WO2020067928A2 - Methods for confirming transactions in a distributed outdoor advertising network - Google Patents

Abstract

The invention relates to methods of recognizing printed or written symbols or of recognizing images; to analyzing, surveying, promoting, and advertising; to monitoring and recording the operation of machines and devices; and to payment protocols. The present method for confirming a financial transaction during the broadcast of a video advertisement on a video screen is carried out by recording the surface of the video screen, with the automatic recognition of a video advertisement using a computer vision system. If the computer vision system confirms that a video advertisement is shown during a given period of time, then a financial transaction is carried out and is recorded in a blockchain ledger, and in the opposite instance, the financial transaction is canceled. At the same time as the video advertisement is being recorded, a tally of the actual number of viewers is taken using different video cameras and a computer vision system. After the video advertisement has been shown, information on the actual number of viewers is recorded in a blockchain ledger. The computer vision system uses neural networks to recognize video advertisements and to tally viewers. In order to locate a desired video screen amongst various other advertising video screens, one or more frames having graphically encoded information are fed into the video broadcast being shown on the video screen. Any type of matrix code can be used for the graphic encoding of the information. The graphically encoded information from the video stream is decoded, after which the code is compared to a code transmitted into the video broadcast, and if the code matches, information about the perimeter of the video screen is subsequently used in the recognition of video advertisements. The present invention aims to solve the problems of: providing the debiting of funds only for actual screenings of an advertisement, if a screening did not happen; decreasing or eliminating the cost of supporting the infrastructure of a global advertising network; providing access for owners of single video screens to the world outdoor advertising market and making it possible to place advertising from large international advertisers; eliminating servers and the need to support server infrastructure; carrying out international transactions to purchase advertising which are not bound to national currencies and eliminating complicated international account infrastructure; seamlessly connecting individual advertising networks into a single global network; making it possible to connect both a single video screen as well as large networks of digital billboards to a network; recording the size of the audience for each video screen while carrying out a transaction to debit funds for the screening of a video advertisement; guaranteeing advertisers that money will be spent efficiently by means of monitoring the screening of an advertisement and monitoring the viewers; precisely identifying a video advertisement using computers without human involvement; defining the borders of a desired video screen when several different video screens are located within the field of vision of cameras.

Description

 Methods for confirming transactions in a distributed outdoor advertising network

The invention relates to methods for recognizing printed or

written characters or pattern recognition; analysis, survey, promotion, advertising; monitoring and recording the operation of machinery and apparatus; to payment protocols.

From the existing level of technology there is a device and method for calculating the rating of an outdoor advertising audience (CN102147855A, G06K 9/00, 01/20/2011). The device comprises more than one video camera, an image analysis module and a transmission module, in which the video camera is located on an outdoor advertisement for receiving images of viewers in front of an outdoor advertisement; image analysis module analyzes and calculates the amount

Valid audiences shot with a camcorder or camera a transmission module that transfers the volume of the audience. At least one camera is located around the outdoor advertising of the multimedia video screen, while the camera continuously takes photos and transmits them. The image analysis module analyzes data, positions human faces and human eyes, analyzes people watching the video screen, counts and sends the number of people who look at the video screen. Disadvantages: the method does not allow to control the operation of the video screen and to ensure that the commercial is shown; device will not allow to analyze car traffic.

The prior art system is known (US8145016B1,

G06Q30 / 0241, 03/27/2012). According to which potential

the advertiser can see the motorist’s look at the outdoor advertising medium without having to actually drive past the outdoor advertising medium. The video image of the outdoor advertising medium is recorded from a car driving past the outdoor advertising medium using a video recorder. The database is populated with images of each outdoor advertising medium. The advertiser queries the database using some identifier to receive the image and after

receiving scans the image. Disadvantages: the need to go around all advertising media by car; you need a person to check the video; for digital formats, this method is not effective, because advertising content is constantly changing, and in this way there is no round-the-clock control

