Robust Secrecy Energy Efficient Beamforming in Satellite Communication Systems

2019 ◽  
Author(s):  
Zhi Lin ◽  
Chunyan Yin ◽  
Jian Ouyang ◽  
Xiaohuan Wu ◽  
Athanasios D. Panagopoulos
Keyword(s):  
Energy Efficient ◽  
Communication Systems ◽  
Satellite Communication

TRANSMISSION OF SHORT MESSAGES IN SATELLITE COMMUNICATION SYSTEMS WITH PERMUTATION MODULATION AND REED-SOLOMON CODES

2021 ◽  
Author(s):  
М.А. БЫХОВСКИЙ
Keyword(s):  
Turbo Codes ◽  
Energy Efficient ◽  
Communication Systems ◽  
Communication Channel ◽  
Satellite Communication ◽  
Short Message ◽  
Rs Codes ◽  
Efficient Communication ◽  
Modulation Methods ◽  
Short Messages

В статье выполнено исследование возможности создания энергетически эффективных систем связи, предназначенных для передачи коротких сообщений длиной 50...1000 бит по каналу связи, в которых применяются ансамбли сигналов с перестановочной модуляцией, а также коды Рида-Соломона. Полученные результаты показали, что рассмотренные системы связи при вероятности ошибки декодирования принятого сообщения, равной Pdec=10-6 , имеют существенный энергетический выигрыш (примерно 2,6 дБ) по сравнению с системами, в которых используются сигналы с модуляцией 2-PSK, коды с малой плотностью проверок на четность (LDPC), турбокоды и др. Кроме того, показано, что системы связи, в которых для передачи коротких сообщений применяются ансамбли сигналов, оптимальных по Шеннону, энергетически эффективнее по сравнению с системами, в которых для этого используются традиционные методы модуляции и помехоустойчивые коды. Применение оптимальных по Шеннону ансамблей позволяет существенно сократить длительность сигналов при передаче такого же количества бит, которое может быть передано по каналу связи традиционными методами. The article investigates the possibility of creating energy-efficient communication systems designed to transmit short messages 50...1000 bits long via a communication channel in which signal ensembles with permutation modulation (PM) are used, as well as Reed-Solomon (RS) codes. The results obtained showed that the considered communication systems with a probability of decoding error of the received message equal to Pdec=10-6 have a significant energy gain (approximately 2.6 dB), in comparison with systems that use signals with 2-PSK and LDPC codes, turbo codes, etc. It is shown that communication systems using Shannon-optimal signal ensembles for short message transmission are more energy efficient than systems using traditional modulation methods and noise-resistant codes. The use of Shannon-optimal ensembles can significantly reduce the duration of signals when transmitting the same number of bits that can be transmitted over the communication channel by traditional methods.

INNOVATIVE METHOD OF SATELLITE COMMUNICATION

2019 ◽  
Author(s):  
Teodor Narytnik ◽  
Vladimir Saiko
Keyword(s):  
Communication Systems ◽  
High Speed ◽  
Satellite Communication ◽  
Radio Channel ◽  
Satellite Communications ◽  
Service Area ◽  
Satellite Systems ◽  
Orbit Satellite ◽  
Geometric Size ◽  
Distributed Satellite

The technical aspects of the main promising projects in the segments of medium and low-orbit satellite communication systems are considered, as well as the project of the domestic low-orbit information and telecommunications system using the terahertz range, which is based on the use of satellite platforms of the micro- and nanosatellite class and the distribution of functional blocks of complex satellite payloads more high-end on multiple functionally related satellites. The proposed system of low-orbit satellite communications represents the groupings of low-orbit spacecraft (LEO-system) with the architecture of a "distributed satellite", which include the groupings of the root (leading) satellites and satellite repeaters (slaves). Root satellites are interconnected in a ring network by high-speed links between the satellites. The geometric size of the “distributed satellite” is the area around the root satellite with a radius of about 1 km. The combination of beams, which are formed by the repeater satellites, make up the service area of the LEO system. The requirements for the integrated service area of the LEO system (geographical service area) determine the requirements for the number of distributed satellites in the system as a whole. In the proposed system to reduce mutual interference between the grouping of the root (leading) satellites and repeater satellites (slaves) and, accordingly, minimizing distortions of the information signal when implementing inter-satellite communication, this line (radio channel) was created in an unlicensed frequency (e.g., in the terahertz 140 GHz) range. In addition, it additionally allows you to minimize the size of the antennas of such a broadband channel and simplify the operation of these satellite systems.

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