rus
Executive Opinion
V.E.Shub
Photonics technologies will be at the core of 6G technological solutions DOI: 10.22184/2070-8963.2026.136.4.10.15
Photonics technologies will be at the core of 6G technological solutions DOI: 10.22184/2070-8963.2026.136.4.10.15
News
Exhibitions and Conferences
S.A.Popov
CIPR-2026 and telecom as the foundation of technological leadership DOI: 10.22184/2070-8963.2026.136.4.18.32
CIPR-2026 and telecom as the foundation of technological leadership DOI: 10.22184/2070-8963.2026.136.4.18.32
Wireless Communication
V.O.Tikhvinsky, E.E.Devyatkin, M.V.Tikhvinskaya, A.A.Savochkin
Characteristics of the design and architecture of 5G NPN private networks DOI: 10.22184/2070-8963.2026.136.4.34.40
The paper examines the design features of 5G private network (Non-public network, NPN) architectures that overlap with the coverage of a public 5G mobile network operator, based on a Standalone NPN network with an autonomous architecture, as well as a PNI-NPN (Public Network Integrated NPN) with an integrated architecture, which is built as a combined (shared) network with domains of the public 5G operator network architecture.
Characteristics of the design and architecture of 5G NPN private networks DOI: 10.22184/2070-8963.2026.136.4.34.40
The paper examines the design features of 5G private network (Non-public network, NPN) architectures that overlap with the coverage of a public 5G mobile network operator, based on a Standalone NPN network with an autonomous architecture, as well as a PNI-NPN (Public Network Integrated NPN) with an integrated architecture, which is built as a combined (shared) network with domains of the public 5G operator network architecture.
Tags: 5g networks 5g ran npn plmn pni-npn private mobile networks snpn сети 5g частные сети мобильной связи
N.A.Nakhodkin
Providing communications on the Verkhnevilyuysk–Tuobuya winter road using shortwave radios DOI: 10.22184/2070-8963.2026.136.4.42.45
Providing communications on the Verkhnevilyuysk–Tuobuya winter road using shortwave radios
The paper describes organizing of emergency communications in remote areas using Russian portable shortwave radios. It presents the results of field trials conducted on one of the winter roads in the Republic of Sakha (Yakutia).
Providing communications on the Verkhnevilyuysk–Tuobuya winter road using shortwave radios DOI: 10.22184/2070-8963.2026.136.4.42.45
Providing communications on the Verkhnevilyuysk–Tuobuya winter road using shortwave radios
The paper describes organizing of emergency communications in remote areas using Russian portable shortwave radios. It presents the results of field trials conducted on one of the winter roads in the Republic of Sakha (Yakutia).
Tags: fixed shortwave radios portable shortwave radios shortwave communication коротковолновая связь радиостанции коротковолновые носимые радиостанции коротковолновые стационарные
Quantum Telecommunications
A.K.Nanidzhanyan, E.A.Tatti, E.M.Strochkova, N.I.Likhachev
Architecture of functional nodes for end-to-end encryption in an optical channel based on QKD systems DOI: 10.22184/2070-8963.2026.136.4.76.79
The architecture of functional nodes of quantum key distribution (QKD) systems for implementing end-to-end encryption in optical communication channels is considered. The theoretical foundations of QKD protocols are presented. The multi-level architecture of QKD systems is analyzed. The principle of their interaction with classical cryptographic algorithms to ensure end-to-end data encryption is described.
Architecture of functional nodes for end-to-end encryption in an optical channel based on QKD systems DOI: 10.22184/2070-8963.2026.136.4.76.79
The architecture of functional nodes of quantum key distribution (QKD) systems for implementing end-to-end encryption in optical communication channels is considered. The theoretical foundations of QKD protocols are presented. The multi-level architecture of QKD systems is analyzed. The principle of their interaction with classical cryptographic algorithms to ensure end-to-end data encryption is described.
Tags: end-to-end encryption optical communication channels quantum key distribution quantum networks квантовое распределение ключей квантовые сети оптические каналы связи сквозное шифрование
Cables and passive equipment
I.N.Pechenitsyn
Evolution of climate control in thermal cabinets: from thermostats to smart infrastructure DOI: 10.22184/2070-8963.2026.136.4.64.66
This paper presents a smart solution for an all-weather thermal cabinet with controllers, developed at the PIK Scientific and Technical Centre as part of the "Thermal Cabinet 2.0" concept.
Evolution of climate control in thermal cabinets: from thermostats to smart infrastructure DOI: 10.22184/2070-8963.2026.136.4.64.66
This paper presents a smart solution for an all-weather thermal cabinet with controllers, developed at the PIK Scientific and Technical Centre as part of the "Thermal Cabinet 2.0" concept.