Images. A media inspection device is known from the prior art (CN202838463U, G07C 1/20, 09/10/2012). The utility model relates to an outdoor advertising media inspection tool related to the technical field of monitoring equipment. The tool for examining outdoor advertising media contains a GPS module for receiving the coordinate signal of the outdoor advertising monitoring tool, communication module, display and microcontroller, in which the GPS module is located, the communication module and display are connected to

microcontroller MCU. The communication module is connected to the server via wireless signals, the MCU chip is located

storage, in which the position signals of outdoor advertising media are pre-installed and a comparator for comparing the coordinates of the signals with the position signal located in the MCU chip. Tool

media inspections for outdoor advertising can be used to reliably study and manage information about outdoor advertising media. Disadvantages: the tool is designed to determine the coordinates of the placement of advertising media to

prevent illegal placement of advertising media; this tool is not intended to control content placed on advertising media.

From the existing level of technology known system of outdoor advertising

(KR101796157B1, G09F9 / 30, 05.29.2015). For displaying advertising content in accordance with a preference identified by a peripheral image and a face detection algorithm. Advertising content

selected and modified based on face recognition data.

Disadvantages: the system is not equipped with a function of counting the audience; the system cannot control the performance of the advertising video screen.

From the current level of technology, an intelligent control system for controlling and controlling outdoor advertising is known (CN202748827U, G06Q 10/06, 12/14/2011). A useful model based on Internet things.

The smart control system comprises a plurality of monitoring terminals, at least one advertising board management server and a plurality of control terminals, the monitoring terminal comprising an intelligent electronic RFID tag, a collection device

video signal, touch module and wireless module, which is built into a controlled billboard. The server for managing advertising video screens is connected to the monitoring terminals via a wireless network and is equipped with an integrated database of the advertising control panel, and the control terminals are connected to the server for managing the advertising board via wireless or wired network. The system implements real-time monitoring of outdoor billboards and automatic signaling when monitoring outdoor billboards, and thus the monitoring and control efficiency is increased, labor costs are saved, and the level of management is improved. Disadvantages: the system is a server system; if the central servers fail, the entire network will stop working; the system exercises control, but does not conduct financial transactions and cannot cancel them, which complicates mutual settlements; the system does not check the content automatically, basically the performance of the video screens is checked.

A device is known from the prior art (CN205665733U, G06Q 30/02, 04/05/2016). A utility model discloses the use of a neural network or a convolutional neural network as the core of a device, where

the advertising player’s terminal camera, data carrier, microprocessor, sound output equipment, and a power supply are used. A terminal similar to the human vision system has the ability to "understand" the world by analyzing the characteristics of the crowd or the action of the user. This improves the accuracy of advertising and increases the effectiveness of advertising,

optimizes the advertising resource. Disadvantages: the system cannot

monitor the performance of the advertising video screen; the system is not equipped with an audience counting function.

The global outdoor advertising market is switching to digital media. Ordinary billboards are replaced with digital video screens. This transition is carried out spontaneously based on various intermediate technologies, as a result of which the global outdoor advertising infrastructure has received many problems.

Digital ad networks are separate from each other, so now there is no easy way to advertise on any video screen anywhere in the world. Aggregators are created to place ads in

different billboard networks, but this approach has a number of problems. Ad networks have various formats for interacting with advertisers, various types of LED video screens with incompatible interfaces, and various formats for sharing videos. Therefore, the integration of each individual network into an aggregator is not an easy task. In addition, the current model does not guarantee that funds will be spent efficiently. This happens for the following reasons: most advertising video screens do not count the audience, and especially the audience of each video at any given time; There is no end-to-end control over the display of ads, so the video screen may not function, and money for displaying ads will be debited. Control for advertising is now carried out using outdated methods, a camera is installed in front of the advertising video screen that removes the surface, and this camera broadcasts around the clock so that the advertiser’s employees can watch online whether their ads are coming. In addition, this camera is used to regularly calibrate the video screen, since the diodes are not evenly degraded and once a month they are calibrated to even out the image brightness.

When integrating ad networks through regular APIs, they will require complex interaction algorithms between participants in the advertising market. To support such ad network aggregators, hundreds of servers located on different continents will be required. And maintaining the IT infrastructure of such a network will require large annual costs.

