Phases that an IoT project must go through to ensure success

Feasibility and viability analysis

We validate and justify the developments before writing
the first line of code or designing the first electronic circuit.

We collaborate with the analysis of requirements, technical specifications and availability of technologies.

We determine the technological technological feasibility based on technical and economic requirements.

We design the technical technical development of the projects.

Type of questions that can be answered

How feasible is the project with the technology at hand?

Is it sustainable or is it just an interesting but not executable idea at the moment?

Do we know how to get investment funds excited about joining the project?

Alignment with sustainability goals (SDGs)

We focus on developments based on the consumption of raw materials, the selection of suppliers and partners aligned with corporate responsibility models, both in "Circular Economy" and with the "Triple Impact": social, environmental and economic.

Today we know that projects aligned with sustainability can be more profitable than those driven by traditional models, where a large part of the objectives are oriented towards maximizing economic performance.

For sustainability to be successful:

We analyze the impact of the project according to various sustainability goals (SDGs) aligned 100% with the 2030 agenda and sustainable development goals.

Addition of technological and functional considerations that broaden the impact of the project and the availability of European funds that favor project implementation.

Type of questions that can be answered

Is the project to be executed sustainable (from different points of view)?

Knowing that it is sustainable, how likely would it be to have European funds to support all or part of the development cost?

Could some functionality be added that transforms the idea into a sustainable, social, environmental and economic development?

Technical execution of projects and/or services

The execution of projects in which electronics, embedded software and experienced talents are involved in an innovative environment is the starting point to ensure the success of an IoT project.

Benchmarking, testing and validation of sensors and actuators according to technical specifications.

Electronic design, hardware / firmware development and validation, PCB development, component assembly, prototype testing and approval.

Embedded and and custom software.

Development of control and performance and performance dashboards.

Integration with existing systems, expansion of functionalities, advanced monitoring.

Damage prevention, damage prevention, data-driven, learning and AI.

Connectivity and interoperability of sensors.

Determination of the need to implement mission-critical technologies at the software and hardware level. technologies at software and hardware level.

Type of questions that can be answered

Can we foresee malfunctions, errors, breakdowns in good time and thus avoid general malfunctions?

How much certainty do we have about the continuity of service if critical or even unthinkable situations arise?

Is it possible to obtain intermediate development results, such as partial deliverables?

Advanced learning and simulation

We validate and justify the developments before writing the first line of code or designing the first electronic circuit.

We provide computational power and storage for training AI algorithms.

Simulation and behavioral subjection to high loads and/or various stress and/or various stress situations.

Estimation, verification and adequacy of the various operational thresholds for each critical component.

Type of questions that can be answered

What happens if the activity or load is higher than the levels reported at the beginning of the project?

How do we control an item to which we do not have physical access (e.g., remote locations that are difficult to access)?

What happens if environmental conditions suddenly change?