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全息科学的第一性原理论构造学本质之析构归零与重构量子化谈新质生产力解构与应用聊见高维之贤思全息之齐述评四界分异讲全真测度

已有 605 次阅读 2024-4-27 12:06 |系统分类:观点评述

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优秀就是一种习惯

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In the field of mathematics, measure is an essential concept that specifically refers to a function assigning a number to certain subsets of a given set. This number can be likened to size, volume, probability, etc. Traditional integration was conducted on intervals, but later, people aimed to extend integration to arbitrary sets, thus giving rise to the concept of measure. Measure theory is a branch of real analysis, with its research objects encompassing σ-algebra, measures, measurable functions, and integration. Its importance is reflected in both probability theory and statistics. In particular, measure theory also serves as an important foundation in quantum mechanics and relativity. For instance, if a wave function in physics satisfies certain basic requirements, it is classified as a measurable function, allowing for measure operations to be performed on it and yielding the probability distribution of a physical system under different states. Continuity and convergence describe limiting behavior in fields such as mathematical analysis, calculus, and probability theory.

The essence of tectonics can vary according to the field of study and its application, but generally, it involves exploring and analyzing the structure, motion, and interaction patterns of objects in order to reveal their nature and operational mechanisms. In the field of physics, the principles of tectonics cover the establishment and maintenance of stability in structures, as well as the principles underlying various physical phenomena such as gravity, magnetic fields, electric fields, and refraction of light. The former focuses on the organized relationships within and between objects, while the latter concerns itself with natural phenomena. These principles help us gain a deeper understanding of the nature and operational mechanisms of things. In the field of chemistry, the principle of tectonics is a theorem that determines the arrangement of electrons in atoms, molecules, and ions at various energy levels. Described by quantum mechanics, it is mainly used to explain and predict the electronic structure and properties of atoms.

The new-quality productive forces represent a qualitative transformation and leap in productivity, achieved by introducing new technologies, models, and formats on the basis of traditional productive forces. Instead of being confined to the utilization of material resources, it places greater emphasis on the development and utilization of non-material resources such as knowledge, technology, and information, thereby driving a comprehensive enhancement of productive forces. The new-quality productive forces are contemporary advanced productive forces spawned by technological revolutionary breakthroughs, innovative allocation of production factors, and deep transformation and upgrading of industries. With the qualitative change of workers, means of labor, objects of labor, and their optimized combinations as its fundamental connotation, it takes the improvement of total factor productivity as its core indicator.

The deconstruction of new-quality productive forces can be approached from the following aspects:

Technological revolutionary breakthroughs: The development of new-quality productive forces is inseparable from technological innovation and breakthroughs. With the continuous advancement of technology, new technologies are constantly emerging, providing powerful momentum for the enhancement of productive forces. For instance, the application of emerging technologies such as artificial intelligence, big data, and cloud computing is profoundly changing the production methods and business models across various industries.

Innovative allocation of production factors: New-quality productive forces emphasize the innovative allocation of production factors. This includes the optimized combination and efficient utilization of production factors such as labor, capital, and technology. By rationally allocating production factors, it can enhance production efficiency, reduce production costs, and thereby strengthen the competitiveness of enterprises.

Deep transformation and upgrading of industries: New-quality productive forces require industries to undergo deep transformation and upgrading. This implies that traditional industries need technological transformation and upgrading, emerging industries need continuous development and expansion, and future industries need accelerated cultivation. Through the deep transformation and upgrading of industries, it can promote the optimization and upgrading of the economic structure, achieving sustainable economic development.

The application of new-quality productive forces is extensive, covering various fields and industries. For instance, in the energy sector, new-quality productive forces have driven continuous breakthroughs in new energy technologies and the construction of smart grids. In the manufacturing sector, the application of technologies such as digitization and intelligentization is enhancing the production efficiency and quality of the manufacturing industry. In the service sector, the application of information technology and the internet is transforming the development models and business models of the service industry.

In summary, new-quality productive forces are an important force driving economic development. Their deconstruction and application are significant for enhancing national competitiveness and achieving sustainable development. In the future, with the continuous advancement of technology and the expansion of application fields, the development of new-quality productive forces will become even more rapid and extensive.

The first principle can also be understood as the fundamentally correct and unproven underlying truth that exists in every field or system, which is the embodiment of deductive reasoning. It advocates viewing the world and analyzing issues through the lens of physics, seeing through the phenomenon to the essence, and aims to lead people to pursue the origin of things in the process of exploring knowledge. 

Holographic science is a comprehensive discipline based on holographic principles, encompassing multiple fields such as physics, optics, and information science. It primarily focuses on studying the essence, principles, and applications of holographic phenomena, dedicated to exploring innovative applications of holographic technology in various fields. The holographic principle lies at the heart of holographic science.Therefore, the first principle theory in holographic science could potentially integrate the principles of holographic science with the mindset of the first principle, starting from the most fundamental principles of physics to explore the essence and principles of holographic technology, as well as its potential applications in various fields. This integration may facilitate a deeper understanding of the working principles of holographic technology and promote its innovative applications in science, technology, art, and other domains.

附记: 全息表示论说AI时代的人类思维之人为导式意识自然等价类(系统空间   量子化   群论    数论   集合论  组合论  图论   连续统  模糊测度论  控制论)



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