This article contains content that is written like an advertisement .(December 2018) |
Industry | Drone software |
---|---|
Founded | 2009 |
Founders | Chris Anderson, Jordi Muñoz |
Headquarters | Berkeley, California |
Products | Drone software, drone data analytics |
Brands | Site Scan |
Number of employees | 70+ |
Website | 3dr |
3DR, also known as 3D Robotics, is an American company located in Berkeley, California that produces enterprise drone software for construction, engineering and mining firms, as well as government agencies. [1] [2]
Prior to 2016, the company designed and marketed commercial and recreational unmanned aerial vehicles including consumer drones, ready-to-fly quadcopters for aerial photography and mapping, and fixed-wing UAVs based on the Ardupilot platform. However, as of September 2016, 3DR and the major open source Ardupilot development community separated due to disagreements over the license of the open source code on which 3DR products are based. [3]
The company was co-founded as 3D Robotics in 2009 by Chris Anderson and Jordi Muñoz. [4] The pair met online through the DIY Drones community, which Anderson originally started for aerial vehicle enthusiasts. [5]
Below is a list of products released by 3DR.
The Solo Drone was released in May 2015 and marketed to the consumer and professional aerial photography market. It is powered by two computers and designed specifically for the GoPro Hero camera. The stated aim of the Solo drone is the ease of both flying the drone and taking professional aerial photos and videos. [6]
The IRIS+ Drone was released in September 2014. It was designed as a recreational drone, and it uses a mounted GoPro camera to take pictures. The drone is capable of achieving a top speed of 40 miles (64 kilometers) per hour and has a range of up to 3,280 feet. [7]
The X8 Quadcopter was released in November 2014. It has a modular design and comes in two versions. The X8+, with a built-in gimbal and GoPro camera, is aimed at aerial photography and cinematography; the X8-M quadcopter is intended for mapping applications. Both X8 versions support waypoint navigation technology. [8]
The Aero-M Fixed Wing UAV was released in November 2014. It is fully automated and has a mapping platform that creates geo-referenced and ortho-rectified mosaics. This fixed wing drone has an estimated flight time of up to 40 minutes and is able to photograph an area of up to 250 acres per flight. The Pix4D software allows for the creation of geo-referenced, photogrammetrized, and ortho-rectified mosaics from the images. The Aero-M UAV is intended to benefit conservation efforts and industries such as farming and construction, through the creation of geo-referenced maps. [9]
As of March 2016, 3DR announced that they would no longer be manufacturing drones. In response to the company ceasing to produce hardware, a former employee,[ who? ] interviewed in Forbes magazine in 2016, is quoted as saying "3DR was a $100 million blunder based on ineptitude." [2]
In addition to its Site Scan platform, 3DR makes flight controllers which are intended for multi-rotor stabilization control of various platforms or heavy payloads in aerial photography, mapping, and personal enjoyment. In addition to the main Pixhawk flight controller model, there is also the APM 2.6 model. Pixhawk is an autopilot system designed by the PX4 open-hardware project and manufactured by 3DR. It contains processors and sensors from STMicroelectronics and a NuttX real-time operating system. The APM 2.6 is an open source autopilot system. It allows the user to turn fixed rotary wing or multirotor vehicles, including cars and boats, into fully autonomous vehicles capable of performing programmed GPS missions with waypoints.
3DR is a founding member of the Dronecode [10] Consortium, a non-profit organization governed by the Linux Foundation. The Consortium was formed in 2014 with the goal of using open source Linux for the benefit of users with affordable and more reliable UAV software. [11] Other notable members are Intel, Qualcomm, Parrot SA, and Walkera. [12] [13]
An unmanned aerial vehicle (UAV), commonly known as a drone, is an aircraft without any human pilot, crew, or passengers on board. UAVs were originally developed through the twentieth century for military missions too "dull, dirty or dangerous" for humans, and by the twenty-first, they had become essential assets to most militaries. As control technologies improved and costs fell, their use expanded to many non-military applications. These include aerial photography, area coverage, precision agriculture, forest fire monitoring, river monitoring, environmental monitoring, policing and surveillance, infrastructure inspections, smuggling, product deliveries, entertainment, and drone racing.
A micro air vehicle (MAV), or micro aerial vehicle, is a class of man-portable miniature UAVs whose size enables them to be used in low-altitude, close-in support operations. Modern MAVs can be as small as 5 centimeters - compare Nano Air Vehicle. Development is driven by commercial, research, government, and military organizations; with insect-sized aircraft reportedly expected in the future. The small craft allow remote observation of hazardous environments or of areas inaccessible to ground vehicles. Hobbyists have designed MAVs for applications such as aerial robotics contests and aerial photography. MAVs can offer autonomous modes of flight.
Swarm robotics is an emerging field of adapting the phenomenon of natural swarms to robotics. In a robot swarm, the collective behavior of the robots results from local interactions between the robots and between the robots and the environment in which they act. It is supposed that a desired collective behavior emerges from the interactions between the robots and interactions of robots with the environment. This idea emerged on the field of artificial swarm intelligence, as well as the studies of insects, ants and other fields in nature, where swarm behaviour occurs.
