Trusted IoT
The innovative platform that guarantees the reliability and authenticity of digital data generated using IoT devices.
Total security for your data and IoT
devices
Trusted IoT is a PKI (Public Key Infrastructure) platform developed to ensure trustworthiness and immutability of generated data, particularly those from massive sources like machinery or gateways. It addresses the need of companies and Public Administration to collect data with the highest security and temporal accuracy.
It offers the possibility to archive securely using an optional service that ensures complete and reliable management of critical information.
This new service implements an integrated stamping and signing process to guarantee the immutability of the data, also adding secure archiving.
The Trusted IoT solution represents a concrete response to the security needs of IoT communications and devices through the use of digital certificates and advanced encryption.
Total security for your data and IoT
devices
Trusted IoT is a PKI (Public Key Infrastructure) platform developed to ensure trustworthiness and immutability of generated data, particularly those from massive sources like machinery or gateways. It addresses the need of companies and Public Administration to collect data with the highest security and temporal accuracy.
It offers the possibility to archive securely using an optional service that ensures complete and reliable management of critical information.
This new service implements an integrated stamping and signing process to guarantee the immutability of the data, also adding secure archiving.
The Trusted IoT solution represents a concrete response to the security needs of IoT communications and devices through the use of digital certificates and advanced encryption.
An innovative and versatile solution
An innovative and versatile solution
The data generated within the Internet of Things is playing an increasingly central role, as its use expands in both the public and private sectors.
The Trusted IoT solution is designed specifically to address all the technical challenges that the adoption of connected sensors brings with it, and it is virtually adaptable to any device.
An innovative and versatile solution
The data generated within the Internet of Things is playing an increasingly central role, as its use expands in both the public and private sectors.
The Trusted IoT solution is designed specifically to address all the technical challenges that the adoption of connected sensors brings with it, and it is virtually adaptable to any device.
Applicability of Trust in IoT
Applicability of Trust in IoT
The use of traceability in IoT data is relevant across a wide range of practical scenarios and offers
numerous benefits.
Full management
Control and monitoring of the non-qualified signature certificate infrastructure through a dedicated panel.
Security and confidentiality
No data access by Actalis, ensuring the integrity and provenance of the data.
Affordability and flexibility
Pay-per-use payment model for non-qualified timestamps with transparent costs.
Supply Chain monitoring
Scenario:
Companies that transport sensitive goods, such as fresh food products or medicines, can use IoT devices to monitor temperature, humidity, and location along the supply chain.
Importance of traceability:
Ensure that the data on temperature and other environmental conditions have not been altered and can be definitively associated with the specific sensor that generated them. This helps verify that the goods have been stored in appropriate conditions.
Industrial security
Scenario:
IoT sensors installed in factories monitor machinery to detect anomalies or suboptimal performance.
Importance of traceability:
Ensure that malfunction alerts originate from the identified machinery and are not due to errors or interference, minimizing operational risks.
Payments and Contracts based on IoT
Scenario:
IoT devices in the "Economy of Things" automate payments or contracts, such as in the case of an electricity distributor that manages transactions based on measured consumption.
Importance of traceability:
Ensure that consumption data and related payments are accurate, not manipulated, and traceable to the authorized devices.
Environmental Compliance and Reporting
Scenario:
Companies that adopt ESG (Environmental, Social, Governance) models use IoT devices to monitor environmental impact (emissions, water consumption, etc.).
Importance of traceability:
Ensure that the data used for ESG reporting is genuine and verifiable to avoid compliance issues and maintain stakeholder trust.
Smart Cities and Urban IoT
Scenario:
IoT sensors monitor traffic, air quality, and energy consumption to optimize urban services.
Importance of traceability:
Ensure that air quality data, for example, has not been tampered with, providing reliable data for administrative decisions and public communications.
Precision Agriculture
Scenario:
IoT sensors monitor soil conditions, irrigation, and fertilizer usage to optimize agricultural productivity.
Importance of traceability:
Confirm that the data from the sensors is authentic and associated with the correct field, ensuring effective agronomic decisions.
Medical Device Management
Scenario:
Wearable or implantable medical devices collect patient health data, such as heart rate or glucose levels.
Importance of traceability:
Ensure that the data comes from the correct device and has not been tampered with, guaranteeing diagnoses and interventions based on reliable data.
Aerospace and Defense Industry
Scenario:
IoT sensors on airplanes or drones collect critical data during flights or missions.
Importance of traceability:
Verify that the data collected is reliable and uncompromised for security analysis and military strategies.
Supply Chain monitoring
Scenario:
Companies that transport sensitive goods, such as fresh food products or medicines, can use IoT devices to monitor temperature, humidity, and location along the supply chain.
