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GoAERO Prize

Design and build a safe, portable, robust, autonomy-enabled Emergency Response Flyer.
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Stage 1 Open
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$2,000,000
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Summary

Overview

 

Our Goal:   Catalyze a Breakthrough Solution to Design and Build the World’s First Compact, Autonomy-Enabled Rescue Aircraft that is Safe and Simple to Fly.

We’ve created a three-year global competition bringing the world’s brightest minds together to focus on a singular mission: Saving Lives. 

Teams participating will design and build the first autonomy-enabled Emergency Response Flyer, a high-tech aircraft that will help response teams reach people, places and crises faster and easier than ever before.

Winners will save countless lives.  They’ll also receive $2+ Million in prizes. 

 

A Singular Mission: Saving Lives

We’re building the world’s first-ever autonomy-enabled Emergency Response Flyer. And we want you to join us.

Imagine a world where every first responder has life-saving aerial capability enabled by compact size and autonomous operations. With support from Boeing, NASA, RTX, and countless partners, our work will make emergency response aircraft accessible to all. 

 

In an Emergency Situation Every Second Counts

The difference between triumph and tragedy in emergency rescue scenarios often rests on our ability to move towards the danger, not away.  That’s why we’re building a new high-tech aircraft that will help emergency response teams reach people, places, and crises faster and easier than ever before.

 

The Challenge: The State of Emergency is Changing. The State of Emergency Response is Not.

Emergency responders face significant challenges getting people, supplies, and medical teams in and out of hazardous situations. Gridlocked traffic, narrow streets, forest fires, thick brush, and vast rivers and mountain ranges create obstacles to swift and effective response efforts and can leave communities vulnerable during times of need.

 

Health Crises

In the U.S. alone, nearly 4.5 million people live in "ambulance deserts." In a medical emergency, they may have to wait 25 minutes or more for an emergency crew to arrive. 

 

Natural Disasters and Climate Change

In 2022, there were more than 380 natural disasters worldwide - affecting 185 million people and resulting in the loss of over 30,000 lives

These extreme weather patterns and climate events have skyrocketed in the past half-century, while our response capabilities have remained stagnant.

 

There is a Gap between What Aircraft Can Do and What First Responders Need.

Helicopters

Since helicopters can’t fly to all places or reach those in tight quarters, helicopter rescues can be very difficult or impossible to complete. Add in the high cost of acquisition and operation and couple that with a pilot shortage, and helicopter rescue response is often inaccessible to many when they need it most.   

Drones 

In search and rescue, drones can complete the search portion of the mission, but not the rescue. 

 

The Answer: Create the World’s First Compact, Autonomy-Enabled Rescue Aircraft that is Safe and Simple to Fly. 

Today’s technology enables simpler, smaller, more reliable, and more versatile aerospace solutions.

Advancements in obstacle sense and avoid technologies combined with state estimation and behavior management algorithms have enabled reliable autonomy.

Electrification has enabled simplified, efficient power and novel airframe designs. With significantly fewer parts, these aircraft can require less maintenance. Plus, electric aircraft are quick to fly—cutting down critical emergency response time.

 

Now is the Time:  We have the Resources. We Just Need The Resourceful.

Your talent and unique vision will help us create the breakthrough emergency response solution we desperately need today. Join GoAERO and start saving lives now. 

 


Guidelines

GoAERO

GoAERO is a set of three competitions fostering development and operation of single-occupant scale, affordable, robust, beneficial systems to serve the public good. These aircraft have invaluable capabilities for addressing challenges posed by natural disasters and climate change, humanitarian crises, medical emergencies, and other situations of people in distress. GoAERO aims to inspire aviation technology, beyond transportation, to benefit humankind. GoAERO aircraft don’t wear running shoes or fancy chauffeur gloves; they get important jobs done and show up ready to help wearing a badge and rugged boots. GoAERO systems are:

  1. Productive: Deploy on site and keep working day-in and day-out, reliably and efficiently.
  2. Versatile: All-theater, multi-environment, and robust so the important jobs are trusted to get done no matter what.
  3. Capable: Precision to complete unique tasks and with the agility to react and adapt to unpredictable environments.

The final Fly-Off event features three separate scored missions to be flown (with manikin stand-ins for human occupants) testing specific relevant skills and capabilities that are applicable to a wide variety of possible real-world scenarios, for example:

  • Retrieve an injured person from under a forest canopy
  • Deliver (or retrieve) a firefighter on a burning hillside
  • Retrieve a drowning victim at the beach
  • Get a first responder to the scene in a dense urban environment (building, signs, wires, tight spaces)
  • Get water and rations to communities cut off by natural disaster
  • Evacuate flood victims
  • Douse a nascent wildfire
  • Rescue someone who has fallen through the ice on a frozen lake
  • Locate / identify / observe an emergency situation
  • Act as a fire truck “ladder extension” 
  • etc.

…And do all this in difficult conditions: bad weather, chaotic (uncooperative) air traffic and obstacles, unknown terrain, etc.

Productivity

Quickly deploy the system, then continuously ferry payloadDrive on site, quickly get the system ready to fly, then make multiple trips to move as much payload as possible.

Adversity

Take off and land in difficult conditionsLand, ground pause, and take off at sandy, sloped, wet/rainy, windy and unsurveyed sites.

Maneuvering

Tightly maneuver while avoiding obstaclesRun a slalom course featuring four obstacles and a spot landing, with and without payload in each direction.

“Autonomy-enabled” means systems that can have broad impact for good by requiring low workload and little skill / training such that they are accessible to existing stakeholders who can remain focused on their mission instead of vehicle operation. In the GoAERO competition, automation can enable optimized performance and reduced errors, improving mission scores, and autonomy is also explicitly rewarded with bonus points for the top prize.

While many existing aircraft are capable of accomplishing these missions, GoAERO will spur new developments that showcase to users, industry, government, and the public the art of the possible with today's technology (affordability, portability, storability, ease of use, versatility, etc.), which may one day lead to fieldable solutions.

 

Schedule

April 8, 2024: Comment period closes

GoAERO solicits and welcomes comments on the Fly-Off rulebook. Use this form to comment.

 

December 11, 2024: GoAERO Stage 1 submission deadline

Up to ten $10,000 Stage 1 winners are selected based on a digital-only submission describing the technical approach and project plan. Stage 1 submissions are judged on:

  • 40% technical approach: Describe the hardware and software you plan to bring to the Fly-Off, describe its sufficient performance, and substantiate that it will perform as claimed.
  • 25% project plan: Show that you will safely and dependably execute up through finishing the Fly-Off and have the necessary resources.
  • 20% competitiveness: Show that your system has been developed and optimized for competitive performance specifically at the GoAERO Fly-Off.
  • 15% clarity: Make your submission organized, succinct, and easy to follow.

September 30, 2025: GoAERO Stage 2 submission deadline

Up to eight $40,000 Stage 2 winners are selected based on Stage 1 content (with updates for those who participated in Stage 1) plus a show of concept validation. In addition to any other key subsystem validation you may wish to include, concept validation must also include evidence (with uncut video, including payload weighing) of the aircraft or representative prototype flying, and it must be at least 35% size scale and carrying a dynamic scale payload weight (~5.4 lb / 2.4 kg for 35% scale) on a minimum flight profile of taking off, flying 100 ft away, and returning to land at the same location. Submissions lacking this required minimum flight capability demonstration will not be scored. Stage 2 submissions are judged on the same criteria as Stage 1 submissions, with an additional 40% for concept validation (i.e., 140% total). The Stage 2 submission will also require explanations of safety procedures in place for the validation flights.

Teams can join the competition at any time and do not need to have participated in previous rounds to compete in the next round. Teams also do not need to win a previous stage prize in order to continue into the next round of the competition, although we encourage Teams to enter sooner rather than later so that they can enjoy the Benefits provided to GoAERO Teams and have the ability to compete to win early-round prizes and publicity.

 

June 5, 2026 - December 15, 2026: GoAERO Fly-Off qualifying period

Participation in Stage 1 or 2 is not required to participate in the Fly-Off.

Qualifying for participation in the GoAERO Fly-Off requires an aircraft, with registration and airworthiness certificate, that has demonstrated controlled flight capability with full payload. Competitors must submit video (uncut) of the aircraft carrying a full-weight payload (video to include payload weighing) on a controlled outdoor flight consisting of at least a taking off from an area the size of or smaller than one of the defined operations zones, flying at least 300 ft away out of ground effect, and returning to a controlled landing at the same operations zone. 

