In this article by Rubén Oliva Ramos author of the book Internet of Things Programming with JavaScript we will understand different platform for the use of Internet of Things, and how to install Raspbian on micro SD card.
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Technology has played a huge role in increasing efficiency in the work place, improving living conditions at home, monitoring health and environmental conditions and saving energy and natural resources. This has been made possible through continuous development of sensing and actuation devices. Due to the huge data handling requirements of these devices, the need for a more sophisticated, yet versatile data handling and storage medium, such as the Internet, has arisen. That’s why many developers are adopting the different Internet of Things platforms for prototyping that are available.
There are several different prototyping platforms that one can use to add internet connectivity to his or her prototypes. It is important for a developer to understand the capabilities and limitations of the different platforms if he or she wants to make the best choice. So, here is a quick look at each platform.
Arduino is a popular open-source hardware prototyping platform that is used in many devices. It comprises several boards including the UNO, Mega, YUN and DUE among several others. However, out of all the boards, only the Arduino Yun has built-in capability to connect to Wi-Fi and LAN networks. The rest of the boards rely on the shields, such as the Wi-Fi shield and Ethernet shield, to connect to the Internet.
The official Arduino Ethernet shield allows you to connect to a network using an RJ45 cable. It has a Wiznet W5100 Ethernet chip that provides a network IP stack that is compatible with UDP and TCP. Using the Ethernet library provided by Arduino you will be able to connect to your network in a few simple steps.
If you are thinking of connecting to the Internet wirelessly, you could consider getting the Arduino Wi-Fi shield. It is based on the HDG204 wireless LAN 802.11b/g System in-Package and has an AT32UC3 that provides a network IP stack that is compatible with UDP and TCP. Using this shield and the Wi-Fi library provided by Arduino, you can quickly connect to your prototypes to the web.
The Arduino Yun is a hybrid board that has both Ethernet and Wi-Fi connectivity. It is based on the ATmega32u4 and the Atheros AR9331 which supports OpenWrt-Yun. The Atheros processor handles the WiFi and Ethernet interfaces while the ATmega32u4 handles the USB communication. So, if you are looking for a more versatile Arduino board for an Internet of Things project, this is it.
There are several advantages to using the Arduino platform for internet of things projects. For starters the Arduino platform is easy to use and has a huge community that you can rely on for technical support. It also is easy to create a prototype using Arduino, since you can design a PCB based on the boards. Moreover, apart from Arduino official shields, the Arduino platform can also work with third party Wi-Fi and Ethernet shields such as the WiFi shield. Therefore, your options are limitless.
On the down side, all Arduino boards, apart from Yun, need an external module so as to connect to the internet. So, you have to invest more. In addition to this, there are very many available shields that are compatible with the Arduino. This makes it difficult for you to choose. Also, you still need to choose the right Internet of Things platform for your project, such as Xively or EasyIoT.
The Raspberry Pi is an open source prototyping platform that features credit-card sized computer boards. The boards have USB ports for a keyboard and a mouse, a HDMI port for display, an Ethernet port for network connection and an SD card to store the operating system. There are several versions of the Raspberry Pi available in the market. They include the Raspberry Pi 1 A, B, A+ and B+ and the Raspberry Pi 2 B.
When using a Raspberry Pi board you can connect to the Internet either wirelessly or via an Ethernet cable. Raspberry Pi boards, except version A and A+, have an Ethernet port where you can connect an Ethernet cable. Normally, the boards gain internet connection immediately after you connect the Ethernet cable. However, your router must be configured for Dynamic Host Configuration Protocol (DHCP) for this to happen. Otherwise, you will have to set the IP address of the Raspberry Pi manually and the restart it.
To connect your Raspberry Pi to the internet wirelessly, you have to use a WiFi adapter, preferably one that supports the RTL8192cu chipset. This is because Raspbian and Ocidentalis distributions have built-in support for that chip. However, there is no need to be choosy. Almost all Wi-Fi adapters in the market, including the very low cost budget adapters will work without any trouble.
Using Raspberry Pi boards for IoT projects is advantageous because you don’t need extra shields or hardware to connect to the internet. Moreover, connecting to your wireless or LAN network happens automatically, so long as the router that has DHCP configured (most routers do). Also, you don’t have to worry if you are a newbie, since there is a huge Raspberry Pi community. You can get help quickly.
The disadvantage of using the Raspberry Pi platform to make IoT devices is that it is not easy to use. It would take tremendous time for newbies to learn how to set up everything and code apps. Another demerit is that the Raspberry Pi boards cannot be easily integrated into a product. There are also numerous operating systems that the Pi boards can run on and it is not easy to decide on the best operating system for the device you are creating.
The different features that come with each platform make it ideal for certain applications, but not all. Therefore, if at all you have not yet made up your mind on the platform to use, try selecting them based on usage.
The Raspberry Pi is ideal for IoT applications that are server based. This is because it has high storage space and RAM and a powerful processor. Moreover, it supports many programming languages that can create Server-Side apps, such as Node.js. You can also use the Raspberry Pi in instances where you want to access web pages and view data posted on online servers, since you can connect a display to it and view the pages on the web browser. The Raspberry Pi can connect to both LAN and Wi-Fi networks. However, it is not advisable to use the raspberry Pi for projects where you would want to integrate it into a finished product or create a custom made PCB.
On the other hand, Arduino comes in handy as a client. It can log data on an online server and retrieve data from the server. It is ideal for logging sensor data and controlling actuators via commands posted on the server by another client. However, there are instances where you can use Arduino boards for server functions such as hosting a simple web page that you can use to control your Arduino from the local network it is connected to. The Arduino platform can connect to both LAN and Wi-Fi networks.
The ESP8266 has a very simple hardware architecture and is best used in client applications such as data logging and control of actuators from online server applications. You can use it as a webserver as well, but for applications or web pages that you would want to access from the local network that the module is connected to.
The Spark Core platform is ideal for both server and client functions. It can be used to log sensor data onto the Spark.io cloud or receive commands from the cloud. Moreover, you don’t have to worry about getting online server space, since the Spark cloud is available for free. You can also create Graphical User Interfaces based on Node.js to visualize incoming data from sensors connected to the Spark Core and send commands to the Spark Core for activation of actuators.
Raspberry Pi is low-cost board dedicated for project purpose this will use a Raspberry Pi Zero board. See the following link https://www.adafruit.com/products/2816 for the Raspberry Pi Zero board and Kit.
In order to make the Raspberry Pi work, we need an operating system that acts as a bridge between the hardware and the user, we will be using the Raspbian Jessy that you can download from https://www.raspberrypi.org/downloads/, in this link you will find all the information that you need to download all the software that it’s necessary to use with your Raspberry Pi to deploy Raspbian, we need a micro SD card of at least 4 GB.
The kit that I used for testing the Raspberry Pi Zero includes all the necessary items for installing every thing and ready the board.
The Raspberry Pi Zero only boots from a SD card, and cannot boot from an external drive or USB stick. For now it is recommended to use a Micro SD 4 GB of space.
In the next screenshot you can see the progress of the installation
In this article we discussed about the different platform for the use of Internet of Things like Ardunio and Raspberry Pi. We also how to setup and prepare Raspberry Pi for further use.
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