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A camera that can be used to take pictures and films underwater is known as an snorkelling camera. It may be used for underwater video shoots while snorkelling, swimming, or with a remotely controlled underwater vehicle.
Some of these cameras can even be readily lowered from the water’s surface and are automated to take pictures and films on their own.
Additionally, thanks to technological improvements, cell phones like the iPhone 11 and Samsung Galaxy Note 10 have been built with waterproof casings, enabling even the average individual to shoot underwater photos.
The Global Snorkeling Camera market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
An infrared, wireless snorkelling camera was developed by MIT engineers. The tool could support research into uncharted maritime areas, the tracking of pollutants, and the observation of climate change’s effects.
Widespread undersea exploration is hindered by the costly cost of powering an underwater camera for a protracted period of time, whether by attaching it to a research vessel or sending a ship to replenish its batteries.
By creating a battery-free, wireless underwater camera that is approximately 100,000 times more energy-efficient than competing underwater cameras, MIT researchers have made significant progress toward solving this issue.
The gadget wirelessly sends image data via the water and can capture color images even in dim underwater situations.
Sound provides electricity for the autonomous camera. It uses electrical energy to power its imaging and communications devices by converting mechanical energy from sound waves moving through water into electricity.
The camera transmits data through sound waves to a receiver that reconstructs the image after image data has been captured and encoded.
Scientists can examine isolated areas of the ocean for new species because the camera doesn’t require a power source and might operate for weeks before being retrieved.
It might also be used to photograph a polluted ocean or keep track of the wellbeing and development of fish kept in aquaculture farms.For example, the use of this camera in the context of climate monitoring is among its most intriguing uses.
In nearly 95% of the oceans, the data they need to develop climate models is not available. They may be able to improve climate models with the aid of this technology and comprehend the effects of climate change on the underwater environment better.
