宙科学研究所 is the deployment and use of logical, legally authorized technologies, tactics, techniques, and procedures to provide airspace awareness and protection to critical infrastructure, assets, and mass gatherings. Reference- What is Counter-宇宙科学研究所?
  • カウンター宇宙科学研究所 is the deployment and use of logical, legally authorized technologies, tactics, techniques, and procedures to provide airspace awareness and protection to critical infrastructure, assets, and mass gatherings. Reference- What is Counter-宇宙科学研究所?
  • A Criminal UAS OperatorUAS operator who may be aware of, but does not adhere to, regulations and 宇宙科学研究所 control measures and whose intentions are deemed hostile. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • Critical Infrastructure (CI) are those assets, systems, and networks that provide functions necessary for our way of life. In the United States, 16 critical infrastructure sectors are part of a complex, interconnected ecosystem and any threat to these sectors could have potentially debilitating national security, economic, and public health or safety consequences. Reference- CISA Critical Infrastructure Sectors
  • Critical Infrastructure (CI) are those assets, systems, and networks that provide functions necessary for our way of life. In the United States, 16 critical infrastructure sectors are part of a complex, interconnected ecosystem and any threat to these sectors could have potentially debilitating national security, economic, and public health or safety consequences. Reference- CISA Critical Infrastructure Sectors
  • d

  • 眩しい宇宙科学研究所 または ドローン mitigation technique where a high-intensity light beam or レーザー is used to "blind" the camera on a ドローン. Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • A 検出 is a declaration that a 宇宙科学研究所 is in the presence of a sensor. Some systems, depending on how thresholds are configured, may report any object in its view as a 検出 (i.e., birds, commercial planes, etc.), or they may attempt to only alert the operator of objects deemed to be considered 宇宙科学研究所, based on system capabilities and configuration. Sensors can include EO/IR cameras, アコースティック sensors, radars, and radio frequency (RF) 検出 sensors. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • 検出と回避 (DAA) refers to the capability to see, sense, or 見つける conflicting traffic or other hazards and take the appropriate action. Reference- Unmanned Aircraft Systems Traffic Management (UTM)- A Common Framework with Core Principles for Global Harmonization
  • 検出と回避 (DAA) refers to the capability to see, sense, or 見つける conflicting traffic or other hazards and take the appropriate action. Reference- Unmanned Aircraft Systems Traffic Management (UTM)- A Common Framework with Core Principles for Global Harmonization
  • DTI を組み合わせたフレーズの略称である。 検出, トラックそして 特定する. 検出 is the ability to sense and classify the presence of a 宇宙科学研究所. トラック is the ability to determine the 宇宙科学研究所 position and movement over time. 特定する is the ability to determine the size and type (fixed wing, multirotor) of a 宇宙科学研究所. Reference- Counter-宇宙科学研究所 技術ガイド
  • DTI を組み合わせたフレーズの略称である。 検出, トラックそして 特定する. 検出 is the ability to sense and classify the presence of a 宇宙科学研究所. トラック is the ability to determine the 宇宙科学研究所 position and movement over time. 特定する is the ability to determine the size and type (fixed wing, multirotor) of a 宇宙科学研究所. Reference- Counter-宇宙科学研究所 技術ガイド
  • について アコースティック 検出 range is the reported straight-line distance that an アコースティック signature should be able to 見つける a UAV. This parameter may often represent ideal conditions (e.g., a very loud UAV operating in a very quiet environment). Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • について 検出 range for EO/IR cameras is the reported distance that an EO/IR camera is capable of reporting a 検出 to the operator of a UAV. It can also be interpreted as the distance at which the operator can reasonably discern a UAV from other unidentified flying objects or the furthest distance that integrated video analytics software can classify an object as a UAV. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • 検出 range for radars describes the straight line distance at which a レーダー system can 見つける a UAV. This specification is often provided in meters, kilometers, or miles. The material, size, and type of UAV can cause this distance to vary even under similar environmental conditions. Manufacturer specifications for 検出 range are usually under ideal circumstances. They should be verified with real-world testing to ensure they meet agency requirements. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Many factors affect RF sensor 検出 range. These include terrain, LOS to the target or lack of it, RF interference environment, and RF reflecting surfaces (e.g., buildings creating multipath). Because of these complications, vendors usually specify 検出 range as a measure of 検出 distance under ideal conditions. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Directed energy weapons (DEW)—such as lasers—use energy fired at the speed of light. These weapons can produce a force that ranges from deterrent to damaging to destructive. Many countries, including the U.S., are researching their use. Because they use energy instead of bullets or missiles, directed energy weapons could be less expensive per shot and have virtually unlimited firing power. However, the long-term health effects of these weapons are unclear. They also generally have a shorter range than conventional weapons, and weather conditions—such as fog and storms—can make certain directed energy weapons less effective. Reference- Government Accountability Office
  • Directed energy weapons (DEW)—such as lasers—use energy fired at the speed of light. These weapons can produce a force that ranges from deterrent to damaging to destructive. Many countries, including the U.S., are researching their use. Because they use energy instead of bullets or missiles, directed energy weapons could be less expensive per shot and have virtually unlimited firing power. However, the long-term health effects of these weapons are unclear. They also generally have a shorter range than conventional weapons, and weather conditions—such as fog and storms—can make certain directed energy weapons less effective. Reference- Government Accountability Office
