Optical Camera Communication, a wireless communication between LED Light and camera of the phone (image sensor) for usage of b2b2c

OCC technology that stands for Optical Camera Communication is a one-way communication flow between an LED lamp and a smartphone.
This allows for glocalization with ultra-precision limited strictly and securely to the beam of the LED. It detects the presence of a user under a specific light at a live timeframe.

Continue reading “Optical Camera Communication, a wireless communication between LED Light and camera of the phone (image sensor) for usage of b2b2c”

Towards Terabit per Second Wireless Networking with Light

We will show recent research results of the project Terabit Optical Wireless System (TOWS) which aims at building LiFi networks capable of aggregate data rates greater than 1 Tbps. One of the main limitations to unlock the full capacity of the optical spectrum are the electrical-to-optical (E/O) and optical-to-electrical (O/E) conversion efficiencies of current opto-electronic devices.

Continue reading “Towards Terabit per Second Wireless Networking with Light”

OCC, a wireless communication between LED Light and camera of the phone (image sensor) for usage of b2b2c

OCC technology that stands for Optical Camera Communication is a one-way communication flow between an LED lamp and a smartphone.
This allows for glocalization with ultra-precision limited strictly and securely to the beam of the LED. It detects the presence of a user under a specific light at a live timeframe.

Continue reading “OCC, a wireless communication between LED Light and camera of the phone (image sensor) for usage of b2b2c”

Symbol-Synchronous Buses: Deterministic, Low-Latency Wireless Mesh Networking with LEDs

Industrial real-time control applications often require performance guarantees that contemporary wireless networks fail to offer. The cause of this shortcoming lies in the complexity and inefficiency of current wireless network architectures, which must coordinate multiple nodes across dense deployments, and hence today cannot match the latency levels offered by wired bus networks used for real-time control, such as CAN and Profibus.

Continue reading “Symbol-Synchronous Buses: Deterministic, Low-Latency Wireless Mesh Networking with LEDs”

LiFi Standardization Status and Evolution

Standards are an important prerequisite for mass deployment of communication technologies. As Light Communications is able to serve a wide variety of applications, a single standard is not sufficient to allow for high-performance cost-optimized solutions for all cases.
After a first light communications standard initiated in 2008 and ratified in 2011 through IEEE Std 802.15.7-2011, LC standardization further evolved to cover the various deployment domains. Parallel to past and ongoing enhancements of 802.15.7, IEEE P802.15.13 addresses high speed light communication needs with up to 10 Gb/s over distances of up to 200m unrestricted line. It leverages latest technologies like distributed MU-MIMO and offers different PHY modes for data rates of up to 2.2 Gb/s per stream.

Continue reading “LiFi Standardization Status and Evolution”

LiFi For Education

education

LiFi technology has many applications and numerous use cases. The digital transformation in the education sector is a trend in all countries and sometimes even an obligation. The presentation will focus on the Education use case and why, how the LiFi represents a beneficial alternative to radiofrequencies inside the classroom.

Continue reading “LiFi For Education”

G.hn backbone and ecosystem support for Li-Fi use cases. Standardization, Spectrum and Security

G.hn

ITU-T standard based G.hn technology augments spectrum usage and provides security enhancements that special use cases need. For schools, hospitals, airports, defense and government buildings and other cases where sensitive information can be a target of cyberattack, Li-Fi eliminates the risk of data interception by outsiders which are out of sight, therefore offering a vastly enhanced security platform which can be ensured using G.hn as reliable backbone.

Continue reading “G.hn backbone and ecosystem support for Li-Fi use cases. Standardization, Spectrum and Security”

LiFi use cases and demonstration scenarios for Smart Manufacturing

Daniel Behnke

LiFi is a promising technology approach for smart manufacturing providing wireless and reliable data communication. The research project ELIOT aims to demonstrate the possibilities and advantages in manifold areas. The focus of this talk is on smart manufacturing, highlighting future use cases and evaluation scenarios.

Continue reading “LiFi use cases and demonstration scenarios for Smart Manufacturing”

Optical wireless as a new comfort for telecom? A regulators perspective

René Vroom

“The Netherlands is favoring photonics” says René Vroom, Manager Innovation at Radiocommunications Agency Netherlands. “Optical wireless communication is a promising development. The RF spectrum is crowded with users. LiFi might become a new comfort in telecom to ease the pressure on spectrum being a new complimentary mechanism for high capacity internet access.

Continue reading “Optical wireless as a new comfort for telecom? A regulators perspective”