
Service
Building diagnosis

Drone diagnostics of your heritage: a key step for a reliable and thorough inspection.
As part of a facade or roof inspection, it is essential to assess the condition of your property to detect any anomalies and define the most suitable solution. This is why we carry out a diagnosis before each of our projects when necessary. Thanks to our expertise and the use of drones equipped with high-definition sensors, we provide a comprehensive, quick, and safe service.
Our aerial approach eliminates the need for scaffolding and limits the risks associated with traditional inspections. We provide you with a detailed analysis, including aerial shots, mapping, and detection of areas to be treated.
Objectives
of the mission
Objectives
of the mission
Objectives
of the mission
Objectives
of the mission




Why carry out a structural diagnosis on a building?
Why carry out a structural diagnosis on a building?
Why carry out a structural diagnosis on a building?
A structural diagnosis is essential for assessing the overall condition of a building and anticipating potential deterioration. It allows for the detection of anomalies in order to prevent the risks of deterioration and ensure the safety of the occupants.
It is also a strategic lever for optimising costs by identifying priority works and avoiding unexpected repairs.
A structural diagnosis is essential for assessing the overall condition of a building and anticipating potential deterioration. It allows for the detection of anomalies in order to prevent the risks of deterioration and ensure the safety of the occupants.
It is also a strategic lever for optimising costs by identifying priority works and avoiding unexpected repairs.
A structural diagnosis is essential for assessing the overall condition of a building and anticipating potential deterioration. It allows for the detection of anomalies in order to prevent the risks of deterioration and ensure the safety of the occupants.
It is also a strategic lever for optimising costs by identifying priority works and avoiding unexpected repairs.
Detecting anomalies: cracks, infiltrations, spalling, weakening of materials, etc.
Assess the stability and strength of the structure to ensure the safety of the occupants.
Identify priority tasks to optimise costs and avoid unexpected repairs.
Prevent deterioration risks by anticipating problems before they worsen.
Ensure compliance with current regulations to avoid any regulatory non-compliance.
Process
of intervention
Process
of intervention
Process
of intervention
Process
of intervention
The drone diagnosis
A precise diagnosis for a controlled intervention
Thanks to the use of drones equipped with high-precision sensors, we carry out a detailed and unobtrusive inspection, allowing us to detect cracks, infiltrations, or material degradation. This process guarantees a reliable, quick, and secure analysis while optimizing maintenance and renovation decisions. Discover the different stages of our intervention.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Process
Discover the steps of a building diagnosis
1
Preliminary analysis and preparation
Before any intervention, a study of the existing documents (plans, reports, history of works) allows for the definition of the diagnostic objectives according to the building concerned. This phase also includes the preparation of the equipment and the planning of the inspection to ensure an efficient process.
2
On-site visual inspection
The inspection begins with a meticulous observation of the building's outer shell, including façades, roofs, and other elements exposed to the elements. This analysis helps to detect any potential degradation of the cladding. Each anomaly is recorded using notes and a detailed mapping of the affected areas.
3
In-depth analysis with technological tools
To refine the diagnosis, advanced technologies are used: drone inspection to access complex areas, infrared thermography to identify invisible defects, and non-destructive testing (radar, ultrasound, endoscopy) to assess the integrity of materials without damaging the structure.
4
Samples and laboratory tests (if necessary)
If necessary, samples of materials (concrete, steel, wood) are analysed in the laboratory to assess their strength and identify signs of degradation (asbestos, moisture, corrosion). These tests allow for the anticipation of potential structural weaknesses.
5
Interpretation of the results and final report
All observations are synthesized in a detailed report (DOE), classifying anomalies by level of severity and providing recommendations tailored to budgetary and regulatory constraints (repairs, structural reinforcements or long-term monitoring).
6
Monitoring and recommended interventions
Based on the diagnosis carried out, the following steps in the process may include targeted interventions, such as cleaning the façades to preserve the integrity of the coatings or renovating the roofs by drone to maintain the durability of the building.
Are you interested in a structural diagnosis?
Are you interested in a structural diagnosis?
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FAQ on building diagnosis
In this FAQ, we answer the most frequently asked questions to help you better understand the process, its benefits, and the solutions tailored to your needs.
When should a building structural diagnosis be carried out?
A structural diagnosis is recommended in several situations: before renovation or rehabilitation work, in case of cracks, subsidence or leaks, after a disaster (earthquake, fire, flood), or as part of a regulatory assessment. It helps to anticipate potential structural issues and avoid costly interventions.
When should a building structural diagnosis be carried out?
A structural diagnosis is recommended in several situations: before renovation or rehabilitation work, in case of cracks, subsidence or leaks, after a disaster (earthquake, fire, flood), or as part of a regulatory assessment. It helps to anticipate potential structural issues and avoid costly interventions.
When should a building structural diagnosis be carried out?
A structural diagnosis is recommended in several situations: before renovation or rehabilitation work, in case of cracks, subsidence or leaks, after a disaster (earthquake, fire, flood), or as part of a regulatory assessment. It helps to anticipate potential structural issues and avoid costly interventions.
When should a building structural diagnosis be carried out?
A structural diagnosis is recommended in several situations: before renovation or rehabilitation work, in case of cracks, subsidence or leaks, after a disaster (earthquake, fire, flood), or as part of a regulatory assessment. It helps to anticipate potential structural issues and avoid costly interventions.
How long does a structural diagnosis take?
The duration of a diagnosis varies according to the size and complexity of the building. A standard inspection with a drone can be carried out in a few hours, while a complete diagnosis, including laboratory analyses and a detailed report, can take several days. A precise schedule is defined in advance to ensure a quick and effective intervention.
How long does a structural diagnosis take?
