RU2666276C1 - Method of routing and transmission of data - Google Patents

Abstract

FIELD: computer equipment.SUBSTANCE: invention relates to the field of creation of distributed computer networks. Method of routing and data transmission includes receiving a request for data from a user, determining nodes with the requested data, selecting the preferred node with the requested data and transmitting the requested data to the user from the preferred node, and characterized in that the selection of the preferred node is made from the list of pre-registered nodes, taking into account the comparison of the geolocation parameters of the nodes with the requested data with the corresponding parameters of the user's geolocation.EFFECT: technical result is higher reliability and speed of data transmission.15 cl, 1 dwg, 5 tbl

Description

The invention relates to the field of creating distributed computing networks designed to perform one or several parallel processes, and can be used to optimize and / or balance network load, as well as to create a single distributed resource designed to perform a wide range of tasks.

A known method of routing and transmitting data, including the step of requesting data from the user at the source, the step of determining the preferred node containing the requested data, the step of determining the demand for the requested data and the step of determining the network channel for transmitting the requested data to the user [WO 2015192697, priority date: 06/18/2014 ., publication date: 12/23/2015, IPC: H04L 12/18].

There is a known method of routing and transmitting data, including the step of receiving a request for data sent by the user, the step of confirming the user address with the server, the step of selecting the preferred node with the requested data, the step of encapsulating the request and the IP address of the user, the step of receiving the encapsulated data packet, the step of sending the encapsulated packet data to the data distribution node and the stage of sending the response by the data distribution node to the user [CN 103166985, priority date: 12/9/2011, publication date: 1 06/09/2013 IPC: H04L 29/08].

As a prototype, a method for routing and transferring data was selected, including user requesting data from a web resource, processing a user request by a router, associating a router with at least one node containing data requested by a user from a web resource, forming a set of nodes by the router, receiving a user the requested data from the web resource from the preferred node in the form of information blocks, and the receipt of information blocks can occur from one or more nodes, and as the node can be selected by the user who previously received the requested data. In this case, the choice of the preferred node is performed by sending a router a request to each node and receiving responses from them [RU 2549135, priority date: 08/10/2010, publication date: 04/20/2015 IPC: H04L 12/801].

A common disadvantage of the known methods is the low reliability and speed of the data routing process. The low speed is due to long delays in the process of determining the preferred node for receiving data by the user, since for this it is necessary, at a minimum, to send a request to the node, receive a response, and execute a calculation algorithm to determine the preferred node. Low reliability is caused by the fact that other users who are not registered as nodes act as nodes, which implies the risk that the data may not be transferred in full, as users are not motivated, since the method does not provide for the payment of remuneration or a mechanism for paying remuneration not understood by users and, therefore, users can disconnect from the network at any time.

The technical problem to which the invention is directed is to improve the quality of routing and data transfer.

The technical result to which the invention is directed is to increase the reliability and speed of data transfer.

The invention consists in the following.

A method for routing and transmitting data includes receiving a data request from a user, determining nodes with the requested data, selecting a preferred node with the requested data, and transmitting the requested data to the user from the preferred node. Unlike the prototype, the preferred node is selected from the list of nodes that have been pre-registered, taking into account the comparison of the geolocation parameters of the nodes with the requested data with the corresponding geolocation parameters of the user.

The user can be a visitor to a web resource, or an automated system that searches for data by clicking on the links located on the web resource.

A user can request data from any command via various protocols sent by a user to a web resource, which in response to the request redirects the user request to the routing facility.

The requested data can be static files (image, video file, audio file, archives, text documents, executable code, executable files, calculation results, etc.), or dynamic files (video or audio stream, text translation, etc.). e.) stored on nodes, links to which are posted on a web resource.

The site can be any electronic device, for example, a personal computer, tablet computer or mobile phone, having the ability to connect to the Internet or a private private network.

