Interdisciplinary Approach:
Thermal conductivity data inversion methods from Mars rovers offer novel perspectives for assessing Earth’s deep geothermal resources. This research explores the feasibility of adapting planetary geological modeling algorithms for agricultural ground-source heat pump systems, emphasizing model dimensionality reduction and ground validation.

Technical Framework:
· Comparative analysis of lunar crater heat flow patterns and geothermal field anomaly identification
· Enhancement of geothermal exploration remote sensing algorithms through planetary orbital spectroscopic analysis
· Geothermal power plant exhaust diffusion prediction models based on Martian atmospheric simulations
· Spatial optimization algorithms for greenhouse clusters and geothermal well networks

Application Prospects:
Development of a digital twin platform for geothermal-agricultural coupled systems enabling dual simulation of energy extraction and crop production. Critical attention is required to address intrinsic differences between planetary environments and terrestrial conditions through parameter correction mechanisms.