Aerial survey is a method of collecting geomatics or other imagery data using airplanes, helicopters, UAVs, balloons, or other aerial methods. Typical data collected includes aerial photography, Lidar, remote sensing and geophysical data. It can also refer to a chart or map made by analyzing a region from the air. Aerial survey should be distinguished from satellite imagery technologies because of its better resolution, quality, and resistance to atmospheric conditions that can negatively impact and obscure satellite observation. Today, aerial survey is often recognized as a synonym for aerophotogrammetry, a part of photogrammetry where the camera is airborne. Measurements on aerial images are provided by photogrammetric technologies and methods.
A miniature UAV, small UAV (SUAV), or drone is an unmanned aerial vehicle small enough to be man-portable. Smallest UAVs are called micro air vehicle.
A quadcopter, also called quadrocopter, or quadrotor is a type of helicopter or multicopter that has four rotors.
The Prioria Robotics Maveric is a discontinued unmanned aerial vehicle (UAV) marketed as a high-performance, next-generation platform for small and miniature UAV operations. Maveric's bendable wings allow for the ability to store a fully assembled airframe in a 6-inch (150 mm) tube.
The Parrot AR.Drone is a discontinued remote-controlled flying quadcopter, built by the French company Parrot.
Pteryx UAV was a Polish Miniature Unmanned Aerial Vehicle (UAV) designed for civilian use. It was manufactured and sold by Trigger Composites. The machine was both a flying remote control (RC) model and pre-programmed vehicle. It was awarded the Innowator Podkarpacia medal for innovative design in the category of micro-enterprises of the Podkarpacie region in 2010.
ZALA Aero Group is a Russian company specialising in unmanned aerial vehicle (UAV) development, located in Izhevsk, Russia. ZALA Aero has provided UAV systems for several sectors of the Russian government, including the Ministry of Defence, and has also won contracts to supply UAVs to foreign countries. The company's in-house design and production projects include a variety of systems related to UAV design, manufacture and operation, including autopilots, airframes, mechanical and pneumatic catapults, launchers, payloads and communication technologies. ZALA Aero is the only Russian company producing unmanned helicopters, portable anti-drone EW systems and a VTOL drone.
A multirotor or multicopter is a rotorcraft with more than two lift-generating rotors. An advantage of multirotor aircraft is the simpler rotor mechanics required for flight control. Unlike single- and double-rotor helicopters which use complex variable pitch rotors whose pitch varies as the blade rotates for flight stability and control, multirotors often use fixed-pitch blades; control of vehicle motion is achieved by varying the relative speed of each rotor to change the thrust and torque produced by each.
ArduPilot is an open source, uncrewed vehicle Autopilot Software Suite, capable of controlling:
Yuneec International, established in 1999 in Hong Kong, China, is wholly owned by ATL Global Holding AG of Switzerland. The company has a research and development center headquartered in Zurich, Switzerland, a global market and marketing headquarters in Kaltenkirchen, Germany, and an OEM factory in Kunshan, Jiangsu, China. Initially focused on manufacturing electric remote-controlled model airplanes, Yuneec introduced human-crewed aircraft to the U.S. market through GreenWing International. The company's Yuneec International E430 was the first electric human-crewed aircraft designed for commercial production. Since 2012, Yuneec has concentrated on developing and producing unmanned aerial vehicles (UAVs). By the end of 2016, the company had established a new R&D center, Advanced Technology Labs Ltd, near Zurich, Switzerland, and had begun its global expansion.
A delivery drone is a unmanned aerial vehicle (UAV) designed to transport items such as packages, medicines, foods, postal mails, and other light goods. Large corporations like Amazon, DHL and FedEx have started to use drone delivery services. Drones were used effectively in the fight against COVID-19, delivering millions of vaccines and medical supplies across the globe. Drone deliveries are highly efficient, significantly speeding up delivery times and avoiding challenges traditional delivery vehicles may encounter. Given their life-saving potential use cases for medical supplies in particular have become the most widely-tested type of drone delivery, with trials and pilot projects in dozens of countries such as Australia, Canada, Botswana, Ghana, Uganda, the UK, the US among others.
Unmanned aircraft system simulation focuses on training pilots to control an unmanned aircraft or its payload from a control station. Flight simulation involves a device that artificially re-creates aircraft flight and the environment in which it flies for pilot training, design, or other purposes. It includes replicating the equations that govern how aircraft fly, how they react to applications of flight controls, the effects of other aircraft systems, and how the aircraft reacts to external factors such as air density, turbulence, wind shear, cloud, precipitation, etc.
Jani Hirvinen is one of the early Finnish IT-technology pioneers. Hirvinen is also one of the first ones developing small private sector professional level UAVs. He is among the top developers of the ArduCopter platform that - together with the included autopilot - changed the way drones are being flown all over the world. He is also the co-founder of famous international unmanned institutions ArduPilot, DIYDrones and DroneCode.
An autonomous aircraft is an aircraft which flies under the control of on-board autonomous robotic systems and needs no intervention from a human pilot or remote control. Most contemporary autonomous aircraft are unmanned aerial vehicles (drones) with pre-programmed algorithms to perform designated tasks, but advancements in artificial intelligence technologies mean that autonomous control systems are reaching a point where several air taxis and associated regulatory regimes are being developed.
Pixhawk is a project responsible for creating open-source standards for the flight controller hardware that can be installed on various unmanned aerial vehicles. Additionally, any flight controller built to the open standards often includes "Pixhawk" in its name and may be referred to as such.