  • Most single-site RF direction-finding sensors are capable of determining the approximate direction from which the target signal was received. This is specified in azimuth degrees referenced to true north. The accuracy of this indication is also specified in degrees as a window. For example, ±5 degrees accuracy means that the target source can be anywhere in the specified direction ±5 degrees. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • In the context of the ドローン事件 Management Manual for Aerodromes, the sighting of a suspected ドローン becomes a drone incident, when the verified ドローン has no clearance and has moved into or is present inside the flight-restricted zone (possibly declared as 宇宙科学研究所 geographical zone) and is therefore located in one of the “threat zones” at or around the 飛行場 for which the ドローン is not authorized. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • A drone operator is also known as a UAS operator または remote pilot. A drone operator is someone operating or intending to operate one or more drones. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • e

  • EO/IR sensors are digital video cameras that collect environmental information in the visible and infrared light spectrum. This generally incorporates electromagnetic radiation with wavelengths between 400 nanometers and 1 millimeter. IR sensors can be tuned to look specifically at short-wavelength IR, mid-wavelength IR, long-wavelength IR or a combination of the above. When EO/IR sensors are placed on a rotating gimbal and paired with analysis software, these systems are capable of providing wide-area coverage by acquiring and processing real-time full panoramic images. Furthermore, some of these systems are capable of automatically detecting and トラッキング 宇宙科学研究所 targets when paired with the appropriate analysis software. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • EO/IR sensors are digital video cameras that collect environmental information in the visible and infrared light spectrum. This generally incorporates electromagnetic radiation with wavelengths between 400 nanometers and 1 millimeter. IR sensors can be tuned to look specifically at short-wavelength IR, mid-wavelength IR, long-wavelength IR or a combination of the above. When EO/IR sensors are placed on a rotating gimbal and paired with analysis software, these systems are capable of providing wide-area coverage by acquiring and processing real-time full panoramic images. Furthermore, some of these systems are capable of automatically detecting and トラッキング 宇宙科学研究所 targets when paired with the appropriate analysis software. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • Electronic Surveillance Measures is a technology method that uses RF receivers to passively listen and process radio signals of interest within its range. ESM systems are receive-only and do not transmit out. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Electronic Surveillance Measures is a technology method that uses RF receivers to passively listen and process radio signals of interest within its range. ESM systems are receive-only and do not transmit out. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • アン Emergency Response Plan (ERP) will detail how and who will be active and in what roles during an incident over an asset, event, or public space. This document should detail the key stakeholders involved, when, and, most particularly, how each engages by clearly stating the roles and responsibilities of each key stakeholder within the process of an active emergency. The stakeholders’ engagement level will depend on the severity of the incident and the consequent outcome. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • アン Emergency Response Plan (ERP) will detail how and who will be active and in what roles during an incident over an asset, event, or public space. This document should detail the key stakeholders involved, when, and, most particularly, how each engages by clearly stating the roles and responsibilities of each key stakeholder within the process of an active emergency. The stakeholders’ engagement level will depend on the severity of the incident and the consequent outcome. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • f

  • The Federal Aviation Administration is a national authority with powers to regulate all aspects of civil aviation. These include the construction and operation of airports, air traffic management, the certification of personnel and UAV and the protection of U.S. assets during the launch or re-entry of commercial space vehicles. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • The Federal Aviation Administration is a national authority with powers to regulate all aspects of civil aviation. These include the construction and operation of airports, air traffic management, the certification of personnel and UAV and the protection of U.S. assets during the launch or re-entry of commercial space vehicles. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • The Federal Communications Commission is an independent agency of the U.S. government that was created to regulate interstate communications by radio, television, wire, satellite, and cable. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • The Federal Communications Commission is an independent agency of the U.S. government that was created to regulate interstate communications by radio, television, wire, satellite, and cable. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Field of regard describes the total area captured by the レーダー sensor after it has completed its mechanical rotations or electronically steered scans.  