Show metadata Hide metadata

(19)

(11)

2 618 191

(13)

(51)

IPC

H04L12/00(2006-01-01)

(21) (22)

Application

2016115970, 2016-04-22

(24)

Start date

2016-04-22

(22)

Actual filing date

2016-04-22

(45)

Published

2017-05-02

(72)

Inventor

Mironov Aleksandr EgorovichKorolev Aleksandr VasilevichSuchkov Aleksandr MikhajlovichPereverzev Aleksej NikolaevichRybolovlev Dmitrij AleksandrovichKornilov Sergej Alekseevich

(73)

Holder

Federalnoe Gosudarstvennoe Kazennoe Voennoe Obrazovatelnoe Uchrezhdenie Vysshego Obrazovaniya Federalnoj Sluzhby Okhrany Rossijskoj Federatsii" Fso Rossii)

SYSTEM OF TRAFFIC TRANSMITTING IN MULTISERVICE COMMUNICATIONAL NETWORKS Russian patent published in 2017 - IPC H04L12/00

Abstract RU 2618191 C1

FIELD: radio engineering, communication.

SUBSTANCE: traffic system in multiservice communication networks used to connect multiple user terminals to a single transmission channel, estimates the required minimum amount of channel resource and connects the required minimum number of digital subscriber lines to meet the requirements on quality of service of calls based on information about the services and options information flows, as well as on emerging channel resource failures.

EFFECT: more efficient use of the channel resource.

4 dwg

Similar patents RU2618191C1

Title	Year	Author	Number
DISTRIBUTED MULTI-SERVICE TELECOMMUNICATION SYSTEM	2005	Volkov Jurij Anatol'Evich	RU2311739C2
PORTABLE STATION OF SATELLITE COMMUNICATION	2007	Balitskij Vadim Stepanovich Kavernyj Aleksandr Vladimirovich Krivenkov Mikhail Viktorovich Pjatnitsin Aleksandr Ivanovich Vergelis Nikolaj Ivanovich Bondarik Vladimir Nikolaevich Kharitonov Aleksandr Nikolaevich	RU2342787C1
METHOD (VERSIONS) OF MONITORING AND PROVIDING REQUIRED SUBSCRIBER QUALITY OF SERVICE IN MULTI-SERVICE NETWORKS	2012	Gorelik Sergej Petrovich Mironov Aleksandr Egorovich Grechishnikov Evgenij Vladimirovich Belov Andrej Sergeevich Pereverzev Aleksej Nikolaevich Semenov Sergej Sergeevich	RU2517327C1
METHOD OF THE MULTI-SERVICE NETWORK SEGMENT OPERATIONAL-TECHNICAL CONTROL UNDER THE CRISIS SITUATIONS CONDITIONS	2017	Mironov Aleksandr Egorovich Khakhamov Pavel Yurevich Pereverzev Aleksej Nikolaevich Zrilov Oleg Yurevich Evteshin Sergej Nikolaevich Korotkij Vladimir Sergeevich	RU2662637C1
METHOD FOR DYNAMIC BACKUP AND DISTRIBUTION OF CHANNEL THROUGHPUT IN SATELLITE NETWORK AND DEVICE THEREFOR	2015	Ilyukhin Aleksandr Aleksandrovich Zajtsev Dmitrij Yurevich	RU2614983C1
MOBILE COMMUNICATION NODE	2016	Tikhonov Aleksej Viktorovich Abdrakhmanov Eduard Rafailevich Kasibin Sergej Vladimirovich Sivov Aleksandr Yurevich Mironov Vadim Mikhajlovich Kochetkov Vyacheslav Anatolevich Alymov Nikolaj Leonidovich Katygin Boris Georgievich Shirko Aleksandr Ivanovich	RU2623893C1
HARDWARE AND SOFTWARE SYSTEM FOR SIMULATING TELECOMMUNICATION TECHNOLOGIES	2020	Katanovich Andrej Andreevich Kashin Aleksandr Leonidovich Zinchenko Dmitrij Vladimirovich Tsyvanyuk Vyacheslav Aleksandrovich Bavykina Ekaterina Lvovna Aleksandrov Vadim Anatolevich Stakheev Ivan Gennadevich	RU2736096C1
MOBILE MULTI-SERVICE TELECOMMUNICATION COMPLEX	2022	Vergelis Nikolaj Ivanovich Karpukhin Sergej Nikolaevich Meshchanin Vladimir Yurevich Dashkova Svetlana Vyacheslavovna Ivanin Andrej Nikolaevich Kolesnikova Tamara Vasilevna Rumyantsev Igor Olegovich	RU2800724C1
MOBILE UNIT FOR MOBILE COMMUNICATIONS	2005	Azarov Gennadij Ivanovich Skobel'Tsyn Valerij Alekseevich Krivenkov Mikhail Viktorovich Lipatov Aleksandr Anatol'Evich Rapoport Vladimir Marksovich Vergelis Nikolaj Ivanovich	RU2293442C1
MULTIFUNCTIONAL AUTOMATIC TELEPHONE STATION	2021	Vergelis Nikolaj Ivanovich Gladkikh Aleksej Anatolevich Meshchanin Vladimir Yurevich Dashkova Svetlana Vyacheslavovna Kolesnikova Tamara Vasilevna Ivanin Andrej Nikolaevich	RU2752010C1

RU 2 618 191 C1

Authors

Mironov Aleksandr Egorovich

Korolev Aleksandr Vasilevich

Suchkov Aleksandr Mikhajlovich

Pereverzev Aleksej Nikolaevich

Rybolovlev Dmitrij Aleksandrovich

Kornilov Sergej Alekseevich

Dates

2017-05-02—Published

2016-04-22—Filed