P10-666

The project P10-666 named "Development of Magnetoactive Liquid-Solid Phase Transitional Mini Robots: A Systemic Components Theory and AI-based Approach for Design, Control, and Optimization, organized by TFT-7 parameter of the Systemic Components Theory of TFT (sctTFT), TFT-25 parameter of Multiple Feature Instances 4.0/5.0 (IFM-TFT), TFT-30 parameter of the Digital laboratory on the web managed by artificial intelligence (LDWAI-TFT) for applications in the social, environmental, health, industrial fields, etc.

The TFT-7 parameter Systemic Components Theory of TFT (sctTFT) described here https://www.rigeneproject.org/technological-fields-theory-tft/tft-7-parameter could be useful to guide the elaboration, development and realization of the ideas on the mini robot with solid to liquid state mutation properties (Magnetoactive liquid-solid phase transitional matter) applications described here https://rigeneproject.blogspot.com/2023/02/idee-per-applicazioni-delle.html, also using the TFT-25 parameter Multiple Feature Instances 4.0/5.0 (IFM-TFT) https://www.rigeneproject.org/technological-fields-theory-tft/tft-25-parameter to manage the mini robots, and these ideas could be used to elaborate a project inside the  TFT-30 parameter Digital laboratory on the web managed by artificial intelligence (LDWAI-TFT) described here https://www.rigeneproject.org/technological-fields-theory-tft/tft-30-parameter. The TFT-7 parameter of the Systemic Components Theory of TFT (sctTFT) can guide the development of mini robots with solid to liquid state mutation properties. The TFT-7 parameter can indeed be useful in identifying and analyzing the systemic components of your mini robot's design and operation, and can help ensure that all aspects of the project are working together in a coherent and effective manner. In addition, the TFT-25 parameter of Multiple Feature Instances 4.0/5.0 (IFM-TFT) can be used to manage the mini robots, allowing for the efficient and coordinated control of multiple robots at once. This will be particularly important if you are looking to deploy a large number of mini robots in a given environment. Furthermore, these ideas could be incorporated into a larger project under the TFT-30 parameter of the Digital laboratory on the web managed by artificial intelligence (LDWAI-TFT). This could involve the use of AI-powered simulation tools to model and optimize the behavior of the mini robots in different environments, or the development of a web-based platform to remotely control and monitor the mini robots. Overall, the TFT framework provides a powerful set of tools for guiding the development and realization of complex technological projects, and can be particularly useful for interdisciplinary projects that require the integration of multiple components and subsystems. Good luck with your mini robot project! The TFT-7 parameter Systemic Components Theory of TFT (SCT-TFT) is a tool that can be used to guide the development and realization of ideas for the mini robot with Magnetoactive liquid-solid phase transitional matter applications. The TFT-25 parameter Multiple Feature Instances 4.0/5.0 (IFM-TFT) can be used to manage the mini robot, and the TFT-30 parameter Digital laboratory on the web managed by artificial intelligence (LDWAI-TFT) can be used to create a project incorporating these ideas. The SCT-TFT can be used to identify components and relationships between components, while IFM-TFT can be used to define the features and behavior of the mini robot, and LDWAI-TFT can be used to create a project plan and manage the project's execution.

Ideas for applications of Artificial Intelligence to manage mini-robots with mutation properties from the solid to the liquid state (Magnetoactive liquid-solid phase transitional matter)

Developed a new mini-robot that has the ability to change from solid to liquid and vice versa thanks to the insertion of magnetic particles in gallium. The mini-robot is able to change shape autonomously in response to an alternating magnetic field and to move thanks to the mobility guaranteed by magnetic particles. The mini-robot's unique properties set it apart significantly from existing materials that require external sources to transition from solid to liquid state. The mini-robot has undergone mobility and endurance tests and has been shown to be able to leap small ditches, climb walls and split its shape in two to cooperatively carry an item, before recombining to form one piece. The mini-robot could have numerous practical applications, including removing foreign bodies or administering drugs in the biomedical field, or acting as a welder and conductor of wireless circuits. The mini-robot's versatile material opens up many potential future practical applications.