レーダー antennas can be mechanically rotated or electronically steered to scan a wide area of interest (up to 360 degrees). When choosing a レーダー, it is important to understand how the type of レーダー employed relates to the area covered, both in the horizontal and vertical plane. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Field of View (FOV) is a term used to describe the limits in both the vertical and horizontal direction that an EO/IR sensor is able to see in a single instance. This parameter is often specified in degrees for horizontal and vertical planes. Some manufacturers may mount EO/IR cameras on a rotating platform and report a horizontal field of view of 360 degrees. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Field of View (FOV) is a term used to describe the limits in both the vertical and horizontal direction that an EO/IR sensor is able to see in a single instance. This parameter is often specified in degrees for horizontal and vertical planes. Some manufacturers may mount EO/IR cameras on a rotating platform and report a horizontal field of view of 360 degrees. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • First-Person-View (FPV) flying is the ability to control a UAV from a “pilot’s eye” perspective through an onboard camera and ground-based receiving and viewing equipment. The viewing equipment is usually a set of video goggles or video screen. Reference- UK Civil Aviation Authority
  • First-Person-View (FPV) flying is the ability to control a UAV from a “pilot’s eye” perspective through an onboard camera and ground-based receiving and viewing equipment. The viewing equipment is usually a set of video goggles or video screen. Reference- UK Civil Aviation Authority
  • A flight path is a single path depicting where an aircraft or ドローン intends to fly, or has already flown. Reference- Law Insider
  • A flight restriction zone is a zone where ドローン operations are subject to approval or subject to a prohibition or limitation. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Radars are active sensors that transmit electromagnetic energy across a specific range of frequencies. This frequency bandwidth parameter is often specified in hertz or by the Institute of Electrical and Electronics Engineers (IEEE) Standard Letter Designation (521- 2002 - IEEE Standard Letter Designations for レーダー-Frequency Bands , 2003). Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Frequency Difference of Arrival (FDOA) is a technique for estimating the 場所 of a moving radio emitter based on Doppler frequency shift observed from multiple 場所 points. The FDOA emitter target must be in relative motion with respect to each observation point. Time Difference of Arrival (ティーディーオーエー) and FDOA are sometimes used together to improve 場所 accuracy. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Frequency Difference of Arrival (FDOA) is a technique for estimating the 場所 of a moving radio emitter based on Doppler frequency shift observed from multiple 場所 points. The FDOA emitter target must be in relative motion with respect to each observation point. Time Difference of Arrival (ティーディーオーエー) and FDOA are sometimes used together to improve 場所 accuracy. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • g

  • Geofencing is a virtual barrier around predefined areas of airspace. It is manufacturer-specific and, therefore, does not affect UAVs manufactured by someone else. Reference- UK National Protective Security Authority
  • ジオロケーション is when two or more RF sensors are set up at different locations within the area of interest; it allows for approximate 場所 in two or more dimensions, as opposed to just the direction of the target UAV and/or GCS. There are different ways that a system may display this information, for example, two or more intersecting lines of bearing, a marker on a map, a circle on a map, a heat map with varying color gradients, etc. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Geospatial intelligence (GEOINT) is composed of imagery and geospatial information systems (GIS) and is a key component for building a complete threat risk assessment. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • Geospatial intelligence (GEOINT) is composed of imagery and geospatial information systems (GIS) and is a key component for building a complete threat risk assessment. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • Gigahertz is a unit of measure for a number of cycles per second (frequency) where 1 GHz equals a billion cycles per second. In the context of 宇宙科学研究所, GHz is used to describe frequency bands of the radio spectrum used for 宇宙科学研究所 communications or control. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Gigahertz is a unit of measure for a number of cycles per second (frequency) where 1 GHz equals a billion cycles per second. In the context of 宇宙科学研究所, GHz is used to describe frequency bands of the radio spectrum used for 宇宙科学研究所 communications or control. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • について Global Navigation Satellite System (GNSS) is a general term to describe a satellite system that is used to pinpoint the geographic 場所 of a user’s receiver anywhere in the world. GNSS can refer to the BeiDou Navigation Satellite System (BDS), Galileo, GLONASS, GPS, etc. Reference- UK National Protective Security Authority
  • について Global Navigation Satellite System (GNSS) is a general term to describe a satellite system that is used to pinpoint the geographic 場所 of a user’s receiver anywhere in the world. GNSS can refer to the BeiDou Navigation Satellite System (BDS), Galileo, GLONASS, GPS, etc. Reference- UK National Protective Security Authority
