• SPACE DIVERSITY – ESSENTIAL FACTOR FOR THE SECURITY OF 5-th GENERATION COMMUNICATIONS

    Security & Future, Vol. 2 (2018), Issue 2, pg(s) 72-75

    5-th generation mobile networks aim higher capacity than current 4G, allowing higher number of mobile broadband users per area unit, and allowing consumption of higher or unlimited data quantities in gigabyte per month and user. 5G research and development is extremely important for the security of the human society. 5 G will have applications not only in the army and the police, but in the public transport, video monitoring, Internet of Things (IoT) etc. aiming at lower cost, lower battery consumption and lower latency at GHz frequency bands (millimeter waves). The use of directional antennas and space diversity at these extremely high frequency bands will improve the secure work of such systems. SCP-RPSC (Spatial Correlation Processing – Random Phase Spread Coding) is an entirely new approach in the field of microwave antenna theory, developed by the author one decade before. Its applications in the future terrestrial, High Altitude Platform Systems and satellite 5 G communications is considered in the report. Block schemes and advantages of the proposals are given too.

  • DOMINANT TECHNOLOGIES IN “INDUSTRY 4.0”

    SCP-RPSC COHERENT TRANSPONDING SYSTEMS FOR IoT COMMUNICATIONS

    Industry 4.0, Vol. 2 (2017), Issue 1, pg(s) 25-28

    5th generation mobile networks, abbreviated 5G, are the proposed next telecommunications standards. 5G research and development also aims at improved support of machine to machine communication, also known as the Internet of Things, at millimeter waves. The move to these extremely high frequency bands, as well as the new requirements to the 5G network parameters, need new approach for the future technical systems solutions. One of those is the use of microwave coherent transponding system. Spatial Correlation Processing – Random Phase Spread Coding is a new technology in the field of microwave beam forming antenna theory, developed by the author one decade before. Its application in millimeter wave coherent transponding systems is proposed in this report. The system advantages are considered in details too.