Pre-registration of the site may consist of installing special software on the site and / or providing a personal account to the site owner. Pre-registration of the node provides the possibility of constant communication with the node, exercising control over its connection, and allows payment of the remuneration to the owner of the node, while various conditions for the payment of remuneration can be established, for example, in case of a sudden interruption in data transfer to the user, the size of the reward can be reduced. Payment of remuneration to owners of nodes provides an opportunity to motivate owners of nodes, thereby further improving the quality of data transfer. Pre-registration of the site provides the ability to upload data to the site from a web resource for further storage and exchange with users, as well as the ability to obtain geolocation parameters and additional site parameters.

Geolocation settings may include a zip code, street, city, region, country, continent, domain name, proxy server, organization name, phone number, US DMA / MSA and NAICS codes, etc. Additional parameters may include the load of the node, the delay time of data transfer, the amount of data transferred, the amount of data that is on the node, the time the node was in the active status, technical characteristics of the node (type and number of CPU processors, amount of RAM, volume and type of disk space HDD / SSD), etc.

The determination of nodes, the selection of a preferred node with the requested data and the transfer of the requested data to the user can be carried out by a routing tool, which can be a set of DNS / GEO servers and / or routers, and / or workstations, on which special software can be installed that allows interaction with user and nodes. The routing tool may be able to determine geolocation parameters and additional parameters of nodes, as well as user geolocation parameters, for example, by the IP address of the user by using digital geolocation databases.

The determination of nodes with the requested data is carried out by searching the routing means for nodes containing the requested data. At the same time, the requested data can be located at one or more nodes located at different distances from the user. In the event that several nodes are found containing user-requested data, the routing tool selects the preferred node.

The choice of the preferred node is carried out taking into account the comparison of the geolocation parameters of the nodes with the requested data with the corresponding geolocation parameters of the user, which can be carried out by sequential comparison of the individual geolocation parameters with a given priority. The priority of geolocation parameters can be arranged as follows, for example, first a zip code can be compared, then a city, then a region, then a country, then a continent, etc. If a single node with the requested data is found that has a match between the compared geolocation parameter and the corresponding user geolocation parameter, the matching can be stopped, and the detected node can be selected as preferred. In the event that no nodes with the requested data are found that have a match between the compared geolocation parameter and the corresponding user geolocation parameter, the nodes are compared with the requested data for the next geolocation parameter according to the established priority. In the event that several nodes are found with the requested data that have a match between the compared geolocation parameter and the corresponding user geolocation parameter, a comparison of the detected nodes with each other by additional parameters can be performed.

Comparison of nodes with each other by additional parameters can also be carried out sequentially and with established priority. The priority of the additional parameters can be arranged as follows, for example, the load of nodes can be compared first, then the data transmission delay time, then the nodes can be compared by the amount of transmitted data, then by the amount of data located on the nodes, then by the technical characteristics of the nodes and t .d. If a single node is found with the best performance of the additional parameter being compared, the detected node can be selected as the preferred one. If several nodes with the same indices of the compared additional parameter are detected, the comparison continues with the next additional parameter. For the comparison of nodes, any analytical algorithms that ensure the distribution of nodes in order of priority can be applied.

In addition, before comparing the geolocation parameters, a comparison may be made between the communication operator of the nodes with the requested data and the user, and if a single node is found with the same communication operator as the user, it can be selected as the preferred one, and in case of detection several or no detection of such a node, they can be compared with the user by geolocation parameters.

Additionally, to increase the reliability and speed of data transfer, the routing tool can save the results of the comparison of the parameters of nodes and users. Due to this, in the event of a change in the parameters of the selected preferred node or its sudden shutdown, it is possible to quickly determine by the routing means the next preferred node.

Additionally, the step of selecting a preferred node or the step of determining nodes with the requested data may include a preliminary selection of nodes at the price of the route. The price of the route is formed taking into account the remuneration paid to the owners of the nodes for data transfer. Selection of nodes according to the route price implies that all further steps to select the preferred node will be carried out from nodes that meet the established criteria of the route price, which can significantly reduce the number of nodes with the requested data and speed up the process of finding the preferred node, thereby increasing reliability and transmission speed data and allowing you to control the cost of data transfer. In this case, the route price criteria can be a minimum or maximum specified value, or a specified interval or several intervals of values.

