One of the key features of unmanned aerial vehicles UAV used in industry is the wide range of sensors available, making UAS suitable for a huge range of applications. Sensors are at the heart of our business. We have also successfully integrated FLIR thermal sensors, Geiger counters, gas and contaminant sensors, magnetic field sensors and almost all optical technologies.
We build bespoke unmanned aerial vehicles for each type of aerial sensor platform. Our UAVs can be fitted with a range of sensors to enable multiple surveys whilst on location.PD-1 UAV engine module with electric generator and remote start
Save budget by combining numerous surveys into one mission with multiple sensors on a single UAV platform. Use UAVs in harsh and hostile environments and for tasks that would otherwise be dangerous for humans.
Get more detailed survey and inspection data and deliver it to the right people instantly. Save time by covering large areas more quickly and completing multiple surveys at the same time. Implement biodegradable payloads and reduce the impact on important ecological environments. Bouncing photons off of the target and looking at the reflected light, it builds up a 3D point cloud of the target.
Typically, this is in the order of millions of points per second operating at a range up to m. Photogrammetry technology builds up an interactive 3D model of the subject from a number of still 2D images, creating a more realistic map than LiDAR.
Typically, photogrammetry may be used to survey the distance between objects, such as rock faces, buildings, and for use in transport networks.
This is particularly useful for producing maps of large areas, and terrain elevation models. Using UAS for radiation detection allows surveying of areas too hazardous for workers to enter.
The scope for this is wide, from routine monitoring to site surveys from disaster zones, or where there has been a sizeable radiation release into the atmosphere. So far, we have successfully used aerial Geiger tubes, and are actively working on aerial Germanium detectors. Our UAV platforms are also ideal for chemical detection and gas sensing. A relatively new technology, corona effect cameras allow visual detection of electrical discharges and arcs.
Corona cameras are used in UAV surveying to detect electrical discharge and weak spots on pylon and other electrical power networks. We have produced a fully working aerial remote vehicle carrying a corona daylight camera, and actively inspected a live pylon tower for structural weaknesses. Magnetometers are widely used in oil and gas mapping and surveying, as well as geographical and archaeological mapping. We have successfully integrated advanced Magnetometers suited for Unexploded Ordinance Detection into our unmanned aerial vehicles, capable of detecting ferrous materials down to 2m.
We have developed and built specialist UAV drone platforms to carry arrays of these sensors for large area coverage for a range of sectors and applications. Infrared sensors detect certain characteristics of their surroundings, including heat, by emitting or detecting infrared radiation.The first group of students to go through the new course, started training in August UAS pilots are commissioned officers. UAS Sensor Operators perform duties as a mission crew member on unmanned aerospace systems.
They employ airborne sensors in manual or computer-assisted modes to actively or passively complete their missions. The sensors will acquire, track and monitor airborne, maritime and ground objects. Crewmembers assist UAS pilots through all phases of employment to include mission planning, flight operations, and debriefings. The Unmanned Aerospace System Sensor Operator will conduct reconnaissance and surveillance missions over potential targets and areas of interest.
They are tasked with detection, analyzing, and discriminating between valid and invalid targets. Some of the tools involved include the use of synthetic aperture radar, electro-optical, low-light, and infrared full-motion video imagery, and other sophisticated active or passive acquisition and tracking systems. They will determine effective weapon control and delivery tactics.
The pilot will receive target briefs—known as 9-liners—for weapons delivery. The 9-liner convey important target co-ordinates as well as other mission-relevant information to the pilot. They extract and disseminate information to mission participants. UAS operators will research and study target imagery and friendly and enemy battle. They will look at the offensive and defensive capabilities from various sources as they assemble target source and information.
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They will further work to locates forces and determine the hostile intentions and possible tactics of the enemy. Before the flight, they will perform pre-flight mission planning. This planning will continue in-flight as they work with unified combatant command and theater rules of engagement.
