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”

Light Communication as a part of 5G and Beyond

deepak solanki

With internet users growing by the minute, comes the great challenge of ensuring faster speeds and higher bandwidths. 5G, the next wireless revolution, comes as a solution that can cater to the endlessly growing base of users. But 5G infrastructure requires denser deployments of small cells within cities having high backhaul capacity. The fibre optic cables can meet this demand but rolling out an extensive fibre network poses deployment complications. Laying down fibre is time consuming and costly process and makes expansion near impossible specifically in developing nations.

Continue reading “Light Communication as a part of 5G and Beyond”