TR2022021891A2 - AN AUTOMATIC DETECTION ANALYSIS CONTROL AND COMMAND DEVICE - Google Patents

Abstract

This invention analyzes the fingerprints of individuals with its unique fingerprint analysis method and determines the interests, desires, mindset, likes and pleasures, learning styles and mental structures of individuals; In order to facilitate the lives of individuals, increase their security and comfort, protect their health and property, develop their skills and contribute to educational life, in order to meet the needs, desires and desires, tastes and pleasures of individuals, by transmitting the relevant commands to the devices, systems, software and programs to which they are connected. It relates to an automatic sensing analysis control and control device (1) used for command and control.

Description

DESCRIPTION AN AUTOMATIC DETECTION ANALYZING CONTROL AND CONTROL Technical Field This invention analyzes the fingerprints of individuals with its unique fingerprint analysis method and detects the interests, desires, mindset, likes and tastes, learning styles and mental structures of individuals; In order to facilitate the lives of individuals, increase their security and comfort, protect their health and assets, develop their skills and contribute to their educational life, in order to meet the needs, desires and desires, pleasures and pleasures of individuals, by transmitting the relevant commands to the devices, systems, software and programs to which they are connected. It relates to an automatic sensing analyzing control and control device for commanding and controlling. Known State of the Technology All of the houses, workplaces, cars, vehicles, computers, tools, equipment and machines that work with electricity or another fuel are produced in a standardized manner by factories, craftsmen, or other machines. In all homes, workplaces, cars, vehicles, computers, tools, equipment and machines that run on electricity or another fuel, the user makes adjustments to adapt this standard to himself each time. Because most of the homes, workplaces, cars, vehicles, computers, tools, equipment and machines that work with electricity or another fuel are used by more than one user during the day. Each user makes his own settings. However, the user repeatedly makes adjustments in the use of heat, light, ventilation, music, curtains, windows, computers, entrance and exit doors, electrically powered machines, artificial intelligence or software-based programs, machines and kits in office, workplace and hotel environments. Although some programs have the opportunity to save previous settings, in order to access those records, it is necessary to log into the software, artificial intelligence or computer hardware, make settings with a button or joystick, and enter a password. However, there are dozens of programs that individuals use in daily life, at work, at home, on computers or on their phones, and remembering the username and password for each program is a problem in itself. When people remember the password incorrectly and after a few repetitions, the entire user panels are locked for security reasons. Garden design, garden, house, building and common lighting, irrigation systems, garden, the lighting ratio of the lights at the entrance of the building, the corridors and rooms of the building and outbuildings and extensions inside the building (high, medium, low illumination), the ratio of lighting in each building/house/flat. room-specific temperature, light ventilation and sensor settings in the room, curtain settings for each room; The working mechanism and working principle of all electrical appliances such as musical instruments, TVs, computers, combi boilers, coffee machines, dishwashers and washing machines are provided with separately organized controls, buttons and sensors for each of them. Each user wastes time by making settings according to his/her own needs, and those who do not know how to make these settings either become victims or use these systems inefficiently. This inefficiency sometimes causes excessive heat use and sometimes excessive light consumption. In case of a disaster in the person's home or workplace (in cases such as fire, flood, disaster, earthquake, theft, terrorist attack), turning off or on the lights, opening the doors completely in case of flood, closing the doors in cases of threat, attack, terrorism etc. are separate security precautions. Since it is done from different places, there is a waste of time. Even a 1-second delay in fire, flood and other disasters causes serious loss of life and property. In addition, in security-related measures, it is not possible to access the control of these systems in cases where the person cannot leave his place or has to hide and wait due to life and property safety issues. The interior and exterior equipment of all automobiles, which are directly under the control of the user or controlled by remote control or artificial intelligence software or satellite, operate via remote control or button/touch panel. This remote control works by voice or by pressing buttons or joysticks. The user has to readjust many things about the direction and interior equipment of the automotive each time. In multiple users, automobile types belonging to public institutions, public transportation vehicles, ambulances, police vehicles, municipal cleaning vehicles and similar vehicles are used by more than one driver during the day. In personal vehicles, if there is only one vehicle in a house, the same vehicle is used by more than one user (father, mother, children). Each user can adjust the steering wheel, seat, vehicle temperature, interior lights, seat height, seat back and bottom settings, mirror settings, radio channel, music volume, headlight height settings, settings in vehicle warning systems and other electrically operated vehicle chest and sides, rear vehicle. All of the tools, equipment, software