Receiving user data from a selected node can be achieved by connecting the user to a preferred node. The connection is made by means of the routing tool sending an IP address, link or any other information about the preferred node to the user.

The invention is characterized by previously unknown distinguishing features of the prior art:

The choice of the preferred site is carried out from the list of sites that have been pre-registered, which makes it possible to obtain accurate and relevant information about the parameters of the geolocation of sites and their technical characteristics. In addition, pre-registration allows you to monitor the connection status of nodes and the amount of data transferred, on the basis of which motivational events can be carried out for owners of nodes, thereby increasing the stability of all nodes involved in the routing process.

The choice of the preferred node is carried out taking into account the comparison of the geolocation parameters of the node with the parameters of the user's geolocation, which makes it possible to sequentially compare from the narrowest to the widest geolocation parameter, for example, from a zip code to a continent, which in turn allows instant choice of the preferred node in case of coincidence of narrow geolocation parameters, as well as the possibility of a significant reduction in the set of nodes that require additional analysis, with the broad geolocation parameters coinciding, which reduces the time spent on choosing the preferred site.

The set of distinctive essential features can improve the stability of all nodes involved in the routing process and reduce the time spent on choosing the preferred node, which ensures the achievement of a technical result consisting in increasing the reliability and speed of the data transfer process, thereby improving the quality of the routing and transmission method data.

The presence of distinctive essential features allows us to conclude that the claimed invention meets the patentability criterion of “novelty” and “inventive step”.

The invention can be implemented using known means and technologies, which indicates the compliance of the invention with the patentability criterion of "industrial applicability".

The invention is illustrated by the following scheme.

FIG. 1 - General algorithm for the method of routing and data transfer.

The method of routing and data transmission can be implemented as follows.

The user, through a browser, requests data representing a video file on a web resource. The request from the web resource is redirected to the routing tool. In the process of processing the request, the routing tool, using the user's IP address, determines that the user's communication operator is Megaphone, and the user's geolocation parameters are as follows: 121108, Moscow, Moscow Region, Russia, Eurasia. The data routing tool checks all active nodes and determines the 6 nodes on which the requested data is located. After selecting a preferred node, the data routing tool selects the preferred node from the found ones, comparing their telecom operator and geolocation parameters with user parameters. Moreover, depending on the results of the comparison, the routing tool can build various routes for data transmission. After determining the optimal route, the data routing tool sends the IP address of the preferred node to the user, and data transfer to the user begins. In this case, the list of ranked nodes with the requested data is saved for quick connection to the second preferred node in case of disconnection of the first. After the data is transferred to the personal account of the site owner, a fee is transferred in accordance with the amount of data transferred.

Below are examples of choosing the preferred node with the requested data depending on the parameters of the nodes.

Example 1. The routing tool compares the communication operator of the nodes with the requested data with the communication operator of the user and determines that node 3 and the user have a match for the communication operator, as a result of which node 3 is selected as the preferred one (Table 1).

Example 2. The routing tool compares the communications operator of the nodes with the requested data with the communications operator of the user and determines that the node 3 and the node 4 have matches with the user for the communications operator. The routing tool sequentially compares the zip code and city of nodes 3 and 4 with the corresponding user geolocation parameters and determines that they do not match the index and city of the user. Next, the routing tool compares the region of nodes 3 and 4 and determines that node 3 has matches with the user in the region, and, therefore, in the country and continent, as a result of which node 3 is selected as the preferred one (Table 2].

Example 3. The routing tool sequentially compares the service provider, zip code, city, region, country and continent of the nodes with the requested data with the corresponding user geolocation parameters and determines that no node has any matches with the user either in the carrier or in the geolocation parameters (Table 3).

Then the routing tool proceeds to compare all detected nodes with the requested data according to the data transmission delay time, which determines that only node 1 has zero workload, as a result of which it is selected as the preferred one.

