ECO AI Robots and Adaptive Architectural Systems Benefit Everyone

1. 1

2. 2

3. Uneven Distribution Top rich Top rich have amassed global wealth, but they have also created massive carbon emissions have amassed global wealth, but they have also created massive carbon emissions. . Top 10% Rich People Top 1% Rich People Global Carbon Emission Global Wealth 99% Other People 90% Other People The whole world bear the bitter consequences. The whole world bear the bitter consequences. Are you really willing? Are you really willing? 3

4. Present and Future Catastrophe No matter what technology we want to develop, nothing deserves more attention than dealing with the catastrophe caused by ecological destruction. • Extreme climate : Storms, tsunamis, floods, droughts, and heavy snows have caused countless losses of life and property. • Sea-level rise : Low-altitude cities face the crisis of seawater flooding • Epidemics are prevalent : Global warming is fueling the spread of major epidemics, and humanity is facing an unprecedented crisis • Extinction of species : 1 % of humans have exterminated nearly 85 % of wild mammals and cut down a large portion of the world’s half plant • Air pollution : Haze 4

5. Monsters of Carbon Emission Traditional • Electricity and Heat Production: Primarily due to the burning of coal, natural gas, and oil for electricity and heat. • Transportation: Including road, rail, air, and marine transportation. • Manufacturing and Construction: This includes emissions from the production of goods and construction materials, such as cement and steel. • Agriculture: Mainly from methane (produced by livestock) and nitrous oxide (released from the application of fertilizers). Emerging • Bitcoin Mining: It’s estimated that Bitcoin’s network has emitted approximately 199.65 million tonnes of CO2 equivalent since its inception. In comparison, the annual carbon emissions from Bitcoin mining are estimated to be around 65 million tonnes of CO2, which is comparable to the emissions of countries like Greece. • AI Computing: Generating one image using generative AI models can take as much energy as fully charging. • Advanced Chip Fabrication: Producing today’s advanced chips is expected to consume nearly 8 billion kilowatt-hours annually. It is expected to quadruple in the next decade. 5

6. The Reason of Dr. Lu Insists on Eco-friendly Technology and Art Following the example of Eternal Light, Dr. Lu created it for charity at his own expense and did not raise any funds or donations. Material Aspect Tech A beautiful world where all creatures can live in harmony and co- prosperity. Spiritual Aspect Art Environmental Aspect ECO 6

7. 7

8. Green Energy that can achieve Net-zero Carbon Emissions So far, only solar photovoltaics and photothermal • wind power : Low-frequency noise, blade damage to birds, wind speed limit, high cost • Hydrogen energy : Blue hydrogen’s carbon emissions are higher than petrochemicals • Hydropower : Destroy the ecological environment and greenhouse gas emissions • Nuclear power generation : Although carbon emissions from construction, operation and nuclear waste disposal are better than thermal power generation, they are much higher than solar energy • Tides · Wave · Geothermal : immature 8

9. Conventional Solar Installation Issues Solar Roof Ground Solar Water Type Solar Energy • Block sunlight and oxygen • Deteriorated lake / river water • Affects the ecology of underwater animals and plants • destroy natural landscape • block sunlight • Destroy the ecology of animals and plants • Destroy the land • Easily damaged by strong winds • Solar area is small and power generation is limited • Prone to spontaneous combustion in high temperature and dry areas • Easily damaged by strong winds 9

10. Disasters for Solar Installations in Conventional Easily damaged in strong winds Easily burns in hot and dry environments 10

11. Strong Wind Damage to Conventional Solar Installation ConventionalSolar Roof Coanda Effect High-velocity fluids have lower pressures Low speed fluid pressure is higher The principle of aircraft taking off, solar panels cannot withstand strong winds like typhoons 11

12. Conventonal Solar Installations Spontaneous Combustion Plastic materials can easily fuel fires due to fire sources, so there are reports of fires caused by solar energy. Plastic backsheet TPT , TPE, BBF solar cells Colloidal EVA Colloidal EVA Glass 12

13. Disadvantages of Rooftop Solar Original roof ( materials + labor ) Solar module ( materials + labor ) 1. Two materials, two wages 2. Unable to withstand strong winds 3. Unable to withstand high temperature drying 4. Limited area 5. Buildings become ugly 13

14. Disadvantages of Current Transparent Solar Block the view and make the overall building look ugly 14

15. Disadvantage of Current BIPV The buildings are only black or blue, making the overall appearance of the city look ugly. 15