and programs that are factory-made or added inside or outside can be adjusted by the user according to his/her own needs (Example: Vehicles such as fire trucks, police vehicles, taxi drivers and ambulances have radio parts. Each user adjusts this radio volume setting according to his/her own needs.) is making adjustments. These settings are made with buttons, touch panels and similar elements, with a technique that is time consuming and has the possibility of recording on some devices, where the settings are made one by one. Each of these settings takes time. In all single-user or multi-user automotive types, the user puts himself and others in danger by getting into the vehicle and driving in traffic, while making settings for the parts he wants to use. It is known that many drivers have crashed and lost their lives while adjusting the radio, changing the cassette, or adjusting the vehicle temperature and ventilation settings. Tools, machinery, equipment, hardware that works with electricity or another source, equipment that works with a computer, equipment and machines that work independently without a computer, machines and equipment that work with commands from a computer, machines and equipment that work under the command and control of artificial intelligence, machines that work with software and coding techniques. The adjustment of human-controlled machines and equipment, single-user or multi-user, also causes loss of time, power and work. The user makes his own settings in order to use the items listed above. When another user comes, it adjusts itself accordingly. This situation causes losses in terms of time, labor and economy. Many of the buttons and switches are individually adjusted time and time again by multiple users. This situation causes both labor loss and time loss in emergency situations. The document explains the artificial intelligence-based system to obtain the identifying facial shape from the fingerprint. In the relevant application document, it is a system that detects the work, desires, mindset and likes of individuals by fingerprint analysis, how they learn their tastes, and enables easy use of the elements, devices and systems connected to the detected wishes, work needs, desires and likes. structuring is not offered. Purpose of the Invention: The invention is inspired by existing situations and aims to solve the above-mentioned negativities. The aim of this invention is to analyze the fingerprints of individuals with a unique fingerprint analysis method and to detect the interests, desires, mindset, likes and pleasures, learning styles and mental structures of individuals; In order to facilitate the lives of individuals, increase their security and comfort, protect their health and assets, develop their skills and contribute to their educational life, in order to meet the needs, desires and desires, pleasures and pleasures of individuals, by transmitting the relevant commands to the devices, systems, software and programs to which they are connected. It is the invention of an automatic detection, analysis, control and control device that is used for command and control. The structural and characteristic features and all the advantages of the invention will be more clearly understood thanks to the figure given below and the detailed explanation written with reference to this figure, and therefore the evaluation should be made taking this figure and detailed explanation into consideration. Figure to Help Understand the Invention Figure 1 is a perspective view of the automatic detection, analysis, control and command device that is the subject of the invention. Description of Part References 1. Automatic detection analysis control and command device 2. Fingerprint reader 3. Memory card 4. Touch screen panel. Light warning module 6. Audible warning module 7. Mini computer 8. Battery 9. DC-DC voltage regulator. Charger 11. Body Detailed Description of the Invention In this detailed description, the preferred embodiments of the automatic detection, analysis, control and command device (1) which is the subject of the invention are explained only for a better understanding of the subject. This invention analyzes the fingerprints of individuals with its unique fingerprint analysis method and determines the interests, desires, mindset, likes and tastes, learning styles and mental structures of individuals; In order to facilitate the lives of individuals, increase their security and comfort, protect their health and assets, develop their skills and contribute to their educational life, in order to meet the needs, desires and wishes, tastes and pleasures of individuals, by transmitting the relevant commands to the devices, systems, software and programs to which they are connected. It is related to an automatic detection, analysis, control and command (1) used for command and control. The automatic detection, analysis, control and command device (1) subject to Bqus, whose perspective view is shown in Figure 1; The touch screen panel (4), which analyzes the fingerprint image scanned by the user through software, and allows the user to control / command all hardware and features audibly and visually, to see if the previous settings are applied if the user's fingerprint is recognized, and the voice warning module (6) that notifies the user. ), ..that ensures the coordination of all elements and software, acts as an intermediary in transferring the commands of the user and the software to other software and devices, thus, according to the person's data profile, in order to increase the person's comfort, security, success, protect his health and property, and enable him to enjoy life. , which controls/commands other programs, devices and software, and converts the user's fingerprints into a formula value consisting of five different levels, if the user's fingerprint has not been scanned before and the settings have not been saved as a result of the