J.MARPLE
- #Anti-Jamming
- #GPS Alternative
- #Indoor Drone
J.MARPLE develops AI-based core technology for intelligent drones that overcome environmental restrictions. We design cutting-edge technology that ensures dependable performance, enabling responses in GPS-denied environments or during GPS disruptions and jamming attacks. This technology empowers mission completion even under adverse environmental conditions such as dust or fog.
- 1F, 8 Seoripul 4-gil, Seocho-gu, Seoul, Republic of Korea
- www.jmarple.ai
Product Overview and Main Content
AI-powered intelligent drones for leaping over environmental limitations
- GPS serves as a prevalent navigation and positioning tool for drones. However, its utilization becomes impractical in regions lacking GPS accessibility, such as in instances where equipment malfunctions or external threats such as jamming attacks result in location inaccuracies.
- Jamming attacks, which disrupt GPS signals, are increasingly posing a threat not only to military uses but also to civilian applications such as delivery drones, robots, and autonomous driving. There is a pressing requirement for technology to address this growing concern.
- To tackle flights in locations where GPS signals are unavailable, J.MARPLE has engineered a vision-based positioning system and a LiDAR-based positioning system.
- These positioning systems allow steady flight operations in GPS-lacking environments, such as malfunctions or jamming, ensuring drones can accomplish intricate missions with precise drone positioning.
- In light of the increasing demand for indoor search drones, J.MARPLE has additionally designed an ultra-compact, lightweight indoor search drone.
Product Highlights
-
V-GPS
Vision-based positioning system that uses real-time images captured by the camera equipped on a drone and compares the real-time images to commercial maps to provide accurate positioning data comparable with GPS
Capable of stable flight regardless of seasonal differences, daylight variations, and weather fluctuations
-
L-GPS
LiDAR-based positioning system for no-GPS environments
Operatable both during daytime and at night
Capable of positioning drones in fields or forests with limited features
-
SALIM
Ultra-compact indoor search drone
Capable of flight in dust and fog
With a low-light camera, enabling to complete missions even in darkness
Areas of Application
-
While the military and defense sector currently dominates the drone market in terms of size, the rapid expansion of drone usage in civilian domains like enterprise and transportation is anticipated to diminish the market share of the military and defense industry.
-
The non-GPS flight technology is poised to find a substantial market in the military sector to counter rising external threats, such as jamming.
-
There is significant potential for public services and civilian sectors, including search and rescue drones and facility inspections that necessitate indoor operations.
Possible Areas for Cooperation
Technology license | ● | |
Investment Attraction | ||
Joint venture | ||
Technical Cooperation | Product Joint Development | |
(New Product) Performance Test | ● | |
Applying Other Products’ Technologies | ● | |
Production Consignment | New Material Production | |
Production Line Operation | ● | |
Changing Customers (CMO) | ||
Installing New Process | ● | |
Commercialization Contract Accompanying Technical Support | Assembly | |
Designing Commercial Products (Design & Engineering) | ● | |
Technical Consulting (Technical Advice, Education and Training) | ||
Quality Maintenance | ● | |
Operations Maintenance |
Business Results
Market Outlook
- According to Research and Market, the global anti-jamming market is valued at USD 4.68 billion in 2023 and is expected to reach USD 6.86 billion by 2027 at a 10.0% CAGR.
- In the anti-jamming market, Asia Pacific is the largest market and is expected to continue to grow the fastest during the forecast period.
Commercialization Plans
-
V-GPS / L-GPS
After improving the level of completion of the technology through additional testing and technological advancements, we plan to acquire certifications and go through steps such as hardware design to prepare for mass production
-
Indoor search drone
Development is in progress, and commercialization is expected in 3–5 years