In most cases, advertising operators use an outdated model of advertising, in which advertising surfaces are sold on a monthly basis, and each ad is called the side of the video screen by analogy with traditional billboards, which have 2 sides or 6 sides for prismatrons. This model is ineffective for all market participants, which reduces the attractiveness of outdoor advertising. Participants in the advertising market have a need to create a global advertising network of digital billboards to increase the return on advertising video screens and strengthen the position of outdoor advertising among other advertising media. To do this, change the ad display model to

Competitive, similar to the model that displays ads on the Internet when advertisers bid at an auction to get the best ad space.

The main problem with outdoor advertising aggregators is that, in principle, they cannot work with small companies or private entrepreneurs, as they cannot guarantee that advertising will be shown. The video screen may turn off due to lack of power or equipment failure. Due to the great complexity of digital video screens, failures often occur in individual modules of the video screen and they stop working, which spoils the image.

The creation of a global network complicates the mistrust of advertising operators to advertising aggregators, as they are afraid of losing control of their business. In order for the integration of networks into one global network not to pose a threat to various advertising operators, you need to provide them with the opportunity to control their advertising infrastructure, as well as create uniform rules for everyone that cannot be influenced by another organization. Blockchain technology is ideal for solving this problem, which can minimize the possibility of pressure of various aggregators on advertising operators.

There is a huge underutilization of the advertising space of private companies in the global outdoor advertising market. For example, the owners of a shopping center can place many

advertising video screens, which in most cases are used by tenants of retail space to advertise their stores. Such organizations cannot integrate their advertising space into large advertising networks, since this is not their business and for them such integration is too complicated, although for advertising operators these are excellent placements. In such shopping centers there is a lot of traffic of solvent consumers, several hundred thousand people a day, and this audience is great for placing arbitrary advertising. As a result, due to the lack of competition from global advertisers, advertising prices are lower than in the market and the owners of such video screens receive less profit.

To summarize, large advertisers need to spend money on advertising efficiently, an advertising operator needs to sell their advertising media at the maximum price, and private owners of advertising surfaces need to effectively sell their advertising surfaces and at the same time spend a minimum of effort.

When creating an advertising integrator, it is necessary to provide the opportunity for a smooth transfer of infrastructure so that companies can use both the old methods and the new methods of outdoor advertising.

The tasks to which this invention is directed are: to ensure that funds are written off only for actual ad impressions, if the impression has not occurred; reduction or zeroing of the cost of maintaining the infrastructure of the global advertising network; providing access for owners of single video screens to the global outdoor advertising market and providing the possibility of advertising from major international advertisers; getting rid of servers and the need to maintain server infrastructure; conducting international transactions for the purchase of advertising not tied to national currencies, getting rid of the complex infrastructure of international payments; seamless integration of individual advertising networks into a single global network; providing the ability to connect to the network as a single video screen, and large networks of digital billboards; fixing the size of the audience of each video screen during a transaction to write off funds for displaying a commercial; guaranteeing advertisers that the money will be spent efficiently by controlling the display of advertising and controlling the audience; precise identification of the commercial using

computers without human involvement; determination of the boundaries of the desired video screen when several different video screens are located in the camera’s field of view at once.

The tasks are solved as follows

Terms: A distributed network node is a combination of hardware and

software that allows you to exchange data with other network nodes, perform computational operations based on program code; A distributed registry is a type of database that is stored and updated independently by each member of the network; Blockchain - a continuous sequential chain of blocks containing information built according to certain rules. Copies of block chains are stored on many different computers independently of each other. Blockchain is a special case of a distributed registry; Smart contract - a computer algorithm designed to conclude and maintain commercial contracts in blockchain technology; Gateway - a distributed network node that has one or more external interfaces. The network gateway can be a dedicated server or a virtual machine inside a cloud platform; Cryptocurrency is a type of digital currency, the creation and control of which is based on cryptographic methods; Neural network - a mathematical model, as well as its software or hardware implementation, built on the principle of organization and functioning of biological neural networks (in the text, the word neural network means any of the known types of neural networks, including serum neural network); Convolutional neural network is a special architecture of artificial neural networks aimed at efficient image recognition. Network participant - an individual or legal entity registered in the blockchain, having a public and private key for transactions within the blockchain. These may be advertisers and outdoor advertising operators; Outdoor advertising operator - a legal entity that owns advertising video screens.

