Tue Jan 21 07:00:00 UTC 2025: ## NEC Develops AI-Powered Technology to Slash Satellite Communication Power Consumption
**Tokyo, Japan** – NEC Corporation has announced the development of a groundbreaking AI-powered technology that significantly reduces power consumption in satellite communication devices. This new waveform distortion compensation technology achieves approximately a 30% reduction in amplifier power consumption, a major component of overall energy use in these devices.
The technology is expected to facilitate the development of smaller, more cost-effective satellites, particularly beneficial for the burgeoning small satellite market. Furthermore, a concurrently developed automated circuit design tool drastically reduces design time from months to just one hour, accelerating the overall development process.
The technology’s impact extends beyond satellites; it is adaptable for use in terrestrial wireless communication equipment. This is particularly relevant given the growing demand for high-speed internet in underserved areas and the increasing utilization of communication and observation satellites for monitoring climate change and other environmental factors.
NEC’s innovation leverages AI to optimize amplifier waveform distortion compensation. This results in a more compact circuit design compared to conventional solutions and improves power efficiency without compromising distortion compensation capabilities. The reduction in power consumption leads to smaller, lighter satellites, reducing both size and cost due to the decreased need for large heat dissipation equipment.
The automated design tool further streamlines the process, automating circuit implementation, integration, and optimization. This accelerates the development cycle and facilitates adaptation to other wireless communication devices. NEC plans to contribute significantly to the advancement of Non-Terrestrial Networks (NTN) by applying this technology to miniaturize and reduce power consumption in satellite-based wireless equipment, with parallel plans for terrestrial network applications.
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