Under no circumstances will participants be allowed to fly at the GoAERO Fly-Off who have not proven this controlled flight capability at least 30 days prior to the competition. This is a hard deadline, with no exceptions. 

Qualifying and registration will require additional documentation and actions as related to both event logistics and to safety, for example disclosing information on internal safety reviews and operating limitations.  

Early application for qualifying is advantageous since registration may be capped. Early application also allows time to revise and amend a potentially non-qualifying package.

 

February 5, 2027: GoAERO Fly-Off event

The up to 3-day GoAERO Fly-Off features three separate missions testing specific skills and capabilities relevant to public good missions. See GoAERO Fly-Off Rulebook for rules and mission details. The best performer in each completed mission wins a prize of $150,000, and the best aggregate performance earns the $1,000,000 top prize.

Additional prizes will be awarded:

  • $100,000 RTX Disruptor Prize for “disruptive advancement of the state of the art.”
  • $100,000 Autonomy Prize for “achievements enabled by transferable automation, algorithms, and/or sensing developments.”

Rules and requirements may change at any time up to and including the final event. This includes the nature of missions or even the number of missions and scoring parameters.

 

 

TEAM SAFETY RESPONSIBILITY

Competition teams are solely responsible for the safe operation of their vehicles. This includes the safety of the operator, the vehicle, and any object or person on the ground. The organizers of the competition will not assess the adequacy of the submission from a safety perspective. The competition team is solely responsible for identifying all risks, mitigating them to the maximum extent possible, and determining if the residual risk is acceptable.

 

 

GoAERO Fly-Off Rulebook

1. Missions

 

The competition features three separate missions to be performed by single-occupant aircraft with a 125 lb (57 kg) manikin “Alex” stand-in for the occupant. The highest ranked performer completing each mission wins a prize for that mission. The top prize is awarded based on aggregate performance in the missions.

1.1. Productivity mission

Demonstrate the ability to a) quickly deploy the system and b) continuously ferry payload. Ranked by ratio of total payload weight ferried to total system weight.

Operations zone (OZ)

  • The Depot.” Hard surface, trapezoid 100 ft (30 m) long, 5 ft (1.5 m) wide at the narrow end closest to the end line and 30 ft (9 m) wide at the far end.

Profile

Deployment phase

  1. Start with the aircraft, operating crew, and all equipment for the mission (excluding payloads) on the ground transport vehicle, meeting highway weight, length, width, and height limits. 
  2. Drive to the mission course along a prescribed route, which may involve inclines, turns, bumps, moderate minimum speeds, etc. The deployment timer starts upon arrival at the course at the OZ when all points of ground contact of the ground transport vehicle have crossed into the lane surrounding the OZ. Deployment actions, such as crew leaving highway-legal seatbelted positions, may not begin before this time.
  3. Prepare the aircraft for flight. One pause of the deployment timer and, if started, the mission timer (see below) is to be used for unhurried touch-free pre-flight checks and inspections to verify proper setup (with the touch-free participation of other crew and payload handlers allowed). Teams may also use this pause to move the unloaded ground transport vehicle out of the OZ or away from course and move and set up ground control equipment in the designated operating crew area. The maximum duration of the pause is 20 minutes.

Flight phase

  1. The mission timer begins at the first of either liftoff or the deployment timer reaching 30 minutes.
  2. Empty of payload, fly a segment well out of ground effect. A segment is three laps, each from behind the base line, across the end line approximately one quarter mile away, and returning across the base line.
  3. Return to the OZ and touch down.
  4. Load any payload(s) of choice. Payload(s) may vary for each loaded segment and may be any combination of 
    1. up to one Alex manikin, 
    2. up to twelve 6 ft (1.8 m) lengths of #5 rebar (~6.2 lb / 2.8 kg per piece), and/or
    3. up to three 40 lb (18 kg) sandbags (sandbags have no handles).
  5. Take off, fly a segment with payload, and land at the OZ.
  6. Gently unload all payload. Unloaded payload may not be in contact with any system element during flight (including prior to the first segment).
  7. Repeat the process of flying segments, alternating empty and with payload(s).
  8. The mission timer stops at 90 minutes. The last load counts at touchdown (does not have to be unloaded before the timer expires).
  • To complete the mission, the minimum total payload weight ferried is 1250 lb (567 kg).
  • Maximum 4 payload handlers / pit crew. They must be at least 50 ft (15 m) from the OZ borders any time the aircraft is in flight and may never get within 3 ft (0.9 m) of still-moving systems not enclosed or blocked by static aircraft structure as first point of contact. Payloads, tools, and equipment must remain in the OZ or on the aircraft.
  • Expect mission parameters to be revised as the event site allows.
  • Instead of deploying into the OZ, teams may elect for the first takeoff to be directly off of the transport vehicle, which may be parked in the OZ or within a 10 ft (3 m) wide lane bordering all but the short sides of the OZ.
  • Total system weight for ranking includes all equipment used during the mission, including aircraft, extra fuel/batteries, parts, tools/equipment, consumables, etc. It excludes the ground transport vehicle (if not contacted after the first liftoff), operating crew, ground control equipment, and payloads. The first pair of human payload handlers used counts as 50 lbs (23 kg), with any additional individuals as 50 lbs each.

Productivity mission course illustration (not to scale).

1.2. Adversity mission

Demonstrate the ability to take off and land in difficult conditions. Ranked by fastest time.

Operations zones

  • The Base.” Hard surface, 25 ft (7.6 m) wide by 50 ft (15 m) long. 
  • The Pit.” 12 ft x 12 ft (3.7 m) loose dry sand. Sand extends beyond OZ borders and well beyond is surrounded by short walls intended to contain anything strewn by downwash within the OZ environment. Additional elements creating low visibility conditions may be present.
  • The Hill.” 11 ft x 11 ft (3.4 m) on an elevated platform at a ~12 degree incline, surfaced with carpet.
  • The Flood.” Surface of a ~24 ft (7.3 m) diameter, ~18 in (0.5 m) deep pool with simulated moderate (~1/8th inch / 4 mm per hour) rainfall. Touching / resting on the floor of the pool is allowed. Landing must include momentarily touching or popping a balloon floating on the pool surface anchored to limit movement to a ~6 ft (1.8 m) radius circle.
  • The Tornado.” Hard surface, 15 ft x 15 ft (4.6 m) with strong, non-uniform wind currents. Elements used to create these conditions are placed no closer than 18 ft (5.5 m) from the center of the zone.
  • The Unknown.” Hard surface, 60 ft x 25 ft (18 m x 7.6 m). Obstacles up to 3 ft (0.9 m) tall and not in direct view of the operating crew are distributed such that a minimum 15 ft (4.6 m) diameter area remains clear of obstacles. Obstacles may be re-distributed before or during the mission except whenever the aircraft may be en route to the OZ.

Profile

  1. Start at The Base with Alex on board. Timer starts at liftoff.
  2. Overfly a tall (~30 ft / 9 m) marker located up to 100 ft (30 m) away from the OZs. 
  3. Fly to a different OZ. 
  4. Touch down at the new OZ and remain touched down for a minimum of 2 contiguous minutes.
  5. Take off and repeat (take off, overflight of marker, touch down, ground pause) for each of the remaining OZs not yet flown to, in any order.
  6. Timer stops after touchdown back at The Base. Maximum time allowed: 30 minutes.

1.3. Maneuvering mission

Demonstrate the ability to tightly maneuver while avoiding obstacles. Ranked by fastest time.

Operations zones

  • The Base.” Hard surface, 25 ft (7.6 m) wide by 50 ft (15 m) long.
  • The Spot.” Hard surface, 8 ft x 8 ft (2.4 m), with entrance and exit through a 28 ft (8.5 m) wide by 30 ft (9 m) high gate with threshold ~4 ft (1.2 m) from one edge. May be shielded, above and/or to the sides, by structures designed to degrade GNSS quality.