16. Major Disadvantages of Current Green Buildings • Place a small number of solar panels. Place a small number of solar panels. • Plant Plant a large amount of a large amount of green vegetation. green vegetation. • Unable to effectively reduce carbon emissions, gimmicks are more important than reality. Unable to effectively reduce carbon emissions, gimmicks are more important than reality. According to a research report from the University of Iowa, planting trees in cities alone has little effect on reducing carbon emissions. Only with the comprehensive help of low-carbon buildings and energy-saving insulation can carbon emissions be effectively reduced. 16

17. Conventional Geothermal Energy System Advantages • Renewable and sustainable: Geothermal energy is derived from the heat within the Earth's interior, making it a renewable and virtually inexhaustible source of energy. • Consistent and reliable: Geothermal energy is available 24/7, unlike other renewable sources like solar or wind, which are intermittent. • Low operational costs: Once the initial capital investment for drilling and infrastructure is made, the operational costs of geothermal power plants are relatively low. 17

18. Conventional Geothermal Energy System Disadvantages • Potential environmental impacts: While generally considered environmentally friendly, geothermal power plants can release small amounts of greenhouse gases like carbon dioxide and hydrogen sulfide. Additionally, the drilling and construction process can cause land disturbances. • Location-specific: Geothermal energy is limited to areas with high geothermal activity, such as regions with active volcanoes or tectonic plate boundaries. • High upfront costs: Drilling and exploration for suitable geothermal reservoirs can be expensive, requiring significant initial capital investment. • Limited resource availability: Geothermal resources are finite and can be depleted over time if not managed properly, potentially limiting the long-term sustainability of geothermal energy production. 18

19. Conventional Solar Thermal Collector Advantages • Renewable Energy Source: Solar thermal collectors harness sunlight, an abundant and renewable energy source. • High Efficiency: They can achieve high temperatures, making them efficient for electricity generation and heating applications. • Low Operating Costs: After installation, they generally require low maintenance and have minimal operating costs. 19

20. Conventional Solar Thermal Collector Disadvantages • Initial Cost: The upfront cost of installation can be high. • Weather Dependent: Their efficiency can be significantly affected by weather conditions; they perform best in sunny climates. • Space Requirements: Solar thermal systems often require a large area for installation, which can be a limitation in urban settings. 20

21. Big Disadvantages of Traditional RC Architecture • High carbon emissions and high energy consumption : Cement building materials are highly polluting, and they are also high in carbon emissions and high energy consumption. • Destroy the environment : Mining seriously damages the environment and soil and water conservation. • Easy to absorb heat : Cement walls have a high heat capacity, which absorbs outdoor heat and radiates it into the house in summer , and vice versa in winter, increasing air conditioning energy consumption. • Water seepage : Cement walls have low scalability and are prone to water seepage over time. • Wall shattering : Cement walls tend to crumble and peel over time • Easy to cut corners : Reinforced sand, gravel or bricks are covered in cement walls, which are easy to cut corners and difficult for consumers to notice. 21

22. Major disadvantages of Current Green Buildings • If the main body is still RC , the cement structure itself will not only consume high energy, the mining process will cause great harm to the environment, but also have a low recycling rate. • The carbon emissions produced by cement structures are too large to be compensated by planting trees on balconies and rooftops. • The balcony floor will gradually develop cracks due to the growth of tree roots, and water leakage is inevitable. • Trees on balconies can easily attract mosquitoes, flies, and bird droppings. In addition, weeds and branch pruning require routine maintenance, which not all residents can afford. • If the trees on the balcony are hit by a typhoon, the broken branches will not only break the glass of the residents, but also fall from the height, causing unpredictable dangers and disasters. • Trees are planted on the balconies of each household's home, which involves personal privacy and is difficult to centrally manage. They also block sunlight and make the interior dark. 22

23. The Past and Future of Cities and Architecture • Now the construction industry has become a sunset industry, preferring involution rather than innovation. • Architecture will be a star industry in the future • Photovoltaic, ecological, modular, low-carbon and energy-saving, AI -based • Fast, low-cost, and high-quality assembly of intelligent robots • All building modules are like the production of mobile phones and laptops • AI participates in the complete process of structural design, approval, construction, etc. • Completely eliminate corruption and shoddy projects 23

