This technology involves the creation of modular service towers designed to support activities on the lunar and Martian surfaces. These towers are multi-functional, offering essential services such as lighting, power generation, and navigation. They also facilitate communication and computing for various lunar and Martian platforms, including robots, landers, and vehicles. Atop the towers are electronics modules containing computers, sensors, actuators, and communications equipment. The towers have environmental sensors that gather data on the surrounding environment, such as temperature, space weather, seismic activity, and illumination. The towers will also have asset tracking sensors, such as cameras and LiDAR, which monitor activity inside their areas of interest and check for discrepancies with received reports. By providing these critical resources, the service towers enhance the operational capabilities of missions on these extraterrestrial surfaces, enabling more effective exploration and research. Background: Space exploration on the lunar and Martian surfaces faces significant challenges due to the lack of infrastructure to support extended missions. Current technologies often rely on bulky, single-purpose systems that require significant resources to deploy and maintain. These systems may provide limited capabilities, such as power generation or communication, but they often lack the versatility needed for complex and evolving mission requirements. Moreover, the harsh environments on the Moon and Mars demand highly reliable and adaptable solutions to ensure the safety and success of exploration efforts. This technology addresses these challenges by offering modular service towers that combine multiple essential functions into a single, scalable solution. Unlike existing systems, these towers are designed to be easily deployed and reconfigured, providing lighting, power, navigation, communication, and computing capabilities in one integrated package. This modularity allows for greater flexibility and efficiency, reducing the need for multiple, specialized systems and minimizing the logistical burden on missions. Applications:
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