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MySignals is a development platform for medical devices and eHealth applications. You can use MySignals to develop your eHealth web, Android or iOS applications or even to add your own sensors to build new medical devices.

MySignals allows you to measure more than 20 biometric parameters such as pulse, breath rate, oxygen in blood, electrocardiogram signals, blood pressure, muscle electromyography signals, glucose levels, galvanic skin response, lung capacity, snore waves, patient position, airflow and body scale parameters (weight, bone mass, body fat, muscle mass, body water, visceral fat, Basal Metabolic Rate and Body Mass Index). These broad sensing portfolio makes MySignals the most complete eHealth platform in the market.

Waspmote is an open source wireless sensor platform specially focused on the implementation of low consumption modes to allow the sensor nodes ("motes") to be completely autonomous and battery powered, offering a variable lifetime between 1 and 5 years depending on the duty cycle and the radio used.

Waspmote is based on a modular architecture. The idea is to integrate only the modules needed in each device optimizing costs. For this reason all the modules (radios, sensor boards, etc) plug in Waspmote through sockets

Libelium's LoRa module works in both 868 and 900 MHz ISM bands, which makes it suitable for virtually any country. Those frequency bands are lower than the popular 2.4 GHz band, so path loss attenuation is better in LoRa. In addition, 868 and 900 MHz are bands with much fewer interference than the highly populated 2.4 GHz band.

Besides, these low frequencies provide great penetration in possible materials (brick walls, trees, concrete), so these bands get less loss in the presence of obstacles than higher bands.

The Libelium LoRaWAN module has been integrated into the main sensor lines Waspmote and Plug & Sense!, however it has also been ported to Arduino and Raspberry Pi, so now you can create your own Low Power Wide Area Network (LPWAN) networks.

LoRaWAN is a new, private and spread-spectrum modulation technique which allows sending data at extremely low data-rates to extremely long ranges. The low data-rate (down to few bytes per second) and LoRaWAN modulation lead to very low receiver sensitivity (down to -136 dBm), which combined to an output power of +14 dBm means extremely large link budgets: up to 150 dB, what means more than 22km (13.6 miles) in LOS links and up to 2km (1.2miles) in NLOS links in urban environment (going through buildings).

Libelium has added Sigfox wireless connectivity to its portfolio of Waspmote OEM and Plug & Sense! sensor devices and at the same time has make it available for the main Maker platfoms: Arduino and Raspberry Pi.

The Libelium Sigfox module has been certified as “Sigfox Ready Class 0” the designation reserved for maximum range devices on Sigfox Low Power Wide Area (LPWA) networks. This means we can work with our favorite development platform as “Sigfox Ready” when using it in our projects.

This tutorial allows the user to know the sea state thanks to the Waspmote accelerometer and turn ON and OFF several LEDs depending on he sea swell. If there are big waves, all LEDs will turn ON and a buzzerwill sound.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to know if the bin of your work is full and informs you with the buzzer making a beep. Waspmote uses RTC to take the hour and filter working hours and excluding evening and weekends.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to create a file with different measures, temperature, light, date and time and store them in the Waspmote SD.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to play a simple melody with a buzzer pushing some buttons and also play a video with Processing software.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to know the water leakage and the temperature level thanks to the Waspmote Events sensor kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the PIR and light levels thanks to the Waspmote Events sensor kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the atmospheric pressure, temperature and humidity levels thanks to the Waspmote Agriculture sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the soil moisture, temperature and humidity levels thanks to the Waspmote Agriculture sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the light level and the distance from an object thanks to the Waspmote Smart Cities sensor kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the dust and temperature levels thanks to the Waspmote Smart Cities sensor kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the temperature and humidity levels thanks to the Waspmote Smart Metering sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.

This tutorial allows the user to know the CO2 and temperature levels in a particular area thanks to the Waspmote Gas sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to know the CO and humidity levels in a particular area thanks to the Waspmote Gas sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ("motes") to be completely autonomous.

This tutorial allows the user to know the liquid flow and current levels thanks to the Waspmote Smart Metering sensors kit.

Waspmote is an open source wireless sensor platform focused on low consumption modes to allow the sensor nodes ('motes') to be completely autonomous.