An Introduction To Tethered Drones
The military has utilized drones since the early 2000s, but it was only as recent as 2016 drone technology received a green light for commercial use.
A drone, frequently referred to as an Unmanned Aerial Vehicle (UAV), is correctly known as a UAS: Unmanned Aerial System.
Most often, the pictures and videos shown in the media depict a drone flying without restrictions above a neighborhood or natural landscape. This flying drone is only one type of drone, and it has a variety of surprising uses.
Many companies, services, and people utilize the lesser-known tethered drone solutions.
What are Tethered Drones?
Tethered drones are any drone physically connected to a power station on the ground.
There are variations of tethered drones, ranging from a standard drone tethered to the ground by using a regular fishing line, to programmed drones that use a specialized hardware tether. Specialized tethers utilize a high voltage, direct current to operate.
The tether cable contains lightweight and thin conductors, which reduce the wind drag, enabling the drone to reach a higher altitude (around 400 feet).
A Power station (akadrone stationortether station) on the ground converts AC electricity into the higher-powered DC. The drone itself also has a DC-DC converter to supply lower-voltage power to the camera system and other components.
Specifics of operations will vary per company as they have different designs for their tethered drone systems. Tethered drones are also easy to extract and retract using a winch system to which they are typically connected.
Benefits of Using Tethered Drones
Drone crashes do occur and are often due to technical or human error. Tethered drones dramatically reduce technical and human error crashes in flight.
A tethered UAS has a reduced spatial area where it can fly. Because of the flying restrictions the tether creates, and their greater control, their operation does not require a trained pilot. It also does not require GPS navigation, which is a significant contributor to reducing any technical errors that lead to drones crashing.
Flight duration is where they excel. Many tethered drones have longer flight times compared to free-flying, battery-operated drones.
Free-flying drones have an average flight time of twenty minutes on a single, full charge. Most tethered drones have an unlimited flight time and can stay afloat until a problem occurs within the grounded power source, such as a motor or propeller failing.
Another benefit of tethered drones is providing more explicit pictures.
Free flying drones require a lot of skill and several hours of practice to operate efficiently. Due to the restricted movement of a tethered drone, the operator does not need piloting skills and can mainly focus on their tasks. The tether stabilizes drone movement, which enables capturing clear photos and videos; this is especially helpful for photographers.
The Federal Aviation Administration is in charge of governing and overseeing all aviation activities within the United States.
Free-flying drones are defined as unmanned aircraft, subjecting them to many rules and regulations set by the FAA.
Some have interpreted Tethered drones as falling under the kite or balloon category and thus exempt from FAA regulations. This interpretation is incorrect.
Commercial use of drones was permitted by FAA Rule 107, and Tethered Drones are not exempt.
Countries have different airspace regulations, so it is always important to follow proper protocol when traveling with a drone to avoid penalties.
Tethered Drone Uses
Tethered drones are considered Professional Unmanned Aerial Systems. They are a valuable tool with a broad spectrum of capabilities and uses that span across many fields.
The military, law enforcement, and border patrol use tethered drones as an integral part of their remote security drone operations. Drones can cover a large area at once. The operators can monitor activity from the live feedback transmitted to a corresponding tablet or screen on the ground. This real-time feedback and video aids in criminal aerial surveillance, crowd safety, and military tactics. A mobilized drone station allows operators to move the flight area without having to land the drone first.
Tethered drones are especially helpful for search and rescue missions. When tragedy strikes, a drone is a quick and efficient way to gather information about the scene. Drones equipped with radar and thermal sensors give first responders the needed information for understanding the scope of the disaster and locating trapped survivors. Their small size also allows them to get close-ups of areas a helicopter would not be able to and drop in needed supplies to rescuers and survivors.
Most notably, tethered drones are used more and more in real-time journalism, photography, and cinematography. It is cost-effective and easier to deploy than light aircraft or helicopters. They are safer to use during demanding situations as well, whether it be gathering footage of a natural disaster or war zone.
Drones are also beneficial for scientific purposes such as air quality monitoring or atmospheric measurements.
Geographic mapping is nothing new and has been revolutionized many times over the past few centuries. Drones are the latest piece of technology utilized to gather mapping and surveying data.
Tethered drones don’t cover large areas, but they can collect small-scale information that fixes mapping errors, find population density, and monitor water levels. They are also used to gather information for the weather, especially tornadic weather and hurricanes.
Tethered drones help collect the insights needed to learn about their behavior and trajectories. They reduce the risk placed on humans when entering dangerous weather.
A surprising use of tethered drones is for precise agriculture.
They can closely monitor crops, which provides the necessary information needed to manage the plants and boost yield. This crop monitoring can use near-infrared sensors that are tuned to detect the condition of crop health, allowing farmers to make the needed adjustments for the inputs of fertilizer or insecticide to produce better crops.
In general, drones help deploy a broad array of services. Many companies are trying to perfect drones for the use of delivery services and live broadcasts. They are also becoming increasingly popular in the real estate market as well.
Drone usage will likely increase in the years to come due to their efficiency, easy deployment, and ability to keep people safer. The commercial drone market has been very robust growing more than 300% between October 2017 and December 2109. We would expect the tethered drone market segment to show explosive growth as they are adopted for their unique capabilities.
How can you get a Tethered Drone System?
There are two ways to get a tethered drone system. The first is a fully integrated system, and the second is a do-it-yourself (DIY) integration.
A fully integrated tethered drone system will include the ground station, winch, tethers, data transmission, communication links, and a drone plus sensors that were all designed to work together. An integrated Tethered Drone is the most straightforward and most reliable choice, albeit at a higher price than the DIY method.
