SERVICES

Img Riprese Aeree e Terrestri

Regia

Shooting - direction

Through the use of drones you can make aerial shots at high resolution in real time. The services offered include: direction, editing, production and execution. Shooting from the ground and sky for films and events.


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​Aerofotogrammetria​

Aerophotogrammetry

The aero-photogrammetry is used for the survey of the characteristics of the soil not easily perceptible at ground level. It is a technique that finds application in numerous fields, from cartography, to geology, to archeology. With the drone it is possible to orthogonally take more photos of the same area, maintaining fixed points on the ground. Through the re-elaboration of the acquired images, we are able to create a single photograph, the mosaic, which allows us to see the affected area in a single glance.

Technique

Aerial images are acquired by a nadir grid or oblique flight plan, they mainly orient the low, with a high overlap, of a way to provide the image that is not only detailed, but also proportionate and without integrated integrated to the wide-angle framing. In the Strip technique you manage through a programmed path, the succession of vertical photos provides a partial overlap between a photo and the next one. The route of the aircraft can be reconstructed by combining the centers of the images obtained on the plan. The drone is equipped with a vertical shooting camera, which snaps parallel to the ground. Following the filming work, it is possible to request the acquisition of a 3D mapping (DSM and Ortomosaico) for the purposes of volume maintenance, digitalization and roads and cases, generation of the level curve and insertion on Google Maps.



By the images acquired it is possible to extrapolate the following elaborations:

The Point Cloud - Point Cloud in LAS format can be opened with the Autodesk AutoCAD-ReCap program, included in the AutoCAD package from 2017, with which you can work in 3D to make measurements and create models. The document in AutoCAD-ReCap RCS format can be easily imported into AutoCAD. To get it, create a new document with AutoCAD-ReCap, then import the original point cloud in LAS format and save in the RCS native format.

The 3D Mesh - 3D mesh model, in FBX format, can be viewed with Autodesk FBX, or, Rhino, eds Max, AutoCAD 3ds Max, Blender, Autodesk Maya, Cinema 4D, or imported on Autocad.

The Raster DSM - Raster of the Digital Surface Model in GeoTIFF format can be viewed in Quantum GIS, while with Global Mapper and ArcGIS it is possible to generate perimeters, measure distances, areas and volumes, compare two DSMs, perform 3D digitalization.

the Mosaic - geometric OrthoMosaic in GeoTIFF format can be inserted in an AutoCAD attachment. If the dimensions need more resources than those available, only one part can be used, present in the tile subdivisions folder. Measurements and modifications can also be made with Global Mapper, ArcGIS and Quantum GIS.

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Img Rilievo 3D

Rilievo 3D

3D detection

The term 3D detection refers to digitized three-dimensional models of objects, buildings, archaeological excavations, etc. taken with a drone.

More pictures of the same structure are taken from different angles and heights, keeping fixed points on the ground. Subsequently revising the acquired images, it is possible to compose a 3D model of the building or object concerned.

The aerial images are acquired with a nadir or oblique grid flight plan, but also with photos taken on the ground, so as to provide high overlap, to form a complete image from every perspective.

The three-dimensional relief technique is indicated for 3D models of buildings, statues, archaeological finds, objects and more, scene Video Fly-throughs, related inspection Tasks.

It is possible to acquire the 3D model from any set of images with overlap.


Technique

Aerial images are acquired with oblique or terrestrial flight, using any set of images with high overlap such as, for example, images captured with oblique and ground flights (free flights).

By the images acquired it is possible to extrapolate the following re-elaborations:


The Point Cloud - Point Cloud in LAS format can be opened with the Autodesk AutoCAD-ReCap program, included in the AutoCAD package from 2017, with which you can work in 3D to make measurements and create models. The document in AutoCAD-ReCap RCS format can be easily imported into AutoCAD. To get it, create a new document with AutoCAD-ReCap, then import the original point cloud in LAS format and save in the RCS native format..

The 3D Mesh - 3D mesh model, in FBX format, can be viewed with Autodesk FBX, or, Rhino, eds Max, AutoCAD 3ds Max, Blender, Autodesk Maya, Cinema 4D, or imported on Autocad.


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Img Agricoltura di precisione

​Agricoltura di precisione

Precision agriculture

The term precision agriculture refers to the acquisition of fundamental information on the state of health of the cultivation, carried out with drone flights.

The aerial images are acquired with high overlapping nadir grid flight planes, both on flat ground and on the agricultural field. By combining the images with further precision measurements, it is possible to obtain a precise map of the vegetative state, which will help to optimize activities such as irrigation, pruning, fertilization and even harvesting.

Through the use of the drone for precision agriculture it is also possible to detect the possible onset of mycoses or cultivation pathologies, so as to be able to intervene in a more targeted and effective way, so as to be able to solve problems with the least waste of resources and chemicals, while optimizing production. This will result in lower production costs and more abundant harvests.


Technique

For precision farming Air Drone Service uses the Multispectral Camera, including Parrot, Sequoia, Micasense RedEdge, Airinov multiSPEC, and Modified RGB Camera.

The dedicated room band sensors allow to generate:

Reflectance Map - Reflectance Map in GeoTIFF format can be indexed with Global Mapper, ArcGIS and Quantum GIS.

Index Map (NDVI, NDRE and other);

Applications Maps.

As with other services, you can customize the result, requesting the use of one or more options before processing.