Example 4. The routing tool compares the communication operator of the nodes with the requested data with the communication operator of the user and determines that none of the nodes matches the user with the communication operator. Then the routing tool sequentially compares the zip code, city and region of all the nodes and determines that none of them have matches with the user's index and city, but node 1 and node 2 have a match in the region, and, therefore, in the country, and by continent (Table 4).

Next, the routing tool to determine the preferred node proceeds to compare nodes 1 and 2 by congestion. The routing tool determines that the nodes 1 and 2 have the same load, and proceeds to compare the nodes 1 and 2 by the data transfer delay time and determines that the delay time of the nodes 1 and 2 is also the same. Then the routing tool proceeds to the comparison of nodes 1 and 2 according to the technical characteristics and determines that node 1 has higher technical characteristics than node 2, as a result of which node 1 is selected as preferred (Table 5).

Thus, the invention ensures the achievement of a technical result, which consists in increasing the reliability and speed of the data transfer process, improving the quality of the routing and data transfer method.

Claims (15)

1. A method for routing and transmitting data, including receiving a data request from a user, determining nodes with requested data, selecting a preferred node with requested data and transmitting requested data to a user from a preferred node, characterized in that the preferred node is selected from a list of previously passed nodes registration, taking into account the comparison of the geolocation parameters of the nodes with the requested data with the corresponding geolocation parameters of the user. 2. The method of routing and data transfer according to claim 1, characterized in that the comparison of the geolocation parameters of the nodes with the requested data with the corresponding geolocation parameters of the user is carried out by sequential comparison of the individual geolocation parameters with a given priority. 3. The method of routing and data transfer according to claim 2, characterized in that the geolocation parameters are compared in the following sequence: zip code, street, city, region, country, continent. 4. The method of routing and transmitting data according to claim 2, characterized in that if a single node is found with the requested data having a match of the compared geolocation parameter with the corresponding user geolocation parameter, the detected node is selected as preferred. 5. The method of routing and transmitting data according to claim 2, characterized in that if no nodes are found with the requested data matching the compared geolocation parameter with the corresponding user geolocation parameter, a comparison is performed according to the next geolocation parameter according to the established priority. 6. The method of routing and transmitting data according to claim 2, characterized in that if several nodes are found with the requested data having a match between the compared geolocation parameter and the corresponding user geolocation parameter, the detected nodes are compared with each other according to additional parameters. 7. The method of routing and data transfer according to claim 6, characterized in that the comparison of nodes with each other according to additional parameters is carried out sequentially and with the established priority. 8. The routing and data transfer method according to claim 7, characterized in that the nodes are compared with each other according to additional parameters in the following sequence: congestion, delay time, technical characteristics. 9. The routing and data transfer method according to claim 6, characterized in that when a single node with the best performance of the additional parameter being compared is detected, the detected node is selected as the preferred one. 10. The method of routing and transmitting data according to claim 6, characterized in that in case of detection of several nodes with the same parameters of the compared additional parameter, the comparison continues with the next additional parameter. 11. The method of routing and transmitting data according to claim 1, characterized in that before comparing the geolocation parameters, the communication operator of the nodes is compared with the requested data with the user's communication operator. 12. The method of routing and transmitting data according to claim 1, characterized in that the results of comparing the geolocation parameters of the nodes with the requested data with the corresponding geolocation parameters of the user are saved, and in the event of a disconnection of the preferred node, the transmission of the requested data is carried out from the next preferred node. 13. The method of routing and data transfer according to claim 1, characterized in that it further includes the stage of preliminary selection of nodes according to the established criteria for the price of the route. 14. The method of routing and transmitting data according to claim 13, characterized in that the preliminary selection of nodes by the price of the route is carried out at the stage of determining nodes with the requested data or at the beginning of the stage of selecting the preferred node. 15. The method of routing and transmitting data according to claim 13, characterized in that the criteria for the price of the route are represented by a minimum or maximum specified value, or a specified interval or several intervals of values.

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