Profile

  1. Take off with Alex from The Base. Timer starts at liftoff.
  2. Fly the course (forward direction):
    1. Navigate around (left turn) obstacle 1 (vertical pylon), staying above 50 ft (15 m) AGL while passing abeam the obstacle in the outbound direction.
    2. Navigate around (right turn) obstacle 2 (vertical pylon), keeping below 35 ft (11 m) (highest point of aircraft) while passing between obstacles 2 and 4.
    3. Navigate around (left turn) or over obstacle 3 (50 ft / 15 m high virtual wall).
    4. Navigate around (right turn) obstacle 4 (same as obstacle 2).
  3. Land on The Spot.
  4. Gently unload payload. 
  5. Take off and fly course in reverse direction, no payload.
  6. Touch down back in The Base.
  7. Fly course in forward direction, no payload, and touch down at The Spot.
  8. Re-load Alex.
  9. Fly course in reverse direction, with payload, and land in The Base. Timer stops on touchdown. Maximum time allowed: 20 minutes.
  • The timer is stopped while any part of the aircraft is touching The Spot, up to a maximum of 4 minutes per visit. 
  • Obstacles and The Spot surface are placed within up to a 75 ft (23 m) width and roughly spaced over a total distance of 225 to 325 ft (69 to 99 m).
  • Obstacles will be physical as far as is practical, with virtual extensions and interpolations. Contact is allowed with obstacles and The Spot gate.
  • Maximum three payload handlers for The Spot operations. Payload handlers are all that are allowed in addition to aircraft and payload (no additional tools or equipment). Payload handlers must be at least 50 ft (15 m) from the OZ borders any time the aircraft is in flight and may never get within 3 ft (0.9 m) of still-moving systems not enclosed or blocked by static aircraft structure as first point of contact.

Maneuvering mission course illustration (not to scale).

2. Additional rules and information

2.1. Spirit of the competition

Just like real-world missions require adaptability, teams should expect the unexpected at the event and should not expect mission conditions, layouts, or elements to be exactly as practiced, precisely defined prior to the event, or exactly the same for each competitor attempt. Course element coordinates will not be provided, and teams may not pre-survey courses. Teams are expected to strive for competitiveness. Just as with sporting events, chance, weather, and other factors outside of competitor control may play a role in determining results.

2.2. Primary mission payload “Alex”

“Alex” is a manikin stand-in for a human with approximate stature of 5’5” (1.65 m) and a nominal weight of 125 lb (57 kg), plus clothing (to represent about half of a fieldable product minimum payload capability to reduce competition cost and logistics). Alex must be carried in some plausible reasonable position with plausible restraints for an active or passive human occupant. 

Alex (specifically, Simulaids #149-1390) and other payloads are provided at the event.

2.3. Transport and staging

The total system, including all operating crew, the aircraft, fuel, support equipment, etc., but excluding payloads, payload handlers, and specialized staging equipment, must arrive at the competition properly secured and fitting on a single US highway-legal ground transport vehicle (trailers allowed), meeting weight, length, and width requirements and a 13.5 ft (4.1 m) height limit. Teams should be prepared to stage for mission attempts within two hours of access to the competition site since prior-day access is not guaranteed.

Whether repurposing the ground transport vehicle or using some other additional separate equipment (tugs, towbars, dollies, etc.), teams must be able to efficiently stage and unstage their system to and from mission courses. This requires the ability to:

  1. Move the system a distance over a hard surface at a minimum of a 2.5 mph (4 km/h) (average walking pace), but more desirably towed or driven,
  2. Set up at the mission starting operations zone and ground station area and be ready to fly within fifteen minutes of arriving at the course, with the timer starting after 10 minutes regardless, and
  3. Clear the course within ten minutes of finishing a mission attempt.

Teams should plan to include the ability to clearly “safe” the system any time it is not attempting a mission, including assurance of radio equipment not transmitting.

2.4. Top prize points

The top prize is based on a system of completion points, rank points, and bonus points.

Completion points 

Teams must earn 30 or more completion points to win the top prize. 

  • 25 points per mission completed.
  • 10 points per mission partially completed. Partial completion criteria are:
  1. Productivity: Total weight of ferried payloads of at least 700 lb (318 kg).
  2. Adversity: Any one OZ or cycle incomplete or omitted.
  3. Maneuvering: Either a) mis-flying any one obstacle once or b) omitting the final flight leg (reverse direction with payload).

Rank points

Teams with fewer than 30 completion points (those not eligible to win the top prize) are omitted from rankings used for determining rank points.

  • 10 points to the highest ranked team of each mission.
  • 4 points to the 2nd highest ranked team of each mission.

Bonus points

  • Operating crew: 2 points for each mission fully or partially completed using only a single operating crew member (excluding staging operations). Capped at 4 points. 
  • Workload: 2 points for each mission fully completed, or 3 points for each mission partially completed, with no more than 30 total seconds of operator inputs. An additional 2 points are awarded if accomplished with zero operator inputs. Inputs whenever payload handlers may be active are ignored. Capped at 9 points.
  • Deployment: 6 points if deployed in under 2 minutes, or 4 points if under 5 minutes, on the Productivity mission if total weight of ferried payloads is at least 125 lb (57 kg).

Ties are settled first by who has at least partially completed more missions, then by who has the superior ranking in more missions, then by points with caps on bonus points removed. If still tied, the prize is split.

2.5. Penalties

Single penalties – 20% completion points reduction per instance:

  • Going partially out of bounds of an OZ (some part of the system still touches inside the OZ).

Double penalties – 40% completion points reduction per instance:

  • Other illegal contact outside of OZs or explicitly allowed mission elements.
  • Inability to meet the efficient staging and unstaging time requirements for a mission.
  • Piercing or otherwise intentionally damaging payloads.

Any penalty results in no ranking for that mission. The standard penalty for otherwise violating rules or not meeting a requirement is a void mission attempt. Gross violations of the rules, unsportsmanlike or unethical conduct, or unsafe behavior, for example any excursion beyond course boundaries, results in disqualification and nullification of all mission attempts. 

2.6. Field of play

  • Layout, dimensions, definitions, and demarcation of OZs, ground station, and other mission elements are approximate.
  • It should not be assumed that areas outside of OZs are smooth, level, or free of obstructions.
  • Teams will not be provided with precise surveyed locations of OZs and mission elements.
  • Teams should not expect access to courses prior to mission attempts.
  • Mission courses will include additional explicit boundaries (including altitude limits) that may be close to mission elements, limiting wide turns.
  • Multiple teams may be airborne simultaneously, attempting the same or different missions, separated by course boundaries.
  • Neither aircraft parts nor payloads may touch the ground, obstacles, or mission elements anywhere outside the operations zone unless otherwise explicitly allowed. Where explicitly allowed, any contact must not result in the element being damaged, toppled, etc. i.e., it must remain in place and functional for the contact to still be legal.

2.7. Uncrewed operations

No human pilot, crew, or passengers are allowed on board during flight. Total operating crew on the ground is limited to 2 persons for staging, deploying, and operating the aircraft in all missions (excludes payload handlers, but includes a visual observer if one operator has obstructed vision).

Ground areas will be designated at each mission course for operating crew, outside expected aircraft flight paths but within line of sight. Anyone in or in communication with the designated area is considered operating crew.

Teams are responsible for ensuring that risks of excursion beyond course boundaries are mitigated, with consideration that there may not be a clean RF or GNSS signal environment.

2.8. Takeoff and landing definition

Lifting off means no part of the aircraft or payload remains in contact with the OZ.

Touching down or landing means a load-bearing part of the aircraft (bears a significant portion of aircraft and payload weight) is in contact with the OZ and the entire flight system is a single unit.

Landings must not result in damage to the aircraft, payload, or OZ. All parts, components, and assemblies must remain intact, attached to the aircraft, and in the OZ.

2.9. Mission order and attempts

Adding and removing accessory equipment between mission attempts is allowed, but the same core aircraft and its elements (propulsion, powered lift, control effectors, lifting surfaces, etc.) must be included for all missions.

The total number of entrants, which mission(s) they plan to attempt, event schedule and calendar, and other factors will determine the order of mission attempts for each competitor. Reattempts to achieve completion or a better score may be available but are also dependent on these factors. Performance points and mission prizes may also be diminished or unavailable on reattempts. In order to allow for a denser schedule of mission attempts at the event, the maximum time allowed limits for missions may also be reduced.

 

GoAERO Fly-Off Rulebook v2 4.11.24

GoAERO Fly-Off Rulebook v1 2.6.24


Competition Parameters

PRIZE PURSE

The GoAERO Prize Competition will award over $2 million in prizes over three stages. Teams can join the competition at any time and do not need to have participated in previous rounds to compete in the next round. Teams also do not need to win a previous stage prize in order to continue into the next round of the competition, although we encourage Teams to enter sooner rather than later so that they can enjoy the Benefits provided to GoAERO Teams and have the ability to compete to win early-round prizes and publicity.

Prizes will be awarded for each stage of the Competition as follows:

Stage 1

  • Up to ten $10,000 Stage 1 winners are selected based on a digital-only submission describing the technical approach and project plan. 

Stage 2

  • Up to eight $40,000 Stage 2 winners are selected based on Stage 1 content (with updates for those who participated in Stage 1) plus a show of concept validation. 

