Introduction to UAV Systems. Mohammad H. Sadraey

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Название Introduction to UAV Systems
Автор произведения Mohammad H. Sadraey
Жанр Техническая литература
Серия
Издательство Техническая литература
Год выпуска 0
isbn 9781119802624



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individual, car, or building) by visual or other detection methods at some point or in some area via comparing the obtained information with the reference data.

      Insitu ScanEagle missions include ISR, as well as special services operations, escort operations, sea‐lane and convoy protection, protection of high‐value and secure installations, and high‐speed wireless voice, video, and data communications relay.

      These missions imply the detection and identification of stationary and moving targets both day and night – quite a formidable task, as we will see when discussing payloads and data links. The hardware requirements for the detection and identification capabilities impact almost every subsystem in the air vehicle as well as the ground station. Each UAV user may have requirements for the range from the UAV base to the area to be searched, the size of the area that must be searched, and the time on station required for surveillance, so intelligence/surveillance /reconnaissance missions and hardware can vary significantly.

      There are both land‐ and air‐based missions in both the military and civilian worlds. A land‐based operational base may be fixed or may need to be transportable. If it is transportable, the level of mobility may vary from being able to be carried in a backpack to something that can be packed up and shipped in large trucks or on a train and then reassembled at a new site over a period of days or even of weeks. Each of these levels affects the tradeoffs between various approaches to AV size, launch, and recovery methods, and almost every other part of the system design.

      Ship‐based operations almost always add upper limits to AV size. If the ship is an aircraft carrier, the size restrictions are not too limiting, but may include a requirement to be able to remove or fold the long, thin wings that, as we will see later, are typical of long‐endurance aircraft.

      Associated with the military reconnaissance mission is target or artillery spotting. After a particular target is found, it can be fired upon while being designated with a laser to help guide a precision‐guided munition. For conventional (unguided) artillery, the fire can be adjusted so that each succeeding round will come closer to, or hit, the target. Accurate artillery, naval gunfire, and close air support can be accomplished using UAVs in this manner. All of these missions can be conducted with the reconnaissance and surveillance payloads, except that a laser designator feature must be added if one is to control precision‐guided munitions. This added feature raises the cost of the payload significantly.

      An important mission in the military and intelligence area is Electronic Warfare (EW). Listening to an enemy transmission (communication or radar) and then either jamming it or analyzing its transmission characteristics falls under the category of EW.

      Although developing and flight testing a number of experimental combat UAVs such as X‐58 in the past 10 years, UCAVs are still not operational. As the latest development, in 2021, Singapore‐based Kelley Aerospace [3] has developed and flight‐tested the first supersonic UCAV, called Arrow. The plan is to reach speeds up to Mach 2.1.

      In 2020, the Air Force awarded [3] contracts to Kratos, Boeing, Northrop Grumman, General Atomics, and Voly Defense Solutions authorizing the companies to compete for the Skyborg project, an effort to field an unmanned wingman cheap enough to sustain losses in combat but capable of supporting manned fighters in hostile environments.

      (Source: 88 Air Base Wing Public Affairs / Wikimedia Commons / Public Domain)

      To summarize, the intelligence/surveillance/reconnaissance mission accounts for most of the UAV activity to date, and its sensors and data‐links are the focus of much of today’s development. Target spotting follows closely, with EW third. However, in terms of visibility and criticality, weapon delivery has become the most highly watched application and is a major focus of future development. Other missions will come into their own in time, with their way paved by success in the applications and missions now being actively carried out.

      2.2.4 The Tier System

      A set of definitions that has become pervasive in the UAV community stems from an attempt to define a hierarchy of UAV requirements in each of the US services. The levels in these hierarchies were called “tiers” and terms such as “tier II” are often used to classify a particular UAV or to describe a whole class of UAVs.

No. Tier Mission/Group Example
1 N/A Small/micro‐UAV
2 I Low altitude, long endurance
3 II Medium altitude, long endurance (MALE) MQ‐1 Predator
4 II+ High altitude, long endurance (HALE) conventional UAV. Altitude: 60,000–65,000 ft (19,800 miles), less than 300 knots (560 km/h) airspeed, 3,000 nautical‐miles (6,000 km) radius, 24 h time‐on‐station capability. Tier II is complementary to the Tier III aircraft. RQ‐4 Global Hawk
5 III− HALE low‐observable (LO) UAV. Same as the Tier II+ aircraft with the addition of LO. RQ‐3 DarkStar
No. Tier Mission/Group Example
1 N/A Micro‐UAV Wasp
2 Tier I Mini‐UAV