Інформаційні технології

Novikov Igor
Director of the company STROYKON Vira

https://www.doi.org/10.25313/2524-2695-2025-3-06-22

WINDOW AND DOOR OPENINGS IN THE SMART HOME ECOSYSTEM

Window and Door Openings, Laser and Optoelectronic Systems in the Ecosystem and Infrastructure of a Smart Home, Including Elements of Artificial Intelligence and Neural Networks with the Prospect of Transitioning to Quantum Computers

Summary. The complex of new, still rather unusual conditions and requirements at all stages of design, production preparation, and comprehensive production aimed at forming the capabilities and specifics of so-called smart industries, machines, transport, technologies, and smart workplaces in all industries—including medicine, science, specialist training, and agriculture—forces a revision of the established order of things and necessitates the search for new organizational and technical solutions to meet the emerging conditions.

Forecasting the development directions and concepts for forming so-called smart tools and devices in the technological field of specialized integrative instruments, primarily medical devices and complex disposable instrumentation based on laser diodes and modern fiber optics.

The strategic importance of high-speed identification of smart tools and devices in real-time conditions and their use in analytical blocks of control and management systems of artificial intelligence and artificial neural networks.

The reliability of supersystems of basic technical solutions in optical instruments and tools, achieved through the improved efficiency and reliability of electronic block subsystems using encapsulated composite materials and electronic printed circuit board production technologies that apply hierarchical construction principles inherent to RHYTHM technologies and their combinations.

Ensuring the required level of processor technology speed in control and management units using advanced methods for manufacturing thin-film microassembly boards, including the use of flexible automated production modules and high-speed electrochemical and galvanic coating methods that implement processes without the negative influence of edge electrode effects and with electrochemical cells operating in a directed electrolyte flow.

Key words: Design features of laser and optoelectronic systems; Special tool systems of all levels; Application in control and management nodes and modules of artificial intelligence and artificial neural network elements; The prospect of sequential transition to quantum computers and their equivalents.

Introduction. The use of online control both at the supersystem level and at the level of interconnected subsystems with the application of measurement technology based on the electromagnetic radiation function and electrical resistance in real-time conditions, along with the principles of advanced high-speed resonance spectroscopy.

The application of complex integrative automatic assembly systems for electronic components of supersystems and subsystems with preliminary stamping of input parts and elements.

The use of micro-automation systems with micro-motors featuring high torque while operating on the principles of the reverse piezoelectric effect.

The control of optical parameters of supersystems and subsystems using the latest mobile applications and devices based on them.

The manufacture of parts and units of devices, apparatus, and systems of all levels of complexity, including both supersystems and subsystems, on commercially operated specialized technological equipment existing in enterprises, ensuring the receipt of all necessary characteristics and parameters required for the classification of smart equipment.

Protective Coding of Optical Discs and Digital External Storage Media

General Information

All projects within this group of technical solutions are based on a single method of encoding and subsequent identification of the recorded encoding element.

The essence of the principle is the application of an encoding coating or its technological equivalent onto the protected object and the subsequent measurement of the thickness of this coating, determining whether the measurement results match the encoding.

If the obtained result matches the established encoding, positive identification of the encoding element occurs; if not, negative identification occurs, leading to the stoppage or blocking of the operating cycle of the equipment or information consumer, such as a computer.

Additional Technological Features

Technological issues regarding the application of special coatings have been resolved, and this technology has been repeatedly tested on similar tasks related to film thickness control on solar panel surfaces and in traditional semiconductor production.

Additional features and potential applications of the technology concerning new market conditions for storage media and information carriers that have emerged over the past year.

Due to the emergence of new recording and reading formats on optical information carriers using blue lasers and the beginning of multi-layered optical disc production based on the same technology, the proposed principles and technical solutions for protective coding have become even more significant, as the amount of recorded information per disc increases and the lack of protection leads to greater losses of confidential or sensitive data.

In addition to the already transmitted information, it is necessary to indicate the possibility of coding each layer in multi-layered discs, where each recording layer is coded individually, representing a significant improvement in the information carrier formatting system in three-dimensional representation and serving as a means of ensuring local selective encoding of information within a single disc for particularly important and classified data.

