Add to ORKGThis letter proposes a simple but highly efficient technique to jointly utilize space, time, and polarization diversities. The technique is based on extending orthogonal space-time block codes into the quaternion domain and utilizing a description of the dual-polarized signal by means of quaternions, which are a generalization of complex numbers. In the given example, the achievable performance gain for two transmit and one receive antennas is approximately 6 dB at a bit error rate of 10-4 when compared with the Alamouti code
The designing potential of using quaternionic numbers to identify a 4 × 4 real orthogonal space-time...
Based on orthogonal designs, space-time (ST) block codes that enable full diversity as well as a sim...
We present a space-time block code from complex orthogonal designs for 5 transmit antennas, which ca...
This letter proposes a simple but highly efficient technique to jointly utilize space, time, and pol...
This letter proposes a simple but highly efficient technique to jointly utilize space, time, and pol...
Over the past several years, there has been a renewed interest in complex orthogonal designs for the...
The use of quaternion orthogonal designs (QODs) to describe point-to-point communication among dual-...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. Quaternion orthogonal designs (QODs) have ...
As the demand for high wireless data rates in indoor environments grows, we must find new ways to in...
In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion ...
Quaternion orthogonal designs (QODs) have been previously introduced as a basis for orthogonal space...
In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion ...
AbstractThe success of applying generalized complex orthogonal designs as space–time block codes rec...
Space time block codes (STBCs) have been studied to exploit the spatial and temporal diversities in ...
We dedicate this paper to Professor Thomas Kailath on the occasion of his 70 th birthday. We have be...
The designing potential of using quaternionic numbers to identify a 4 × 4 real orthogonal space-time...
Based on orthogonal designs, space-time (ST) block codes that enable full diversity as well as a sim...
We present a space-time block code from complex orthogonal designs for 5 transmit antennas, which ca...
This letter proposes a simple but highly efficient technique to jointly utilize space, time, and pol...
This letter proposes a simple but highly efficient technique to jointly utilize space, time, and pol...
Over the past several years, there has been a renewed interest in complex orthogonal designs for the...
The use of quaternion orthogonal designs (QODs) to describe point-to-point communication among dual-...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. Quaternion orthogonal designs (QODs) have ...
As the demand for high wireless data rates in indoor environments grows, we must find new ways to in...
In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion ...
Quaternion orthogonal designs (QODs) have been previously introduced as a basis for orthogonal space...
In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion ...
AbstractThe success of applying generalized complex orthogonal designs as space–time block codes rec...
Space time block codes (STBCs) have been studied to exploit the spatial and temporal diversities in ...
We dedicate this paper to Professor Thomas Kailath on the occasion of his 70 th birthday. We have be...
The designing potential of using quaternionic numbers to identify a 4 × 4 real orthogonal space-time...
Based on orthogonal designs, space-time (ST) block codes that enable full diversity as well as a sim...
We present a space-time block code from complex orthogonal designs for 5 transmit antennas, which ca...