|Digital Organism TFTpsp - Explore the concept of a digital organism based on TFTpsp theory|
|The goal of the "Digital Organism TFTpsp Sustainable Solutions for the Future" project is to develop a digital brain that resembles a biological neural network. In this digital brain, various websites serve as interconnected neurons, allowing each website-neuron to process information. Different areas within the digital brain, composed of web components, perform various functions similar to the distinct regions in a biological brain. The "Digital Organism TFTpsp Sustainable Solutions for the Future" project aims to develop a digital organism using artificial intelligence, machine learning, and blockchain technologies to address environmental and social challenges. This digital organism is based on the Technological Fields Theory (TFT) Problem Solving Parameters (TFTpsp) and designed to benefit companies, public administrations, citizens, and the planet.
The digital organism has a digital brain that mimics the biological brain, consisting of interconnected websites as neurons, with hyperlinks functioning as synapses. This interconnected network allows for information transmission and processing. The digital brain adapts to the changing environment and learns from past experiences to make better future decisions.
The digital genetic-epigenetic structure manages the organism's functions using AI techniques like machine learning, genetic programming, and computational epigenetics. The organism connects to a physical body based on the Internet of Things (IoT), allowing for effective communication with IoT devices through universal communication protocols such as MQTT and CoAP.
Efficient and automatic data management and analysis are enabled through real-time data processing and machine learning techniques. The digital genetic-epigenetic structure adapts to the digital organism's needs based on IoT data. Decentralized and democratic governance is achieved using blockchain technologies.
The Digital Organism is configured with TFT parameters, which are part of the Rigene Project. This configuration helps the digital organism solve complex problems ethically and efficiently. Key advantages of the Digital Organism for companies, public administrations, citizens, and the planet Earth include improved decision-making, problem-solving, resource management, transparency, citizen participation, better quality of public services, cost reduction, and increased sustainability. Key points of the "Digital Organism TFTpsp Sustainable Solutions for the Future" projec: The project aims to create a digital organism using artificial intelligence to solve environmental and social problems. The digital organism is based on the TFT Problem Solving Parameters (TFTpsp). This digital organism will benefit companies, public administrations, citizens, and the planet. The digital brain is created using an artificial neural network with websites as interconnected neurons. A digital genetic-epigenetic structure is used to manage and control the digital brain. A "physical body" with peripherals like cameras and microphones is created to simulate a human biological organism. The project's goal is to help humanity solve ongoing planetary systemic crises and improve the lives of all humans and planet Earth. The digital brain is inspired by the biological brain, with three macrostructures: digital cerebrum, digital cerebellar brain, and digital brainstem. Digital neural circuits perform specific functions within these macrostructures. Permissionless blockchains can be used for decentralized control and governance of the digital brain, ensuring its continued function even if some digital neurons-websites are damaged. Digital neurons-websites can receive, process, and transmit information, similar to biological neurons. Website hyperlinks can be considered synapses between digital neurons, enabling information transmission between websites. Automated interaction between hyperlinks in the digital brain can be managed using machine learning, artificial intelligence algorithms, and blockchain technologies. A hyperlink management system can improve transparency, security, and adapt to user feedback to improve the digital brain's effectiveness. Digital genetic-epigenetic structure: a set of algorithms and machine learning methods managing the structure and functions of the digital organism. Development using AI techniques: machine learning, genetic programming, and computational epigenetics. Digital organism adapts to changing environment and improves its performance. Digital organism "learns" from past experiences for better future decisions. Internet and web as a digital brain and digital genetic-epigenetic structure connected to a physical body based on the Internet of Things. Effective communication with IoT devices through universal communication protocols (e.g., MQTT, CoAP). Efficient and automatic data management and analysis using real-time data processing and machine learning techniques. Digital genetic-epigenetic structure automatically adapts to digital organism's needs based on IoT data. Decentralized and democratic governance using blockchain technologies. Configuration of the Digital Organism with TFT parameters (Rigene Project - Technological Fields Theory (TFT)). Advantages for companies, States (Public Administrations), citizens, and the planet Earth include improved decision-making, problem-solving, resource management, transparency, and citizen participation, better quality of public services, cost reduction, and increased sustainability."