An ecological & energized module (EEM) living underlying and fundamental system, which can be typically laid on roofs and almost all the non-roof places and public areas, such as freeways, roads, streets, avenues, pedestrian zones, sidewalks, plazas, courtyards, and corridors. A typical easy-to-make standardized 3D EEM module contains 4 layers: 1) Top layer of transparent anti-slip security glass or a specialized pavement polymer (which had been proved in Solar Roadways and other technologies); 2) greenery layer of short flowers/lawn; 3) supporting layer of discrete blocks/columns or honeycomb structure, and 4) multifunctional substrate layer. The greenery layer is often the flourishing seasonal flowers and plants, which are usually genetically modified, dwarfed and grafted to have some special functions for health factors and other added advantages. With the applicable parameter specifications of the module, the carrying capacity, the combination of the pavement, installation, and connection methods in the process of pavement and construction are suited and matched. The encoded and sensor-equipped EEM fundamental system with further optical processing has many great powers and awesome & mind-blowing functional characteristics in almost all infrastructures, civil engineering, and transportation systems, etc.

Take the aviation infrastructure system as an example, the encoded and sensor-equipped EEM runway with optical processing is a high safety & security, highly intelligent, highly reliable, graceful and comfortable infrastructure system, in which the light processed and enhancing and optimizing crushed shadows & blown highlights and high contrast color layout has a powerful visual flight, runway visual range (RVR), and significant blown highlights in 3D position and posture in various complex weather and occasions for the instrument landing, manually land and taxiing. Hot, cold water and steam system without electromagnetic interference in EEM are used for hot waves and snow and ice. The totally-enclosed EEM system is laid flat on the entire airfield, including the ceiling and flooring of aircraft as well. It will generate enough clean energy, provide enough high-quality air with plentiful oxygen, plant anions, floral, phytoncide, active constituents, and fragrant scents with low-concentration CO2 for passengers and staff, and completely isolate birds’ food chains and habitat, etc. With controllable photosynthetic acceleration by the optimized high-mast lightings and other processed mass lighting systems, the airfield EEM system is a powerful carbon capture system with significant positive spillover. With antiskid and rainwater steerable structures in the EEM, the planes have calculable security assurances in severe weather and catastrophic events. With solar films on the EEM modules and tanks in the bottom, the EEM system is also a powerful large-scale clean energy system and a zero-water consumption system, etc.

As its novelty, predictability and profound potential impact, it is an exceptional accepted conference paper associating with this project in the AeroTech Summit 2021-America, which is also one best paper, a Journal article, and the author won an SAE Certificate of appreciation for outstanding service, which is signed by Jeff Hemphill, the 2021 SAE President. Other accepted papers and presentations are widely spread in ASM, ASCE, ASES, and BSA, etc.