  • Global Positioning System (GPS), originally called Navstar GPS, is a satellite-based radio navigation system owned by the U.S. government and operated by the U.S. Air Force. Using signals from multiple satellites positioned worldwide, a receiver and algorithms provide 場所, velocity, and time synchronization for air, sea, and land objects. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Global Positioning System (GPS), originally called Navstar GPS, is a satellite-based radio navigation system owned by the U.S. government and operated by the U.S. Air Force. Using signals from multiple satellites positioned worldwide, a receiver and algorithms provide 場所, velocity, and time synchronization for air, sea, and land objects. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • GNSS または GPSジャミング is a counter-宇宙科学研究所 mitigation technique that disrupts the ドローン's satellite link, such as GPS or GLONASS, which is used for navigation. Drones that lose their satellite link will usually hover in place, land, or return to home (if it can). Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • A 地上管制所(GCS) allows the pilot to remotely control and/or monitor the operation of the UAV. Reference- UK National Protective Security Authority
  • A 地上管制所(GCS) allows the pilot to remotely control and/or monitor the operation of the UAV. Reference- UK National Protective Security Authority
  • A gyroscope is a tool for measuring and maintaining the ドローン's orientation. This is especially important for drones that are used for aerial photography, as they need to remain stable and level to capture the best images. Gyroscopes are frequently combined with accelerometers, which measure linear acceleration. These two components work together to give the ドローン the information it needs to determine its position and orientation in three-dimensional space. The use of gyroscope technology aids in the maintenance of a stable hover. The gyroscope detects any wayward drifting or wobbling by the ドローン when there is no input from the pilot. This data is then sent to a controller instructing the ドローン’s motors to counteract unwanted movements. The Gyroscope sensor detects angular velocity in three axes. It can 見つける the angle change rate Pitch, Roll, and Yaw. Gyroscopes also ensure that drones rotate at the exact angle user controls expect. Reference- Sensors Used in Drones
  • h

  • ハイパワーマイクロ波 (HPM) is a counter-宇宙科学研究所 または カウンタードローン mitigation technique that directs pulses of high-intensity microwave energy at the ドローン, disabling the aircraft's electronic systems. Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • ハイパワーマイクロ波 (HPM) is a counter-宇宙科学研究所 または カウンタードローン mitigation technique that directs pulses of high-intensity microwave energy at the ドローン, disabling the aircraft's electronic systems. Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • i

  • 識別 または 特定する is the assignment by the C-UAS technology (either autonomously or by an operator) of a 宇宙科学研究所 to a more specific name or category, such as physical address of its modem, or the exact make/model of the 宇宙科学研究所. Note that the terms, classify そして 特定する, are often used interchangeably, but can have different meanings for different audiences. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • Image Resolution is a parameter that specifies how much fine detail an image has. Image resolution is often reported as width in pixels by height in pixels. For example, 1280 x 720 means the width of an image contains 1280 pixels, and the height of the image contains 720 pixels. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Industrial, Scientific, and Medical, or ISM refers to a group of radio bands (frequencies) or parts of the radio spectrum that are internationally reserved for RF energy intended for scientific, medical, and industrial requirements. In the United States, this usually includes 433 MHz, 915 MHz, 1.2 GHz, 2.4 GHz, and 5.8 GHz bands. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Industrial, Scientific, and Medical, or ISM refers to a group of radio bands (frequencies) or parts of the radio spectrum that are internationally reserved for RF energy intended for scientific, medical, and industrial requirements. In the United States, this usually includes 433 MHz, 915 MHz, 1.2 GHz, 2.4 GHz, and 5.8 GHz bands. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • アン Inertial Measurement Unit (IMU) is an electronic device that measures acceleration and rotation that can be used to calculate position and velocity. IMUs are the main component of the inertial navigation systems commonly used in aircraft, unmanned aerial vehicles (UAVs), and other unmanned systems, missiles, and even satellites. An IMU typically consists of: Accelerometers: Measure angular velocity. Gyroscopes: Measure angular rate. Magnetometers (optional): measurement of the magnetic field surrounding the system An IMU with strong vibration resistance and good performance will enhance ドローン flight performance. Reference- Sensors Used in Drones
  • アン Inertial Measurement Unit (IMU) is an electronic device that measures acceleration and rotation that can be used to calculate position and velocity. IMUs are the main component of the inertial navigation systems commonly used in aircraft, unmanned aerial vehicles (UAVs), and other unmanned systems, missiles, and even satellites. An IMU typically consists of: Accelerometers: Measure angular velocity. Gyroscopes: Measure angular rate. Magnetometers (optional): measurement of the magnetic field surrounding the system An IMU with strong vibration resistance and good performance will enhance ドローン flight performance. Reference- Sensors Used in Drones
  • l

  • In terms of counter-宇宙科学研究所 または カウンタードローン technology, a レーザーmitigation tool that destroys vital segments of the ドローン's airframe using directed energy, causing it to crash to the ground. Reference- Bard College for the Center of the ドローン- カウンター・ドローン Systems (2nd Edition)