The mini-robots could be operated by artificial intelligences (AI) to perform multiple functions. AIs could be programmed to autonomously control mini-robots, for example to gather information, perform precision operations or interact with their surroundings. AIs could also be used to control mini-robots cooperatively, allowing them to work together towards a common goal. To perform such function the "TFT-25 parameter Multiple Feature Instances 4.0/5.0 (IFM-TFT)" [https://www.rigeneproject.org/technological-fields-theory-tft/tft-25-parameter] could be applied

For example, a group of mini-robots could be used to maintain an industrial area, with the help of an AI that plans their activities efficiently, monitors their performance and identifies any problems that may require the intervention of a human operator. AIs could also be used to control mini-robots in emergency situations, such as searching for missing people or assisting in rescue operations.

Using AI to control mini-robots could offer many benefits, such as greater efficiency, greater accuracy and improved safety in certain contexts.

[1] Magnetoactive liquid-solid phase transitional matter: Matter (cell.com) https://www.cell.com/matter/fulltext/S2590-2385(22)00693-2 

Ideas for applications of the mini-robot:

The mini-robot has a number of unique properties, such as the ability to change from solid to liquid and vice versa, the mobility provided by magnetic particles and the ability to conduct electricity. This makes it suitable for many practical applications, some of which are:

Biomedical foreign body removal: The mini-robot could be used to remove foreign bodies such as bone chips or bullet fragments from the human body without the need for invasive surgery.

Drug Delivery: The mini-robot could be programmed to deliver drugs directly into the cells of the human body, offering a non-invasive solution for drug delivery

Wireless Circuit Soldering: The mini-robot could be used as a wireless circuit welder, able to melt and repair circuits inaccessible to traditional soldering irons.

Exploration of tight spaces: the mini-robot could be used to explore tight spaces such as pipes and ducts, gather information and report any problems.

Environmental monitoring: The mini-robot could be used to collect environmental data, such as air quality or the presence of chemicals, and send this information to an external device.

Rescue operations: The mini-robot could be used in rescue operations to reach people trapped in collapsed buildings or in similar emergency situations.

Overall, the mini-robot could be used in many other practical applications that require flexibility, mobility and adaptability.

Inspecting Structures: The mini-robot could be used to inspect structures such as bridges, dams, skyscrapers and wind turbines, where human presence could be risky or difficult.

Searching and Retrieving Items: The mini-robot could be used to search and retrieve important items such as documents, keys, mobile phones and other lost items.

Building microstructures: The mini-robot could be used to build microstructures such as electronic antennas, microelectronic circuits and optical microcomponents.

Gas and liquid leak detection: The mini-robot could be used to detect gas and liquid leaks in industrial and storage facilities, ensuring greater safety in the workplace.

Monitoring Plant Health: The mini-robot could be used to monitor plant health and gather information about environmental conditions such as soil moisture and sunlight.

Duct and Pipe Cleaning: The mini-robot could be used to clean heating, air conditioning or sewage ducts and pipes, offering a non-invasive and highly efficient solution.

Space Exploration: The mini-robot could be used to explore other planets, collecting soil samples and analyzing soil composition.

Monitoring of infrastructure networks: The mini-robot could be used to monitor infrastructure networks such as power lines, sewage networks and gas lines, reporting any problems and failures.

Water quality monitoring: The mini-robot could be used to monitor water quality in lakes, rivers and other bodies of water, detecting the presence of pollutants and reporting any problems.

Safety control in industrial environments: the mini-robot could be used to control safety in industrial environments, for example by verifying the presence of dangerous substances or the correct application of safety standards.

Road safety control: the mini-robot could be used to control road safety, for example by verifying the correct installation of protective barriers or signaling the presence of obstacles on the roadway.

Support to oceanographic research activities: the mini-robot could be used to support oceanographic research activities, collecting water samples and measuring water temperature, salinity and pressure.

Support for research activities in the archaeological field: the mini-robot could be used to support research activities in the archaeological field, by exploring archaeological sites and collecting information on the finds.