analysis performed by the fingerprint reader (2), each of the formulas in the form of code data. A mini computer that converts individual data into meaningful data and thus detects many features of the user such as their abilities, tastes, how they learn, their way of thinking, stores the data determined by the software as an algorithm, enables the user to delete these data whenever they want, and protects personal data with high level security in the form of code data (7). ), v the battery (8) that provides the energy required for the operation of the elements, v the DC-DC voltage regulator (9) used to assist in the power supply via the battery (8), v the body (11) with an ergonomic frame structure that holds and combines all the parts. The automatic detection, analysis, control and command device (1) performs the diagnosis process in the first stage. Fingerprint reader (2); It analyzes the person's fingerprint image through software. If it recognizes the person's fingerprint, it asks whether the previous settings should be applied. If the person's fingerprint has not been scanned into the fingerprint reader (2) before and the settings have not been saved, proceed to the second step. In the second stage, the person's fingerprints are converted into formula values by the mini computer (7). The formulation process consists of 5 different levels. At each of these levels, the formula creates a value with numbers and letter groups. Thus, personal data is directly converted into code data, that is, into a formula. The first level is the Henry-Galton fingerprint classification system. In this system, with a method similar to the fingerprint shapes of all people in the world and the formula values of these shapes for fingerprint classification, the first part of the formula is expressed with two digits or numerical values at the 1st level for the fingerprint (Example: L1). At the second level, a number of criteria regarding the attributes of body traces are determined as a reference. In determining these references, papillary lines are the criterion value. For values such as shapes, length, shortness and thickness of papillae, two numbers or numerical values are added to the end of the first level formula (Example: L1+KP). At the third level, the formula value consisting of two digits is added to the end of the formula at the second level, taking the starting point of the fingerprint classification in the Henry-Galton fingerprint classification as a reference (Example: L1+KP+12). At the fourth level, the angular measurement value of the fingerprint is added to the end of the formula at the third level, according to the Zing Angle measurement values of the fingerprint (Example: L1+KP+12+35<). The fifth level is the algorithm created about the location of the body trace. Whether the fingerprint is on the right hand or the left hand and a number indicating which finger it is and the formula value consisting of two numbers is added to the end of the formula at the fourth level (Example: L1+KP+12+35°+98A). In the third stage, the mini computer (7) creates data. At this stage, each of the formulas in the form of code data is converted separately into meaningful data. The mini computer (7) can present this data in the form of a simple report output if the user wishes. In the fourth stage, the mini computer (7) performs the command control process. This stage is the stage where the automatic detection, analysis, control and command device (1) gives commands to the devices and programs to which it is connected. Within the scope of the authority determined by the user regarding the devices to which the automatic detection, analysis, control and command device (1) is connected, it can control all electrically operated tools, equipment and programs in the connected automotive, agricultural equipment, homes, offices, large buildings, streets and avenues, by command. The settings for the automatic detection, analysis, control and command device (1) can be saved if desired. At this stage, the user can print out a detailed analysis report. In the report, the fingerprint holder's learning report, talent analysis, motivation style, what he likes, what he enjoys, what he is interested in, how happy he is, what his interests and needs are, how the educational environment should be organized, what are the ways to be followed in developing his skills, what are the fingerprints, A report containing explanations about what to pay attention to in the character size of the trace owner is prepared and transmitted to the user via a printer or digitally connected to the automatic detection, analysis, control and command device (1). There are three different modes in the automatic detection, analysis, control and command device (1). These are called fully automatic mode, semi-automatic mode and manual mode. In the operational stages of these modes, the first two stages are common and they differ from each other in the following stages. Fully automatic mode; It includes the stages of fingerprint scanning, data analysis, determining the commands to be given to the connected devices and programs, sending commands directly to the devices and programs, and controlling the devices and programs. Semi-automatic mode; fingerprint scanning process, data analysis, determining the commands to be given to the connected devices and programs, sending commands to the device and programs if the user approves, if the device and user reject, the user activates the mode and command he wants and then sends the commands to the device and programs, sends the commands to the device and programs. It includes the control stages. Manual mode; It includes the stages of fingerprint scanning, data analysis, viewing all of the commands to be given to the connected devices and programs by the user, determining what kind of commands the user will give to which device, sending commands to the devices and programs after the user