Do-it-yourself tethered drones require coupling a winch, tether, power, data transmission, and communication system, to a drone and ground control station you already own. These solutions are typically less expensive, but require an integration that works with your selected drone. It’s relatively easy to find integration kits available for the popularDJI Drones, and other manufacturers.
What would a Tethered Drone Cost?
DIY tethered drone systems cost will vary based on the length of the tether, whether the winch is powered or manual, the size of the power supply, and a few other customer-selected variables. DIY tethered drone systems typically range from $2,000 to $50,000, not including the drone and ground control station.
Fully integrated tethered UAV vary dramatically in cost due to the wide selection of sensors and other variables. They typically range from $20,000 to over $125,000 per complete system and depending on the drone applications.
Which Tethered Drone Companies should you consider?
Elistairis a French and US-based company founded in 2014. Elistair is a market leader in tethered drones supplying both DIY and Integrated systems. They have over 300 customers worldwide using their specialized tethered drone systems, and Elistair tethered drone has won several awards and competitions in France and The United States.
Hoverfly Technologiesis a Florida based company. Hoverfly was founded in 2010 and has a long and proven history of innovative and first-to-market technologies, including the first tethered-power sUAS (the LiveSky™), the first optionally tether-powered free-flying drone (the BigSky™), and the first power-tether kit for consumer drones. Hoverfly designs and manufacturestether-powered aerialdronesand third-party powertetherkits.
Drone Aviation Corp.was founded in 2014, and recently merged with ComSovereign Corp. and is based in Florida. Drone Aviation designs, develops, markets, and sells specialized tethered aerial monitoring and communications platforms serving national defense and security customers for use in situational awareness applications including intelligence, surveillance, and reconnaissance (“ISR”) and communications.
CyPhy Works, founded in 2008, recently rebranded asAria Insights. The new company focuses on utilizing artificial intelligence and machine learning to help analyze data collected by drones. Aria will build upon CyPhy’s tethered flight data collection system, to help pull information in dangerous situations from oil tankers and pipelines to natural disasters.
There are a number od otherunmanned systemscompanies that while not directly in thetethered drone systemsbusiness are an integral part of thedrone market. They contribute significant additional capabilities such as specializedsensorsor tools which makeunmannedflightmore sustainable. We encourage you to checkoutFLIR systems, a reputed Thermal Imaging company, andAeryon Labs, a software company that is revolutionizing drone data transfer and systems interoperability.
What are the benefits of a Tethered Drone system?
The many benefits of a tethered drone system include:
Persistent Operation:The continuous power delivered to Tethered drones make them persistent systems that can remain airborne for hours, if not indefinitely.
Secure data:The tether means secure communications, unjammable, and immune to interference.
Overt Deterrence:Tethered drones are an overt surveillance deterrent.
Continuous Streaming:Tethered systems allow continuous and interference-free high-quality video broadcast.
Safe Operation:In crowded areas, public safety is essential. The tethered drone is dramatically more reliable than alternatives.
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A tethered drone system uses a permanent physical link, in the form of a flexible wire or cable, to provide power and communications to a UAV (unmanned aerial vehicle). Due to the inability of fixed-wing drones to hover, UAV tethered systems utilize quadcopters or other multirotor drones, as well as aerostats.
Data link uses a radio-frequency (RF) transmission to transmit and receive information to and from the UAV. These transmissions can include location, remaining flight time, distance and location to target, distance to the pilot, location of the pilot, payload information, airspeed, altitude, and many other parameters.
Tethered drones owned or operated by volunteer fire departments ARE NOT public aircraft and are therefore subject to ALL part 107 requirements.
A drone can fly without WiFi or cell service. Access to the internet is only required when downloading a program for your drone or doing a system update. Once the download is complete, the internet is no longer needed. However, some drone features are enhanced with WiFi or cell service.
A high-quality drone camera can see 1,500-2,000 feet away during the day. At night, drone cameras can pick up an image about 165 feet away before it becomes blurry. The distance a drone camera can see depends on the terrain, nearby obstacles, quality of the drone camera, and air conditions.
The map transmission system of the drone usually sends radio signals with a frequency of 2.4GHz or 5.8GHz to transmit the image information back to the ground control end. 2.4GHz and 5.8GHz are ISM band.
Actively tethered UAS are permitted to be used by the Federal Aviation Administration (FAA) without additional waivers or pilot license requirements.
According to Part 107 of the FAA's Small UAS rule, every drone heavier than 250g needs to be registered, even if you are using your drone just for fun.
If you fly over 400 feet, you risk getting caught and being fined or prosecuted. The cruising speed of manned aircraft is approximately 500 feet, so you risk collision by going any higher than this limit. You could also lose contact with the drone at high altitudes.
Drones Do Not Need Cellular Service or Wifi to Fly
Drones can be flown easily without cellular service or wifi, and can also be flown manually without even a GPS signal. While flying this way would leave you without a lot of features and information about your flight, it is possible to do it.
LTE networks are transmitted by satellites and broadcasted via towers. It also eliminates distance limitation and Hence, it helps in long-range communication with the drone. Drones using a 2.4 or 5.8 GHz communications encounters issues such as the high signal to noise ratio.
By utilizing high-quality, reliable communications links, civilian UAVs are able to relay aerial visuals and data to those on the ground with ease, while still remaining in flight. However, in defense applications, different types of drones are implemented.
Data collection, once entirely Earth-bound, is no longer limited by physical capabilities. Airborne drones allow people to photograph, video, map, survey and inspect where nobody can physically be, powering a vast world of industries with real-time insights.