The qualified operator must understand tactics, techniques, and procedures TTP for friendly and enemy Air Order of Battle assets. They also operate mission planning ancillary equipment to initialize information for download to airborne mission systems. These laser systems may also be deployed in support of other combat missions. The pilot is also responsible for terminal weapons guidance. As part of their leadership responsibilities, the UAS pilot will conduct initial, qualification, upgrade, and continuation training for mission crew members.
Unmanned Aircraft Systems
They will perform training, planning, standardization and evaluation, and other staff duty functions. The pilot may be called upon to perform staff assistance visits to other units.
The pilot may be involved in the testing and evaluation of the capabilities of new equipment and the compatibility of new procedures. AF Technical School graduation results in the award of a 3-skill level apprentice. This training is a combination of on-the-job task certification, and enrollment in a correspondence course called a Career Development Course CDC.
Once the airman's trainers have certified that they are qualified to perform all tasks related to that assignment, and once they complete the CDC, including the final closed-book written test, they are upgraded to the 5-skill level and are considered to be "certified" to perform their job with minimal supervision. The AFSC, 5-level training averages 16 months.
Upon achieving the rank of Staff Sergeant, airmen are entered into 7-level craftsman training. A craftsman can expect to fill various supervisory and management positions such as shift leader, element Noncommissioned Officer in Charge NCOICflight superintendent, and various staff positions. A 9-level can expect to fill positions such as flight chief, superintendent, and various staff NCOIC jobs.When ground forces must advance on the battlefield, they can be certain.
When law enforcement must mobilize in times of potential danger, or first responders rush to find the lost or injured—they can all be certain because of AeroVironment's small Unmanned Aircraft Systems UAS. It's a certainty that comes in the way of real-time video and thermal data, covering a wide area, and wirelessly transmitted to a hand-held ground control unit.
Delivering systems with unrivaled flexibility and capability, AeroVironment's specialized portfolio of UAS provide critical intelligence and high precision strike capabilities that can mean the difference between failure and certain success. The Raven system is the most widely deployed unmanned aircraft system in the world, ideal for low-altitude intelligence, surveillance, and reconnaissance missions that depend on rapid deployment and pinpoint maneuverability.
With special design considerations for maritime and land operations, Wasp AE delivers, in a man packable asset, exceptional features of superior imagery, increased endurance, encrypted video, and ease of use that is inherent in all AeroVironment UAS solutions.
We have equipped the Puma 3 AE with the powerful Mantis i45 gimbaled payload for use in day, night, or low-light environments. The LRTA enables long-range command and control within direct line of sight between the antenna and the aircraft. It provides complete control of an aircraft and payload, video display and recording, mission planning, real-time moving map display, status information, and high-resolution image capture.
At just Back-packable and rapidly deployable from air, sea or ground platforms, Switchblade provides operators with increased lethality, reach and precision strike capabilities with low collateral effects. It incorporates an advanced, miniature electro-optical and infrared sensor for rapid-response intelligence, surveillance and reconnaissance.
Quantix is a powerfully simple to use UAV empowering users through its fully-automated operation and instant insight. Its hybrid design allows the aircraft to launch vertically and transition to horizontal flight; maximizing aerodynamic efficiency and range. Unmanned Aircraft Systems When ground forces must advance on the battlefield, they can be certain. More Info. We are not, by referring or linking to such third party website, incorporating its contents.
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The U. Develop leading-edge data processing techniques that use state-of-the-art computer concepts to utilize the increased resolutions and accuracies made available by UAS low-altitude data collection. Lead research and integration activities into next-generation and lower-cost UAS compatible sensors. Department of the Interior DOI is responsible for protecting the natural resources and heritage contained on almost 20 percent of the land in the United States.
This responsibility requires acquisition of remotely sensed data throughout vast lands, including areas that are remote and potentially dangerous to access. One promising new Our mission is to support the transition of UAS into DOI as a new cost-effective tool for collecting remote-sensing data to monitor environmental conditions, respond to Skip to main content.