The duration of a diagnosis varies according to the size and complexity of the building. A standard inspection with a drone can be carried out in a few hours, while a complete diagnosis, including laboratory analyses and a detailed report, can take several days. A precise schedule is defined in advance to ensure a quick and effective intervention.
How long does a structural diagnosis take?
The duration of a diagnosis varies according to the size and complexity of the building. A standard inspection with a drone can be carried out in a few hours, while a complete diagnosis, including laboratory analyses and a detailed report, can take several days. A precise schedule is defined in advance to ensure a quick and effective intervention.
How long does a structural diagnosis take?
The duration of a diagnosis varies according to the size and complexity of the building. A standard inspection with a drone can be carried out in a few hours, while a complete diagnosis, including laboratory analyses and a detailed report, can take several days. A precise schedule is defined in advance to ensure a quick and effective intervention.
What are the benefits of a structural diagnosis by drone?
A drone structural survey provides complete coverage of the building in a minimal amount of time, with precise detection of defects (cracks, leaks, thermal losses), and accurate data collection through advanced technologies (thermography, 3D modelling). It also facilitates the monitoring and comparison of structural changes over time.
What are the benefits of a structural diagnosis by drone?
A drone structural survey provides complete coverage of the building in a minimal amount of time, with precise detection of defects (cracks, leaks, thermal losses), and accurate data collection through advanced technologies (thermography, 3D modelling). It also facilitates the monitoring and comparison of structural changes over time.
What are the benefits of a structural diagnosis by drone?
A drone structural survey provides complete coverage of the building in a minimal amount of time, with precise detection of defects (cracks, leaks, thermal losses), and accurate data collection through advanced technologies (thermography, 3D modelling). It also facilitates the monitoring and comparison of structural changes over time.
What are the benefits of a structural diagnosis by drone?
A drone structural survey provides complete coverage of the building in a minimal amount of time, with precise detection of defects (cracks, leaks, thermal losses), and accurate data collection through advanced technologies (thermography, 3D modelling). It also facilitates the monitoring and comparison of structural changes over time.
What is the cost of a structural diagnosis?
The cost depends on several factors: the size of the building, the complexity of the post-intervention data analysis, the equipment used (drones, thermal sensors, laboratory samples) and the level of detail required. For a tailored estimate for your project, it is advisable to request a personalised quote.
What is the cost of a structural diagnosis?
The cost depends on several factors: the size of the building, the complexity of the post-intervention data analysis, the equipment used (drones, thermal sensors, laboratory samples) and the level of detail required. For a tailored estimate for your project, it is advisable to request a personalised quote.
What is the cost of a structural diagnosis?
The cost depends on several factors: the size of the building, the complexity of the post-intervention data analysis, the equipment used (drones, thermal sensors, laboratory samples) and the level of detail required. For a tailored estimate for your project, it is advisable to request a personalised quote.
What is the cost of a structural diagnosis?
The cost depends on several factors: the size of the building, the complexity of the post-intervention data analysis, the equipment used (drones, thermal sensors, laboratory samples) and the level of detail required. For a tailored estimate for your project, it is advisable to request a personalised quote.
What are the deliverables of a structural diagnosis?
At the end of the assessment, several documents are provided to our clients to ensure a clear and usable follow-up. The detailed report consolidates the analysis of observations, prioritises the anomalies, and includes the intervention recommendations. Aerial images and videos, as well as a mapping of risk areas, allow for a precise visualisation of the identified defects. If necessary, a 3D model is provided to track the evolution of the building. Finally, the DOE (Dossier of Executed Works) is established as a contractual document summarising all interventions carried out, a key element to ensure traceability and compliance of the executed works.
What are the deliverables of a structural diagnosis?
At the end of the assessment, several documents are provided to our clients to ensure a clear and usable follow-up. The detailed report consolidates the analysis of observations, prioritises the anomalies, and includes the intervention recommendations. Aerial images and videos, as well as a mapping of risk areas, allow for a precise visualisation of the identified defects. If necessary, a 3D model is provided to track the evolution of the building. Finally, the DOE (Dossier of Executed Works) is established as a contractual document summarising all interventions carried out, a key element to ensure traceability and compliance of the executed works.
What are the deliverables of a structural diagnosis?
At the end of the assessment, several documents are provided to our clients to ensure a clear and usable follow-up. The detailed report consolidates the analysis of observations, prioritises the anomalies, and includes the intervention recommendations. Aerial images and videos, as well as a mapping of risk areas, allow for a precise visualisation of the identified defects. If necessary, a 3D model is provided to track the evolution of the building. Finally, the DOE (Dossier of Executed Works) is established as a contractual document summarising all interventions carried out, a key element to ensure traceability and compliance of the executed works.
What are the deliverables of a structural diagnosis?
At the end of the assessment, several documents are provided to our clients to ensure a clear and usable follow-up. The detailed report consolidates the analysis of observations, prioritises the anomalies, and includes the intervention recommendations. Aerial images and videos, as well as a mapping of risk areas, allow for a precise visualisation of the identified defects. If necessary, a 3D model is provided to track the evolution of the building. Finally, the DOE (Dossier of Executed Works) is established as a contractual document summarising all interventions carried out, a key element to ensure traceability and compliance of the executed works.
next generation renovation
Renovate your assets intelligently with a faster, more economical and safer solution.
At FlyRenov, we are revolutionising building maintenance with quick, precise, and safe interventions. Forget the constraints of traditional sites and adopt an efficient, reliable, and non-intrusive solution. Make the switch to next-generation renovation right now!

