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IEEE - P7009 - Standard for Fail-Safe Design of Autonomous and Semi-Autonomous Systems

This standard establishes a practical, technical baseline of specific methodologies and tools for the development, implementation, and use of effective fail-safe mechanisms in autonomous and semi-autonomous systems. The standard includes (but is not limited to): clear procedures for measuring, testing, and certifying a system's ability to fail safely on a scale from weak to strong, and instructions for improvement in the case of unsatisfactory performance. The standard serves as the basis for developers, as well as users and regulators, to design fail-safe mechanisms in a robust, transparent, and accountable manner.

IEEE - ASV WG_P7001 - Autonomous Systems Validation Working Group_P7001

A key concern over autonomous systems (AS) is that their operation must be transparent to a wide range of stakeholders, for different reasons. (i) For users, transparency is important because it builds trust in the system, by providing a simple way for the user to understand what the system is doing and why. If we take a care robot as an example, transparency means the user can quickly understand what the robot might do in different circumstances, or if the robot should do anything unexpected, the user should be able to ask the robot 'why did you just do that?'. (ii) For validation and certification of an AS transparency is important because it exposes the system's processes for scrutiny. (iii) If accidents occur, the AS will need to be transparent to an accident investigator; the internal process that led to the accident need to be traceable. Following an accident (iv) lawyers or other expert witnesses, who may be required to give evidence, require transparency to inform their evidence. And (v) for disruptive technologies, such as driverless cars, a certain level of transparency to wider society is needed in order to build public confidence in the technology. For designers, the standard will provide a guide for self-assessing transparency during development and suggest mechanisms for improving transparency (for instance the need for secure storage of sensor and internal state data, comparable to a flight data recorder or black box).

IEEE - ALGB-WG - Algorithmic Bias Working Group

This standard is designed to provide individuals or organizations creating algorithms, largely in regards to autonomous or intelligent systems, certification-oriented methodologies to provide clearly articulated accountability and clarity around how algorithms are targeting, assessing and influencing the users and stakeholders of said algorithm. Certification under this standard will allow algorithm creators to communicate to users, and regulatory authorities, that up-to-date best practices were used in the design, testing and evaluation of the algorithm to avoid unjustified differential impact on users.

IEEE - WG-CSDG - Working Group for Child and Student Data Governance

This standard is designed to provide organizations handling child and student data governance-oriented processes and certifications guaranteeing the transparency and accountability of their actions as it relates to the safety and wellbeing of children, their parents, the educational institutions where they are enrolled, and the community and societies where they spend their time, both on and offline. It is also designed to help parents and educators, with an understanding that most individuals may not be tech-savvy enough to understand underlying issues of data usage, but still must be properly informed about the safety of their children's data and provided with tools and services that provide proper opportunities for content based, pre-informed choice regarding their family's data.

IEEE 2600-2008 - C/CPSC - IEEE Standard for Information Technology: Hardcopy Device and System Security

This standard defines security requirements (all aspects of security including but not limited to authentication, authorization, privacy, integrity, device management, physical security, and information security) for manufacturers, users, and others on the selection, installation, configuration, and usage of hardcopy devices (HCDs) and systems, including printers, copiers, and multifunction devices (MFDs), and the computer systems that support these devices.

IEEE 1619.1-2007 - C/CPSC - IEEE Standard for Authenticated Encryption with Length Expansion for Storage Devices

This standard specifies cryptographic and data authentication procedures for storage devices that support length-expansion, such as tape drives. Such procedures include the following cryptographic modes of operation for the AES block cipher: CCM, GCM, CBC-HMAC, and XTS-HMAC.

Inclusion and Application Standards for Automated Facial Analysis Technology

The standard provides phenotypic and demographic definitions that technologists and auditors can use to assess the diversity of face data used for training and benchmarking algorithmic performance, establishes accuracy reporting and data diversity protocols/rubrics for automated facial analysis, and outlines a rating system to determine contexts in which automated facial analysis technology should not be used.

P7013

Joanna Olszewska

Fellow's country
Impact on SMEs (7th Open Call)
The work undertaken in this Fellowship intends to help clarifying for the EU SMEs and overall European Industry the direction they would have to take to ensure their autonomous systems are compliant with the guidelines developed in these IEEE and ISO/IEC/IEEE standardization efforts.The delivered and planned events/talks/tutorials intend to increase interactions and knowledge sharing of challenges and guidelines for the European SMEs and Industry to prepare Europe to be ready for the next-generation of trustworthy autonomous systems.
Indeed, providing a clear overview of the topic and of the ongoing standardization effort in the field of trustworthy autonomous systems aim to support European standardisation activities in order to set adequate guidelines for European SMEs to help the design and manufacturing of trustworthy autonomous systems which in turn are key enablers for both the economic growth and people well-being.
Impact on society (7th Open Call)
New technologies such as autonomous systems are aimed to both bring economic growth and increase people's well-being. However, trustworthiness is a key aspect for people to use these systems. To produce and deploy such trustworthy autonomous systems, industry and governmental bodies need standards and guidelines. At the moment, there are no IEEE standards directly focused on Trustworthy Autonomous Systems.
One of the main challenges is that the study of trustworthy autonomous systems is intrinsically multi-disciplinary, spanning across fields such as robotics, systems engineering, software engineering, artificial intelligence, as well as safety, transparency, and ethics. Currently, the related standardization efforts are occurring separately in the different scientific communities and they are not specific to trustworthy autonomous systems.
Therefore, this project aims to address this gap by bridging the different standardisation efforts and by paving the way towards a standard on trustworthy autonomous systems.
Open Call
Organisation type
Organization
University of the West of Scotland
Portrait Picture
Joanna Olszewska
Proposal Title (7th Open Call)
Towards Trustworthy Autonomous Systems: Bridging Societal Expectations and Technical Advances
Role in SDO
Standards Development Organisation
StandICT.eu Year
2026
Topic (7th Open Call)