Stage 3

  • One $1,000,000 Top Prize awarded for the best overall fly-off score.
  • Three $150,000 prizes: one for each of the Productivity, Adversity, Maneuvering missions.
  • One $100,000 RTX Disruptor Prize, awarded for disruptive advancement of the state of the art.
  • One $100,000 Autonomy Prize.

See Guidelines above for all rules and requirements for the competition.  

 

INTELLECTUAL PROPERTY RIGHTS

Teams will keep all of their intellectual property, except that Teams will grant limited media rights to GoAERO so that GoAERO can publicize and promote the Competition and the Teams. The details relating to media rights are addressed in the Stage I Competition Agreement and the Media Rights Agreement. Other than these media rights, any rights a Team has in its inventions, drawings, patents, designs, copyrights and other intellectual property remain with the Team.   

The prize submission information that Teams provide to GoAERO as part of the Competition will only be shared with the Judging Panel and representatives of GoAERO who are involved in administering the Competition. Anyone who has access to a Team’s confidential prize submission information will have signed a confidentiality agreement and agreed not to share or use such confidential information, except as may be required by law.  In addition, Teams will not have access to any nonpublic information about other Teams or their technology or performance during the Competition.

 

INNOVATION INCUBATOR

Even the best and brightest minds can use a little help sometimes. GoAERO empowers innovator teams by providing access to experienced Mentors and Experts in design, engineering, fundraising and law. Teams will have the opportunity to listen to and engage in discussions with the Luminaries of Aerospace and Business in global webinars. Have a couple of questions on conceptual design or configuration management? Looking for insight into cutting edge autonomy techniques? Trying to raise funding to support your build? Expert lectures speak to those disciplines and more. Learn from FAA leads, NASA gurus, Boeing Senior Technical Fellows, and the luminaries who actually wrote the textbooks. Hear about the aerospace fundraising landscape, and take a deep dive into financing decks and pitching VCs. Learn how to protect your intellectual property from patent specialists. A list of Experts along with their bios can be found in the Advisors section.

Starting in Stage 1, when one-on-one help is needed, all Teams will have access to our Mentor program, where Teams work directly with Mentors in their specific areas of need. Operationally, the Mentor program is organized so that Teams contact GoAERO to request a Mentor within a particular discipline. Upon contact, that Team will be matched with a Mentor (or multiple mentors) in that area. During these Mentor sessions, a Team works directly with the Mentor to answer the Team’s specific questions related to their technical build (or financing, or corporate documents, etc.). This is one-on-one support for the Teams, geared to the precise needs of each Team. GoAERO believes that providing this type of support is the best way to help aspiring inventors all over the world create the kind of ground-breaking devices that the Competition seeks.

 

WHO CAN PARTICIPATE?

GoAERO believes that solutions can come from anyone, anywhere. Scientists, engineers, academics, entrepreneurs, and other innovators with new ideas from all over the world are invited to form a Team and register to compete. To participate, a Team may organize their own members, recruit additional experts to join them, and can add new members at any time throughout the Competition. 

To be eligible to participate in the GoAERO Prize, Teams must complete all registration and administration forms, including a short bio for each Team member, certain legal documents, and be accepted by GoAERO into the competition.

For more information, see “Eligibility” below.

 

TIMELINE AND DELIVERABLES

The GoAERO Prize Competition is a three-year Competition launched on February 6, 2024.  There will be three sequential rounds of the Competition.

Comment period

GoAERO solicits and welcomes comments on the Fly-Off rulebook. Use this form to comment.

Stage 1                  

  • Digital-only submission describing the technical approach and project plan. 

Stage 2      

  • Stage 1 content (with updates for those who participated in Stage 1) plus a show of concept validation.        

Stage 3                 

  • Final Fly-Off competition featuring three separate missions testing specific skills and capabilities relevant to public good missions

 

A list of important dates is set forth below:

DescriptionDate

Competition Launch

Public Comment period opens

February 6, 2024
Public Comment period closesApril 8, 2024
Stage 1 Submission deadlineDecember 11, 2024
Stage 1 Winners announcedFebruary 11, 2025

Stage 2 Registration deadline

Stage 2 Submission deadline

September 30, 2025
Stage 2 Winners announcedNovember 18, 2025
Stage 3 Qualifying openJune 5, 2026
Stage 3 Registration deadlineNovember 4, 2026
Stage 3 Qualifying deadlineDecember 15, 2026
Final Fly-OffFebruary 5, 2027

 

REGISTRATION AND LEGAL DOCUMENTS

To compete in the GoAERO Prize, the participant must be a registered Team that has been approved by GoAERO. Note that the information below is only a summary for your convenience.  For full details, please refer to the legal documents for each Stage referred to below.

STAGE 1:

Innovators can compete in Stage 1 both as Individual Innovators and in groups which we refer to as Teams.  To begin the registration process for Stage 1 (the Paper Report Stage of the Competition) and be accepted to participate, you must:

  1. Sign the Stage 1 Competition Agreement
  2. Sign the Release of Liability and Indemnification Agreement
  3. Sign the In-kind Sponsor Benefit Agreement

All forms can be found here, and all may be accepted and submitted online.   

Submission of the documents will enable access to the Stage 1 submission form for competing.  There is no registration fee, but upon submission of a Team’s Stage 1 competition entry, there will be a fee of $250 for Individual Innovators or a fee of $500 for Teams with two or more persons.

 

STAGE 2 and STAGE 3:

There is a big difference between designing on paper and actual building/flying, so the documents involved for the different Stages of the GoAERO Prize vary as well.  In order to proceed from Stage 1 (the paper, technical specifications Stage of the competition) into the actual building (Stages 2 and 3 of the Competition), ALL Teams must submit an additional application and be accepted as a Stage 2 or Stage 3 Team by GoAERO. Under no circumstances should any off-paper work, building or testing take place before a Team is formally admitted into Stage 2 or Stage 3 of the GoAERO Prize. Should any work be done off-paper before being accepted into Stage 2 or Stage 3 in contravention of the foregoing, such work is done entirely outside the scope of the GoAERO Prize.

Prior to the Stage 1 submission deadline, Teams wishing to be considered for acceptance as a competitor in Stage 2 of the Competition (which acceptance will be in the sole discretion of GoAERO) must sign the Extension and Amendment of Stage 1 Competition Agreement (which is attached to the Stage 1 Competition Agreement). 

The Stage 2 and 3 Application forms will be available in Summer 2024. Each Team that participates in Stage 2 and 3 is required to complete the package of legal documents which will govern those Stages of the Competition, including the following:

  • Master Team Agreement
  • Certificate of Insurance (as required by the Master Team Agreement)
  • Updated Team Release of Liability and Indemnification Agreement
  • Updated Team Member Release of Liability and Indemnification Agreement
  • Media Rights Agreement
  • Warrant Agreement, including the Company Questionnaire and the other documents referenced therein.

Of note, Stage 2 and 3 Teams must register and participate as legal entities, and not as individuals.  See “Eligibility” below for further details.


FOR ALL STAGES OF THE COMPETITION:

Teams must sign all legal documents and comply with all requirements therein to be admitted to the Competition.  Once GoAERO determines that a Team has complied with all requirements of the legal documents and these Competition Guidelines, it will notify the Team that it is approved for entry into the Competition.

Each Team shall designate a Team Member to act as “Team Leader”. The Team Leader will be responsible for communicating with GoAERO and the Judging Panel. The Team Leader (and all Team Members) must be at least 18 years old (or the age of majority in their jurisdiction of residence, if such age is older than 18 years). A Team may add and/or remove Team Members at any time through the Team Portal.  The Team has sole responsibility for adding and removing Team Members.

At registration, each Team must list the individuals that are part of the Team (the Team Members), including all individuals or entities involved in the design, development, or testing of the Team’s Submission, including employees. All Team Members must register at the Competition website and sign the Stage 1 Competition Agreement. Teams may add and/or remove Team Members at any time through the Team Portal. The Team has sole responsibility for adding and removing Team Members. 

Teams may revise registration information at any time and are responsible for keeping information up to date. All Teams wishing to continue on to Stage II and III must be legal entities (not individuals) and must complete all Stage 2 and III legal documents by the Stage 2 and 3 registration deadlines. New Teams who have not participated in Stage 1 or Stage 2 are still eligible to participate in Stage 3 by completing registration documents by the Stage 3 registration deadline.