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Kilauea Volcano in Hawaii Image of flowing lava taken from a sensor mounted on a small UAS to aid in the assessment of lava flow velocities Learn More. Date published: April 22, NUPO Home. Filter Total Items: 2. Year Select Year Apply Filter. Date published: April 11, Date published: April 10, Lead research and integration activities into next-generation and lower-cost UAS technology.A wide range of unmanned aircraft systems have come of age, from cheap but capable quadcopters to sophisticated combat drones.
That has left civilian air traffic controllers, public safety officials, front-line military commanders and others looking for new and specialized technologies to detect, track and respond to the threat. Our portfolio of sensors and effectors, networked into a command-and-control system, covers the complete counter-UAS mission. Searching the sky for a rogue drone makes finding a needle in a haystack seem simple.
Raytheon Technologies' mix of advanced sensors puts eyes on target, delivering intelligence and precision guidance. Managing multiple sensors and effectors in the field requires a system that ties everything together. Our flexible, open architecture command-and control-system combines sensors with jamming and cyber effects to take down drones.
Integrates key sensors and effectors with a suite of radio frequency jamming and cyber tools to safely stop or land drones. There's more than one way to down a drone. From hard kills to cyber takeovers, Raytheon Technologies delivers effects tailored to the environment and the threat. Sensors Searching the sky for a rogue drone makes finding a needle in a haystack seem simple. See Products. Learn More. Command and Control Managing multiple sensors and effectors in the field requires a system that ties everything together.
Windshear Integrates key sensors and effectors with a suite of radio frequency jamming and cyber tools to safely stop or land drones. Effectors There's more than one way to down a drone. High-energy lasers Delivers an affordable, precise and invisible beam of light to rapidly defeat drones. Coyote UAS Uses an advanced seeker and warhead to down drones with a drone. Stinger weapon system Offers a missile with a proximity fuse to destroy drones with a direct hit or nearby detonation.AeroVironment does more than put an eye in the sky.
We complement the visible light cameras aboard our unmanned aircraft systems with infrared sensors, giving our military and commercial customers more ways to see the world around them. Used in combination, these sensors generate data that can be used to compile a richer, more revealing picture of the landscape.
This compact, fully waterproof system delivers high-resolution color as well as long-wave to near-infrared images for nighttime and low-light conditions. AeroVironment complements our advanced sensor systems with software that translates data into actionable intelligence. Kestrel Moving Target Indicator software automatically detects and highlights moving objects, for both real-time and forensic operations.
Sensors and Capabilities AeroVironment does more than put an eye in the sky. Family of Systems. Mantis i45 Gimbal More Info. Digital Data Link More Info. We are not, by referring or linking to such third party website, incorporating its contents. We do not endorse or guarantee, and we disclaim any responsibility for: the content, products or services offered on such linked website, its performance or interaction with your computer, its security and privacy policies and practices, and any consequences that may result from visiting such linked website.
Cancel OK.Program efforts seek to capitalize on developing technologies to reduce size, weight, and power while addressing emerging processing and data management challenges. Development of these payloads give deployed units modular, tailored, and mission specific capabilities that have normally be limited to larger unmanned aircraft systems UAS theater assets.
Group 1 payload systems for the RQ supports battalion and lower echelon operations, including intelligence surveillance and reconnaissance operations, and C4.
The current research, development, and procurement of the family of UAS sensor payloads include:. The sensor will also incorporate advanced processing algorithms to perform on-board data fusion, exploitation, and an autonomous sensor control modality. Onboard processing supports geo-registration, rendering, production of video chips, and detection of ground moving targets. SAR can provide support to near real time change detection and collection of imagery at night or during inclement weather, while GMTI provides the capability for detection and tracking of ground moving targets.
Fielding begins in 3rd quarter, FY The Split Aces payload program will begin procurement and delivery during the 3rd quarter, FY The Spectral Bat program is currently undergoing contractor testing of a Version 4 payload and is scheduled to begin fielding in 4th quarter, FY Currently, five 5 Version 3 systems are fielded. The Silent Echo program will begin fielding in FY Skip to main content Press Enter. Equipping the Marine. Information Environment Operations. Functions of IE Operations.
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