Tags: climate control in cabinets telecommunications cabinets thermal cabinets thermal controllers контроль климата в шкафах термоконтроллеры термошкафы шкафы телекоммуникационные
Regulations
A.I.Moiseev
The various types of LI are more than just an evolution DOI: 10.22184/2070-8963.2026.136.4.46.48
This paper examines the various types of lawful interception (LI). It notes that these systems operate in parallel. Brief information is provided on the LI software package developed by Special Technologies Ltd.
The various types of LI are more than just an evolution DOI: 10.22184/2070-8963.2026.136.4.46.48
This paper examines the various types of lawful interception (LI). It notes that these systems operate in parallel. Brief information is provided on the LI software package developed by Special Technologies Ltd.
Tags: lawful interception selecting the type of lawful interception special technologies ltd выбор вида сорм компания "специальные технологии" сорм
Telecommunication Business
A.V.Golyshko
Towards a golden age of innovation DOI: 10.22184/2070-8963.2026.136.4.68.74
Nothing in technological progress or scientific discovery is a foregone conclusion. They require additional effort, energy, funding and effective utilisation. But first and foremost, they require an uninhibited scientific and engineering mindset that paves the way to the new, overcoming established dogmas and a growing number of barriers. As the expert community notes, unlike in the last century, the volume of implemented innovations has decreased in the present day, and there are both objective and subjective reasons for the observed stagnation. Something must be done about all this, because only innovation in various fields creates the future.
Towards a golden age of innovation DOI: 10.22184/2070-8963.2026.136.4.68.74
Nothing in technological progress or scientific discovery is a foregone conclusion. They require additional effort, energy, funding and effective utilisation. But first and foremost, they require an uninhibited scientific and engineering mindset that paves the way to the new, overcoming established dogmas and a growing number of barriers. As the expert community notes, unlike in the last century, the volume of implemented innovations has decreased in the present day, and there are both objective and subjective reasons for the observed stagnation. Something must be done about all this, because only innovation in various fields creates the future.
Tags: engineering education implementation of innovation innovation внедрение инноваций. инженерное образование инновации
Wired Communication
S.S.Kogan
High-capacity integrated packet-optical transport networks. Part 1. Dynamic routing of packet-oriented connections over FOTS channels DOI: 10.22184/2070-8963.2026.136.4.50.58
This series of papers examines integrated packet-optical solutions such as IPoDWDM/ IPoOLS/P-OTS (Packet-Optical Transport System) for data transmission over optical channels of OTN/DWDM systems with capacities ranging from 100 to 800 Gbit/s and above, as well as the management of an open network built using equipment from different manufacturers. The first part deals with the dynamic routing of packet-oriented connections over channels (wavelengths) of fiber optic transmission systems (FOTS), the second with the functional purpose of the network layers of an integrated packet-optical transport infrastructure, and the third with implementation options. The fourth part of the series is devoted to the standardisation and evolution of solutions for high-capacity integrated packet-optical transport networks.
High-capacity integrated packet-optical transport networks. Part 1. Dynamic routing of packet-oriented connections over FOTS channels DOI: 10.22184/2070-8963.2026.136.4.50.58
This series of papers examines integrated packet-optical solutions such as IPoDWDM/ IPoOLS/P-OTS (Packet-Optical Transport System) for data transmission over optical channels of OTN/DWDM systems with capacities ranging from 100 to 800 Gbit/s and above, as well as the management of an open network built using equipment from different manufacturers. The first part deals with the dynamic routing of packet-oriented connections over channels (wavelengths) of fiber optic transmission systems (FOTS), the second with the functional purpose of the network layers of an integrated packet-optical transport infrastructure, and the third with implementation options. The fourth part of the series is devoted to the standardisation and evolution of solutions for high-capacity integrated packet-optical transport networks.
Tags: data transmission dwdm technology ip flow routing ipodwdm ipools/p-ots ip-маршрутизация потоков optical transport network packet-switched connections signal delay задержка сигнала оптическая транспортная сеть пакетно-ориентированные соединения передача данных технология dwdm
Security
S.A.Popov
Securika Moscow 2026 through the eyes of a communications specialist DOI: 10.22184/2070-8963.2026.136.4.60.63
From 22 to 24 April 2026, the 31st International Exhibition of Security Technology and Equipment for Safety and Fire Protection, Securika Moscow, took place at the Crocus Expo International Exhibition Centre near Moscow. This brief report presents some of the solutions showcased at the exhibition in the field of installation structures and telecommunications cables, both fiber-optic and copper.
Securika Moscow 2026 through the eyes of a communications specialist DOI: 10.22184/2070-8963.2026.136.4.60.63
From 22 to 24 April 2026, the 31st International Exhibition of Security Technology and Equipment for Safety and Fire Protection, Securika Moscow, took place at the Crocus Expo International Exhibition Centre near Moscow. This brief report presents some of the solutions showcased at the exhibition in the field of installation structures and telecommunications cables, both fiber-optic and copper.