As part of this Competition, GoAERO may receive some of the Team’s and Team Members’ personal information. The collection, use, and disclosure of this information will be governed by GoAERO’s Privacy Policy. The Privacy Policy includes several ways to contact GoAERO with questions.  By submitting such information, the Team agrees that (i) GoAERO may use the personal information collected as described in the Privacy Policy and (ii) GoAERO may disclose such Team’s and Team Members’ contact information and Competition registration information to Boeing, RTX, other Competition sponsors, and GoAERO’s affiliates and investors.  Each Team expressly authorizes each of the foregoing to contact the Team if it so desires.  Teams have the right to access, withdraw, and correct their personal information. 

 

ELIGIBILITY

Stage 1 Eligibility:

Individual Innovators: The Competition is open to individual Innovators who (a) are at least 18 years old (or the age of majority in his/her jurisdiction of residence if it is older than 18), (b) comply fully with all terms and conditions of the Stage 1 Competition Agreement, and (c) are able to participate without violation of any third-party rights or obligations, including without limitation an employer’s policies or procedures.

Exclusions: Individual Innovators may not be (a) an employee of Boeing or RTX (or an affiliate) or a member of any such employee’s immediate family, (b) located in a jurisdiction where participation in the Competition is prohibited or otherwise restricted by law (or an individual with a residence in or who is a national of Cuba, Iran, Syria, North Korea, Russia, Sudan or, as applicable, Crimea and covered regions of Ukraine) or (c) subject to export controls or sanctions of the U.S.

Business Entities:  The Competition is open to legal entities that wish to compete as a Team and (a) are validly formed and in existence under applicable law, (b) comply fully with all terms and conditions of the Stage 1 Competition Agreement, and (c) are able to participate without violation by the Team or any Team Member of any third-party rights or obligations.    

Exclusions:  Entity Innovators must not have any presence in Cuba, Iran, Syria, North Korea, Russia, Sudan or, as applicable, Crimea and covered regions of Ukraine, or be subject to export controls or sanctions of the United States.  

 

Stage 2 and Stage 3 Eligibility:

Among other requirements, Stage 2 and 3 of the Competition are only open to business entities that wish to compete as a Team and (a) are validly formed and in existence under applicable law, (b) comply fully with all terms and conditions of the Master Team Agreement, (c) have completed the full package of required legal documents, and (d) are able to participate without violation by the Team or any Team Member of any third-party rights or obligations.    

All Team Members must (a) be at least 18 years old (or the age of majority in his/her jurisdiction of residence if it is older than 18), (b) comply fully with all terms and conditions of the Master Team Agreement and all other GoAERO legal documents, and (c) be able to participate without violation of any third-party rights or obligations, including without limitation an employer’s policies or procedures.

Exclusions: A Team Member may not be (a) an employee of Boeing or RTX (or an affiliate) or a member of any such employee’s immediate family, (b) located in a jurisdiction where participation in the Competition is prohibited or otherwise restricted by law (or an individual with a residence in or who is a national of Cuba, Iran, Syria, North Korea,  Russia, Sudan or, as applicable, Crimea and covered regions of Ukraine) or (c) subject to export controls or sanctions of the U.S.  Additionally, Teams must not have any presence in Cuba, Iran, Syria, North Korea, Russia, Sudan or, as applicable, Crimea and covered regions of Ukraine or be subject to export controls or sanctions of the United States. In all cases, each Team’s legal documents, forms and questionnaires are subject to GoAERO’s review and approval.

Each Team’s compliance with these requirements and eligibility for the Competition will be determined by GoAERO in its sole discretion.  Only Teams meeting all of the eligibility requirements set forth in the Master Team Agreement as determined by GoAERO and who are otherwise qualified and accepted by GoAERO will be recognized as participants in the Competition. 

Each Team must obey all local, national, and international laws in undertaking any activities related to the Competition.  Teams must also acquire all necessary licenses, waivers, and/or permits from the applicable regulatory bodies or other applicable third parties. GoAERO is not required to advise Team regarding such legal and regulatory compliance, and GoAERO shall have no responsibility for a Team’s compliance with laws and disclaims any responsibility for advising on the applicability of laws or regulations or a Team’s compliance therewith.  GoAERO’s acceptance of a Team into the Competition does not constitute approval of that Team’s compliance with laws applicable to it.

 

TEAM SUBMISSIONS

For each Stage of the Competition, Teams will be required to submit the materials and writings described in these Guidelines (“Submissions”).  All Submissions must comply with the following requirements:

  • Except for purchased or licensed content, any Submission must be original work of Team;
  • Submissions must include only content (including any technical information, algorithms, designs, music, audio, visual or illustrative content, including logos, images, graphics, art, or other content, information, or materials protected by any intellectual property right) that Team owns or has proper rights to use;
  • Team is required to disclose any purchased or licensed content that is part of a Submission.
  • Submissions must not contain any incomplete, corrupt, damaged, or malicious material;
  • Submissions must not contain material that violates or infringes another’s rights, including but not limited to privacy, copyright, trade secret, patent, trademark, publicity or other intellectual property rights;
  • Submissions must not disparage GoAERO, any Competition sponsor, any GoAERO affiliate or investor or any of their respective affiliates, officers, directors or employees;
  • Submissions must not contain material that is inappropriate, offensive, indecent, obscene, tortious, defamatory, slanderous or libelous and must not contain material that promotes bigotry, racism, hatred or harm against any group or individual or promotes discrimination based on race, gender, religion, nationality, disability, sexual orientation, or age; and
  • Submissions must not contain material that is unlawful, in violation of, or contrary to laws or regulations.

 

JUDGING PANEL

INDEPENDENT JUDGING PANEL

No Judge, nor any member of Judge’s immediate family, shall participate in any Team. All members of the Judging Panel will promptly disclose to GoAERO any such current, former, or expected future conflict of interest with GoAERO, Boeing, RTX and/or any Team or Team Member.

ROLE OF THE JUDGING PANEL

The duties and responsibilities of the Judging Panel will include, but not be limited to: (i) evaluating a Teams’ compliance with the Master Team Agreement, these Competition Guidelines, and the Rules and Regulations for the purposes of the Competition; and (ii) the awarding of points and selection of Teams that will receive prizes for each Stage of the Competition.

GROUNDS FOR JUDGING PANEL DECISIONS

Official decisions made by the Final Round Judging Panel will be approved by a majority of the Judges that vote on such decision after careful consideration of the testing protocols, procedures, guidelines, rules, regulations, criteria, results, and scores set forth in the Master Team Agreement and these Competition Guidelines. If any vote of the Judges results in a tie, then the Judging Panel shall determine, in its sole and absolute discretion, the mechanism to settle the tie. Similarly, if one or more Teams are tied at any stage during the competition, the Judging Panel shall have the sole and absolute discretion to settle the tie. 

DECISIONS OF THE JUDGING PANEL ARE FINAL

The Judging Panel shall have sole and absolute discretion: (i) to allocate duties among the Judges; (ii) to determine the degree of accuracy and error rate that is acceptable to the Judging Panel for all competition calculations, measurements, and results, where not specified in the Rules and Regulations; (iii) to determine the methodology used by the Judging Panel to render its decisions; (iv) to declare the winners of the competition; and (v) to award the prize purses and other awards. Decisions of the Judging Panel shall be binding on Teams and each Team Member. Teams agree not to dispute any decision or ruling of the Judging Panel, including decisions regarding the degree of accuracy or error rate of any competition calculations, measurements, and results. Teams shall have no right to observe other Teams’ testing or evaluation, or to be informed of other Teams’ calculations, measurements, and results, unless such information is made publicly available by GoAERO. 

 

OFFICIAL LANGUAGE AND CURRENCY

The official language of the Competition is English. All communications with GoAERO must be in English. All references to currency are expressed in United States Dollars (USD).

Technical Rules
Partners

Partners

 

Boeing

Boeing is the world's largest aerospace company and leading manufacturer of commercial jetliners, defense, space and security systems, and service provider of aftermarket support. As America’s biggest manufacturing exporter, the company supports airlines and U.S. and allied government customers in more than 150 countries. Boeing products and tailored services include commercial and military aircraft, satellites, weapons, electronic and defense systems, launch systems, advanced information and communication systems, and performance-based logistics and training.

 

 

 

 

Pratt & Whitney: Sponsor of the $100,000 Disruptor Award

RTX is the world's largest aerospace and defense company. With more than 185,000 global employees, we push the limits of technology and science to redefine how we connect and protect our world. Through industry-leading businesses – Collins Aerospace, Pratt & Whitney, and Raytheon – we are advancing aviation, engineering integrated defense systems for operational success, and developing next-generation technology solutions and manufacturing to help global customers address their most critical challenges. 