The exact identification of the commercial using computers without human participation is ensured as follows. During broadcasting a commercial using one or several video cameras recording the surface of a video screen and a computer vision system that processes video streams from these video cameras, visual control of the broadcast is performed with automatic recognition of the commercial. The computer vision system consists of a computer module with a network interface, with a program for analyzing video streams from video cameras.

Processing of the video stream from video cameras is carried out using neural networks, with the help of which the image from the cameras is compared with the clip to be shown, and the comparison result is transmitted for further processing of the transaction. Comparison of clips can be carried out using profiles that are formed by processing

video streams. The profile is spectral data.

video stream, which are formed as a result of processing the video using the algorithm. When creating a commercial profile, a large amount of input video data is reduced to a small block of data that is convenient to work with.

The provision for writing off funds only for actual ad impressions is provided as follows. Before the broadcast of the commercial begins, the financial resources necessary for the broadcast are blocked on the advertiser's account. If you cannot block the funds, the video will be canceled. If the computer vision system with the help of visual control confirms the display of the commercial in a given period of time, then the financial

transaction is conducted, otherwise a financial transaction

canceled. A financial transaction can be conducted on the blockchain network, while the funds are transferred in cryptocurrency.

Since camcorders can be located at a great distance and capture multiple video screens, you need to find a specific

video screen to prevent incorrect debit of funds while showing the same clips on different video screens.

The definition of the boundaries of the desired video screen when several different video screens are immediately in the camera’s field of view is as follows. One or more frames with graphically encoded information are supplied to the video broadcast displayed on the video screen. Using video cameras that capture the surface of the video screen, the video stream is processed using an algorithm that determines the perimeter of the surface of the video screen using graphically encoded control points. Graphically

the encoded information from the video stream is decoded, after which the code is compared with the code transmitted in the video broadcast. If the code matches, then information about the perimeter of the video screen in the video stream from video cameras

saved. This information is then used to crop the image. As graphically encoded information, any of the known types of barcodes, one-dimensional or two-dimensional, can be used. Image capture and decoding is performed using one or more neural networks. In one embodiment, the implementation of the broadcast video frames and data processing is carried out by the server,

located on the Internet.

Fixing the size of the audience of each video screen during a transaction to write off funds for showing a commercial is as follows. During the broadcast of the commercial using one or several video cameras, the space in front of the advertising video screen is shot, from where the video surface of this advertising video screen is visible. The computer vision system processes video streams from video cameras and calculates the number of audiences; after the end of the show, the information about the actual number of audiences is recorded in the blockchain registry. Thus, the blockchain records objective information about the audience of the display of each commercial. Cameras can be equipped with separate infrared sensors for reliable audience counting in the dark. The computer vision system uses neural networks to process video streams from cameras and to recognize people and cars. When counting the audience, a separate calculation can be made of the number of people and the number of

cars that move from the video screen to the video screen. When calculating the audience, geodata about subscribers received from mobile operators can be taken into account.

Reducing or zeroing the cost of maintaining the infrastructure of the global advertising network is realized by distributing financial costs among network participants. Each participant buys their network nodes and connects them to the Internet, these nodes themselves are combined into a network thanks to the algorithms embedded in them.

Getting rid of servers and the need to maintain server

the infrastructure is carried out by creating a distributed advertising platform in which every ordinary video screen will be controlled by a computer module equipped with video cameras connected to the Internet. This module provides data to the advertising video screen for video broadcasts, processes video streams from video cameras and performs other applications necessary for the functioning of a distributed advertising network.

