With A Smartphone, You Can Make Calls, Send Text Messages, And Much More Than You Could With A Traditional Mobile Phone

Smartphone
Smartphone

A Smartphone is a type of portable computer that combines a mobile phone and a computer into one device. Their more powerful hardware and robust mobile operating systems set them apart from feature phones and enable wider software, internet (including web browsing over mobile broadband), and multimedia functionality (including music, video, cameras, and gaming), in addition to basic phone features like voice calls and text messaging.

Smartphones commonly have a number of metal-oxide-semiconductor (MOS) integrated circuit (IC) chips, a number of sensors, including a magnetometer, proximity sensor, barometer, gyroscope, accelerometer, and more, that can be used by pre-installed and third-party software. They also typically support wireless communications protocols (such as Bluetooth, Wi-Fi, or satellite navigation).

The functionality of standalone personal digital assistants (PDA) devices and support for cellular telephony were attempted to be bridged by early Smartphone Market, but they were constrained by their bulky design, short battery life, slow analogue cellular networks, and the immaturity of wireless data services. The exponential scaling and miniaturisation of MOS transistors to sub-micron levels (Moore's law), the advancement of the lithium-ion battery, the development of faster digital mobile data networks (Edholm's law), and the emergence of more developed software platforms that permitted the emergence of mobile device ecosystems independent of data providers, all served to resolve these problems in the end.

The functionality of standalone personal digital assistants (PDA) devices and support for cellular telephony were attempted to be bridged by early Smartphone, but they were constrained by their bulky design, short battery life, slow analogue cellular networks, and the immaturity of wireless data services. The exponential scaling and miniaturisation of MOS transistors to sub-micron levels (Moore's law), the advancement of the lithium-ion battery, the development of faster digital mobile data networks (Edholm's law), and the emergence of more developed software platforms that permitted the emergence of mobile device ecosystems independent of data providers, all served to resolve these problems in the end.

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