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Termografia

Thermography

The Thermography is a non-destructive diagnostic technique which, by measuring the infrared radiation emitted by a body, is able to determine its surface temperature.

By the images are then generated maps, in false colors, representative of the areas investigated. These maps associate a corresponding color with the detected temperature.

The mapping of the surface temperature is fundamental in order to assess the state of conservation of the materials themselves. Materials at different temperatures are symptomatic of degradation pathologies underway on the building or on the analyzed technological plant. Thermography can be applied to any field, as all objects emit thermal energy and interact with the ambients.



Why choose our service?

Thermographic inspections with drones are much faster than traditional manual methods, thus also allowing a considerable saving.

Thanks to the preventive analyzes, which help to carry out targeted and circumscribed interventions, you can have always efficient and functioning systems.

We make it easy and safe to access your system from any device.

With a single flight session we record more data at the same time, allowing us to reduce the costs of the interventions.

The lower prices allow for more frequent inspections to be carried out, in order to create a history of data on which to perform much more accurate and truthful statistical analyzes.


In photovoltaics sector, preventive maintenance is becoming increasingly fundamental, to ensure that the energy produced is constant and that there are no direct losses due to unmonitored malfunctions.

Preventive maintenance, however, has an important cost for the companies that choose it and the checks carried out are not always effective, especially if they are not commensurate with the expenditure made.

By inserting ourselves in this context, we offer companies a fast, statistically relevant data collection that allows at the same time to reduce the costs of preventive maintenance.

We offer solutions tailored to the customer's needs, identifying and, where possible, predicting possible failures of the main system components, including modules, in order to better program maintenance operations and minimize the risk of system malfunction .

The thermographic analysis of the modules is one of the best techniques for monitoring photovoltaic systems, which unfortunately is carried out infrequently due to its high costs. By performing aerial thermographies using drones, they halve the time and cost of the surveys.

The use of the drone also allows to visually monitor the plants from the top and to better plan the cleaning of the panels and the maintenance of the vegetation.

All the collected data are processed and uploaded online on a special interactive map that allows the analysis and comparison of the information collected, putting them in temporal relation with the various surveys carried out over time.

Thermography is extremely useful also in the building sector: it is possible to verify the energy efficiency of buildings in terms of thermal insulation and waterproofing in a non-invasive and non-destructive way.


Technique

Thermographic inspections of photovoltaic plants, cultivated field and buildings are performed, thanks to high-precision sensors and multispectral chambers. The aerial images are acquired with a nadir grid flight plan, with high overlap.

The acquired data is processed in the laboratory and subsequently made available on a network server, ready for consultation and download.

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Ispezioni di strutture

Ispection of structures

An additional sector of application, both in the visible and in the infrared spectrum, is inspection.

Application sector include:

  • Thermographic surveys in altitude of wind turbines.
  • Highlighting of structural defects and water infiltrations (bridges, pylons, dams, roofs and other)
  • Highlighting hydro-geological risks, landslide areas and landslides, fires and other.
  • Highlighting of polluted water bodies, areas to be reclaimed, and other
  • Highlighting energy waste, thermal defects (buildings, wind power plants, power lines, power lines, and other).
  • Thermographic analysis of photovoltaic systems.

Technique

Thermographic inspections of photovoltaic plants, cultivated field and buildings are performed, thanks to high-precision sensors and multispectral chambers. The aerial images are acquired with a nadir grid flight plan, with high overlap.

The acquired data is processed in the laboratory and subsequently made available on a network server, ready for consultation and download.

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Videosorveglianza

Video surveillance

In the sector of video surveillance the drone is equipped with an on-board camera to monitor perimeter control of the day and night area.

Technique

Thanks to a sophisticated software with GPS maps, the drones are programmed for unmanned automatic flight for perimetral control, with shelter for battery recharging autonomously.

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Search & Rescue

Search & Rescue

The drones used in emergencies can be of great help,

indeed we can eliminate the conditional and use the present. Professional drones, managed and piloted by qualified and trained personnel, actually make the difference in difficult situations and are really of great help to the operators of the Civil Protection or other army in charge of being on the front line in the face of disasters or serious emergencies. Thanks to the thermal camera it is possible to quickly detect the presence of heat even in places with low visibility.

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Monitoraggio ambientale

Ambient monitoring

Drones are starting to play an increasingly important role in the sector of ecological monitoring. Many technicians, researchers and companies are adopting these tools, thus replacing the use of slower ground equipment, low-resolution satellite images or expensive air services.

Drones are used for many objectives related to ecology, such as the evaluation of the state of ecosystems or the presence of disturbances in them. With them it is possible to control vast territories and reach points that are usually inaccessible to human beings, so as to implement periodic checks of all chemical and biophysical parameters and prevent the danger of contamination.

Objective of Ambient monitoring

The ambiental monitoring activities have become strategically important also because by allowing to acquire any form of information regarding our territory, they help to evaluate and prevent the environmental impact caused by the construction of infrastructures.

A drone can also be used for various activities, such as landfill control and monitoring, to assess the environmental impact at the disposal sites. In this case the drones used for the thermography of the areas concerned are a useful resource, a technique that allows to detect anomalous temperature differences, or even to measure absolute temperatures.

The flying laboratory drone allows the operator to stay safe away from potentially dangerous sources while acquiring the air sample required for laboratory analysis.