DIGITAL TRANSFORMATION
Smart City
Sustainability
Smart Tourism
Smart City, Sustainability and Smart Tourism.
Creation of Smart City projects, from building interiors, to cities of any size, by generating a network of gateways that receive information from Internet of Things devices, generating a star-shaped architecture that interconnects each element enabled with a communication capacity, to the network itself.
The main objetives are:
Monitoring of drinking water, flow, composition | Recovery and monitoring of rain and grey water | Monitoring of sanitation, flow, composition | Flood prevention | Traceability of water quality and Circular Economy.
Monitoring of drinking water, flow, composition | Recovery and monitoring of rain and grey water | Monitoring of sanitation, flow, composition | Flood prevention | Traceability of water quality and Circular Economy.
Flow control and monitoring to prevent losses and to keep track of the consumption history.
Isolated sensors communicated in the inflow of watercourses that warn hours in advance of a possible overflows or flash foods.
Water quality sensors to control purification regulations.
Isolated sensors communicated in the inflow of watercourses that warn hours in advance of a possible overflows or flash foods.
Water quality sensors to control purification regulations.
Car parking control, by zones or individual parking spaces | Traffic control and simulations.
Car parking control, by zones or individual parking spaces | Traffic control and simulations.
Camera control with AI, parking space occupancy-level sensors.
Monitoring of the city's traffic by means of camera and sensor systems, and subsequent generation of simulations of exceptional circumstances, or optimisation of traffic light timing, among other utilities.
Monitoring of the city's traffic by means of camera and sensor systems, and subsequent generation of simulations of exceptional circumstances, or optimisation of traffic light timing, among other utilities.
Outdoor and indoor capacity control | Beach capacity control | Prevention Covid 19 | Monitoring indoor CO2 levels for prevention COVID 19 | Virtual Events.
Outdoor and indoor capacity control | Beach capacity control | Prevention Covid 19 | Monitoring indoor CO2 levels for prevention COVID 19 | Virtual Events.
Counting people and occupancy level by camera with image analysis by Ia and the distance between them.
Individual control of the level of CO2 for indoor rooms, the higher the amount of CO2, the higher the probability of contagion, by means of a light signal it warns to open doors and windows.
Generation of environments or 3D models simulating reality for events of all kinds with virtual or hybrid assistance (online and face-to-face) with the ability to attend through a Smart Phone even high-end virtual reality glasses.
Individual control of the level of CO2 for indoor rooms, the higher the amount of CO2, the higher the probability of contagion, by means of a light signal it warns to open doors and windows.
Generation of environments or 3D models simulating reality for events of all kinds with virtual or hybrid assistance (online and face-to-face) with the ability to attend through a Smart Phone even high-end virtual reality glasses.
Intelligent public buildings, Domotics and Inmotics | Health control | Efficient distribution of renewable energy | Energy-generating floor tiles | Intelligent lighting.
Intelligent public buildings, Domotics and Inmotics | Health control | Efficient distribution of renewable energy | Energy-generating floor tiles | Intelligent lighting.
Integrated automation of buildings including lighting, air conditioning, alarms, technical alarms, purification systems, enclosures, shaded areas…
Creation of distribution of surplus energy generated by renewable energies between public buildings.
Floor tiles that generate energy through pedestrian footfall, with distribution to public lighting.
Lighting management and auto-dimming, by means of brightness and movement sensors, allowing the light intensity to be dimmed while no movement of people or vehicles is detected, and obtaining very useful information on the flow of inhabitants.
Creation of distribution of surplus energy generated by renewable energies between public buildings.
Floor tiles that generate energy through pedestrian footfall, with distribution to public lighting.
Lighting management and auto-dimming, by means of brightness and movement sensors, allowing the light intensity to be dimmed while no movement of people or vehicles is detected, and obtaining very useful information on the flow of inhabitants.
Optimization of waste collection routes | Circular economy | Contamination monitoring | Carbon footprint traceability | Noise monitoring.
Optimization of waste collection routes | Circular economy | Contamination monitoring | Carbon footprint traceability | Noise monitoring.
Management of container-filling control of any type by means of volumetric sensors which in turn allow the creation of optimal routes for collection during the shifts of the employees, saving between 40 to 50% of time, fuel and reducing CO2 emissions.
Bicycle parking service | Automated-Opening sensors | Electric bicycle service | Electric recharging infrastructure | Electric motorbikes for Municipal Services | Urban Mobility Platform.
Bicycle parking service | Automated-Opening sensors | Electric bicycle service | Electric recharging infrastructure | Electric motorbikes for Municipal Services | Urban Mobility Platform.
Parking with Bluetooth-activated barrier-opening for bicycles on public roads.
Shall we talk?