All data of the advertising network will be stored directly in computer modules located at the video screens, data exchange between individual nodes of the network will occur via the P2P protocol. And transactions between network participants will be carried out using a blockchain system distributed over a network of video screens. Commercials, distributed registries and other data necessary for the functioning of the advertising network are stored in the memory of the network nodes. Distributed data storage is carried out by dividing individual data blocks into small fragments and distributing these fragments between other network nodes with redundant duplication, in which each individual fragment of the data block is stored on at least 2 network nodes.

Conducting international transactions for the purchase of advertising not tied to national currencies, getting rid of complex infrastructure

International payments are carried out through the use of our own cryptocurrency. Financial transactions between participants in the advertising network are made inside the network nodes by making entries in

distributed registry. During blockchain transactions

the application executes the program code of one or more

smart contracts.

Seamless integration of individual advertising networks into a single global network is carried out by installing devices near video screens,

equipped with video cameras, which are the nodes of the global advertising network, each device is equipped with an API interface for issuing commercials and plans for displaying ads. That is, integration does not proceed in a hierarchical way, as usual, when advertising networks connect their central servers to the servers of the global network, but due to the placement of equipment at the control endpoints. This approach provides great flexibility for such integration and a very high reliability of control over individual advertising networks and video screens.

Providing the ability to connect to the network as a single video screen, and large networks of digital billboards. Single video screens are controlled by the nodes of the distributed network via a direct wireless connection. Large networks of outdoor advertising operators can interact with the distributed network through connections to the gateways of the distributed advertising network. The integration result is the same in both cases.

Providing access for owners of single video screens to the global outdoor advertising market and ensuring the possibility of advertising from major international advertisers is ensured by the fact that each transaction for showing a video is confirmed by visual control, and the audience size is also confirmed by means of visual control. In this case, all calculations are made using cryptocurrency through the blockchain. Thus, for large companies there are no risks and difficulties in interacting with private owners of video screens.

Brief Description of the Drawings

In the figures (2-3) shows various options for the placement of the computer module (1). The figure (4) shows the interaction between nodes

distributed network (11), advertising video screens (6) of other networks. The white arrows indicate the direction of the optical flow to

video cameras (2) computer modules (1), black two-way arrows indicate the exchange of data between network elements. The figure (4) shows various connection options: connection of individual advertising video screens (b) with direct data exchange with nodes (11) of a distributed network; connection of a network of advertising video screens (6) with data exchange between networks through an advertising network server (9) and a distributed network gateway (10); connection of a network of advertising video screens (6) with direct data exchange between advertising video screens (6) and nodes of a distributed network (11). The figure (6) shows the display by the advertising video screen (6) of a frame with graphically encoded information to find the surface of the desired video screen and determine the perimeter of the surface of the video screen for further use in recognizing commercials.

List of Shapes

1. Computer module in a case with cameras.

2. Digital advertising video screen with a computer module with cameras.

3. A computer module with cameras is mounted on the wall of the building. 4. Scheme of docking a distributed network with networks of advertising video screens.

5. The algorithm for conducting financial transactions when showing a commercial.

6. The screen displays a frame graphically encoded information.

List of items depicted in the figures

1. Computer module in a case with cameras.

2. The camcorder.

3. The surface of the video screen.

4. The stand.

5. Mounting pipe.

6. Digital advertising video screen.

7. The building.

8. The computer that controls the video screen.

9. Server ad network.

10. Gateway of a distributed network.

11. The node of the distributed network.

Device

Distributed ad network consists of many advertising video screens and ad networks. Each advertising video screen is associated with at least one computer module located in the immediate vicinity of the video screen.

A computer module contains a processor, memory, a network interface for exchanging data with other computer modules through one or more networks and several cameras. The computer module is housed in a sealed round case along with cameras that are placed on perimeter. The network interface is wireless and can interact with both cellular networks and networks operating on open frequencies, such as WIFI and WIGIG.

Images from video cameras form a panoramic video stream, which is analyzed by a computer vision software system installed in a computer module.

Computer modules of video screens contain a software environment for executing applications and are nodes of a distributed advertising network. The host network software environment includes: an application for processing blockchain transactions between participants in an advertising network, an application for managing the storage and transmission of data between nodes of a distributed advertising network, an application for selecting commercials for display based on the auction algorithm.