  • Line of Bearing (LOB) as it relates to counter-宇宙科学研究所, is a direction in degrees from true north where a potential UAV and/or GCS target is being detected. It is usually displayed in the shape of a wedge of varying width with its origin in the 場所 of the system detecting the target. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Line of Bearing (LOB) as it relates to counter-宇宙科学研究所, is a direction in degrees from true north where a potential UAV and/or GCS target is being detected. It is usually displayed in the shape of a wedge of varying width with its origin in the 場所 of the system detecting the target. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Line of Sight (LOS) is a straight line along which an observer has unobstructed vision. Reference- UK National Protective Security Authority
  • Line of Sight (LOS) is a straight line along which an observer has unobstructed vision. Reference- UK National Protective Security Authority
  • A 場所 is a static estimated report or display of where a GCS または UAV is located at a given moment. The display to the operator of the C-UAS technology can take on many forms, e.g., a heat map display, quadrant alert, or circle to indicate estimated center and 場所 error or line of bearing (LOB). Reference: DHS Counter-宇宙科学研究所 技術ガイド
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  • A magnetometer measures a magnetic field’s intensity and direction. It gives data on the magnetic field in three X, Y, and Z. This helps the ドローン determine the magnetic north and change its course accordingly. Apart from direction sensing, magnetic sensors can also 見つける surrounding magnetism and ferro-metals, such as electricity poles, wires, vehicles, other drones, etc., to help avoid an accident. Reference- Sensors Used in Drones
  • Megahertz is a unit of measure for a number of cycles per second (frequency) where 1 MHz equals a million cycles per second. In the context of 宇宙科学研究所, MHz is used to describe frequency bands of the radio spectrum used for 宇宙科学研究所 communications or control. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Megahertz is a unit of measure for a number of cycles per second (frequency) where 1 MHz equals a million cycles per second. In the context of 宇宙科学研究所, MHz is used to describe frequency bands of the radio spectrum used for 宇宙科学研究所 communications or control. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • 軽減する または mitigation is often used interchangeably with negate, interdict, or neutralize. It describes the methods used to remove or reduce the threat posed by a 宇宙科学研究所. These methods include technical means, such as RF または GPS jamming, なりすまし/hijacking, and kinetic attack; however, these technical methods are likely not legal for any entity other than DHS, DOJ, DOD or DOE to conduct. 緩和 may also include any capability or action associated with finding the SUAS operator and having that person safely land the SUAS, which would likely be permissible if the underlying 検出 system can be lawfully operated with Federal surveillance laws, as well as FCC そして 連邦航空局 regulatory standards and requirements. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • Mean Sea Level or MSL is your true altitude or elevation. It is the average height above standard sea level where the atmospheric pressure is measured to calibrate altitude. Reference- ドローン Pilot Ground School
  • Mean Sea Level or MSL is your true altitude or elevation. It is the average height above standard sea level where the atmospheric pressure is measured to calibrate altitude. Reference- ドローン Pilot Ground School
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  • The Federal Aviation Administration uses the term "ドローン禁止区域" to help people 特定する areas where they cannot operate a ドローン or unmanned aircraft system (宇宙科学研究所). The operating restrictions for a ドローン禁止区域 are specific to a particular 場所. Reference- ドローン禁止区域
  • 飛行禁止区域 (NFZ) are designated areas around areas such as airports, military bases, prisons, stadiums, and other critical infrastructure in which aircraft are unable to operate unless given special authorization by the appropriate authority. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • 飛行禁止区域 (NFZ) are designated areas around areas such as airports, military bases, prisons, stadiums, and other critical infrastructure in which aircraft are unable to operate unless given special authorization by the appropriate authority. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • A non-cooperative droneドローン/ 宇宙科学研究所 exhibiting behavior to suggest non-compliance with applicable rules and regulations, including, for instance, flight operations in restricted airspace or carriage of non-permitted payload, or failure to interact with ATC (e.g., responding to instructions, providing 識別). Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • p

  • Passive Radars are radio-detecting and ranging systems that trace and 見つける objects by relying on signals transmitted from locations other than the reception antennas. These レーダー systems are bistatic in nature because they calculate the delay from the time the signal is received from the antenna and the time the signal is reflected off a target 場所. The target locations are known as non-cooperative sources of illumination in the environment. Reference- https://www.aecl.com/en/defense-aerospace/passive-レーダー-system/
  • Passive RF sensors rely on antennas to receive and computers to analyze RF signals associated with communications between the GCS そして UAV. Systems that use passive RF sensors as their primary sensor are sometimes referred to as ESM. Passive RF sensors analyze the radio signatures and modulations specific to 宇宙科学研究所 signals and are capable of identifying certain 宇宙科学研究所 models and manufacturers as well as locating the signal’s transmission origin–the UAV and/or the GCS. Most C-UAS that rely primarily on passive RF sensors use libraries of known 宇宙科学研究所 radio signatures and compare detected signals to those in the library in order to classify または 特定する 宇宙科学研究所. Signature libraries may be periodically updated to include additional 宇宙科学研究所 signatures and update existing signatures. Passive RF sensors can employ several different signal-processing methods to help locate the source of a 宇宙科学研究所-associated signal. The more common methods are: • Direction Finding (DF) • Received Signal Strength Indicator (RSSI) • Time Difference of Arrival (ティーディーオーエー) • Frequency Difference of Arrival (FDOA) Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • A payload is an instrument, mechanism, equipment, part, apparatus, appurtenance, or accessory, including communications equipment, that is installed in or attached to the aircraft (or ドローン) and is not used or intended to be used in operating or controlling an aircraft (or ドローン) in flight, and is not part of an airframe, engine, or propeller. