PHALANX AI is a breakthrough software application that delivers 3-Dimmensional radiation modeling for use in terrestrial and space systems digital engineering. The software performs design analysis using machine learning to produce the right combination of radiation shield topologies in days and weeks, not months or years. This includes lightweight RAD SHIELD housings ready for 3D print to protect high performance integrated circuits, controllers and sensors.
RAD SENSOR is a SSD based micro radiation detection payload that allows for precise radiation measurements, store and forward. The device is approximately the size of a "thumb drive" consisting of two micro dosimeters built with a open standards, hardware-agnostic UART connection and converted to RS-422 for seamless integration with the onboard controller or flight computer. Each dosimeter runs on 5V and has an internal temperature sensor used for calibration. The data output includes position of an event, number of events, and the total time each pixel is over the user-specified energy threshold. The data is currently being utilized to improve and train PHALANX AI with future plans for miniaturization and enabling a "deep sea to deep space" radiation monitoring and alerting service.
Think thicker or heavier is better in radiation shielding? Think again. We partner with leading advanced materials suppliers and additive manufacturers to custom design & fabricate our RAD SHIELD carbon or metal skins, plates, enclosures and aeroshells for meeting conductive, insulation and radiation shielding requirements and specifications. Ultimately, the end product is lighter, less costly and more capable to help the mission succeed. Let's work together to get more payloads and less Tungsten into space.
LET'S DISCUSS HOW TO HELP YOU GET A 50% DECREASE IN SHIELDING MASS
Defense, civil and commercial space is dependent on expensive, out of date radiation-hardened Electrical, Electronic and Electromechanical parts. We are a committed team of U.S. high-tech entrepreneurs, engineers and scientists that aim to deliver more affordable, advanced space electronics for increased on-orbit and lunar capabilities with less mass, less cost.
Phalanx AI can be used by spacecraft, satellite, and microelectronic manufacturers to quickly perform 3D structural and material design tradeoffs to mitigate space radiation effects on Electrical, Electronic and Electromechanical (EEE) parts using Monte Carlo particle transport analysis. The software renders custom, optimized radiation shield designs for navigation, communications and other payload enclosures and their placement onto the service module harness given the radiation environment, for any planned mission.
Atlantis will be going to the Moon in January 2022! Our RAD SENSOR will detect space radiation on its journey through the Van Allen belts to the lunar surface as one of eight science payloads aboard the Intuitive Machines Nova-C lander. We will use the data to train Phalanx AI to produce lighter RAD SHIELD designs with less cost and more protection.
We are excited to be a part of TexSpace, a statewide nexus of civil, commercial, and military allies that aim to accelerate U.S. space innovation. The ecosystem supports companies like Atlantis to make an impact on rapid space commercialization and 21st century jobs for Texans.
The date is fast approaching and we’re making preparations. Don’t miss out!
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