The device is manufactured as follows:

Computer modules are created on the basis of existing solutions with

using standard assembly operations of electronics, in the manufacture of computer modules installed firmware with software

providing a distributed advertising network and computer vision system. Permanent addresses of the reference servers intended for the initial transmission of network configuration data are sewn into the firmware. In the manufacture of a computer module, a digital code can be inserted into the firmware of the video screen modules, which will be stored on the blockchain, thus, attempts to use unauthorized equipment can be detected, which will avoid distortion of data on the display of advertising.

The operation of the device is as follows:

When you turn on a new network node connected to a data network, the network node performs initial initialization. Initialization begins by reading from the internal memory the fixed addresses of the core network servers. These servers are used as the initial integration of the node into the network or after a long period of inactivity when the dynamic IP addresses of all other network nodes have changed to new ones. After reading the addresses, the router accesses the core servers of the network and obtains the IP addresses of several network nodes. Then he accesses these nodes and receives these nodes from the routers.

relevant information about the network configuration - the names of all they know Node and their associated IP addresses. Also, the router of the new node transmits its Node name, current IP address and public key to other node routers, after which these routers distribute this information over the network by transmitting to other known nodes. Thus, the node receives registration in the network. After connecting to the network, the new one downloads a copy of the distributed registry and other data necessary for work.

Separate video screens interact with the nodes of a distributed network through the API directly through wireless interfaces. And centralized networks of video screens interact with the distributed network API through gateways.

Gateways are nodes of a distributed network, but at the same time they have the usual interfaces and program interfaces with which they can

interact with any online services. Moreover, network interaction is always one-way, network nodes or gateways provide access services, and external systems are already accessing them. Feedback interacts only through visual inspection of the video screen.

After the initial initialization of the nodes, the video screen management system connects to the network node and transfers its public key. The node checks the private key in the blockchain, and if this key is registered, it performs a visual search for the video screen by submitting frames with graphically encoded information to the video screen. Graphically

the encoded information from the video stream is decoded, after which the code is compared with the code transmitted in the video broadcast, if the code matches, then the information about the perimeter of the video screen is for further use in recognizing videos.

All interactions with the network are performed by users through special online services, which in turn interact with the network through gateways. To place ads on the video screen, the user creates an account through the web interface of the online service, as a result of which he receives public and private keys. Next, the user replenishes the balance through any crypto exchange or financial service. To place an advertisement, he selects on the online map through the web interface those video screens where he wants to place an advertisement, sets the placement time, the price that he wants to pay, and uploads the video. The price and time of advertising, as well as a list of video screens, can be done automatically using

a robotic platform embedded in a web service.

From the online service through the gateway, the application and the commercial are transmitted to one or more nodes of the distributed network, then software Routers forward this request to the destination nodes through other nodes. At the same time, applications for advertising are sent from different network participants to many different nodes.

Processing of applications for advertising is as follows: the node accepts applications from many network participants to place an ad in a given period of time at a given price. The node compares the bids, and based on the auction algorithm, the most profitable for placing the bid is selected. Next, an attempt is made to block the required amount in the account of an ad network participant by making an entry about the amount of blocking in the distributed registry. If

the blocking failed, the next relevant application for advertising is selected, and the attempt to block the funds is repeated. If the funds were successfully blocked, then the presence of the commercial in Noda’s memory is checked.

If the video is not available, this video is downloaded from the nodes of network participants. After downloading the video, the video is shown, while the network node performs visual control of the video and counts the audience using a computer vision system. Upon successful confirmation of the video showing using visual control, funds are debited through making entries in the distributed registry. Otherwise, the transaction is rolled back and funds are debited from the client.

Claims

Formula

1. The method of finding the surface of an advertising video screen is characterized in that one or more frames with graphically encoded information are fed into the video broadcast displayed on the video screen, from one or more cameras recording the surface of the video screen, the video stream is transmitted for processing using an algorithm that is graphically encoded control points are determined by the perimeter of the surface of the video screen, graphically encoded information from the video stream is decoded, after which the code is compared with the code transmitted in

video broadcasting, if the code matches, then perimeter information

the video screen in the video stream from the cameras is saved for future use.

