Add to ORKGBeam-steering-based optical wireless technologies are being widely investigated due to the capability of providing high-speed wireless connectivity in indoor applications. However, high-speed indoor optical wireless systems are traditionally realized with discrete bulky components, significantly limiting their practical applications. In this Letter, we demonstrate an infrared optical wireless communication system employing a miniaturized silicon integrated photonic circuit for beam steering for the first time. Experimental results show that up to 12.5 Gb/s optical wireless communication can be achieved with error-free performance over a free-space range of 140 cm, and limited mobility of users can be realized. The experimental results of th...
Optical wireless communications have been widely studied during the past decade in short⁃range appli...
The design of an indoor optical wireless communication network deploying high-capacity infrared opti...
High-speed optical wireless systems are challenging to implement, due to limitations in available co...
Free-space infrared beams can offer unprecedented data capacity to devices individually, by means of...
High-speed optical wireless communications have been widely studied, and the infrared wavelength is ...
Optical wireless communication is a powerful alternative in local area networks for wireless radio-b...
Energy-efficient wireless communication at high speed and high user density is greatly supported by ...
Indoor optical wireless communication (OWC) using steerable infrared beams is regarded as an importa...
\u3cp\u3eA hybrid wireless indoor system has been designed and validated which realizes ultrahigh-ca...
The optical spectrum offers great opportunities to resolve the congestion in radio-based communicati...
We report a novel optical wireless communication (OWC) system solution that supports multi-Gbps (Gig...
A hybrid wireless indoor system has been designed and validated which realizes ultrahigh-capacity tr...
In order to circumvent radio spectrum congestion, we propose an innovative system which can provide ...
Optical wireless communications have been widely studied during the past decade in short⁃range appli...
The design of an indoor optical wireless communication network deploying high-capacity infrared opti...
High-speed optical wireless systems are challenging to implement, due to limitations in available co...
Free-space infrared beams can offer unprecedented data capacity to devices individually, by means of...
High-speed optical wireless communications have been widely studied, and the infrared wavelength is ...
Optical wireless communication is a powerful alternative in local area networks for wireless radio-b...
Energy-efficient wireless communication at high speed and high user density is greatly supported by ...
Indoor optical wireless communication (OWC) using steerable infrared beams is regarded as an importa...
\u3cp\u3eA hybrid wireless indoor system has been designed and validated which realizes ultrahigh-ca...
The optical spectrum offers great opportunities to resolve the congestion in radio-based communicati...
We report a novel optical wireless communication (OWC) system solution that supports multi-Gbps (Gig...
A hybrid wireless indoor system has been designed and validated which realizes ultrahigh-capacity tr...
In order to circumvent radio spectrum congestion, we propose an innovative system which can provide ...
Optical wireless communications have been widely studied during the past decade in short⁃range appli...
The design of an indoor optical wireless communication network deploying high-capacity infrared opti...
High-speed optical wireless systems are challenging to implement, due to limitations in available co...