WO2022231553A1

WO2022231553A1 - Network management system which accelerates the tcp traffic at the level of transport layer

Info

Publication number: WO2022231553A1
Application number: PCT/TR2022/050374
Authority: WO
Inventors: Tayfun OZGUDER; Ali Serim AKURGAL; Sedat GONUL
Original assignee: Tayf Ileri Teknoloji Hizmetleri Anonim Sirketi
Priority date: 2021-04-30
Filing date: 2022-04-26
Publication date: 2022-11-03

Abstract

The present invention relates to a system (1) which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated.

Description

NETWORK MANAGEMENT SYSTEM WHICH ACCELERATES THE TCP TRAFFIC AT THE LEVEL OF TRANSPORT LAYER

Technical Field

The present invention relates to a system which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated.

Background of the Invention

Today, the demand for bandwidth speed is increasingly growing based on the demand for internet connection. In proportion to the increasing demand for connection, increasing demands for bandwidth and speed cannot be provided with the bandwidth capacities of the existing wide area wired and wireless internet networks. Increasingly-emerging capacity and speed problems lead to jam and congestion occurrences in wide area wired and wireless heterogeneous networks which are the infrastructure of the internet communication. Distortion, delay and packet loses occur in the TCP packets transferred from the sending devices to the internet networks wherein jam and congestion conditions occurred and due to these occurrences distorting the TCP traffic, the processor performance and efficiency of output speed of the sending devices are distorted.

A bandwidth that can be used by the sending communication devices at the third layer is determined as a result of balanced and fair sharing of the bandwidth that is used by the sending and receiving devices using the third layer network infrastructure according to OSI model, and instant sharing of the maximum bandwidth provided by the network infrastructure to the sending computer connections using the bandwidth, in order to control the output speeds of the TCP packets. However, for adequate and fair sharing of the physical bandwidth provided at the OSI third layer, the network infrastructure providing the bandwidth should be increased exponentially. Due to the fact that it is not possible to exponentially increase the network infrastructure in any country today, usage regulations implemented at the network layer cannot solve the connection speed problems experienced by subscribers.

Considering the defects of the bandwidth usage regulations implemented at the network layer in the current technique; in the state of art, there is a need for a system which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated.

The United States patent document numbered US8903955, an application in the state of the art, discloses a system for enabling to carry out transactions of intelligent video data delivery and cache management. In the system of the said invention, transactions of intelligent video data delivery and cache management are carried out for enabling to reduce the size of the video data and to deliver streaming video data in the video flow monitoring transaction by caching.

Summary of the Invention The objective of the present invention is to realize a system which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated.

Detailed Description of the Invention

“Network Management System Which Accelerates the TCP Traffic at the Level of Transport Layer”, which is realized to achieve the objective of this invention, is illustrated in the accompanying figure, in which:

Figure l is a schematic block diagram of the system of the invention.

The parts in the figure are each given reference numbers as follows.

1. System

2. Software components security manager module

3. User management and license control system module

4. Network traffic capturing and filtering manager module

5. System functions configuration management module

6. TCP re-routing and traffic manager module

7. TCP acceleration engine module

The inventive system (1) which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated comprises:

- a software components safety manager module (2) which is configured to protect the software components of the modules against copying and modifying transactions;

- an user management and license control module (3) which is configured to store the user license and carry out the user license transactions;

- a network traffic capturing and filtering manager module (4) which is configured to receive and filter the TCP network traffic of the sending computer;

- a system functions configuration management module (5) which is configured to store the configuration files enabling the network traffic capturing and filtering manager module (4) to manage the TCP packet traffic, and to enable the configuration files to be organized;

- a TCP rerouting and traffic manager module (6) which is configured to receive the filtered TCP packets from the network traffic capturing and filtering manager module (4) and route them to the receiving devices over a new TCP connection; and

- a TCP acceleration engine module (7) which is configured to optimize the bandwidth whereby the rerouted TCP packet data are delivered to the receivers.