Importance of traceability:
Ensure that the data on temperature and other environmental conditions have not been altered and can be definitively associated with the specific sensor that generated them. This helps verify that the goods have been stored in appropriate conditions.
Industrial security
Scenario:
IoT sensors installed in factories monitor machinery to detect anomalies or suboptimal performance.
Importance of traceability:
Ensure that malfunction alerts originate from the identified machinery and are not due to errors or interference, minimizing operational risks.
Payments and Contracts based on IoT
Scenario:
IoT devices in the "Economy of Things" automate payments or contracts, such as in the case of an electricity distributor that manages transactions based on measured consumption.
Importance of traceability:
Ensure that consumption data and related payments are accurate, not manipulated, and traceable to the authorized devices.
Environmental Compliance and Reporting
Scenario:
Companies that adopt ESG (Environmental, Social, Governance) models use IoT devices to monitor environmental impact (emissions, water consumption, etc.).
Importance of traceability:
Ensure that the data used for ESG reporting is genuine and verifiable to avoid compliance issues and maintain stakeholder trust.
Smart Cities and Urban IoT
Scenario:
IoT sensors monitor traffic, air quality, and energy consumption to optimize urban services.
Importance of traceability:
Ensure that air quality data, for example, has not been tampered with, providing reliable data for administrative decisions and public communications.
Precision Agriculture
Scenario:
IoT sensors monitor soil conditions, irrigation, and fertilizer usage to optimize agricultural productivity.
Importance of traceability:
Confirm that the data from the sensors is authentic and associated with the correct field, ensuring effective agronomic decisions.
Medical Device Management
Scenario:
Wearable or implantable medical devices collect patient health data, such as heart rate or glucose levels.
Importance of traceability:
Ensure that the data comes from the correct device and has not been tampered with, guaranteeing diagnoses and interventions based on reliable data.
Aerospace and Defense Industry
Scenario:
IoT sensors on airplanes or drones collect critical data during flights or missions.
Importance of traceability:
Verify that the data collected is reliable and uncompromised for security analysis and military strategies.
Supply Chain monitoring
Scenario:
Companies that transport sensitive goods, such as fresh food products or medicines, can use IoT devices to monitor temperature, humidity, and location along the supply chain.
Importance of traceability:
Ensure that the data on temperature and other environmental conditions have not been altered and can be definitively associated with the specific sensor that generated them. This helps verify that the goods have been stored in appropriate conditions.
Industrial security
Scenario:
IoT sensors installed in factories monitor machinery to detect anomalies or suboptimal performance.
Importance of traceability:
Ensure that malfunction alerts originate from the identified machinery and are not due to errors or interference, minimizing operational risks.
Payments and Contracts based on IoT
Scenario:
IoT devices in the "Economy of Things" automate payments or contracts, such as in the case of an electricity distributor that manages transactions based on measured consumption.
Importance of traceability:
Ensure that consumption data and related payments are accurate, not manipulated, and traceable to the authorized devices.
Environmental Compliance and Reporting
Scenario:
Companies that adopt ESG (Environmental, Social, Governance) models use IoT devices to monitor environmental impact (emissions, water consumption, etc.).
Importance of traceability:
Ensure that the data used for ESG reporting is genuine and verifiable to avoid compliance issues and maintain stakeholder trust.
Smart Cities and Urban IoT
Scenario:
IoT sensors monitor traffic, air quality, and energy consumption to optimize urban services.
Importance of traceability:
Ensure that air quality data, for example, has not been tampered with, providing reliable data for administrative decisions and public communications.
Precision Agriculture
Scenario:
IoT sensors monitor soil conditions, irrigation, and fertilizer usage to optimize agricultural productivity.
Importance of traceability:
Confirm that the data from the sensors is authentic and associated with the correct field, ensuring effective agronomic decisions.
Medical Device Management
Scenario:
Wearable or implantable medical devices collect patient health data, such as heart rate or glucose levels.
Importance of traceability:
Ensure that the data comes from the correct device and has not been tampered with, guaranteeing diagnoses and interventions based on reliable data.
Aerospace and Defense Industry
Scenario:
IoT sensors on airplanes or drones collect critical data during flights or missions.
Importance of traceability:
Verify that the data collected is reliable and uncompromised for security analysis and military strategies.
In all these cases, Trusted IoT ensures efficient management of large data volumes, supports servitization models, facilitates ESG reporting, and provides a solid foundation for artificial intelligence initiatives. Data traceability ensures data integrity, origin, and authenticity, reducing operational risks, ensuring regulatory compliance, and building trust among stakeholders.
