Home | Documentation | Calendar | Meeting Minutes | Slides | Discord
Airvan is an inexpensive and mass reproducible open source, open hardware general autonomous aeronautical platform easily accessible and usable by the average person.
With modular payloads, this platform may be used for different purposes, such as:
- Radio communication relay
- Aerial photography
- Surveying
- Cargo delivery
- etc.
Example use case:
- AirRepeater (Airvan + Radio Repeater) can be used to establish long range radio communications in the aftermath of environmental and human caused disaster.
- AirLens (Airvan + Camera + Computer Vision) can perform search and rescue with computer vision technology to spot creatures/objects in motion at a distance.
- AirSurveyor (Airvan + Camera + Photogrammetry) scan the landscape and generate orthomosaic maps or 3D textured mesh for civil engineering use.
Here is a video of an example mission simulation.
The project is in the active early design stage now. Specifications are subject to change.
- Maximum flight time: 120 minutes
- Maximum payload weight: 2.5 kg (5-1/2 lbs)
- Maximum dimension when folded: 1.3 m (4-1/4 ft)
- Repeater coverage: 80 km (50 mi) in radius, open space
- Transmitting power: 5 watts
- Foam boards for main body with carbon fiber for structural strength.
- Computer modeling and analysis with OpenVSP
- ArduPilot + Pixhawk + Mission Planner for autonomous feature.
- 05/06/2023 Summer break begins.
- 04/17/2023 Semester accounting audit.
- 04/10/2023 Crash report and design improvement.
- 04/03/2023 Test flight at 86' Field. Prototype #1 crashed.
- 03/13/2023 Test flight location investigation.
- 02/18/2023 Flight controller, sensors and software testing.
- 02/08/2023 User interface concept design (Manual, Automatic, Mixed, Remote)
- 02/07/2023 A MVP model built for further analysis.
- 01/30/2023 Financial data publicly available.
- 01/29/2023 Material purchase.
- 01/18/2023 Computer modeling started.
- 01/09/2023 RPI spring semester begins.
- 12/20/2022 RPI winter recession begins.
- 11/16/2022 Electronic parts list created. The first batch electronics suffice the need for ground testing.
- 11/04/2022 Aircraft frame draft started.
- 10/12/2022 Team recruitment, cost analysis and fundraising planning.
- 10/03/2022 Project specification and technical approach under discussion.
- 09/29/2022 Project started.
- By mid October [On time]
- Project outline
- Team formation
- Budget estimation
- By mid November [On time]
- Funding acquisition
- System design
- Purchase order
- By mid February [In Progress]
- Modeling - Simulation & Analysis
- Lab testing - wind tunnel
- System integration
- By mid April
- Assemble
- Field testing - parameter Tuning
- Prototype delivery
Please contact Zhemin 'Hisen' Zhang via zhangz29 at rpi dot edu if you are interested in sponsoring or donating to the project.
Financial information release available here.
- 11/14/2022 $2,000 budget from Rensselaer Union. Effective since June 2023. Expire on May 2024.
- 11/07/2022 $1,000 from Mr. Bob Cummings '69 and Mr. David Walker '71 via School of Engineering, Rensselaer Polytechnic Institute.
- 11/06/2022 $100 endowment from Gregory Kotlyarsky.
- 11/06/2022 $100 endowment from Zhemin Zhang.
This project is a collaborative outcome of three clubs at Rensselaer Polytechnic Institute.
- W2SZ Amateur Radio Club - Radio solution;
- RPI Drone Club - Aircraft design and construction;
- Design Build Fly - Aircraft design and construction;
- Embedded Hardware Club - Avionics.
- Zhemin Zhang a.k.a. Hisen < GitHub | QRZ | CV > - Project initiator, fundraiser. Chief engineer of radio system. President of W2SZ Amateur Radio Club, KD2TAI.
- Gregory Kotlyarsky a.k.a. Greg - Chief engineer of electromechanical system. Treasurer of RPI Drone Club.
- Fuller Hayden - Chief engineer of avionic system. Operation officer of RPI Embedded Hardware Club.
This project is Title 14 CFR Part 107 compliant, referred to as the Small UAS Rule.
This project adopts MIT License.