The software components safety manager module (2) included in the inventive system (1) is configured to protect the software components of the modules against the copying and modifying transactions. In a preferred embodiment of the invention, the software components safety manager module (2) is configured to encrypt the software components of all modules by using public-private key pairs, that are generated by the random number generator and the internal encryption key generator and then saved in the permanent memory, while the software components are loaded to the modules by the personnel providing the manager key that is verified by the identity verification key manager. In a preferred embodiment of the invention, the software components safety manager module (2) ensures that passwords of the software components encrypted during the operation of the modules are decrypted by the clipping engine and then used over the temporary memory.

The user management and license control module (3) included in the inventive system (1) is configured to store the user license and execute the user license transactions. In a preferred embodiment of the invention, the user management and license control module (3) is configured to enable the user to access his/her user account with the user identity and password by connecting to a remote server and to use an account management interface enabling to carry out transactions of user license purchase, renewal and update. In a preferred embodiment of the invention, the user management and license control module (3) is configured to receive and save the user license that is stored on the user account stored in the remote server. In a preferred embodiment of the invention, the user management and license control module (3) is configured to compare the saved user license with the licenses saved in the remote server and to check the license validity.

The network traffic capturing and filtering manager module (4) included in the inventive system (1) is configured to receive and filter the TCP network traffic of the sending computer. In a preferred embodiment of the invention, the network traffic capturing and filtering manager module (4) is configured to filter the TCP packets that are required to be accelerated based on the configuration selected from the configuration files saved in the system functions configuration management module (5) and then to deliver them to the receiving devices by providing sub-network transition of the TCP packets -that are not required to be accelerated- between pairs of LAN Ethernet port included in different sub networks or by transmitting them directly to the wide area network routing device between the pairs of LAN Ethernet port connected to the same sub-network. The system functions configuration management module (5) included in the inventive system (1) is configured to store the configuration files enabling the network traffic capturing and filtering manager module (4) to manage the TCP packet traffic, and to enable the configuration files to be organized. In a preferred embodiment of the invention, the system functions configuration management module (5) is configured to enable the user to determine -over the configuration interface provided to the user- the list of IP address and the sub-network mask determining the TCP packet traffic to be accelerated by the network traffic capturing and filtering manager module (4) for each of the LAN Ethernet port pairs, and the mode of accelerating the TCP packets coming from the IP address and the sub-network mask registered in the list of the network traffic capturing and filtering manager module (4) by means of filtering or the mode of accelerating all the traffic, and common or different IP addresses and gateway masks that LAN Ethernet port pairs will receive depending on the requirement whether the sending devices and the wide area network router device whereto they are connected should operate in the same or different sub-networks; to save the configuration settings as a configuration file; to delete the saved configuration file; to restore the configuration settings to factory settings; and to restore the selected configuration file. In a preferred embodiment of the invention, the system functions management module (5) is configured to enable the user to switch the TCP acceleration function on or off over the configuration interface. In a preferred embodiment of the invention, the system functions management module (5) is configured to enable the user to set the date and time settings, to display the device serial number, to reboot the modules, to display the module status reports and configuration data used, to display the traffic data and performance analysis of the modules collectively or individually for all LAN Ethernet port pairs operating in the selected time slot and to report them as a report file, over the configuration interface. The TCP rerouting and traffic manager module (6) included in the inventive system (1) is configured to receive the filtered TCP packets from the network traffic capturing and filtering manager module (4) and route them to the receiving devices over a new TCP connection. In a preferred embodiment of the invention, the TCP rerouting and traffic manager module (6) is configured to capture the TCP packets received from the network traffic capturing and filtering manager module (4) in the event queue, to handle the captured packets for sending them to the receiving computers as event-based, and to deliver the TCP packets to the LAN Ethernet port wherein the packet output is performed.

