Explore our Solutions

 

Back in 2008, there were already more objects connected to the Internet than people. Here are some of our popular and most widely accepted solutions.

 

Smart Buildings

Smart Building Solution

The TOG IOT Smart Building Solution allows real time monitoring of key parameters in buildings, such as environmental conditions, presence, luminosity, opening-closing gates/windows... The data is sent to the Internet by the GW using Ethernet and 3G/GPRS radios.

Hardware Components:
  • Plug & Play! Smart Environment-PRO
  • Plug & Play! Smart Security
  • Plug & Play! Ambient Control
  • Temperature + Humidity (Sensirion) Sensor
Hardware Documentation:
  • More than 100 sensor probes available (gases, water quality, smart cities, parking, etc)
  • More than 15 radio technologies: Z-Wave, ZigBee, 802.15.4, WiFi, LoRaWAN, Sigfox, 3G/GPRS, BLE, etc
  • Robust waterproof IP65 enclosure. Solar powered with internal and external panel options

Smart Cities

Smart Cities Solution

This solution allows real time monitoring of key parameters in cities, such as sound and light to make noise urban maps, or to develop adaptive lighting systems. Weather control and air quality applications can be carried out thanks to humidity and temperature sensors and pollution detectors (SO2, NO2, CO, O3). It includes solution oriented software already integrated with TOG IOT platform. The data is sent to the Internet by the GW using Ethernet and 3G/GPRS radios.

Key Hardware Components:
  • Plug & Play! Smart Cities
  • Plug & Play! SE-PRO
  • Plug & Play! Ambient Control
  • Microphone (dBA) Sensor Probe
Hardware Documentation:
  • Open Source SDK and API. Over the air programming (OTAP) of multiple nodes at once
  • Graphical and intuitive programming interface. MySQL Database up and running off the self
  • Minimum manteinance costs: Add or change a sensor probe in seconds

Smart Environment

Smart Environment IoT Solution

The Smart Environment IoT solution allows to monitor temperature and humidity, as well as measuring levels of CO, CO2 and O3. This solution can be used to control air pollution from cars and toxic gases generated in factories and farms (CO). These same gases can be monitored to ensure workers and goods safety inside chemical plants, and to reduce the presence of ozone in the drying meat process in food factories. A relevant application for this solution could be forest fire detection, just by controlling combustion gases and preemptive fire conditions in order to define alert zones. The data is sent to the Internet by the GW using Ethernet and 3G/GPRS radios.

Key Hardware Components:
  • Plug & Play! Smart Environment-PRO
  • CO2, CO, NO2, O3 Sensor Probe
  • Temperature + Humidity (Sensirion) Sensor
  • 6600mAh rechargeable battery + external solar panel
Hardware Documentation:
  • Visualize real-time data. Show measured data graphically between different time periods. For example last week, or last month data.
  • Geolocate the nodes via GPS and a communication module, and check in a visual map the data measured for each node.
  • Sensor data is stored internally using the Meshlium MySQL database. Data can be extracted to a third Cloud Platform later.

Smart Parking

Smart Parking TOG IOT Solution

This solution enables detection of free parking spots. It is designed to be placed on-road (surface installation) in parking spaces and to detect the arrival and departure of vehicles with a three axis electromagnetic field sensor. It includes solution oriented software already integrated with TOG IOT connectivity (868MHz).

Key Hardware Components:
  • Plug & Play! Smart Parking node
  • Plug & Play! Smart Parking Installation Key
  • Plug & Play! Smart Parking USB Programmer
  • Magnet for contactless reset
Hardware Documentation:
  • Out-of-the-box operation (no programming needed). On-road, surface installation
  • Magnetic field sensor (3 axis). Small and weatherproof enclosure
  • Remote Manager and Extended battery lifetime

Smart Agriculture

Smart Agriculture IoT Solution

This solution enables monitoring of environmental parameters in agriculture, vineyards, greenhouses or golf courses. Soil moisture and temperature, humidity, leaf wetness and atmospheric pressure sensors allow to control the amount of sugar in grapes to enhance wine quality, as well as to control micro-climate conditions to maximize the production of fruits and vegetables in greenhouses. The three levels of depth of the soil moisture sensor are helpful to reduce waste of water by selective irrigation in dry zones. On the other hand, controlling humidity and temperature levels in hay, straw, etc. can prevent fungus and other microbial contaminants. The data is sent to the Internet by the GW using Ethernet and 3G/GPRS radios.

Key Hardware Components:
  • Plug & Play! Smart Agriculture-PRO
  • Atmospheric pressure Sensor Probe. Leaf wetness Sensor Probe
  • Soil moisture 1,5 m Sensor Probe. Solar radiation 3m Sensor Probe
  • Temperature + Humidity (Sensirion) Sensor
Hardware Documentation:
  • Selective irrigation in dry zones to reduce the water resources required in the green.
  • Control of humidity and temperature levels in alfalfa, hay, straw, etc. to prevent fungus and other microbial contaminants.
  • Modern farming methods based on wireless sensor technology to boost productivity and help communities thrive.

IOT Facts

 

To demonstrate how fast this sector is growing and what an impact it will have on our lives and business, we have rounded up some of the most mind-boggling IoT numbers and stats that prove that the phenomenon is here and here to stay.

 

Machine-to-machine (M2M) connections will grow from 5 billion at the beginning of this year to 27 billion by 2024
Internet-connected clothing is coming. Estimates predict that 10.2 million units of smart clothing will ship by 2020, compared to a meagre 140K units in 2013.
Having a connected kitchen could save the food and beverage industry as much as 15% annually.
By 2020, a quarter of a billion vehicles will be connected to the Internet, giving us completely new possibilities for in-vehicle services and automated driving.