Corporate Information Protection Systems

The proposed technology, when organizing an information flow protection system within a single corporation, provides protection at multiple system levels, including real-time tracking of the state and location of each disc available in the corporation.

By using the proposed coding methods to protect information on mobile external storage media, the same advantages are expected as when applied to optical information carriers and storage devices.

Changes in Product Structure and Usage Boundaries Resulting from Project Implementation

Thus, based on similar solutions, at least two projects with a large number of applications can be created:

1. A technology project for coding optical information storage media in disc form, including an appropriate analytical-sensor device, which in turn can have numerous applications across various fields and industries.
2. A project for coding and protecting information on mobile external storage media, including an appropriate mobile or stationary sensor measurement-analytical-comparative device, also with multiple applications and design models.

Additional Devices and Systems That Can Be Created Based on the Same Fundamental Technological Solutions

If required by consumers, the project can include a section on additional devices that form the entire corporate security and information flow protection system within a single corporation or group of corporations, or, in the case of Ukraine’s specificity, state corporations, individual research institutions, academic institutes, and large healthcare institutions.

As a special product, an information protection system can be created not only for storage but also for operational areas, including command and signal transmission in military units and formations, as well as in naval forces.

Under modern conditions, where information is concentrated in relatively small sizes and volumes of storage devices, potential damage from unauthorized or criminal access to these information arrays can be prevented or localized through the creation of a special infrastructure of these protection systems, which can be standardized within the specifics of a given ministry, main administration, or corporate structures of lower organizational levels.

Confidentiality of Information

More detailed information (beyond the scope of this presentation and its illustrative materials) can be provided after the documentary-legal formulation of intentions with a potential consumer or partner, following the signing of confidentiality agreements (in a mutually agreed, legally acceptable form for both parties).

References, Patents, and Licensing Information

Appendix 1

SMART ABSORBENT ARTICLE AND COMPONENTS

Abstract

A substrate suitable for incorporation into an absorbent article for automatic detection of wetness events therein, the substrate comprising a first surface capable of being arranged proximal to a body facing side of the absorbent article and a second surface opposite said first surface and capable of being arranged proximal to a garment facing side of said absorbent article, said substrate comprising a plurality of sensor tracks disposed on said first surface wherein said sensor tracks are in electrical communication with a clip-on data processing module when connected at a position proximal to a first end of the substrate such to form a closed electrical circuit, typically for measuring resistance, impedance and/or capacitance therethrough, wherein the substrate comprises one or more slits and an insulating layer placed over said first surface to sandwich said sensor tracks therebetween, and a pocket is formed between said first surface and said insulating layer proximal to at least said first end, said pocket being in fluid communication with said slit(s) and arranged to retain at least a portion of said clip-on data processing module therein.

Appendix 2

SMART ABSORBENT ARTICLE, COMPONENTS, AND PROCESS OF MAKIN

Abstract

A substrate suitable for incorporation into an absorbent article for automatic detection of wetness events therein, the substrate comprising a first surface capable of being arranged proximal to a body facing side of the absorbent article and a second surface opposite said first surface and capable of being arranged proximal to a garment facing side of said absorbent article, said substrate comprising a plurality of sensor tracks disposed on said first surface and said sensor tracks comprising: at least one central track extending parallel to a length of the substrate and parallel to a longitudinal axis crossing a first end and a second end of the substrate; at least two side tracks extending parallel to the central track and oppositely arranged such that the central track extends therebetween; and wetness sensing tracks extending outboard of said two side tracks, wherein said central track, said side tracks, and said wetness sensing tracks are in electrical communication via one or more shortening elements positioned proximal to said second end and distal from said first end, and wherein the substrate is connectable to a clip-on data processing module at a position proximal to said first end and distal from said shortening elements such to form a closed electrical circuit, typically for measuring resistance and/or capacitance therethrough. In an embodiment said substrate consists of a liquid impermeable back -sheet, preferably a breathable liquid impermeable back -sheet.

