MarketResearchReports.biz has recently announced the addition of a market study “ Drone Transponders Market Shares, Strategies, and Forecasts Worldwide, 2016 to 2022 ”, is acomparative analysis of the global market.
The 2016 study has 268 pages, 92 tables and figures. Worldwide drone transponder markets are poised to achieve significant growth with the need to achieve protected airways.
The simplest way to protect against mid-air collisions is to require the use of ADS-B transponders on all aircraft. Transponders can turn an uncooperative environment into a cooperative environment. Transponders provide location and positioning information about smart commercial drones. These drones have a computer inside, they are easy to fly, remotely maneuverable, have a camera, and contain sensor logic. Smart drones are evolving computer driven collision avoidance technology making the flying more reliable.
Remote operation occurs in the context of a workflow and sensors. Cameras are improving dramatically to permit management of video and picture taking that is realistic and detailed. Drone actuators, drone transponders, are needed to support drone package delivery. This is a huge new market that speeds economic development, makes it easier for the middle class to both work, and purchase lifestyle items and food efficiently.
Drones based on aerial robotic platform technology can be used to make deliveries to each person’s home, landing on the back doorstep, leaving packages in a locked box. The drone package delivery technology has reached a level of maturity that bodes well for market development. Drone systems are mature enough to be at the forefront of aerospace manufacturing.
Dronecode is an independently funded software project that harnesses the power of collaborative development. The aim is to fuel innovation across drone industries and ecosystems. Dronecode Foundation is a nonprofit organization working on a common, shared open source platform for Unmanned Aerial Vehicles (UAVs). Dronecode brings together existing and future open source UAV software projects.
APM UAV software platform was developed by 3DRobotics. 1,200 developers are working on Dronecode’s six projects focused on maximizing adoption of the project’s cost-effective, reliable and technologically advanced UAV software.
Micro-Avionix has an ultra-lightweight low cost ADS-B transponder for UAS. Micro-Avionix has developed an ADS-B suitable for UAVs of all sizes to improve flying safety for all. The ping™ is a family of ultralight weight, low cost, ADS-B transponders.
Weights range from 1.5 to 30 grams, delivering a variety of types of performance. The ping2020™, for instance, is capable of IN on both 1090ES and 978UAT, and OUT on 978UAT. The products are fully compliant with the minimum performance standards of DO-282B Class A1S. Micro-Avionix has developed an ADS-B suitable for UAVs of all sizes to The ping™ is among the world’s first families of ultralight weight, low cost, ADS-B transponders.
Transponder and sense and avoid technology sponsorship by Sagetech, L-3 Aviation Products, FreeFlight, Micro-Avionix, Google, Trig, DJI, and Intel has been effective. Development by Dronecode application ecosystem provides huge advances in drone real-time sense and avoid behavior. An open source collaboration is expected to accelerate deployable solutions for agile and reliable operation in the national airspace. The open source platform has been adopted by many organizations on the forefront of drone technology: 3DRobotics, Parrot, Qualcomm, Intel, DroneDeploy, Yuneec, Airphrame, and others.
With 750,000 users and 500 active developers the open source code initiative represents a compelling community of professionals and enthusiasts is able to support active improvements in control of airspace and improvement in flying safety for all. The alliance has worked on development standardization and software module interoperability
“Use of drone transponders represents a key milestone in provision of value to the airborne package delivery industry. Customized cameras are used to supplement GPS navigation, acting as eyes of the drone, permitting package delivery everywhere. Digital controls will further automate flying, making ease of use and flight stability a reality.
New materials and new designs are bringing that transformation forward. By furthering transponder
innovation, continued growth is assured.”
The worldwide market for drone transponders is anticipated to start from nothing and reach $2.5 billion worldwide by 2022 growing in response to the need to prevent drone collisions, keep the highways in the sky safe, and manage routing of commercial drones. Multiple applications drive market growth, most of all package delivery occurs out of line of sight. Other applications for drone transponders are in consumer photography, lightweight commercial drones for real estate, the military, law enforcement, border control, homeland security, utility infrastructure surveillance, agriculture, aerial mapping, and package delivery.
L-3 Aviation Products
I-Lap Timing Systems
Knorr-Bremse Group / Bendix
Table Of Content
Drone Transponder Highways in the Sky Executive Summary 25
Drone Transponder Market Driving Forces 25
Self-Regulation of Drones Using Transponders 29
Remote-Controlled Aircraft 32
Drone Transponder Market Driving Forces 32
Drone Transponder Market Shares 34
Drone Transponder Market Forecasts 35
1. Drone Highways in the Sky: Market Description and Market Dynamics 37
1.1 UAS Regulatory Frameworks 37
1.1.1 ADS-B for Small Drones 38
1.2 Need for Drone Controlled Airspace 39
1.2.1 Transponder Control by Privately Owned Agency 40
1.2.2 Self-Regulation of Drones Using Transponders 42
1.2.3 Project Wing from Google Wants A Transponder Mandatory For All Aircraft 44
1.3 Automatic Dependent Surveillance Broadcast ADS-B Transponder 47
1.3.1 QUICK LINKS 50
1.3.2 PRODUCTS 50
1.4 Google wants transponder in uncontrolled airspace 51
1.4.1 US FAA Commercial Drone Permits 55
1.5 Smart Commercial Drones 57
1.5.1 Smart Drones: Commercial Unmanned Aerial Systems (UAS) Description 58
1.6 Drone Enhanced Capability and Payloads 59
1.6.1 Unmanned Aerial Systems (UAS) Enhanced Resilience 62
1.6.2 Small and Micro-UAS Drones 62