In all these cases, Trusted IoT ensures efficient management of large data volumes, supports servitization models, facilitates ESG reporting, and provides a solid foundation for artificial intelligence initiatives. Data traceability ensures data integrity, origin, and authenticity, reducing operational risks, ensuring regulatory compliance, and building trust among stakeholders.
Alleantia case study
Alleantia is an international market leader in the development and commercialization of innovative software solutions applied to the "Industrial Internet of Things" (iIoT). These solutions are capable of connecting industrial devices in any type of environment for real-time monitoring of every phase of the production process and predicting errors.
Actalis and Alleantia have initiated a collaboration aimed at managing identity, authentication, and security of devices in the IoT field, combining their respective experiences on the following topics:
Certification and authentication of the identity of connected devices, which collect, process, and send data to management, maintenance, and monitoring software
Certification and authenticity of the transmitted data
Edge-to-cloud and cloud-to-edge communication protection and the related perception of security by the average user accessing services via browser
Minimizing preliminary activities for clients (e.g. network configurations). These topics are particularly sensitive considering the continuous evolution of the «servitization» of the IoT world towards predictive maintenance services, M2M marketplaces, end-to-end automation, and real-time reactive supply chains.
Alleantia case study
Alleantia is an international market leader in the development and commercialization of innovative software solutions applied to the "Industrial Internet of Things" (iIoT). These solutions are capable of connecting industrial devices in any type of environment for real-time monitoring of every phase of the production process and predicting errors.
Actalis and Alleantia have initiated a collaboration aimed at managing identity, authentication, and security of devices in the IoT field, combining their respective experiences on the following topics:
Certification and authentication of the identity of connected devices, which collect, process, and send data to management, maintenance, and monitoring software
Certification and authenticity of the transmitted data
Edge-to-cloud and cloud-to-edge communication protection and the related perception of security by the average user accessing services via browser
Minimizing preliminary activities for clients (e.g. network configurations). These topics are particularly sensitive considering the continuous evolution of the «servitization» of the IoT world towards predictive maintenance services, M2M marketplaces, end-to-end automation, and real-time reactive supply chains.
Aruba security and service quality certifications
Aruba security and service quality certifications
Certification through the generation of timestamps provided by Aruba, of which Actalis is a part, confers an additional level of trust and security.
Aruba data centers are all certified for the quality and security of services provided, including:
Certification through the generation of timestamps provided by Aruba, of which Actalis is a part, confers an additional level of trust and security.
Aruba data centers are all certified for the quality and security of services provided, including:
Rating 4 ANSI/TIA
Facilities that comply with or exceed standards
ISO 27001
Facilities that comply with or exceed standards
ISO 9001
Organization quality
ISO 14001
Certified environmental management
ISO 50001
Energy management system
ISO 22237
Data centre facilities and infrastructures
ISO 20000-1
IT Services management
ISO 22301
Business Continuity Management System
For more details, visit the datacenter.it website.
For more details, visit the datacenter.it website.
FAQs
FAQs
What services does Trusted IoT offer?
Trusted IoT offers non-qualified signature certificates and non-qualified timestamps with secure storage options.
How can I access Trusted IoT services?
You can access the Trusted IoT services through our dedicated panel or via API.
How can you guarantee the security of IoT messages?
To ensure the security of communications in the Internet of Things (IoT), it is essential to implement robust technological and organizational measures. Below are the most important ones.
- Digital Certificates and Electronic Signatures: Using non-qualified digital signature certificates to uniquely identify the origin of the data generated by IoT devices and to ensure data integrity.
- Timestamps for Data Integrity: Applying electronic timestamps to ensure data integrity and detect any alterations. These ensure that data has not been modified after their timestamp.
- Certificate Lifecycle Management: Monitoring and managing the lifecycle of certificates through a dedicated platform.
- Data Protection: Secure data storage with optional digital preservation solutions that ensure their protection and accessibility over time.
- Use of Secure Infrastructures: Utilizing certified infrastructures that comply with the highest security standards.
- Privacy and Traceability: Disclosure of personal details is not required, but data traceability and integrity are guaranteed.
- APIs and Automation: Integration through APIs to facilitate secure transactions between devices, promoting process automation.
These measures provide a solid foundation for creating secure IoT ecosystems, enhancing trust and compliance with regulations such as the GDPR in Europe.
Having a Trusted IoT solution today is essential. Request a free consultation now.
We provide all the technological tools and expertise needed to support you in the design and implementation of large-scale customized solutions.
Having a Trusted IoT solution today is essential.
Request a free consultation now.
We provide all the technological tools and expertise needed to support you in the design and implementation of large-scale customized solutions.