FlyRenov © 2024 | All rights reserved | Simplified joint-stock company with a capital of €153,840 registered under number RCS 900 085 275.
next generation renovation
Renovate your assets intelligently with a faster, more economical and safer solution.
At FlyRenov, we are revolutionising building maintenance with quick, precise, and safe interventions. Forget the constraints of traditional sites and adopt an efficient, reliable, and non-intrusive solution. Make the switch to next-generation renovation right now!

FlyRenov © 2024 | All rights reserved | Simplified joint-stock company with a capital of €153,840 registered under number RCS 900 085 275.
renovation
new generation
Renovate your assets intelligently with a faster, more economical and safer solution.
At FlyRenov, we are revolutionising building maintenance with quick, precise, and safe interventions. Forget the constraints of traditional sites and adopt an efficient, reliable, and non-intrusive solution. Make the switch to next-generation renovation right now!

FlyRenov © 2024 | All rights reserved | Simplified joint-stock company with a capital of €153,840 registered under number RCS 900 085 275.
next generation renovation
Renovate your assets intelligently with a faster, more economical and safer solution.
At FlyRenov, we are revolutionising building maintenance with quick, precise, and safe interventions. Forget the constraints of traditional sites and adopt an efficient, reliable, and non-intrusive solution. Make the switch to next-generation renovation right now!

FlyRenov © 2024 | All rights reserved | Simplified joint-stock company with a capital of €153,840 registered under number RCS 900 085 275.