Entries
The X650 Thermal Drone is a next-generation aerial system built for real-time thermal imaging, inspections, and search missions. Unlike most commercial drones that are locked into proprietary systems, the X650 features a fully modular, open-platform design, supporting third-party thermal cameras, HD video systems, and onboard processing.
In the beginning of June of 2025 the fact was realized that any given three phase generator can be manipulated into a twelve phase generator by proper sizing of the permanent magnets on the rotor.
This entry presents an end-to-end AI-based system designed to autonomously categorize retail products and extract key information for supply chain optimization, quality control, and retail analytics. The solution utilizes a multi-modal deep learning pipeline combining image classification, optical character recognition (OCR), natural language processing (NLP),
High-speed police pursuits remain one of the most dangerous routine activities in modern law enforcement, contributing to thousands of injuries, deaths, and costly property damage each year. Existing methods to intervene, such as spike strips, PIT maneuvers, or roadblocks - often escalate the risk to officers, suspects, and civilians. To address this challenge,
While the world focuses on exhaust pipes, a silent polluter hides in plain sight: our tires and brakes. Non-exhaust emissions (NEE) from tire wear and brake dust can constitute over 50% of urban traffic-related particulate matter (PM2.5/PM10). This invisible, toxic dust—a problem exacerbated by heavier electric vehicles—clogs our air, contaminates our water,
This innovation introduces a Hybrid Transmission System (the System) that goes beyond conventional mild hybrid configurations. While typical setups manage only torque from the internal combustion engine (ICE) and electric machine (EM), this System enables precise control of both torque and RPM, placing the hybrid set consistently near its maximum efficiency range and avoiding high-emission operating zones.
Oblique Wing research-driven design addresses the aerodynamic inefficiencies of conventional symmetric wing configurations at high-speed flight regimes by proposing a structurally optimized oblique wing (OW) configuration. Unlike conventional sweep-back designs, the OW incorporates a single-pivot, asymmetric wing structure capable of variable sweep adjustment,
TO COUNTER SWARM DRONE ATTACKS
Drones have become common in modern times. From photography, to delivering goods. to mapping terrains, to military applications they seem to have become ubiquitous and in fact indispensable.
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There is a growing trend of increasing total power capacity and volumetric heat density in modern data centers. Next-generation electronic components generate high heat fluxes, requiring advanced and efficient cooling methods. The low energy efficiency of traditional air-based cooling systems is driving the shift toward immersion and liquid-based cooling solutions.
We have developed a novel method, dubbed thermal processing & coating (TP&C), for manufacturing surface coatings that can replace the traditional hard chrome plating. The TP&C surface treatment allows one to combine exceptional mechanical properties obtained due to heat treatment with an enhanced tribological performance and corrosion resistance.
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