Appendix 3

METHODS AND SYSTEM FOR MANAGING INTELLECTUAL PROPERTY USING A BLOCKCHAIN

Abstract

A system and methods for managing intellectual property using a blockchain are provided which may include one or more elements which forms a comprehensive foundation for an eco-system for innovation and intellectual property management. The elements may include: an intellectual property distributed ledger, an intellectual property digital policy server, non-binary trust models, automatic ontology induction, modifications to the blockchain “mining” and “proof of work” system, appstore for related applications, partial transparency trans – actionalized search engine, persistent and encapsulated software trust objects, licensing royalty smart contract with auditable payment tracking, micro-equity incentives, automated fraud detection intellectual property management dashboards, innovation workflow broker, innovation optimization tools, disruption mapping, and intelligent just-in-time learning. The system combines and integrates these functions to enable personal, intra-enterprise, inter-enterprise and extra-enterprise recordation, collaboration, searchability and its benefits, licensing and tracking of information regarding intellectual property over a networked distributed computing system.

Appendix 4

PROCESS DISCOVERY AND AUTOMATIC ROBOTIC SCRIPTS GENERATION FOR DISTRIBUTED COMPUTING RESOURCES

Abstract

Techniques for process discovery and automatic generation of robotic scripts for distributed computing resources are disclosed. In one embodiment, at least one automatable process step associated with an activity performed while interacting with at least one application may be determined. The at least one automatable process step may be segregated into multiple tasks based on parallel executable tasks and sequentially executable tasks. Different types of distributed computing resources may be determined to execute the multiple tasks based on the segregation. A modified process flow corresponding to the at least one automatable process step may be automatically generated based on the segregated multiple tasks and the different types of the distributed computing resources. Further, a robotic script based on the modified flow of the at least one automatable process step may be automatically generated. The robotic script may be executed to perform the activity.

Appendix 5

MODULAR ELECTRONIC VASE WITH AUTOMATED, DIGITAL CONTROL AND MONITORING SYSTEM, USED FOR AEROPONIC GROWTH OF PLANTS IN INNER AND OUTER ENVIRONMENTS

Abstract

The invention relates to a device for growing plants with aeroponics, in the form of a dismountable modular vase composed of superposed modules (4) linked by joining rings (2) and covered by a sealing lid (1) or (21). The modules have a plurality of mouthpieces (5) symmetrically distributed at angular positions, into which the accessories are introduced, such as the rooting basket (6), the micro-greenhouse (22), the seed capsule in the form of a foam cube for germination (23), the support disks (24), (26) or (27), the rod (28) and the grid (29). A tank in two parts (32) and (33) forms a base for the device and comprises an inspection and supply lid (7), a protective grid (8) an on/off switch (9), a connection (10) for the power cable, rollers (30), support legs (31) and an electronic panel (11) that displays information about the level of the nutrient solution, temperature, humidity, timer control and automatic actuation functions of the electric components and electronic circuits. The device actuating components are housed inside, together with the float (15) which stores a mini-generator (16) of nutrient solution nanoparticles, a ventilation pump (17) with an air hose (18), a silencing capsule (19) and a ruler (20) with level sensors.

Appendix 6

CONTROLLABLE POWER AND LIGHTING SYSTEM

Abstract

There is provided herein controllable power and lighting system. There is particularly provided a method for the arrangement and automatic control of one or more power consuming devices, including one or more light emitting diode (LED)-containing lighting devices, and optionally one or more non-LED based devices, wherein the devices are adapted to be powered by 3-phase AC power within the present systems.

Appendix 7

COMPUTER IMPLEMENTED METHODS AND SYSTEMS FOR GENERATING VIRTUAL BODY MODELS FOR GARMENT FIT VISUALISATION

Abstract

Methods for generating and sharing a virtual body model of a person, created with a small number of measurements and a single photograph, combined with one or more images of garments. The virtual body model represents a realistic representation of the users body and is used for visualizing photo-realistic fit visualizations of garments, hairstyles, make-up, and/or other accessories. The virtual garments are created from layers based on photographs of real garment from multiple angles. Furthermore the virtual body model is used in multiple embodiments of manual and automatic garment, make-up, and, hairstyle recommendations, such as, from channels, friends, and fashion entities. The virtual body model is sharable for, as example, visualization and comments on looks. Furthermore it is also used for enabling users to buy garments that fit other users, suitable for gifts or similar. The implementation can also be used in peer-to-peer online sales where garments can be bought with the knowledge that the seller has a similar body shape and size as the user.