The TCP acceleration engine module (7) included in the inventive system (1) is configured to optimize the bandwidth whereby the rerouted TCP packet data are delivered to the receivers. In a preferred embodiment of the invention, the TCP acceleration engine module (7) is configured to compile the parameters of delay, packet loss and average full tour time, to minimize or maximize the anti congestion window according to the congestion criterion calculated by processing the values of the compiled parameters.

In a preferred embodiment of the invention, the TCP acceleration engine module (7) included in the system (1) is configured to improve the bandwidth performance and to accelerate the TCP traffic of individual and/or corporate users such as computer gamers, professional electronic sportsperson, professional content publishers and small and medium sized enterprises who have sending communication devices with high-performance that require constant high bandwidth; of individual and/or corporate users such as household, guests and small and medium sized enterprises who have sending communication devices that require instant high bandwidth increase; and of individual users who use wired and/or wireless low bandwidth internet connection independently of the location and sending communication device wherein users have an internet access through VDSL and/or ADSL connected to a fixed wired network, or Wi-Fi systems.

Industrial applicability of the invention

The inventive system (1) enables to compile and terminate the TCP packets at the level of transport layer of OSI model independently of the operating system of the sending communication device; to filter the TCP packets of the connections which are desired to be accelerated, according to the IP address and the network sub mask of the sending device by opening a new TCP connection with the receiving communication devices; and to accelerate the TCP packet traffic adaptively and with increased flexibility and quality according to regulations implemented at the network layer of OSI model, upon the transfer of the filtered TCP packets is realized by using the largest anti-congestion window under network congestion free conditions. The inventive system (1) increases the speed of TCP packet traffic with a higher performance compared to the systems and methods included in the state of art, independently of the operating system of the sending communication device, against the congestion occurrences such as delay, packet loss and distortion of packet indexes in OSI fourth layer traffic; ensures that Ethernet output speed of the sending communication devices are used at the highest performance supported by the operating system and that the CPU efficiency is increased; ensures that TCP packet traffic is dynamically managed according to bandwidth bottleneck occurrences and that the bandwidth assigned to the sending communication devices is used at the highest level, and prevents packet loss occurrences that emerge due to the bandwidth bottleneck occurrences in wide area wired and wireless networks.

It is possible to develop a wide variety of applications of “Network Management System Which Accelerates the TCP Traffic At the Level of the Transport Layer (1)” according to the invention with regard to these basic concepts, the invention cannot be limited to the examples described here and the invention is essentially as set forth in the claims.

Claims

1. A system (1) which enables to compile TCP packets independently of the operating systems of the sending communication devices wherein it is desired to accelerate the TCP traffic at the level of transport layer of the OSI model; to filter the TCP packets of the connections desired to be accelerated; and to route the filtered TCP packets to the wide area wired or wireless network devices, upon they are accelerated; comprising

- a TCP acceleration engine module (7) which is configured to optimize the bandwidth whereby the rerouted TCP packet data are delivered to the receivers; characterized by - a TCP acceleration engine module (7) which is configured to improve the bandwidth performance and to accelerate the TCP traffic of the users having an internet access through VDSL and/or ADSL modems connected to a fixed wired network, or Wi-Fi systems.

2. A system (1) according to Claim 1; characterized by a TCP acceleration engine module (7) which is configured to improve the bandwidth performance and to accelerate the TCP traffic of individual and/or corporate users such as computer gamers, professional electronic sportsperson, professional content publishers and small and medium sized enterprises who have sending communication devices with high- performance that require constant high bandwidth.

3. A system (1) according to Claim 1; characterized by a TCP acceleration engine module (7) which is configured to improve the bandwidth performance and accelerate the TCP traffic of individual and/or corporate users such as household, guests and small and medium sized enterprises who have sending communication devices that require instant high bandwidth increase.

4. A system (1) according to Claim 1; characterized by a TCP acceleration engine module (7) which is configured to improve the bandwidth performance and accelerate the TCP traffic of individual users who use wired and/or wireless low bandwidth internet connection independently of the location and the sending communication device.