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Positive identification (PID) is derived from observation and analysis of target characteristics, including visual recognition, electronic support systems, non-cooperative target recognition techniques, 識別 friend or foe systems, or other physics-based 識別 techniques. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • Positive identification (PID) is derived from observation and analysis of target characteristics, including visual recognition, electronic support systems, non-cooperative target recognition techniques, 識別 friend or foe systems, or other physics-based 識別 techniques. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
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  • An Active レーダー operates by transmitting a radio signal of known frequency and power in a focused direction and then detecting the reflected signal that is bounced back from the target. Doppler radars are the most common type of レーダー used in C-UAS technologies. Doppler radars differentiate the return signal based on a frequency shift from the original transmitted frequency,. which allows the レーダー to dismiss the 検出 of stationary objects. Radars can be two-dimensional (2D) or three-dimensional (3D); 2D radars provide direction and distance to the target, while 3D radars also provide the target’s altitude. Two-dimensional radars typically use a single antenna that rotates to cover the desired field of view. These radars may provide the 宇宙科学研究所’s distance from the レーダー (or the target’s range) and its bearing or azimuth (degrees from true North in the horizontal plane). Three-dimensional radars use phased array stationary antenna panels with multiple internal antennas (array) on a single panel. This type of レーダー can change the direction of the RF signal it emits by manipulating the phase of the signal emitted by each of the internal antenna elements–much like focusing a lens on a camera. Reference- DHS Counter-宇宙科学研究所 技術ガイド  
  • Radio Frequency or RF refers to the oscillatory change in a circuit, waveguide, or transmission line in the range from around 20,000 times per second (20 kHz) to around 300 billion times per second (300 GHz), roughly between the upper limit of audio and the lower limit of infrared light. Under certain conditions, RF becomes radio waves of electromagnetic radiation. These waves can propagate at the speed of light, over large distances, and through various materials, air, and even the vacuum of space. Reference- DHS Counter-宇宙科学研究所 Technology Guide Radio frequency also refers to the commonly used communications bands that a 宇宙科学研究所 uses to communicate between the GCS そして UAV. Reference- UK National Protective Security Authority
  • Radio Frequency or RF refers to the oscillatory change in a circuit, waveguide, or transmission line in the range from around 20,000 times per second (20 kHz) to around 300 billion times per second (300 GHz), roughly between the upper limit of audio and the lower limit of infrared light. Under certain conditions, RF becomes radio waves of electromagnetic radiation. These waves can propagate at the speed of light, over large distances, and through various materials, air, and even the vacuum of space. Reference- DHS Counter-宇宙科学研究所 Technology Guide Radio frequency also refers to the commonly used communications bands that a 宇宙科学研究所 uses to communicate between the GCS そして UAV. Reference- UK National Protective Security Authority
  • Received Signal Strength Indicator, or RSSI, is a measurement of the power or energy present in a received radio signal, measured in milliwatts or decibels, which are referenced to 1 milliwatt. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Received Signal Strength Indicator, or RSSI, is a measurement of the power or energy present in a received radio signal, measured in milliwatts or decibels, which are referenced to 1 milliwatt. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • A レッドチーム または Red Teaming Operation consists of a series of teams, each executing specific tasks under the roles of an attack operation, defense/mitigate, command, or observation. Using a Red Teaming Operation to validate the operational procedures of an organization to ドローン threat incursions over an asset, event, or public space is a valuable tool for all teams and stakeholders to determine capacity building. The レッドチーム behaves as the physical (in-field) threat actors and attacks the asset(s) of interest. This team can be made up of participants who are external or internal to the organization. It is beneficial to have an external element to the composition of the レッドチーム to ensure neutrality and an unbiased appraisal of operational procedures to be tested. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • A remote pilot is a person responsible for safely conducting the flight of an unmanned aircraft by operating its flight controls, either manually or, when the unmanned aircraft flies automatically, by monitoring its course and remaining able to intervene and change the course at any time. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • A remotely piloted aircraft is an unmanned aircraft that is flown from a remote pilot station. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • について restricted area is an airspace of defined dimensions above the land areas or territorial waters of a State, within which the aircraft's flight is restricted per certain specified conditions. Reference- Unmanned Aircraft Systems Traffic Management (UTM)- A Common Framework with Core Principles for Global Harmonization