determines, and controlling the devices and programs. There is 1 touch screen panel (4), 1 light warning module (5), 1 audio warning module (6), 1 fingerprint reader (2) integrated on the Raspberry Pi (mini computer (7)). The touch screen panel (4) is directly connected to the GPIO pins on the mini computer (7) without cable connection. After installing the necessary drivers, it works directly with the Raspian operating system. While the fingerprint reader (2) receives power from the 5V and GND pins on the mini computer (7), it communicates via UART (RX-TX) communication protocols. The 5V and GND pins on the fingerprint reader (2) are connected to the 4th (5V) and 6th (GND) pins on the mini computer (7). Communication connections are connected to the 8th (GPIO 14- TX) and 10th (GPIO 15- RX) pins on the Mini computer (7). RGB LEDs are connected to any GPIO pin on the mini computer (7). PWM signal is provided from GPIO pins and a 330 ohm - 500 ohm resistor is connected between it and the LED. The LEDs are supplied via the 5V and GND pins on the mini computer (7). Power supply, 5V and GND pins are connected to the 4th (5V) and 6th (GND) pins on the mini computer (7). The audio warning module (6) meets its power need through the mini computer (7). The buzzer module (6) has voltage supply from EV and GND pins. The signal line is connected via any GPIO pin. Signal 9 GPIO (X) All electronic devices fed through the mini computer (7) and the power connection of the mini computer (7) are made with the ZS Li-Po battery (8). A 450mAh capacity battery (8) was selected for the automatic detection, analysis, control and command device (1). Battery (8) 7.4 Vltur. The mini computer (7) is powered by EV 3A. In order to reduce the voltage on the battery (8) to 5V, the XL is charged with 1 Li-Po charger (10). 5V voltage was set to 3A current level via XL-4015 (DC-DC voltage regulator (9)). The DC-DC voltage regulator (9) feeds the mini computer (7) with 1 type-c cable. The fingerprint reader (2) is the fingerprint recognition sensor integrated into the mini computer (7) via UART communication protocol. It has an internal high-speed STM32F205 processor. The high-accuracy optical sensor allows the user to use optical/semiconductor sensors with its 16-pin standard port. The operating voltage is 5V and the operating current is 30mA. Communication Interface: UART, Communication Speed: 9600- 57600 bps. It has a capacity of 1000 fingerprints. The memory card (3) containing the software has 32 GB memory. It has 48MB/s reading and writing speed. The software of the mini computer (7) is loaded into the SD card. The software is known as Fingerprint Analysis Program Information and Guidance System, PAPBIL in short. Software; It can run on the Windows 10 operating system, desktop application development from JS frameworks and the use of Electron JS provide the opportunity for rapid software development. It also provides the opportunity to perform software updates for multiple devices in the long term. Electron JS allows development using web programming languages. Thus, the software; It supports HTML, CSS and JS system and software applications on the kits with Electron JS. Software distribution can be carried out from a single center using the webview method in the Electron JS program. In this respect, the software allows determining and controlling the update status and active devices on all devices. The patterns transferred from the fingerprint reader (2) are formulated by separately evaluating the attributes of the fingerprint together with multiple analysis based on the Fingerprint classes in the Henry Galton Fingerprint Classification System, Galton Fingerprint Classification Points and Ringing Angle measurements, and a meaningful connection between these code data and software subdata. It provides meaning to these fingerprint patterns by creating them and giving commands to direct these meaningful codes to the relevant device programs and systems. Software; By examining the fingerprints of individuals, which are their unique biometric data, it is to determine with scientific methods whether there is a relationship between the fingerprints of individuals and the multiple intelligence types, pedagogical capacities, learning styles and abilities they have. The touch screen panel (4) is powered by EV. It does not need an external power source; It is fed through the mini computer (7). It provides image transfer via GPIO pins. It is used with SPI Interface. It is controlled with a Resistive Touch Panel. Touch screen control is made with the XPT2046 Touch Controller. (1) Light commands are provided by RGB IEDs. These IEDs work with 5V. The voice commands of each voice warning module (6), automatic detection, analysis, control and command device (1) are provided by buzzer. It operates between 3.3-5V. It draws 30mA current. Mini computer (7) includes Broadcom 2711, Quad-core Cortex-A72 1.6 GHz processor. It has 8 GB RAM at 3200 MHz. It has 2 Wifi antennas that support 2.4 GHz and 5GHz bandwidths. It can be connected to the internet wirelessly. It has Bluetooth 5.0 support. There are 2 USB 2.0 ports and 2 3.0 USB ports. It has 2 mini HDMI outputs and can provide 60 FPS images. There is 1 MIPI DSI display port and 1 MIPI CSI camera port. There is a jack input that offers audio + composite video output via a 4-pole 3.5mm connection. It works with 5V, 3A. It draws 15Watt power. The battery (8) has a capacity of 7.4 and 450mAh. The Li-Po battery (8) is adjusted to 5V level with the DC-DC voltage regulator (9) and provides the electrical supply of the automatic detection, analysis, control and command device (1). 