Abstract:
Because more companies and individuals were transferring data to the cloud
as a result of the COVID epidemic, the significance of online communication has
grown dramatically. We all depend on the net to transfer data whenever we need to
send it to a different individual or organisation. It's critical that sensitive information
cannot be easily captured or hijacked and used against undesired parties when sent
over the internet. Businesses and individuals can use encryption to send private
information over the web to ensure only the intended recipient can access it.
Mathematical equations are used to modify the data in order for any
cryptography technique to encrypt and decode sensitive material. The intricacy of
these equations determines how much more of the device's resources can be utilised.
Because so much computational power is required, data security in the Internet of
Things environment is challenging. Quantum computation is a further issue with the
cryptography protocols in use today. As a result, new algorithms must be developed
that take into account the limitations of IoT devices while maintaining the level of
security offered by robust algorithms like AES. An IoT device will be utilised for
testing an innovative cryptography algorithm that will be suggested to address this
issue, and its safety and utilisation of resources will be compared to the best
algorithms now in use.