  • Radio Frequency (RF) Jamming is a 宇宙科学研究所 mitigation technique where the system attempts to disrupt the RF link between the ドローン and its operator by generating large volumes of RF interference. Once the RF link (which can include Wi-Fi links) is severed, a ドローン will usually either descend to the ground or initiate a ‘return-to-home' maneuver. However, this technique has no effect against drones that operate without an active RF link. Many signal jammers also have a limited effective range of a few hundred meters, meaning that the system must be very close to the intruding 宇宙科学研究所 への mitigate its threats successfully, and they are not effective without a direct line of sight to the 宇宙科学研究所. Jammers capable of operating at long ranges and beyond line of sight must be significantly more powerful, but more powerful jammers also pose a higher risk of interference to legitimate communications. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • リスク管理 is an element of the 宇宙科学研究所 threat process that applies the findings from the threat integration and the threat analysis to evaluate the CI site’s specific risks and corresponding mitigation measures in depth. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • In military terms, rules of engagement (ROE) are directives issued by a competent military authority that delineate the circumstances and limitations under which a military force will initiate and/or continue combat engagement with other forces encountered. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
  • In military terms, rules of engagement (ROE) are directives issued by a competent military authority that delineate the circumstances and limitations under which a military force will initiate and/or continue combat engagement with other forces encountered. Reference- U.S. Army 航空・ミサイル防衛 オペレーション
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  • A Safety Management System (SMS) is a systematic approach to managing aviation safety, including the necessary organizational structures, accountabilities, policies, and procedures, and includes any management system that, independently or integrated with other management systems of the organization, addresses the management of safety. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • A Safety Management System (SMS) is a systematic approach to managing aviation safety, including the necessary organizational structures, accountabilities, policies, and procedures, and includes any management system that, independently or integrated with other management systems of the organization, addresses the management of safety. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Safety Risk Management (SRM) encompasses assessing and mitigating safety risks. Safety リスク管理 aims to assess the risks associated with identified hazards and develop and implement effective and appropriate mitigations. Therefore, Safety リスク管理 is a key component of the safety management process at the State and product/service provider levels. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Safety Risk Management (SRM) encompasses assessing and mitigating safety risks. Safety リスク管理 aims to assess the risks associated with identified hazards and develop and implement effective and appropriate mitigations. Therefore, Safety リスク管理 is a key component of the safety management process at the State and product/service provider levels. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • Scan rate for EO/IR cameras describes how fast a FOV can be scanned. This parameter is often reported in either degrees per second or hertz if the system is designed to complete full 360-degree rotations. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Scan rate refers to how fast a レーダー can scan an entire area of interest (usually 360 degrees), specified in hertz (Hz). For example, 2 Hz means it scans the area twice every second. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Segregated airspace is the airspace of specified dimensions allocated for exclusive use to a specific user(s). Reference- Unmanned Aircraft Systems Traffic Management (UTM)- A Common Framework with Core Principles for Global Harmonization
  • Short-range 防空 (SHORAD) provides 防空 against low-altitude airborne threats. Reference- U.S. Army 航空・ミサイル防衛 脅威
  • Short-range 防空 (SHORAD) provides 防空 against low-altitude airborne threats. Reference- U.S. Army 航空・ミサイル防衛 脅威
  • Small Uncrewed Aircraft Systems, or SUAS, are systems with UAVs weighing less than 55 pounds at take-off. These UAVs are propeller-driven, powered by one or multiple electric motors, and use an on-board rechargeable battery. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Small Uncrewed Aircraft Systems, or SUAS, are systems with UAVs weighing less than 55 pounds at take-off. These UAVs are propeller-driven, powered by one or multiple electric motors, and use an on-board rechargeable battery. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • スプーフィング宇宙科学研究所 mitigation technique where the system attempts to take control of or misdirect the targeted 宇宙科学研究所 by feeding it a spurious communication or navigation link. スプーフィング systems, however, are technically very difficult to build and implement and may not be universally effective against all 宇宙科学研究所. Unmanned aircraft that have been built with protected communication links, for example, could be resistant to なりすまし attacks. Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
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  • A 脅威評価 is the estimation of the probability for an attack to be enacted against a target during a specific time frame, which will help to determine the threat level that a 宇宙科学研究所 may pose and will help decision-makers select the appropriate and most effective countermeasure. Reference- ドローン事件 Management at Aerodromes on C-UAS Hub or EASA