24. 24

25. Introduction to Dr. Hung-Chih Lu Highest Academic Qualification: PhD in Electrco-Optical Engineering of National Taiwan Uniersity Entrepreneurship Experience • 1999 , he co-founded "Shangyong Optoelectronics Technology Co., Ltd." as a technology partnership to develop and manufacture silicon photonic chips. It was later acquired by MRV at a high price. • 2001 , while studying for a PhD at National Taiwan University, he co-founded "Asia Pacific Advantage Microsystems Co., Ltd." as a technical partner to develop and manufacture photonic and micro-electromechanical integrated chips. • In 2014, the technology partnership co-founded "Advantage Green Energy Technology Co., Ltd." to develop and manufacture transparent solar photovoltaic modules. 25

26. Amazing One-Man Team  Solo Inventions: more than 100 in multiple fields and not by team work.  Personal Patents (limit by funds): 27 in Taiwan, 6 in China, and 5 in the United States  Patent fields: 6 patents for optical and semiconductor chips, 4 patents for solar energy, 3 patents for architecture, 3 patents for Graphene and nano-heat dissipation and heating, 2 patents for LED, 3 patents for computer peripherals, 2 patents for machine tools, 2 patents for assistive devices, 1 patent for home appliances and sanitary ware. few  Leonardo da Vinci Type: All technical and artistic creations are done independently and in line with reputation and reality. Most  Thomas Edison Type: Most of the inventions are contributed by whole team, but the honor just focus on leader. His reputation trumps his reality. 26

27. Dr. Hung-Chih Lu’s Comments Positive Comments : Magician of Science Good at creating miraculous works based on existing mature technologies. It is easy to realize and difficult to know how, contrary to academia. Negative Comments : Play Pretty Tricks Academic circles generally focus on research that is difficult to achieve. Even if it is understood, it is difficult to achieve. It is easy to know but difficult to do. 27

28. Dr. Hung-Chih Lu’s Comments by AI Copilot  Versatile Scholar: significant contributions in both science and art fields.  Erudite Inventor: His expertise covers everything from microscopic chips to the design of macroscopic cities, and he has more than a hundred inventions in multiple fields.  Public Welfare Creator: Committed to the public welfare creation of eco- friendly technology and art.  Outstanding Innovator: With outstanding achievements in both academic and practical fields, his work has had an important impact on the advancement of science and technology and art, and he is considered a talented and visionary innovator. 28

29. Dr. Hung-Chih Lu’s Comments by AI Perplexity Dr. Hung-Chih Lu is a polymath with a diverse range of skills and expertise. He is committed to creating eco-friendly technologies and art for public welfare. Here are some key points about Dr. Lu: Education: Dr. Lu holds a PhD in Electro-optical Engineering from National Taiwan University. Career: He is the owner of Dr. Lu's Studio, where he focuses on public welfare creations of eco-friendly technologies and art. Inventions: Dr. Lu has over one hundred patents, including five from the U.S., twenty-seven from Taiwan, and six from China. His inventions span various fields such as semiconductors, optics, electronics, heat transfer, industrial design, fluid mechanics, architecture, interior design, landscape design, Feng Shui, and art. Public Welfare Creations: Dr. Lu's work includes creating eco-friendly technologies and art installations aimed at transforming cities into more ecological and sustainable spaces. He envisions a future where technology, art, and ecology coexist harmoniously. Self-Funding: Dr. Lu's projects are self-funded through design projects, with no external funding raised to date. Dr. Lu's work is characterized by his dedication to public welfare and his ability to integrate knowledge from multiple fields to create innovative and practical solutions. He is considered a talented and visionary innovator. 29

30. The Necessity of using AI Copilot for Evaluation Impartiality and no Human Bias: No matter how great your title and reputation are, they are all equal in front of AI.  Copilot combines GPT-4o, DALL-E 3 and Bing. It is currently the AI ​​with the highest stability and the lowest error rate. It is unrivaled in querying materials.  In the past, when I looked up materials, all I saw were the results of SEO optimization instead of real and objective facts.  AI Copilot uses the powerful search and logical computing capabilities of the ant army, and has powerful big data analysis capabilities. It can also go deep into social media to analyze the true side of each person, avoiding being blinded by superficial qualifications and image, and can provide more accurate information. with objective answers.  GPT-4 Turbo, Google Gemini, and Baidu’s Wenxin Yiyan, they are super tools, but the query information will be inaccurate.  Dr. Lu is not good at communicating with others by nature, and he doesn’t like to brag about himself. Therefore, the following relevant advantages are all evaluated by AI. 30