5A current passes through the DC-DC voltage regulator (9), which helps feed the automatic detection, analysis, control and command device (1) via the Li-Po battery (8). It meets the 5V and maximum 3A current required by the mini computer (7) without overheating. It can output up to 75 Watt* power. The charger (10) can charge the battery (8) evenly. Balance charging current is 850mA*. Maximum charging current is 2.4 A*. It cuts off charging automatically. The Body (11) with the Ieds on it was designed and printed with ABS filament, which is a flexible and durable part, with a 3D printer. The rear surface of the body (11) is designed with an optional screw, magnetic or vacuum holding device. The automatic detection, analysis, control and command device (1) scans the individual's fingerprint to the fingerprint reader (2), analyzes the individual's talents, abilities, fitness characteristics, intelligence areas, internal motivation and internal energy by using software based on the individual's fingerprint patterns. It carries out. According to the results of the analysis, many settings that will make the individual's life easier are determined directly within 1 second and implemented by giving commands to the connected program, device, appliance, automotive, home and office systems, computer and connected devices. In addition, by using software and based on the fingerprint patterns of the individuals, it is determined how the individual learns, and education planning appropriate to their abilities is made with electronic devices at home, in the office, on the street, with electronic billboards and signs, at bus stops, and in the automotive industry. Additionally, audio and video content contributes to academic and internal development. In addition, it is possible to use themes that a person likes in the home environment, work environment, accommodation environments, automotive, air, land, sea, undersea, transportation vehicles, equipment kits and tools connected to these vehicles, and all mobile devices. In the automatic detection, analysis, control and command device (1), character size is analyzed from the fingerprint patterns of the individual through software and programs, messages and images are prepared to increase the productivity and motivation of the individual during the day. These programs, messages and images are transmitted to connected devices and users. Content, applications, sounds, images and similar things that make people forget their sadness and increase their happiness are delivered and applied to individuals through visual and auditory supports. Based on the person's fingerprint patterns, the person is taught this information in a short time with a learning style appropriate to his abilities and guided by the software on how to learn information about new devices, new jobs and operations, the use of automotive equipment and related apparatus. Thanks to the automatic detection, analysis, control and command device (1), the adaptation and adaptation of the person to the home, work and social environment is facilitated, and fingerprint patterns are recorded in line with the user's request. By giving the user the opportunity to make additional settings, it is possible to use it in all environments and on all electronic devices where the user is located. Instead of multiple users making settings one by one, when their fingerprints are scanned, users are directly recognized and commands can be given to the systems. It is possible to set a separate command for each fingerprint pattern of the person; one fingerprint pattern for high-level security, another fingerprint pattern for education mode, another fingerprint pattern for sports mode, another fingerprint pattern for entertainment, party, Separate semi-fingerprints have been identified for many modes such as holiday and daily mode. When the defined fingerprint pattern is scanned, the relevant mode is activated within seconds. In this way, users are provided with the opportunity to control their home environment, work environment, accommodation environment, automotive, air, land, sea, undersea, transportation vehicles and the equipment kits and tools connected to these vehicles and all their mobile devices. Thanks to these processes, the person's life is made easier and commands are easily given to the facilities and connected systems. The automatic detection, analysis, control and command device (1) is based on people's fingerprints, palm prints, soles and toe print patterns and evaluates these patterns according to the Henry-Galton fingerprint classification, fingerprint attributes, fingerprint angle measurement values. analyzes the data. The correlation value resulting from these analyzes is calculated according to which part of the body it is (right hand index finger, left hand ring finger, left hand big toe, etc.). The automatic detection, analysis, control and command device (1) aims to make individuals' lives easier, increase their motivation and productivity, meet their needs and automatically produce solutions and support for them. In addition, all environments where the individual is located, electronic devices, machines, programs and software, all electrically operated devices are integrated into computers and programs. In this way, connected systems are designed, commanded and controlled according to the individuals' preferences and interests. Thanks to the invention, individuals' living standards, happiness and comfort increase. The automatic detection, analysis, control and command device (1) contributes to the individual's protection of the security of himself, his family and his assets and to increase precautions. The automatic detection, analysis, control and command device (1) determines the individual's current potential, talents and abilities according to the fingerprint pattern and supports his/her education, personal and social development. Automatic detection, analysis, control and command device (1), smart mobile systems, tools, equipment, devices, kits, equipment systems that can be controlled remotely or work with an electronic connection, controlled by remote control buttons and similar devices. and can run programs by integrating them into software.TR TR