Remcom赢得了美国航天局的一项合同,用高级模拟促进Artemis Spacesuits和流动车的无线建模。 Remcom won a NASA contract to boost wireless modeling for Artemis spacesuits and rovers using advanced simulation.

Remcom赢得了美国航天局的MSBIR第一阶段合同,目的是改进Artemis飞行任务太空服和月游的无线频道模型。 Remcom has won a NASA SBIR Phase I contract to improve wireless channel modeling for Artemis mission spacesuits and lunar rovers. 该项目加强了Remcom的无线 InSite... 3D软件,以更好地模拟复杂的、多层的太空服材料如何影响月球天线的性能。 The project enhances Remcom’s Wireless InSite® 3D software to better simulate how complex, layered spacesuit materials affect antenna performance on the Moon. 使用Huygens表面,该工具将围绕宇航员和月球结构模拟近场和远场天线行为,改进设备对设备通信的预测,包括3GPP侧链接。 Using Huygens surfaces, the tool will model near- and far-field antenna behavior around astronauts and lunar structures, improving predictions for device-to-device communication, including 3GPP sidelink. 加速技术将把模拟时间减少一至两个数量级,从而能够对动态、非直观情景进行更快的分析。 Acceleration techniques will reduce simulation times by one to two orders of magnitude, enabling faster analysis of dynamic, non-line-of-sight scenarios. 这项工作支持在具有挑战性的月球地形方面进行可靠的通信,并以Remcom先前与美国航天局的合作为基础。 The work supports reliable communication in challenging lunar terrain and builds on Remcom’s prior NASA collaborations. 预计所开发的技术将有益于空间探索和商业无线应用,如穿戴式传感器和机载传感器。 Technologies developed are expected to benefit both space exploration and commercial wireless applications like wearables and on-body sensors.