The IoT industry sometimes required long range communication hence manufacturers investing heavily in the market growing the industry exponentially. however every technology has advantages disadvantages. One of the key challenges in building out the internet of things is ensuring that those “things” or end nodes are in fact able to communicate with the other nodes and as well as the internet. The large number of current internet devices is massive and is expected to raise by 2020. Any network that supports such an infrastructure must have the ability to handle huge traffic. These issues don’t include the fact that nodes need to run on some sort of battery power, have weak radios and also are limited in memory and processing power. IoT devices use a number of different technologies to support their communications, but they are not really ideal for the purpose and application of today. Wi-Fi is everywhere at the moment but it uses a lot of energy and transmits lo
IT all began with industrial PCs more than 30 years ago; when the industry began developing specialist PC-based systems designed for continuous use in harsh industrial environments. Especially when there was need for devices to work in low temperatures or high temperature .These devices quickly proved very popular and developed into a class all of their own: the world of Embedded Boards and Modules was born. After the first modular approaches with PC-104 in 1992, the first modern, low-profile module standard appeared in early 2004: The rest, as they say, is history. Embedded computers have become smaller and smaller and increasingly powerful. Today, the module market is dominated with Embedded Linux boards , Embedded boards , Embedded single board system , Embedded cellular modem , raspberry pi , beaglebone black , Arduino , Adafruit , Intel , IMX8 , IMX6 , banana pi , orange pi , solid run , cubox-i , Embedded single board , Best embedded boards , arm embedded boards