  • 脅威の特定 involves identifying potential means and methods of attack and includes the assessment of current (if any) protective measures, the 識別 of vulnerabilities in the examined asset against the considered 宇宙科学研究所 attack tactic and the production of attack scenarios. Reference- Protection against Unmanned Aircraft Systems
  • Red, Amber, and Green threat levels are a set of 'traffic light' security protocols on engaging a 宇宙科学研究所 または ドローン threat and when it is deemed a threat in the context of a stadium or other mass gathering. Green- No impact- monitor. An issue that occurs outside routine activity and does not disrupt operations. Amber- Enhanced state. An issue that causes or could cause disruption. Neutralization by counter-宇宙科学研究所 technology or other methods is probable. Red- 検出 and respond—a significant issue or incident causing an emergency or major disruption. Neutralization by counter-宇宙科学研究所 technology or other methods has failed, and evacuations or other public safety measures are to be activated. Reference- Stadia Protection and 緩和 より ドローン Incursion and Threats
  • Time Difference of Arrival, or ティーディーオーエー, is a method to accurately locate a UAV, GCS, or a radio wave emitter by measuring the ティーディーオーエー of a signal from the emitter at three or more time-synchronized receiver sites or, conversely, the signals from three or more time-synchronized emitters at one receiver 場所 (navigation application, e.g., GPS). Reference- Counter-宇宙科学研究所 技術ガイド
  • Time Difference of Arrival, or ティーディーオーエー, is a method to accurately locate a UAV, GCS, or a radio wave emitter by measuring the ティーディーオーエー of a signal from the emitter at three or more time-synchronized receiver sites or, conversely, the signals from three or more time-synchronized emitters at one receiver 場所 (navigation application, e.g., GPS). Reference- Counter-宇宙科学研究所 技術ガイド
  • A トラック または トラッキング is a compilation of 場所 reports for a ドローン over a period of time. Tracks can be displayed for GCS and/or UAVs. Generally, it is displayed as a line or a sequence of dots. Reference: DHS Counter-宇宙科学研究所 技術ガイド
  • Transmit Power is the radio energy transmitted by a レーダー antenna, or other systems, such as ドローン mitigation systems or UAV ground control stations, every second. It is measured in watts (W) and can be as high as several hundred watts. Safe standoff distance is highly dependent on specific レーダー transmission parameters, such as transmit power, and is usually specified by the manufacturer. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • u

  • An Uncrewed Aerial Vehicle, or UAV, also referred to as a ドローン, is an aircraft without an onboard human pilot that can fly either by remote control from a human operator or autonomously using onboard sensors. UAVs are a component of a 宇宙科学研究所を含む。 GCS and a system of communications—also called an Unmanned Aerial Vehicle. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • An Uncrewed Aerial Vehicle, or UAV, also referred to as a ドローン, is an aircraft without an onboard human pilot that can fly either by remote control from a human operator or autonomously using onboard sensors. UAVs are a component of a 宇宙科学研究所を含む。 GCS and a system of communications—also called an Unmanned Aerial Vehicle. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • 最も広い意味で、国際民間航空局は次のように定義している。 未搭乗機システム・トラフィック・マネジメント(UTM) as ‘A specific aspect of air traffic management which manages 宇宙科学研究所 operations safely, economically and efficiently through the provision of facilities and a seamless set of services in collaboration with all parties and involving airborne and ground-based functions.’ Consequently, a UTM system ‘provides UTM through the collaborative integration of humans, information, technology, facilities, and services, supported by air, ground or space-based communications, navigation, and surveillance.’ Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • 最も広い意味で、国際民間航空局は次のように定義している。 未搭乗機システム・トラフィック・マネジメント(UTM) as ‘A specific aspect of air traffic management which manages 宇宙科学研究所 operations safely, economically and efficiently through the provision of facilities and a seamless set of services in collaboration with all parties and involving airborne and ground-based functions.’ Consequently, a UTM system ‘provides UTM through the collaborative integration of humans, information, technology, facilities, and services, supported by air, ground or space-based communications, navigation, and surveillance.’ Reference- Protection against Unmanned Aircraft Systems: Handbook on 宇宙科学研究所 protection of Critical Infrastructure and Public Space: A five Phase approach for C-UAS stakeholders
  • Uncrewed Aircraft Systems, or 宇宙科学研究所, refers to the systems and components that allow for the remote control or autonomous flights of UAVs. 宇宙科学研究所 components include a UAV または ドローン, a GCS, and a system of communications between the two. They are also called Unmanned Aircraft Systems. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Uncrewed Aircraft Systems, or 宇宙科学研究所, refers to the systems and components that allow for the remote control or autonomous flights of UAVs. 宇宙科学研究所 components include a UAV または ドローン, a GCS, and a system of communications between the two. They are also called Unmanned Aircraft Systems. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • v

  • Vertical Take-Off and Landing, or ブイトール, refers to a UAV that can hover, take off, and land vertically. This 分類 can include types of UAVs such as fixed-wing, helicopters, and other UAVs with powered rotors. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Vertical Take-Off and Landing, or ブイトール, refers to a UAV that can hover, take off, and land vertically. This 分類 can include types of UAVs such as fixed-wing, helicopters, and other UAVs with powered rotors. Reference- DHS Counter-宇宙科学研究所 技術ガイド
  • Visual Line of Sight or VLOS is when the pilot is able to see either the asset or the UAV from the launch site. Reference- UK National Protective Security Authority
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