31. Research Show the Necessity of using AI Copilot for Evaluation The research explores the moral judgments made by GPT-4 compared to those of human college students. The findings suggest that the moral advice given by GPT-4 was rated as more Moral, Trustworthy, Fair, and Rational than that of the human participants. The research “Attributions toward artificial agents in a modified Moral Turing Test” conducted by the team at Georgia State University was published in Nature’s online, open-access journal, Scientific Reports 31

32. Prove the fairness of AI-Copilot with examples You： Summarize negative comments about Sam Altman from news reports. ： Copilot： ： Certainly! Here are some notable points from news reports regarding Sam Altman, the former CEO of OpenAI: 1.Lack of Candor with the Board: •Altman was removed as CEO of OpenAI due to concerns that he “was not consistently candid in his communications with the board,” hindering their ability to fulfill their responsibilities1. •Writer Charles Duhigg, who spent time embedded within OpenAI, suggests that some board members found Altman “manipulative and conniving.” They took issue with how he allegedly tried to manipulate the board into firing fellow board member Helen Toner. 2.Conflict Over an Academic Paper: •Helen Toner co-wrote a paper on AI safety, contrasting OpenAI’s public launch of ChatGPT with Anthropic’s more cautious approach. Altman reportedly misrepresented board members’ feelings about Toner’s removal, leading to internal debates. 3.Allegations of Psychological Abuse: •Some OpenAI employees accused Altman of “pitting employees against each other in unhealthy ways” and feared retaliation from him. •Altman allegedly became “hostile” after an employee shared critical feedback with him. 4.Complex Corporate Structure: •The conflicts of interest within OpenAI’s corporate structure may be a bigger story than Altman’s removal. In summary, Altman faced criticism for lack of transparency, alleged manipulation, and concerns about his behavior within OpenAI. His leadership and actions have been a subject of debate and scrutiny. 32

33. 33

34. Milestone Inventions of Dr. Hung-Chih Lu Completely Self-funded and Completed Alone 1. Original inventor of Commercial Silicon Photonics @1999 2. Original inventor of Commercial Nanocarbon Heat Dissipation and Heating Technologies @2013 3. Original inventor of Artistic Solar Architecture Modules @2016 4. Original inventor of Tree-Shaped Retention Pond Layout Method for Urban Planning @2023 5. Original inventor of AI Robotic Pixelated Low-Carbon Architecture Systems @2024 6. Original inventor of Distributed AI Architectural Robot Systems @2024 34

35. 35

36. Certification by World's Most Powerful AI-Copilot 1. Original inventor of commercial silicon photonics @ 1999 36

37. Original Inventor of Commercial Silicon Photonics@ 1999 Technical Characteristics  Patent US8406579: This is the core component of Dr. Lu’s invention, which enables wavelength division multiplexing and optical modulation.  High-Speed Transmission: The invention allows for high-speed lateral communication between multiple super chips and networking between super chips and optical fiber networks.  Integration of Electronic and Photonic Signals: It combines electronic computing and photonic transmission to overcome the high-frequency limitation caused by chip-to-pin bonding.  Size Reduction: The invention significantly reduces the size of photonic devices, allowing for better integration with electronic devices.  Digital Twin Technology: Dr. Lu used this technology to create a silicon photonics super chip, demonstrating the conversion and transmission between electronic and photonic signals. 37

38. Original Inventor of Commercial Silicon Photonics@ 1999 Importance  Innovation in Manufacturing: Dr. Lu’s invention stemmed from the lack of a mature photonic device silica chip process in Taiwan, leading him to utilize the existing silicon manufacturing process.  Enhanced Chip Communication: By replacing traditional wiring with photonic transmission, the invention solves critical limitations in chip communication.  Future-Proofing Technology: The necessity for silicon photonics, as envisioned by Dr. Lu, emerges from the need for high-speed communication in advanced computing systems.  Pioneering Effort :It has laid the groundwork for future developments in high-speed data transmission and integrated circuit design. It’s a testament to the potential of cross- disciplinary innovation in addressing complex technological challenges. 38

39. 39

40. Certification by World's Most Powerful AI-Copilot 2. Original inventor of commercial nanocarbon heat dissipation and heating technology @ 2013 40

