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GPRS+GPS Quadband Module for Arduino, Raspberry Pi and Intel Galileo (SIM908)

99 €99.00

Availability: In stock

This shield integrates the SIM 908 module, and counts with GPRS and GPS technologies that enables you to perform real time tracking applications.

This product is compatible with Arduino, Raspberry Pi and Intel Galileo boards.

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Description

The new shield designed for Arduino and Raspberry Pi integrates the SIM908 module which counts with both GPRS and GPS technologies that allows to easily perform realtime tracking applications.

The idea is simple: read the GPS coordinates (longitude and latitude) and send them by using a HTTP request to a web server. Then use a browser to load the PHP webpage which uses Googlemaps to show the location in realtime. Antennas not included.

Related Tutorials

The new shield designed for Arduino and Raspberry Pi integrates the SIM908 module which counts with both GPRS and GPS technologies what allows to easily perform realtime tracking applications.

The idea is simple: read the GPS coordinates (longitude and latitude) and send them by using a HTTP request to a web server. Then use a browser to load the PHP webpage which uses Googlemaps to show the location in realtime.

Avoid car thef is impossible but now find your stolen car will be easier!

You just need to install your Arduino with the GPRS+GPS quadband Module (SIM908) in a hidden place in your car, maybe in your trunk, in the glove compartment or under your spare tyre. Then connect the GPRS-GSM and the GPS antenna and a SIM card, all of this powered with a battery and... you are ready!

This tutorial allows the user to make a call to different numbers. Each button can be assigned to a number and originate a voice call. Pushing other button, you can end that voice call.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure the temperature of an object. When the temperature is 0ÂşC or less, a text message is sent to a mobile phone in which the temperature and the position (laltitude and longitude) of the module is indicated.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move a servo sending text messages with the mobile phone. Depending on the number received by the module, the servo is placed in one position or another corresponding to the indicated degrees.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to view the GPS position, latitude and longitude, in a LCD display.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

The current tutorial explains how to take the most of the Galileo board by using on it the Arduino and Raspberry Pi shields and modules designed by Cooking Hacks

Galileo comes with a single-core 32-bit, 400MHz Quark SoC X1000 processor, supports 3.3 or 5 volt shields and has an Ethernet and USB port. Compatible with Windows, Mac OS and Linux, the software of Galileo also has support for the Arduino shield ecosystem.

The idea behind the Raspberry Pi to Arduino shields connection bridge is to allow to use any of the shields, boards and modules designed for Arduino in Raspberry Pi.

It includes also the possibility of connecting digital and analog sensors, using the same pinout of Arduino but with the power and capabilities of Raspberry.

If you are interested in Internet of Things (IoT) or M2M projects check our open source sensor platform Waspmote which counts with more than 100 sensors available to use 'off the shelf', a complete API with hundreds of ready to use codes and a low consumption mode of just 0.7µA to ensure years of battery life.

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