 

 

Honeywell Aerospace Technologies

Products and services from Honeywell Aerospace Technologies are found on virtually every commercial, defense and space aircraft. The Aerospace Technologies business unit builds aircraft engines, cockpit and cabin electronics, wireless connectivity systems, mechanical components and more. Its hardware and software solutions create more fuel-efficient aircraft, more direct and on-time flights and safer skies and airports. For more information, visit www.honeywell.com/us/en or follow us at @Honeywell_Aero.

 

Honeywell is an integrated operating company serving a broad range of industries and geographies around the world. Our business is aligned with three powerful megatrends – automation, the future of aviation and energy transition – underpinned by our Honeywell Accelerator operating system and Honeywell Forge IoT platform. As a trusted partner, we help organizations solve the world’s toughest, most complex challenges, providing actionable solutions and innovations through our Aerospace Technologies, Industrial Automation, Building Automation and Energy and Sustainability Solutions business segments that help make the world smarter, safer and more sustainable. For more news and information on Honeywell, please visit www.honeywell.com/newsroom.

 

 

Saft

Saft specializes in advanced battery technology solutions for the industry, from the design and development to the production, customization, and service provision. For more than 100 years, Saft’s long-lasting batteries and systems have provided critical back-up power and propulsion to our customer’s applications.  Our innovative, safe and reliable technology delivers high performance on land, at sea, in space, and in the air.

 

 

In Kind

 

Iridium

Iridium® is the only mobile voice and data satellite communications network that spans the entire globe. Iridium enables connections between people, organizations and assets to and from anywhere, in real time. Together with its ecosystem of partner companies, Iridium delivers an innovative and rich portfolio of reliable solutions for markets that require truly global communications.

 

 

Global Aerospace

Global Aerospace is a leading provider of aerospace insurance with a worldwide portfolio of clients who are engaged in every aspect of the aviation and space industries. Known for its innovative approach to providing insurance solutions for the industry, the company’s underwriting is backed by a pool of high-quality insurance companies representing some of the most respected names in the business. Global Aerospace will provide all eligible Stage II and III GoAERO Teams with $1,000,000 of Aircraft Liability insurance for a flat rate of $1,500.* Email

for more information.

*eligibility dependent on team’s geographical jurisdiction

 

Gardner Aviation Services

GoAERO has partnered with Sue and Jim Gardner to engage with all active Stage 3 Teams who may need support navigating the FAA aircraft and airman pathways. Both are recently retired after an illustrious 30 year career with the FAA. 

Jim’s role as a senior executive in Flight Standards with experience navigating both GA airman and aircraft certification, and Sue’s role as the FAA National Aviation Events Specialist, and FAA team member supporting development of pathways for sUAS and unique aircraft (e.g Jetman, flyboards), and Program Lead for the Sport Pilot and LSA rulemaking give them the tools and strong relationships within the FAA to help all our active Phase III teams identify and navigate their way through the FAA certification pathways in an efficient manner. On behalf of GoAERO, they will work directly with all active Stage 3 Teams in a one-on-one capacity to help each team define your FAA certification pathway and then provide an additional 5 hours support for each team as you process the required FAA paperwork for both your aircraft/vehicle and the pilot/operator.

 

 

 

Organizational Partners

 

American Institute of Aeronautics and Astronautics (AIAA)

The American Institute of Aeronautics and Astronautics (AIAA) is the largest aerospace technical society, serving as the global representative for nearly 30,000 individual members from 91 countries, and 100 corporate members. AIAA brings together industry, academia, and government to accelerate technical excellence in engineering and science in aviation, space, and defense.

 

 

Association for Uncrewed Vehicle Systems International (AUVSI)

The Association for Uncrewed Vehicle Systems International (AUVSI) is the world’s largest non-profit organization dedicated to the advancement of uncrewed systems and robotics. AUVSI represents corporations and professionals from more than 60 countries involved in industry, government and academia. AUVSI members work in the defense, civil and commercial markets. For more information, please visit AUVSI.org. 

 

 

Vertical Flight Society (VFS)

The Vertical Flight Society is the world’s oldest and largest technical society dedicated to enhancing the understanding of vertical flight technology. VFS is a non-profit, charitable educational and technical organization. Since it was founded as the American Helicopter Society (AHS) in 1943, VFS has a mission to Provide opportunity for technical data exchange and dissemination; promote awareness of vertical flight capabilities, challenges and development; engage in community outreach and advocate for public policy consistent with the goals of the Society; leverage the technical base to explore innovation; and foster a diverse and inclusive environment that promotes careers and professional advancement in vertical flight.

 

 

SAE International

SAE is a global association of more than 128,000 engineers and related technical experts in the aerospace, automotive and commercial vehicle industries. Our core competencies are life-long learning and voluntary consensus standards development. At our core, we champion diverse collaboration across companies and borders that embodies our dedication to diversity, equity, and inclusion (DEI). 

 

 

Royal Aeronautical Society (RAeS)

The Royal Aeronautical Society is the only professional body dedicated to aerospace, aviation and space communities. Established in 1866 to further the advancement of aeronautical art, science and engineering around the world, the Society has been at the forefront of developments ever since. We offer our members professional recognition for their achievements and expertise in the aerospace industry as well providing learning and development through events, publications and access to the National Aerospace Library. For further information please visit our website: www.aerosociety.com

 

 

International Council of the Aeronautical Sciences (ICAS)

ICAS currently serves as the only world-wide supernational organization to represent aeronautical engineering professional societies and associated organizations and their members in 32 countries.

 

Association Aéronautiqe et Astronautique de France (3AF)

 

 

Brazilian Society of Mechanical Sciences & Engineering (ABCM)

The Brazilian Society of Mechanical Sciences and Engineering (ABCM) is a non-profit organization funded in 1975, whose mission is to promote the development of Mechanical Sciences and Engineering in Brazil, in their scientific, technological and educational aspects. Scientfic and technological advances are organized under the responsibility of 19 technical committees, namely: Bioengineering, Thermal Sciences, Combustion, Dynamics, Aerospace Engineering, Manufacturing Engineering, Nuclear Engineering, Offshore Engineering, Design Engineering, Nonlinear and Chaotic Phenomena, Smart Materials and Structures, Fracture Mechanics, FaƟgue and Structural Integrity, Solid Mechanics, Mechatronics, Nanofluidics, Microfluidics and Microsystems, Uncertainty Quantification and Stochastic Modeling, Refrigeration Air-Conditioning, Heating and Ventilation, Pipes and Pressure Vessels. Among many other actions, ABCM publishes the Journal of the Brazilian Society of Mechanical Sciences and Engineering (https://link.springer.com/journal/40430), promotes 12 national and International scientific meetings and grants various honor prizes (https://abcm.org.br).

 

 

Canadian Advanced Air Mobility (CAAM)

Canadian Advanced Air Mobility (CAAM) is the federal not-for-profit organization representing the voice of the Advanced Air Mobility (AAM) industry in Canada. CAAM has partnered with over 100+ organizations including industry, academia, private capital and all three levels of Canadian government to launch projects aimed at operationalizing the AAM industry.

 

 

Associazione Italiana di Aeronautica E Astronautica (AIDAA)

The Italian Association of Aeronautics and Astronautics (A.I.D.A.A.) is a national not-for-profit scientific association. It was founded in Rome on 2 July 1920 by a group of aeronautical pioneers as the Italian Aerotechnique Association. The reference point for the national aerospace scientific community, AIDAA promotes its activity through the organization of conferences, workshops, roundtables, competitions with prizes for studies and research, publication proceedings, and through the international journal “Aerotecnica Missili e Spazio – Journal of Aerospace Science, Technologies, and Systems”.

 

 

Chinese Society of Aeronautics and Astronautics (CSAA)

Founded in 1964, the Chinese Society of Aeronautics and Astronautics (CSAA) is a leading social organization in China. It’s a voting member of ICAS and ICCAIA. With over 360 corporate members, nearly 130,000 individual members and 60 technical committees, it organizes over 100 activities annually with coverage of tens of thousands of professionals. 

 

 

Aircraft Owners and Pilots Association (AOPA)

Since 1939, AOPA has protected the freedom to fly by creating an environment that gives people of all ages the opportunity to enjoy aviation and all it has to offer. AOPA is the world's largest community of pilots, aircraft owners and aviation enthusiasts with representatives based in Frederick, Md., Washington, D.C., and seven regions across the United States. The association provides member services including advocacy at the federal, state, and local levels, legal services, flight training, safety programs, and award-winning media. AOPA makes aviation more accessible to everyone.

