ISO/IEC 30197-1 ED1 Internet of Things (IoT) - IoT for stress management, good health and well-being – Part 1: Framework
Draft under development
Draft under development
The sectors of Digital Twins, Virtual Worlds/Citiverse, IoT and Data Spaces are fragmented, especially the uneven uptake of NGSI‑LD, Smart Data Models/SAREF and governance models creates a barrier for cross‑domain interoperability in cities. Therefore, I focus on harmonising these layers within ITU‑T Citiverse and EU Local Digital Twin (LDT) Toolbox. I also contribute to aligning LDT and Data Space governance with UNE 0087:2025 and the Gaia‑X Trust Framework to operationalise sovereignty, compliance and automated conformance. Moreover, I contribute to mapping LDT/MIM8, NGSI‑LD, SIMPL and Citiverse deliverables to speed deployment and avoid duplicate or conflicting specs.
The focus of my fellowship was to support the Integration of IoT, data interoperability, and standardisation practices into agricultural digital transformation frameworks.
The main gaps addressed through this fellowship were the lack of national policy alignment, weak participation in standardisation processes, and limited awareness of ICT interoperability frameworks in the Western Balkans, particularly Kosovo. Until recently, standardisation in agriculture was not part of the national digitalisation agenda, leaving many innovations fragmented and incompatible with EU frameworks.
In this context, I contributed to the national consultation and standardisation alignment process that shaped the Digital Agriculture Programme and Action Plan 2025–2028 in Kosovo, referencing European standards such as SAFE4Agri, ETSI SAREF4Agri, and ISO/IEC 30141.
Through the fellowship, I helped initiate dialogue between national authorities, FAO–AKIS, and regional organisations to begin integrating ICT standardisation principles into agriculture policy.
The challenge was not only technical but also institutional and educational — to convince policymakers and agricultural associations of the value of adopting open European standards. As one of the first developers to successfully deploy smart irrigation IoT solutions in Kosovo, I used practical examples to demonstrate the benefits of standardisation and its role in improving interoperability, transparency, and SME innovation.
This fellowship therefore contributed to bridging the policy gap between innovation and regulation, ensuring that Western Balkan countries begin integrating EU ICT standardisation frameworks into their national digital-agriculture strategies.
This fellowship supported my work in updating to the IEEE 802.11 standard to prevent a recently discovered security weakness. This weakness is related to mesh networks, where, without extra defenses, an adversary could inject arbitrary packets into protected mesh networks. We designed a defense to mitigate this challenging gap. Unique about our created defense is that it is fully backward compatible, meaning each individual mesh client can independently enable this defense. As a proof-of-concept, we also implemented this defense in the Linux kernel to demonstrate practicality and confirm it prevents attacks.
In this amendment to IEEE Std 802.15.4TM-2011, a physical layer for IEEE 802.15.4 in the 2360 MHz to 2400 MHz band which complies with Federal Communications Commission (FCC) MBAN rules is defined. Modifications to the MAC needed to support this new physical layer are also defined in this amendment.
To define an ISO/OSI application layer for communication systems for and remote reading of all meters within the scope of TC 294 to fullfill the user requirements as defined by WG 1 (as one part of the standards). To define and maintain a glossary of terms (as one part of the standards).