Integrated design is an advanced project development method that brings together various engineering disciplines into a single collaborative process. This multidisciplinary approach, which includes assessments of wide-field electromagnetic fields, electrical, civil, and structural aspects, allows for addressing the complexity of modern projects more efficiently and in a more coordinated manner.

Compared to traditional design, where each discipline works separately, integrated design promotes constant interaction between different teams. This continuous exchange of information from the early stages helps prevent technical conflicts, reduce errors, and optimize time and costs. Moreover, it encourages the adoption of innovative solutions that better meet project requirements, ensuring higher quality and sustainability.

Our Studio handles all administrative aspects involved in project implementation, from accurately identifying the appropriate administrative procedures required by each responsible Authority to the commencement of activities.

We manage the preparation of comprehensive documentation necessary for overseeing the relationship between the Client and Public Administration to ensure continuous and timely service delivery, along with flexibility that matches the actual needs of the production process, offering customized management solutions tailored specifically to each Client.

Documentation is often considered a bureaucratic burden: this is precisely where we step in, effectively coordinating all stakeholders involved in the project, thanks to a team skilled in navigating regulatory frameworks, technical requirements, and public and private organizational structures.

From selecting the type of intervention and determining the procedure to follow, to the quality of the chosen administrative process, our services include:

• Contract execution and reduction of approval times with Authorities;
• Management of relations with Companies and promotion of productive activities;
• Drafting applications for obtaining administrative authorizations and building permits;
• Drafting applications to obtain technical opinions required for decision-making;
• Planning, development, and monitoring of project management processes within the Public Administration;
• Electronic submission of applications via various online portals established to obtain the necessary approvals.

Plant engineering is a discipline that focuses on the design, installation, and management of technical systems within buildings and infrastructure. This branch of engineering includes various specializations, such as:

• TLC Systems (Telecommunications): These encompass the technologies, infrastructures, and protocols used for the transmission of information over long distances.
• Electrical Systems: These include the design and installation of electrical networks to ensure adequate energy supply, lighting, and electrical safety in buildings.
• Hydraulic Systems: These involve the management of potable water, wastewater, and sewage networks. They also include the design of systems for water heating and irrigation.

Plant engineering is essential for ensuring the functionality, energy efficiency, and sustainability of buildings, contributing to the well-being of occupants and the reduction of environmental impact.

Structural projects involve the design, construction, and management of buildings, bridges, infrastructure, and special structures, ensuring their safety, functionality, and long-term durability. This field of engineering applies principles of material strength, structural analysis, and technical regulations to create structures capable of withstanding loads and environmental stresses without compromising stability.

The main features of structural projects include:

• Strength Analysis: Evaluation of materials and geometries to ensure the load-bearing capacity of structures.
• Material Efficiency: Use of high-strength and sustainable materials to optimize performance and reduce environmental impact.
• Advanced Construction Techniques: Use of innovative methodologies, such as prefabrication and digital technologies, to enhance precision and efficiency.
• Safety and Regulations: Compliance with seismic regulations, safety requirements, and local codes to ensure the protection of people and property.
• Durability and Maintenance: Design of structures resistant to corrosion, weather conditions, and long-term wear.

A specific example of a structural project is steel antenna support poles, used to support telecommunications antennas, lighting, or power lines. These elements must be designed to withstand wind loads, vibrations, and harsh weather conditions, ensuring stability and long-term durability.

In summary, structural projects represent a fundamental pillar of civil and industrial engineering, with applications ranging from public infrastructure to specialized structures, contributing to the safety and efficiency of modern constructions.

The Electromagnetic Impact Analysis (EIA) is a technical study that we prepare on behalf of telecommunication operators, as it is mandatory to produce and submit it for new installations or upgrades to the relevant municipalities and territorial authorities (ARPA) for compliance assessment.

This study takes into account the relevant CEI standards, the radioelectric data of the installation, and the territorial context where the Radio Base Station (RBS) is located or planned. Using specific instruments and dedicated software, a forecast of expected values is obtained to demonstrate compliance with:

• exposure limits,
• attention values,
• quality objectives.

These parameters are established by Legislative Decree No. 259 of August 1, 2003 also known as the “Electronic Communications Code” and subsequent amendments, and by the Law No. 36 of February 22, 2001 e s.m.i.

We specialize in technical consulting, providing expert support for the management of building, plant, and production practices. Our service includes comprehensive assistance, from the initial assessment to obtaining the necessary authorizations, ensuring regulatory compliance and process optimization.

The main activities we carry out include:

• Technical and regulatory feasibility analysis: Preliminary assessment of requirements and constraints to ensure project compliance.
• Preparation of technical documentation: Drafting of reports, expert opinions, and technical studies required for the submission of practices.
• Management of telematic practices: Submission of applications through dedicated platforms such as CALABRIASUE, SUET, CALABRIASUAP, Sportello Telematico Polifunzionale, IMPRESA IN UN GIORNO.
• Assistance in the authorization process: Monitoring and support for obtaining the necessary permits from the relevant authorities.
• Regulatory compliance verification: Checking adherence to current regulations to prevent potential issues.
• Optimization of timelines and procedures: Implementation of strategies to expedite the bureaucratic process and reduce waiting times.

Thanks to our experience, we offer highly qualified technical consulting services, ensuring effective and reliable support at every stage of the project.

We specialize in the creation of structural and plant executive designs, ensuring a comprehensive service that includes both technical design and the management of the bureaucratic process required for approval and implementation of the interventions.

The main activities we carry out include:

• Preparation of structural and plant executive designs: Development of detailed technical drawings and executive projects for the construction of works.
• Management of the bureaucratic process: Preparation of applications and permit requests to obtain the necessary administrative authorizations.
• Monitoring of the authorization process: We follow every step of the bureaucratic process until the necessary authorizations are obtained.
• Regulatory compliance: We ensure that all projects comply with current regulations, preventing delays and legal issues.
• Optimization of procedures: We streamline the process, reducing waiting times and improving operational efficiency.

Thanks to our experience, we provide complete technical and administrative support, ensuring effective and reliable management of every stage of the project.

The quality of materials is a fundamental element in ensuring the performance and reliability of products.
To confirm that a product is truly intact and compliant with specific standards, it is subjected to a series of tests: Non-Destructive Testing (NDT).

Non-destructive testing includes a set of techniques and methodologies that allow the study of the structure and integrity of materials without causing damage.
These controls can be applied to various materials: metals, plastic, ceramic, and other composites.

The main goal is to detect surface and subsurface defects, such as cracks, porosity, inclusions, and other imperfections
that may compromise both the structural and functional quality of the material.
The importance of NDT

• Accident prevention
• Improvement of final product quality
• Increase in product lifespan
• Reduction of maintenance costs

Applied specialist techniques

• PT – Dye Penetrant Testing: application of a penetrant agent on the surface of the material. The liquid penetrates defects by capillary action and, through color contrast, highlights any irregularities.
• VT – Visual Testing: visual inspection of the material’s surface to identify defects visible to the naked eye.
• MT – Magnetic Particle Testing: use of ferromagnetic particles suspended in a liquid, attracted by magnetic fields generated in the presence of defects.
• UT – Ultrasonic Testing: use of high-frequency sound waves to detect internal defects and analyze the structural characteristics of the material.

Our personnel are certified to operate in compliance with UNI EN ISO 9712:2022,
with level 2 qualifications for UT, VT, PT, and MT methods.