IoT devices require power. This can be obtained via batteries, energy harvesting, or wireless power. In the video above, I talk with Giampaolo Marino, Senior Vice President for Strategy and Business ...

Wireless sensor networks are evolving with AI and advanced protocols, enabling autonomous data collection and real-time ...

Kyocera achieves a 5.2Gbps breakthrough in underwater laser communication systems. The new system is 2.5x faster than prior ...

Japanese electronics manufacturer Kyocera has demonstrated a new wireless optical communications system using lasers that can ...

Kyocera adds that this technology has the potential to be used across a wide range of fields, including real-time sharing of ...

Kyocera Corporation (President: Hideo Tanimoto; "Kyocera") today announced it has successfully demonstrated Underwater Wireless Optical Communication (UWOC) technology capable of short-range data ...

Kyocera Corporation (President: Hideo Tanimoto; "Kyocera") announced today that the Kyocera Group will exhibit at CES 2026, ...

Telus has started laying a 125-kilometre submarine fibre optic cable between Sept-Îles and Sainte-Anne-des-Monts, part of a ...

Nagpur hosted the 4th International Conference on the Paradigm Shifts in Communication, Embedded Systems, Machine Learning ...

As the first 6G Terahertz test in the Middle East, the trial reached record speeds of 145 gigabits per second, setting the stage for a new era of cellular technology. NYU Abu Dhabi co-led a 6G ...

NIWC Pacific seeks multiple vendors to provide engineering services for unmanned underwater and surface vehicles.

The curious minds at ColdFusion explain Li-Fi and how it’s 100x faster than Wi-Fi. Understanding this technology shows the potential for a faster, more efficient future in wireless communication.