2. The method of finding the surface of an advertising video screen according to claim 1

characterized in that the issuance of video transmission frames and data processing is carried out by a server located on the Internet.

3. The method of finding the surface of an advertising video screen according to claim 1

characterized by the fact that the node of the distributed advertising network is located next to the video screen, it is a computer module with software, this module gives the advertising video screen data for video broadcasting, processes video streams from video cameras and performs all operations of the algorithm.

4. The method of finding the surface of an advertising video screen according to claim 1

characterized in that any of the known types of barcodes, one-dimensional or two-dimensional, is used as graphically encoded information.

5. The method of finding the surface of an advertising video screen according to claim 1

characterized in that image capture and decoding is performed using one or more neural networks.

6. The method of checking the broadcast of the commercial on the advertising video screen by means of visual control is characterized by the fact that before

the video screen is one or more video cameras that record the surface of the video screen, the video stream from the cameras is processed using one or more neural networks, using which the image from the cameras is compared with the clip that should be shown, and the comparison result is transmitted for further

use.

7. The method for checking the broadcast of an advertisement on an advertising video screen by means of visual control according to claim 6 is characterized in that the comparison of the videos is carried out using profiles that are generated by processing the video streams, the profile is the spectral data of the video stream that is generated as a result of processing the video using the algorithm .

8. The method of checking the broadcast of the commercial on the advertising video screen by means of visual control according to claim b is characterized in that the node of the distributed advertising network is next to the video screen, it is a computer module with software that processes video streams from video cameras and performs all verification operations.

9. The method of checking the broadcast of the commercial on the advertising video screen by means of visual control according to claim 6 is characterized in that the data is processed by a server located on the Internet.

10. The method of confirming financial transactions when broadcasting a commercial on a video screen is characterized in that the broadcast time of the commercial using one or more cameras that capture the surface of the video screen and a computer vision system that processes video streams from these cameras is visually monitored from

automatic recognition of the commercial if the system

computer vision using visual control confirms the display of the commercial in a given period of time, then financial

transaction is conducted, otherwise a financial transaction

canceled.

11. The method of confirming financial transactions when broadcasting a commercial on a video screen according to claim 10 is characterized in that before broadcasting the commercial, the financial resources necessary for the broadcast are blocked on the advertiser's account, if blocked

financial means fail, the video is canceled.

12. The method of confirming financial transactions when broadcasting a commercial on a video screen according to claim 10 is characterized in that the financial transaction is conducted on the blockchain network, while the funds are transferred in cryptocurrency.

13. The method of confirming financial transactions when broadcasting a commercial on a video screen according to claim 10 is characterized in that the system

computer vision uses neural networks to process

video streams from video cameras and recognizing a commercial.

14. The method of confirming financial transactions when broadcasting a commercial on a video screen according to claim 10 is characterized in that the system

computer vision consists of a computer module with a network

interface, with a program for analyzing video streams from video cameras, a program for conducting blockchain transactions and a program that is a node of a distributed advertising network.

15. The method of recording the actual audience size of a commercial during its broadcast on the advertising video screen is characterized by the fact that during the broadcast of the commercial using one or more video cameras, the space in front of the advertising video screen is shot, from where the video surface of this advertising video screen is visible, the system

computer vision processes video streams from video cameras and calculates the number of audiences; after the end of the commercial, the information about the actual number of audiences is recorded in the blockchain registry.

16. The method of recording the actual audience size of a commercial when it is broadcast on an advertising video screen according to claim 15 is characterized in that a separate calculation is made of the number of people and the number of cars that move from the video screen to the video screen,

Information is recorded separately.

17. The method of recording the actual audience size of a commercial when it is broadcast on an advertising video screen according to claim 15 is characterized in that the computer vision system uses neural networks to process video streams from video cameras and to recognize people and cars.

18. The method of recording the actual audience size of a commercial during its broadcast on the advertising video screen according to claim 15 is characterized in that the cameras are equipped with separate infrared sensors for reliable audience counting in the dark.