 

Council of European Aerospace Societies (CEAS)

CEAS presently comprises twelve Trustee Member Societies with a combined roughly 35.000 individual members: 3AF (France), AAAR (Romania), AIAE (Spain), AIDAA (Italy), CzAeS (Czech Republic), DGLR (Germany), FTF (Sweden), NVvL (Netherlands), PSAA (Poland), RAeS (United Kingdom), SVFW (Switzerland), and four Corporate Members: EASA (European Aviation Safety Agency), ESA (European Space Agency), EUROAVIA, EUROCONTROL (Belgium) and Von Karman Institute for Fluid Dynamics (Belgium).

 

 

 

Italian Aerospace Research Center (CIRA)

CIRA, the Italian Aerospace Research Centre, is a company mainly of public ownership created in 1984 for the purpose of performing research in the fields of space and aeronautics.

The Centre, with headquarters and operational structures in Capua, Campania, was founded by the Italian State to promote research and technological development in the fields of space and aeronautics matching that of other European countries, and enable Italian enterprises to compete at high levels on the international markets.

 

 

Vertical Aviation International (VAI)

Vertical Aviation International (VAI), formerly Helicopter Association International (HAI), is the world’s leading membership association dedicated to the vertical aviation industry, which encompasses all aircraft capable of vertical or short takeoff and landing. Throughout its 75 years of fueling industry growth through connection, advocacy, safety, education, and support for its members’ success, VAI has leveraged the power of vertical flight to strengthen communities worldwide. The association welcomes all facets of the vertical aviation industry, including manufacturers, operators, suppliers and vendors, pilots and maintenance technicians, and other aviation professionals.  Visit verticalavi.org  for more information.

 

 

fairnamic GmbH, AERO Friedrichshafen

With the founding of fairnamic GmbH, the trade fair companies Frankfurt and Friedrichshafen are sealing a partnership focusing on innovative mobility. The market position in the future markets of General Aviation, Ecomobility, E-Bikes, and Bicycles is strengthened by pooling expertise and market knowledge, global positioning, brand strength and speed. The joint venture focuses on the AERO and Eurobike brands and their satellites. The objective is to expand and further develop the two flagship trade fairs.

About AERO Friedrichshafen

AERO 2024 will take place at the exhibition grounds of Messe Friedrichshafen from April 17 to 20, 2024. AERO is the leading international show for General Aviation, business aviation and air sports. It presents aircraft from civil drones to gliders, ultralights and gyrocopters, helicopters, travel and training planes with piston engines or turboprops right up to business jets. New propulsion systems, electric flights, state-of-the-art avionics, services and accessories for pilots are further focal points. These topics are also reflected in the AERO Conferences, making Europe's largest General Aviation event an important platform for knowledge exchange and training.

 

 

Space Faculty, Singapore Space & Technology Associaton (SSTA)

Expanding the space economy experimentation, learning and leadership for a better world.

Aligned with the Singapore Space & Technology Associaiton, we believe that space isn’t the final frontier but the first stop in our quest for innovation, to learn and push boundaries, and to create new ideas.

 

 

Autonomous Transport and Open Systems (ATOS)

ATOS is a European non-profit organization dedicated to the advancement of Autonomous Transportation Robotics Systems (Aerial VTOLs, Autonomous Road Vehicles, etc.) and the Open Systems servicing infrastructure for the development of Smart cities’ urban traffic management for an integrated, sustainable, and efficient European Network. 

 

 

Society of Women Engineers (SWE)

Empowering women to achieve their full potential in careers as engineers and leaders; expand the image of the engineering and technology professions as a positive force in improving the quality of life, and demonstrate the value of diversity and inclusion.

 

 

Airborne International Response Team & DRONERESPONDERS

Based in Miami, Florida, AIRT® is the leading 501(c)3 non-profit organization supporting the use of Drones For Good®.  AIRT offers a wide range of educational programming, training events, and mission-critical support to advance public safety and emergency UAS operations.   AIRT is the official home of the DRONERESPONDERS® program, with over 10,000 members serving over 85 countries.  For more information, visit: http://airt.ngo or http://droneresponders.org

 

 

Association of Air Medical Services (AAMS)

Established in 1980, the Association of Air Medical Services (AAMS) is an international trade association headquartered in the Washington, DC area. AAMS is a non-profit 501C (6) trade association that represents and advocates on behalf of our membership to enhance their ability to deliver quality, safe, and effective medical care and medical transportation for every patient in-need. AAMS is a dedicated team, committed to representing and advocating for the Air Medical and the Critical Care Ground Transport Industry and supporting our members who proudly serve their communities throughout the United States and around the world. 

 

 

Five-Alpha

Five-Alpha (5α) LLC is a globally recognized consultancy dedicated to providing specialized education, training, and insights into the very challenging and unique communities of Vertical Flight Infrastructure Development and Helicopter Air Ambulance Operations.

 

 

Air Medical Operators Association (AMOA)

AMOA is the national trade association representing federally authorized and certificated air carriers providing air medical transportation. AMOA’s members conduct over 90 percent of the air medical operations across the United States.  Our vision is the safe and successful operation of all air medical flights.

 

 

International Association of Medical Transport Communications Specialists (IAMTCS)

IAMTCS is a not-for-profit professional organization whose mission is to represent the medical transport communication specialist on an international level through education, standardization, and recognition. Since our inception in 1989, our goals have included providing quality educational opportunities, fostering teamwork, and building recognition for communicators as professionals within the medical transport industry.

 

 

The Commercial Drone Alliance

The Commercial Drone Alliance is an independent 501c6 non-profit organization led by key members of the commercial drone industry. The CDA works with the federal government and industry to promote U.S. global leadership in advanced aviation and to merge safety and security policy with innovation. We educate on the economic benefits and humanitarian gains made possible by commercial drones, as well as advocate for their safe and responsible use.

 

 

International College of Advanced Practice Paramedics (I-CAPP)

Founded in 1986, the National Flight Paramedic Association, currently known as the International College of Advanced Practice Paramedics, is the largest independent paramedic association in the world. Our focus is the professional paramedic and our purpose is to serve as advocates to the profession on an international basis. I-CAPP members are involved in transporting critical care patients by airplane, helicopter and ground ambulance.

I-CAPP continues to provide advocacy, leadership development and educational opportunities for specialty care paramedics. Our website is a valuable resource for everyone interested in the evolving field of critical care and community paramedicine, and provides an increased level of service to our members, and supports our mission of representation, education and development of our profession.

As the voice for specialty care paramedics, we place our emphasis on: safety, leadership, education, collaboration, innovation, and evidence based medicine.

 

 

Air Medical Physician Association (AMPA)

The Air Medical Physician Association (AMPA) is the largest professional organization of physicians dedicated to rotor wing (helicopter), fixed wing (airplane) and critical care ground transport. With over 400 members nationally and internationally the Association represents extensive expertise in the field of medical transport. Our members represent many medical specialties including Emergency Medicine, Critical Care Medicine, Internal Medicine, Pediatrics, and various Surgical Subspecialties.

 

 

National EMS Pilots Association (NEMSPA)

NEMSPA is the premier voice for professional Air Medical Transport pilots. We champion safety, advocate for optimal patient care, and foster continuous improvement through collaboration and innovation.

 

 

Air & Surface Transport Nurses Association (ASTNA)

The Air & Surface Transport Nurses Association (ASTNA) is a dynamic, international organization that acts as THE voice in transport nursing with regard to patient and provider advocacy. ASTNA is a nonprofit member organization whose mission is to advance the practice of transport nursing and enhance the quality of patient care through commitment to safety and education. Our 2700+ members represent the entire spectrum of critical care, emergency and non-emergency patient transport - hospital based, public service, military and private providers. We are the only transport nursing association and provide top of the line trauma and critical care transport education and publications for the care of the adult and pediatric/neonatal patient.

 

 

American Ambulance Association (AAA)

The American Ambulance Association safeguards the future of mobile healthcare through advocacy, thought leadership, and education. AAA advances sustainable EMS policy, empowering our members to serve their communities with high-quality on-demand healthcare. For more than 40 years, we have proudly represented those who care for people first.

