Xeriant is dedicated to the successful development and commercialization of next-generation technologies with applications in the aerospace industry. Advancements in science and engineering across a broad spectrum of disciplines are reshaping the future of air and space travel, enhancing capabilities, safety, efficiency and performance, while providing solutions to environmental concerns.
Xeriant is dedicated to the successful development and commercialization of next-generation technologies with applications in the aerospace industry. Advancements in science and engineering across a broad spectrum of disciplines are reshaping the future of air and space travel, enhancing capabilities, safety, efficiency and performance, while providing solutions to environmental concerns. These breakthroughs are also making possible revolutionary aircraft concepts, manufacturing processes and propulsion systems, creating new business opportunities throughout the transportation ecosystem. Anticipated to become a reality in the near future, urban air mobility using electrically powered VTOL-capable aircraft, or air taxis, is made possible through the convergence of numerous technological innovations.
The push for electrically powered flight, known as the "third wave of aeronautics," has produced a flurry of aerospace research activity, including a comprehensive reexamination of the aircraft development process aimed at design optimization. Multidisciplinary design optimization in aircraft development requires the analysis and integration of all relevant technologies related to aerodynamics, structure, flight controls and propulsion systems. The Company is continually striving to recognize technology trends at an early stage, discover new and disruptive innovations and identify synergistic opportunities.
Powered lift aircraft combine the vertical lift capability (VTOL) and small logistical footprint of helicopters with the cruise speed, fuel efficiency and range of conventional fixed wing airplanes.
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Innovations in design, engineering, materials, communications and manufacturing technologies have led to the development of increasingly sophisticated unmanned aerial systems (UAS) with impressive capabilities, improved safety, greater reliability and lower costs.
Read MoREInnovations in design, engineering, materials, communications and manufacturing technologies have led to the development of increasingly sophisticated unmanned aerial systems (UAS) with impressive capabilities, improved safety, greater reliability and lower costs.
Read MoREAn emerging segment of the aviation industry generating significant technological development and opportunity is urban air mobility (UAM) or on-demand aviation.
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Advancements in propulsion system technologies are improving aircraft engine performance in terms of thrust capability,reliability and safety, optimizing petroleum-based platforms and enabling the development of alternative systems that use cleaner forms of energy.
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Advancements in propulsion system technologies are improving aircraft engine performance in terms of thrust capability, reliability and safety, optimizing petroleum-based platforms and enabling the development of alternative systems that use cleaner forms of energy.
Read MoREThe integration of high-performance materials such as advanced composites, superalloys and composite coatings, in conjunction with computer aided manufacturing methods and design optimization techniques, is a growing trend in a variety of applications throughout the aerospace industry.
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Advances in artificial intelligence (AI) technologies are impacting virtually every aspect of aerospace, from drone logistics to planetary missions, enhancing capabilities, efficiency and safety.
Read MoREAdvances in artificial intelligence (AI) technologies are impacting virtually every aspect of aerospace, from drone logistics to planetary missions, enhancing capabilities, efficiency and safety.
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