The innovation influences the human body’s characteristic capacity to transmit sound through bone. It takes the bone-transmitted messages and afterward conveys them specifically to the inward ear through the warfighter’s head protector.
Warfighters can both listen to messages and send messages along these lines – and the tech is the negligible weight and size of a little coin.
Made by BAE Systems, the model will be on show at the Protection and Security Hardware Worldwide show in London one week from now. The biennial four-day occasion is the world’s greatest barrier and security exchange show. More than 30,000 guests from 121 nations strolled the floors at DSEI in 2013.
Radios are a vital tool that forces use to speak with one another and understand the surroundings wherever they’re operating. Within the battlespace environment, radios got to be effective amid loud noises from explosions and shooting – warfighters additionally need to defend their hearing against the noise volume by wearing sound protection.
With this cutting-edge bone conduction tech, warfighters still send and receive messages while carrying sound protection for their ears.
By observing the bone conduction used in commercial hearing aids and headphones, BAE was ready to cut back both the time and value to develop its military radio technology.
The company’s military variant of bone conduction tech is light-weight and compact. BAE Systems says that the prototype’s transducer is about the dimensions of a nickel.
How does it work?
The human body can transmit sound through its bones. Sound waves additionally go through the ear trench. In bone conduction, sound skirts the ear drum. Rather, the tech proselytes sound waves into vibrations that are sent through the skull bones specifically to the spot profound inside the ear called the cochlea. At this site, the sound is interpreted into nerve driving forces for the mind to get it.
Google Glass is a business illustration of bone conduction, transmitting data to the client through a transducer that sits alongside the ear.