Aerospace & Defense
Current methods for in-situ planetary surface exploration — whether on the Moon, Mars, or beyond — still rely primarily on single, high-cost platforms such as rovers and landers. Rovers, while mobile, are constrained by limited power and the need to avoid hazards, resulting in extremely slow movement (typically a few centimeters per second). As a result,
Green Launch has just successfully completed development of extended capabilities for our light-gas kinetic launch system. As proposed by Jules Verne we have found the fastest way to space is a hypersonic space launch tube. In our case we have substituted 3x faster hydrogen for gunpowder. We have launched projectiles horizontally to hypersonic velocities,
Modern weapon systems often suffer from reduced accuracy due to barrel resonance — a condition where vibrations from repeated firing align with the barrel’s natural frequency. This can lead to unwanted oscillations, thermal fatigue, and instability in projectile trajectory. Most existing solutions to this issue are expensive, designed for large-scale systems,
In many countries, like ours, supervision is essential to avoid execution delays or budget increases, as well as deadline extensions that increase the costs of public investment projects and cause social and economic harm. It is necessary to develop this comprehensive system, based on unmanned aerial vehicles (UAVs/drones), computer vision, and predictive analytics.
As the first AI-enabled picosatellite (PicoSat) constellation platform, IQSat is engineered to facilitate the successful implementation of edge AI in space, with AI processing on the satellite itself, proving the platform’s ability to reduce latency,
Current autonomous drones for aerial sensing are often costly, heavy (typically over 500 g), and require licensed pilots under aviation regulations. This restricts their use for education, research, and small-scale field applications. LiSA UAV addresses this by offering a lightweight (d on a compact 2.5-inch cinewhoop carbon fiber frame. It supports multiple autonomous modes, including Loiter,
MACEDONAS—Momentum Absorption Catcher for Express Deliveries on Non-Atmospheric Somata—is a breakthrough mechanical system designed to land high-speed payloads on the Moon and other airless celestial bodies without using fuel, rockets, or generating harmful ejecta. The innovation marks a paradigm shift in extraterrestrial logistics, enabling reusable, passive,
Mobile Wireless Access Point Using Multicopter Drone
Our design proposes a Mobile Wireless Access Point (MWAP) using drones, a solution designed to address the lack of reliable internet connectivity in disaster-hit, or event-based areas. In many locations, fixed infrastructure is either unavailable or breakdown. Our drone-based MWAP system provides rapid, flexible,
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