When you think radio antennae, you probably think of an ungainly looking flexible stick-like device made out of wire and steel. But Mitsubishi Electric Corporation is reinventing the humble radio antenna via the SeaAerial, technology that uses a column of seawater to create radio transceiver antenna.
The SeaAerial is based on the use of a specially insulated nozzle that transmits a radio signal to the water column. The circuit is then physically separated from the water, enabling the reception of the radio signal. The diameter of each plume of water is determined using special computer simulations.
This water-based radio antenna is designed for use at sea and along the shores, where it will be capable of efficiently and reliably receiving digital broadcasts.
Watery Radio Antennae
Mitsubishi's Radio Antennae are Comprised of Columns Of Sprayed Seawater
Trend Themes
1. Water-based Radio Antennae - Disruptive innovation opportunity: Develop water-based radio antennae for improved reception in marine and coastal environments.
2. Seawater Transceiver Technology - Disruptive innovation opportunity: Explore the use of seawater as a medium for transmitting and receiving radio signals, potentially revolutionizing the telecommunications industry.
3. Water Simulation for Antenna Design - Disruptive innovation opportunity: Develop advanced computer simulations for optimizing the design of water-based radio antennas, enhancing signal efficiency and range.
Industry Implications
1. Marine Telecommunications - Disruptive innovation opportunity: Integrate water-based radio antennae technology into maritime communication systems, improving signal strength and coverage.
2. Coastal Broadcasting - Disruptive innovation opportunity: Implement water-based radio antennae for coastal broadcast stations, enhancing the reception of digital broadcasts near the shore.
3. Underwater Communication - Disruptive innovation opportunity: Apply seawater transceiver technology to underwater communication systems, enabling reliable and efficient data transmission in subaquatic environments.