Support for geological research activities: the mini-robot could be used to support geological research activities, collecting rock samples and analyzing soil composition.

Small-scale structure construction: The mini-robot could be used to construct small-scale structures, such as models of buildings or bridges, offering a highly controlled and precise solution.

Surveillance of wild animals: The mini-robot could be used to monitor wild animals in pristine habitats, collecting information on their behavior and feeding habits.

Detecting leaks in water pipes: The mini-robot could be used to detect leaks in water pipes, signaling any problems and reducing waste.

Cleaning delicate surfaces: the mini-robot could be used to clean delicate surfaces such as paintings or sculptures, offering a highly precise and non-invasive solution.

Crop monitoring: the mini-robot could be used to monitor crops, gathering information on soil conditions, the presence of insects and the water needs of plants.

Cave and Cave Exploration: The mini-robot could be used to explore caves and caverns, gathering information about geological formations and soil composition.

Checking the cleanliness of environments: the mini-robot could be used to check the cleanliness of environments such as hospitals, signaling any areas that need greater attention.

Building Architectural Models: The mini-robot could be used to build architectural models, offering a highly controlled and precise solution.

Equipment maintenance: The mini-robot could be used to maintain equipment such as wind turbines or solar panels, resulting in greater efficiency and longer life of the equipment.

Support for research activities in the climate field: the mini-robot could be used to support research activities in the climate field, collecting information on meteorological conditions and climate variations.

Analysis of radioactive materials: The mini-robot could be used to analyze radioactive materials in hazardous environments, reducing the risk to human operators.

Solar System Maintenance: The mini robot could be used for solar system maintenance, removing dust and debris from solar panels, resulting in higher efficiency.

Surveillance of parks and nature reserves: the mini-robot could be used to monitor parks and nature reserves, monitoring the presence of protected species and reporting any human intrusions.

Cleaning surfaces in industrial environments: The mini-robot could be used for cleaning surfaces in industrial environments, removing dust and other debris from machines and equipment.

Assistance to elderly or disabled people: the mini-robot could be used to assist elderly or disabled people, for example to bring medicines or meals, or to help with mobility.

Mine Exploration: The mini-robot could be used to explore mines and caves, gathering information about geological formations and soil conditions.

Cleaning Sewage Plants: The mini-robot could be used for cleaning sewage plants, removing dirt and other debris from pipes and equipment.

Surgical assistance: The mini-robot could be used to assist surgical operations, such as holding forceps or controlling blood flow.

Small object construction: The mini-robot could be used for the construction of small objects, such as watch parts or jewellery.

Soil sample analysis: The mini-robot could be used to analyze soil samples, gathering information about soil composition and the presence of pollutants.

Assistance in cleaning aircraft and ships: The mini-robot could be used to assist in the cleaning of aircraft and ships, by removing dirt and other debris from the surfaces of these equipments.

Support for research activities in the astronomical field: the mini-robot could be used to support research activities in the astronomical field, by collecting data and information on the composition of celestial bodies.

Marine environment monitoring: The mini-robot could be used to monitor the marine environment, gathering information on ocean currents and the presence of pollutants.

Assistance in the maintenance of railway installations: The mini-robot could be used to assist in the maintenance of railway installations, for example to inspect the tracks or to carry out repairs.

Construction of 3D objects: the mini-robot could be used for the construction of 3D objects, using different materials such as plastic or clay.

Assistance to rescue operations: the mini-robot could be used to assist rescue operations in emergency situations, for example to search for missing persons in hard-to-reach areas.

Animal health monitoring: The mini-robot could be used to monitor the health of pets or farm animals, collecting information on their physical condition and the presence of any diseases.

Pipe and Drain Cleaning Assistance: The mini-robot could be used to assist in cleaning pipes and drains by removing dirt and other debris that may be causing blockages.

Building small-scale objects for school: The mini-robot could be used to build small-scale objects for school lessons, for example to illustrate science or technology concepts.

Park and garden maintenance assistance: The mini-robot could be used to assist in the maintenance of parks and gardens, by cutting the grass or removing dry leaves.