Orthogonality in multibeam antennas is revisited. The difference between orthogonal beamforming and zero-forced beamforming is highlighted. The intriguing relation between orthogonality, reciprocity and losses is recapitulated. Different approaches on the design of orthogonal beamforming networks and implementation of zero-forced beamforming strategies are shown with various examples from the antenna-research-oriented literature. The use of orthogonal and zero-forced beamforming is discussed from the communication system perspective with relevant studies from diverse disciplines. Some of the future research challenges and potential benefits are outlined for the next generation satellite and cellular communication applications
The multiple-access interference (MAI) is one of the major factors threatening the performance of mu...
ii Beamforming entails joint processing of multiple signals received or transmitted by an array of a...
Cellular communications exploiting the mmWaves frequency range are com- ing within our technological...
Orthogonality in multibeam antennas is revisited. The difference between orthogonal beamforming and ...
Zero-forcing beamforming is a method of spatial signal processing via which multiple antennascan nul...
The use of multi-antenna transmitters is emerging as an essential technology of the future wireless ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Reconfigurability, efficiency, and power consumption are key areas for improvement in future communi...
Non-orthogonal transmission is a promising technology enabler to meet the requirements of 5G communi...
Transmit beamforming is a versatile technique for signal transmission from an array of N antennas to...
This study considers successive orthogonal beamforming (SOBF) for multicell downlink transmissions. ...
Abstract—Recent work on wireless beamforming has focused on multi-user diversity effects, where term...
Transmit beam forming with receive combining may be a simple technique for exploiting the numerous...
Zero-forcing beamforming under per-antenna power constraints is considered for rural applications. B...
peer reviewedTransmit beamforming is a versatile technique for signal transmission from an array of ...
The multiple-access interference (MAI) is one of the major factors threatening the performance of mu...
ii Beamforming entails joint processing of multiple signals received or transmitted by an array of a...
Cellular communications exploiting the mmWaves frequency range are com- ing within our technological...
Orthogonality in multibeam antennas is revisited. The difference between orthogonal beamforming and ...
Zero-forcing beamforming is a method of spatial signal processing via which multiple antennascan nul...
The use of multi-antenna transmitters is emerging as an essential technology of the future wireless ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Reconfigurability, efficiency, and power consumption are key areas for improvement in future communi...
Non-orthogonal transmission is a promising technology enabler to meet the requirements of 5G communi...
Transmit beamforming is a versatile technique for signal transmission from an array of N antennas to...
This study considers successive orthogonal beamforming (SOBF) for multicell downlink transmissions. ...
Abstract—Recent work on wireless beamforming has focused on multi-user diversity effects, where term...
Transmit beam forming with receive combining may be a simple technique for exploiting the numerous...
Zero-forcing beamforming under per-antenna power constraints is considered for rural applications. B...
peer reviewedTransmit beamforming is a versatile technique for signal transmission from an array of ...
The multiple-access interference (MAI) is one of the major factors threatening the performance of mu...
ii Beamforming entails joint processing of multiple signals received or transmitted by an array of a...
Cellular communications exploiting the mmWaves frequency range are com- ing within our technological...