 

 

International Association of Emergency Managers (IAEM)

The International Association of Emergency Managers (IAEM), which has more than 6,000 members worldwide, is a non-profit organization dedicated to promoting the "Principles of Emergency Management" and representing those professionals whose goals are saving lives and protecting property and the environment during emergencies and disasters. IAEM’s members are emergency management and homeland security professionals for local communities, state and national disaster officials, the private sector, non-governmental organizations, and others involved in preparing for, responding to, and recovering from all types of disasters. IAEM provides access to the largest network of emergency management experts who can provide advice and assistance, the Certified Emergency Manager® program, annual scholarships, a comprehensive monthly newsletter, a weekly news brief, conferences and webinars, and more. 

 

 

International Association of Black Professional Fire Fighters (IABPFF)

The International Association of Black Professional Firefighters, Inc. (IABPFF, Inc.) is composed of current and retired fire service professionals of all levels and ranks. Our organization works to improve the economic development and employment opportunities for all minorities including individuals of color, women and the LGBTQIA+ community. It is our challenge to make the fire services more relevant to the needs and aspirations of minority citizens and communities across the world.

Advisors
Forum76
Updates79

Challenge Updates

Mission First, Controls Second: GoAERO's Flexible Approach to Aircraft Autonomy

Nov. 21, 2024, 10:30 a.m. PST by GoAERO Prize

Teams entering the GoAERO competition can succeed with or without autonomous capabilities. While GoAERO seeks to advance "autonomy-enabled" emergency response aircraft, solutions can range from entirely pilot-controlled systems to highly automated ones, with many successful approaches likely to fall somewhere on this spectrum. Teams might choose to automate certain flight phases while maintaining manual control for others, or develop adaptive systems that offer both manual and autonomous modes depending on the situation.

So why does GoAERO emphasize autonomy at all? It's about maximizing real-world impact. When emergency responders need to reach someone in crisis, their focus should be on the rescue mission, not on complex aircraft controls. This is where autonomy becomes valuable – not as a requirement, but as a tool to make these systems more accessible and effective in the field.

In GoAERO's context, "autonomy-enabled" simply means creating systems that emergency responders can use with minimal training and workload. The goal is to ensure that these aircraft can be operated by existing emergency response teams, allowing them to maintain their focus on what truly matters: saving lives.

The competition's scoring system reflects this flexible philosophy. While teams can achieve excellent scores with manually and remotely controlled aircraft, the scoring system includes bonus points for features that reduce operator workload. For instance, teams can earn additional points by completing missions with minimal operator inputs or with a smaller operating crew. These bonuses recognize that reducing operational complexity can make emergency response aircraft more practical and deployable in real-world scenarios.

Think of it this way: if you're a firefighter trying to reach someone trapped by a wildfire, or a paramedic responding to an emergency in a remote location, your primary concern is helping the person in danger. Any mental bandwidth spent on complex flight controls is bandwidth taken away from the core mission. This is why GoAERO encourages – but doesn't mandate – autonomous capabilities.

The competition's three missions – Productivity, Adversity, and Maneuvering – can all be successfully completed at any point along the autonomy spectrum. What matters most is that the aircraft can perform the required tasks safely and effectively, whether that's rapidly deploying from a ground vehicle, operating in challenging conditions, or navigating around obstacles.

For teams considering their approach to GoAERO, the key is to focus first on building a capable aircraft that can complete the core mission requirements. Autonomous features can then be added strategically where they provide the most value – whether that's in takeoff and landing, navigation, or obstacle avoidance. Some teams might automate routine flight phases while maintaining manual control for complex maneuvers, while others might develop fully autonomous systems or focus on enhancing manual control through augmentation.

By embracing this spectrum of autonomous capabilities, GoAERO encourages innovation while keeping the competition accessible to a wide range of teams and approaches. This flexibility ensures that the competition can draw from the broadest possible pool of solutions, ultimately leading to better emergency response aircraft that can help save lives when every second counts.

Ready to join the challenge? Whether your team's expertise lies in manual flight controls, autonomous systems, or anywhere in between, there's a place for your innovation in GoAERO.


Reminder: Expert Lecture with Khushin Lakhara, MATLAB, tomorrow!

Nov. 20, 2024, 8 a.m. PST by GoAERO Prize

Register now for next week's expert lecture with Khushin Lakhara:

November 21, 2024 @ 11:00am ET

Title: Accelerating Aerospace Vehicle Design for the GoAERO Competition with MATLAB & Simulink

Bio: Khushin Lakhara is currently working as an Aerospace Engineer in the Student Programs team at MathWorks. He develops technical tools and content to design aircraft, UAVs, and flight controllers for aerospace student competitions. He received his B.Tech. and M. Tech. degrees in Aerospace Engineering from the Defense Institute of Advanced Technology, India. Previously he has designed UAVs, developed the Flight Controller for Combat UAVs and published research articles in the field of high-power electric propulsion. His major areas of interest are drone design, flight controller development, and mission simulation.

Registration link: https://us02web.zoom.us/webinar/register/6317296165278/WN_GR6w-hAcTW6odGRt8CaI4Q


Dr. Naira Hovakimyan Expert Lecture Recording

Nov. 15, 2024, 9 a.m. PST by GoAERO Prize

Thank you for joining us this week for our expert lecture with Dr. Naira Hovakimyan, Professor of Mechanical Science and Engineering and the Director of AVIATE Center of UIUC. The recording is available here:

All expert lectures can be found here: https://www.herox.com/goaero/294-expert-lectures.


Expert Lecture with Khushin Lakhara, MATLAB, next week!

Nov. 14, 2024, 8 a.m. PST by GoAERO Prize

Register now for next week's expert lecture with Khushin Lakhara:

November 21, 2024 @ 11:00am ET

Title: Accelerating Aerospace Vehicle Design for the GoAERO Competition with MATLAB & Simulink

Bio: Khushin Lakhara is currently working as an Aerospace Engineer in the Student Programs team at MathWorks. He develops technical tools and content to design aircraft, UAVs, and flight controllers for aerospace student competitions. He received his B.Tech. and M. Tech. degrees in Aerospace Engineering from the Defense Institute of Advanced Technology, India. Previously he has designed UAVs, developed the Flight Controller for Combat UAVs and published research articles in the field of high-power electric propulsion. His major areas of interest are drone design, flight controller development, and mission simulation.

Registration link: https://us02web.zoom.us/webinar/register/6317296165278/WN_GR6w-hAcTW6odGRt8CaI4Q


GoAERO Teams to Receive Free Access to MATLAB and Simulink Through New MathWorks Partnership

Nov. 12, 2024, 9 a.m. PST by GoAERO Prize

We are excited to announce a groundbreaking partnership between GoAERO and MathWorks, the developer of MATLAB and Simulink. This collaboration will provide all GoAERO teams with free access to industry-leading computational and simulation tools that are essential for modern aerospace design and development.

Empowering the Next Generation of Aerospace Innovation

MathWorks has established itself as a cornerstone of technical computing across multiple industries. Their flagship products, MATLAB and Simulink, are used by engineers and scientists worldwide to accelerate innovation in automotive, aerospace, electronics, financial services, biotechnology, and pharmaceuticals.

Through this partnership, GoAERO teams will receive:

  • Free access to MATLAB and Simulink
  • Comprehensive getting-started resources
  • Technical support and educational materials
  • Access to industry-standard tools used in aerospace design

GoAERO Teams can learn more and access these resources here: https://www.mathworks.com/academia/student-competitions/goaero.html 

This partnership represents a significant step forward in our mission to advance aerospace education and innovation. We look forward to seeing how GoAERO teams leverage these powerful tools in their projects.

 

Upcoming Webinar: Accelerating Aerospace Vehicle Design

To kick off this partnership, we are hosting a special webinar featuring MathWorks expertise:

Title: Accelerating Aerospace Vehicle Design for the GoAERO Competition with MATLAB & Simulink  

Date: November 21, 2024 @ 11:00 AM EDT

Registration Link: https://us02web.zoom.us/webinar/register/6317296165278/WN_GR6w-hAcTW6odGRt8CaI4Q

What You Will Learn:

  • Development and analysis techniques for conceptual and detailed designs using MATLAB
  • Code development and integration strategies for UAVs
  • Methods for generating code that meets aerospace certification requirements

Featured Speaker

We are pleased to welcome Khushin Lakhara, Aerospace Engineer at MathWorks, as our webinar presenter. Khushin brings extensive experience in: UAV design and development, flight controller development for combat UAVs, modeling and simulations, and high-power electric propulsion. Khushin holds B.Tech. and M.Tech. degrees in Aerospace Engineering from the Defense Institute of Advanced Technology, India, and currently focuses on developing technical tools and content for aerospace student competitions.

Getting Started

Teams can begin accessing these resources immediately. Stay tuned for detailed instructions on how to activate your MathWorks licenses and access the getting-started materials.


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