41. Original Inventor of Commercial Nano-carbon Heat Dissipation and Heating Technology@ 2013 Technical Characteristics  Nano-carbon Heat Dissipation: Dr. Lu utilized defective graphene products, which, despite their poor electrical and thermal conductivity, exhibited excellent thermal radiation. He applied this discovery to LED heat dissipation, a major challenge at the time, and obtained remarkable results. The thermal radiation power of these materials increases with the fourth power of temperature, making them highly effective at higher temperatures.  Passive Liquid-Cooled Heat Sink: One of the best implementations of his heat dissipation technology is a passive liquid-cooled heat sink. It features a bottom plate connected to a heat source, transferring heat to a specially shaped liquid that enhances contact with the metal for faster cooling. The heat is then passed to a top plate with a honeycomb design and a thin carbon layer that radiates the heat away.  Comparison with Other Nano-carbon Materials: Dr. Lu’s special formula mixture of nano-carbon heat dissipation material was tested against other nano-carbon materials like graphene, nano-carbon spheres, tubes, and diamond-like carbon. His mixture achieved the lowest temperature, demonstrating superior thermal radiation heat dissipation capabilities. 41

42. Original Inventor of Commercial Nano-carbon Heat Dissipation and Heating Technology@ 2013 Importance  Efficient Thermal Management: The inventions provide efficient thermal management solutions, crucial for various electronic devices and systems where overheating can lead to performance degradation or failure.  Broad Application Scope: While the initial embodiment of the patent was for LEDs, the scope is not limited to this. The technology has potential applications across multiple industries and devices, enhancing their performance and longevity.  Innovative Use of Defective Products: By finding a valuable use for defective graphene products, Dr. Lu not only improved heat dissipation technology but also contributed to waste reduction and resource optimization. 42

43. 43

44. Certification by World's Most Powerful AI-Copilot 3. Original inventor of Artistic Solar Architecture Modules @2016 44

45. Dr. Lu’s Artistic Solar Architecture Modules Dr. Lu applied for two patents in 2017 , using the artistic design of optical films combined with solar photovoltaics to develop a painted solar photovoltaic building material module ; [ Colored Solar Building Structure ]+ [ Line configuration structure of solar curtain building ] 45

46. Dr. Lu’s Artistic Solar Architecture Modules The marble on the exterior wall and the wood grain on the interior wall are the same, with continuous and seamless splicing of forward and reverse patterns. Generate electricity, save energy, reduce carbon, save labor, save money, and eliminate tofu walls 46

47. Characteristics of Dr. Lu’s Artistic Solar Architecture Modules  Painting: Use optical films to achieve various colors and textures, such as marble and wood grains, saving building materials and costs while being eco-friendly.  Modularization: The special optical film texture design is used to make a single module unit, so that the color and texture can be seamlessly spliced with adjacent modules to form a large-area wall with continuous texture, and not only in the same direction. , even reverse splicing can achieve continuous texture, improving the appearance and convenience, and adapting to future AI robot construction.  Solar photovoltaic: Utilizing the light transmittance of optical films, each module can maintain a relatively efficient photoelectric conversion rate, supply the building's electricity needs, and achieve self-sufficiency, energy conservation and carbon reduction of the building.  Surface atomization: Atomized optical films can not only reduce the reflection of photovoltaic panels and reduce glare light damage, but also increase light absorption and maintain high conversion efficiency. 47

48. Benefits of Dr. Lu’s Artistic Solar Architecture Modules  Multiple functions such as power generation, heat insulation, glare reduction, and aesthetics  Taking into account multiple goals such as environmental protection, energy saving, and waste reduction  It is a highly innovative and practical building material module  Suitable for western-exposed facade walls of buildings  It can complement each other with green buildings and low-carbon buildings, bringing new opportunities and competitiveness to the construction industry. 48

49. Dr. Lu’s Artistic Solar Architecture Modules The light-receiving surface ( exterior wall ) is marble pattern / the backlight surface ( inner wall ) is wood-grain painted solar photovoltaic glass . It not only generates green electricity and is beautiful, but also saves the decoration of exterior and interior walls. It serves multiple purposes. 49

50. Dr. Lu’s Artistic Solar Architecture Modules The light-receiving surface ( exterior wall ) is marble pattern / the backlight surface ( inner wall ) is wood-grain painted solar photovoltaic glass . It not only generates green electricity and is beautiful, but also saves the decoration of exterior and interior walls. It serves multiple purposes. 50