Indoor-Use Drone “FYLo EDU-JP”
Small Drone, Great Impact
Ultralight Design
Proprietary Wireless Positioning Technology
Large-Scale Formation Flight
Rich Expressiveness through Full-Color LEDs
Stable Flight Performance
Suitability for Educational Purposes
Equipped with Omnidirectional Propeller Guards
Easy to Carry
Diverse Animation Creation
Next-Generation Drone for Both Education and Entertainment
An innovative drone designed for both educational and entertainment applications. Exclusively for indoor use. It ensures a safe flight experience through precise control.
It broadly supports everything from programming education to drone show production, and scalable operations from a single unit to multiple fleets.
High-Precision Indoor Positioning without GPS
Hybrid positioning using TOF (Time-of-Flight) and UWB (Ultra-Wideband) achieves stable flight even indoors.
Precise position control via base stations is possible even in environments where satellite signals are unavailable.
Flexible Operation Interface
Easy operation from smartphones, tablets, and PCs, with connection possible via Wi-Fi or repeaters.
Multi-device support makes it easy to use in various environments, such as educational settings and event venues.
Full-Color LEDs Synchronized with Performance
Lights and flight are fully synchronized, achieving optimal visual effects perfect for drone shows.
3D representation with numerous units is also possible, allowing for richer and more impressive performances.
Diverse Performance Capabilities
The FYLo EDU-JP excels at precise indoor flight. It is ideal for indoor drone shows that enable a wide range of expression. Indoor flying is unaffected by weather and does not require flight permits, making it an excellent option for entertainment content at events and facilities. Even with a small number of units, you can broaden the range of expression by combining them with dancing, other LED performances, or physical drone decorations.
Product Parameters
| Item | Specification |
|---|---|
| Dimensions | 208×208×94mm |
| Weight | 190g (Including battery and propeller guards) |
| Wheelbase | 165mm |
| Battery Capacity | Standard: 1500 mAh, Low-Temperature Support: 1300 mAh |
| Flight Time | Standard Battery: 13 min, Low-Temperature Support Battery: 11 min |
| Recommended Performance Time | 3 to 5 minutes |
| Max. Simultaneous Flight Units | 200 units or more (Using Professional software) *1 |
| Minimum Unit Spacing | 0.5m |
| Max. Horizontal Speed | 5 m/s (1 m/s during performance flight) |
| Max. Ascent/Descent Speed | 2.5 m/s (1 m/s during performance flight) |
| Wind Resistance | 5.4m/s |
| LED Light | Full Color 5 W (Dimmable) |
| Operating Temperature | Standard Battery: 5°C ~ 40°C, Low-Temperature Support Battery: -5°C ~ 40°C |
| Positioning Method | TOF + UWB Hybrid Positioning, TOF Positioning, UWB Positioning |
| Max. Flight Range | 40 m × 40 m × Height 30 m (During UWB positioning) *2 |
| Hovering Accuracy Range | Vertical: ± 0.3 m, Horizontal: ± 0.3 m |
| Recommended Flight Venue Size (Reference) | For 50 units: Approx. Basketball court size (15 m × 28 m, Ceiling Height > 7 m) |
*1: Max. 40 units in Scratch / Max. 100 units in Python.
*2: The detailed range may vary depending on the number of base stations (anchors) and the positioning mode used.
The parameter values described on this page may vary slightly depending on the external environment, usage method, and firmware version. Please refer to the actual user experience.