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CALL FOR WORKSHOP PAPERS</div>
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21th Annual International Conference on Distributed Computing in Smart Systems and the Internet of Things (DCOSS-IoT 2021)</div>
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Lucca, Italy</div>
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June 9-June 11, 2025</div>
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<span style="color:rgb(0,0,0)">
</span><span style="color:rgb(70,120,134)"><u><a href="https://dcoss.org/" id="m_-5918646870424544404OWA41f5671e-01a1-c17f-80d0-d88eb4f8f7f6" style="color:rgb(70,120,134)" target="_blank">https://dcoss.org/</a></u></span></div>
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<span style="color:rgb(0,0,0)">DCOSS-IoT 2025 will feature <b>12</b> thematic
Workshops addressing recent trends and special topics in relevant
research and technology. The accepted papers of all Workshops will be
included in full text in IEEE Proceedings,
available at IEEE Xplore. For the full details and individual dates,
please refer to
</span><span style="color:rgb(70,120,134)"><u><a href="http://www.dcoss.org/" id="m_-5918646870424544404OWAff2e522c-8a60-8b2b-1b34-73177d95f02f" style="color:rgb(70,120,134)" target="_blank">www.dcoss.org</a></u></span><span style="color:rgb(0,0,0)">.</span></div>
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Wi-DroIT 2025 (7th International Workshop on Wireless Sensors and Drones in Internet of Things)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
IoTI5 2025 (7th International Workshop on IoT Applications and Industry 5.0)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
SmaCE 2025 (7th IEEE International Workshop on Workshop on Smart Circular Economy)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
ISIoT 2025 (7th International Workshop on Intelligent Systems for the Internet of Things)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
UrbCom 2025 (7th International Workshop on Urban Computing)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
SecRIoT 2025 (6th International Workshop on Security and Reliability of IoT)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
DISCOLI 2025 (4th International Workshop on Distributed Collective Intelligence)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
LS-NoT 2025 (2nd International Workshop on Long and Short Range Wireless Technologies Applied to IoT for Networks of Tomorrow)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
REFRESH 2025 (5th International Workshop on Real-life modeling in 6G networks)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
IoT-Green 2025 (1st International Workshop on IoT-Driven Urban Sustainability and Green Technology)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
HIEMI 2025 (1st International Workshop on Hybrid Intelligence for Internet of Everything Models and Implementations)</li><li style="font-family:Aptos,Aptos_EmbeddedFont,Aptos_MSFontService,Calibri,Helvetica,sans-serif;font-size:12pt;color:rgb(0,0,0);line-height:116%;margin:0cm 0cm 0cm 36pt">
TI 2025 (2nd International Workshop on Next Generation IoT and AI systems for Trusted, Human-Centered Intelligence)</li></ul>
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<b>Workshop Chairs:</b></div>
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Thomas Lagkas (Democritus University of Thrace, Greece)</div>
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Claudio Savaglio (Università della Calabria, Italy)</div>
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<b>Wi-DroIT 2025 (7th International Workshop on Wireless Sensors and Drones in Internet of Things)</b></div>
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Recently, the rapid development of Unmanned Autonomous Vehicles (UAVs),
also known as drones, has highlighted a plethora of emergent
applications such as infrastructure inspection and surveillance, smart
agriculture, seek and rescue, parcel delivery, communications,
and post-disaster recovery. In all these applications UAVs may coexist
with ground Internet of Things (IoT) devices. For example, UAVs
autonomously perform remote sensing relaying the collected data by the
sensors. Additionally, one or more UAVs can collaborate
to provide services that require efficient protocols where multiple
objectives and constraints need to be considered. For this workshop, we
seek papers that combine the design of algorithms and testbed
implementations to develop the theoretical foundations
for UAVs as well as the synergies with IoT devices. The numerous
emergent applications raised by IoT may require an interdisciplinary
approach involving techniques from algorithm foundations and different
areas, such as computer networks, artificial intelligence,
concurrent, parallel, and distributed computing, security, digital
signal, image, and sound processing.</div>
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<b>IoTI5 2025 (7th International Workshop on IoT Applications and Industry 5.0)</b></div>
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It is evident that IoT is entering multiple fields of everyday life. The
proliferation of IoT devices as well as the numerous use cases reveal
the very promising potentials of IoT in revolutionizing several aspects
of common activities as well as business processes.
The vision of interconnecting billions of devices in a holistic
network, where machines communicate along with traditional human
communications is now being realized, towards the formation of the
Internet of Everything (as called by Cisco). The workshop focuses
on Industrial Internet of Things systems and applications, which
represent the highest value segment of the IoT market. The heavy
research endeavors of last years have provided efficient solutions and
enhanced technologies that enable the creation of such
a network, overcoming several challenges stemming from the special
attributes of device-to-device communications, embedded devices, and big
data management.</div>
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The new challenge is to identify efficient ways of integrating IoT
technologies in contemporary applications exploiting the potentials of
real-time monitoring, interactive control, self-management, and data
analytics towards “smart” behavior and enhanced performance.
The main scope of the “IoT Applications and Industry 5.0” (IoTI5)
workshop is to identify and promote new techniques for the realization
of promising IoT applications in various areas, including Industry 5.0
scenarios. The workshop is also supported by the
EU Horizon projects: TALON and NANCY.</div>
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<b>SmaCE 2025 (7th IEEE International Workshop on Workshop on Smart Circular Economy)</b></div>
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Circular Economy is a paradigm for sustainable growth that envisions the
transformation of how modern societies design, produce and consume
goods and services towards a regenerative economic cycle. Future and
emerging technologies, such as 5G and 6G networks,
Distributed Ledger Technologies, and crowdsourcing systems, along with
innovative models and paradigms, such as the Internet of Things,
Industry 5.0, and community networks, will play an important role in the
transition to Circular Economy. The development
of relevant international standards and policy-making initiatives, such
as the European Green Deal, will also facilitate the transition. Smart
Circular Economy is an international workshop focusing on the role of
ICT as an enabler for Circular Economy. This
workshop brings together scientists, researchers, as well as relevant
stakeholders from the industry and local communities to share and
exchange their experiences, discuss challenges, and report
state-of-the-art and in-progress research lying in the intersection
of ICT and Circular Economy. </div>
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<b>ISIoT 2025 (7th International Workshop on Intelligent Systems for the Internet of Things)</b></div>
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The Internet of Things is a paradigm that assumes a pervasive presence
in the environment of many smart things, including sensors, actuators,
embedded systems and other similar devices. The development of IoT,
however, has reached a crossroads, which means
that without intelligence, an IoT system will act as an ordinary
information transfer system. Emerging IoT applications in various
fields, including smart city, smart home, smart grid, e-health,
intelligent transportation systems, etc., require trustworthy
networking solutions that are resilient against high mobility, high
density, disasters, infrastructure failures, cyberattacks, and other
disruptions. This interdisciplinary landscape of IoT applications
demands researchers from different areas such as machine
learning, computational intelligence, optimization, distributed
computing, embedded systems, and big data to synergize their efforts in
better understanding the untapped opportunities to produce highly
efficient, deployable, intelligent IoT systems. The ISIoT
workshop aims at bringing together researchers and practitioners
designing and deploying systems that apply intelligent technologies in
IoT.</div>
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<b>UrbCom 2025 (7th International Workshop on Urban Computing)</b></div>
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It is undeniable that the cities' urbanization has modernized people's
lives, bringing several benefits to the population. However, it has also
brought serious challenges such as public management of collective
spaces, air pollution, traffic congestion, energy
consumption, and quality of life. In this context, Urban Computing
emerges as a process of acquisition, integration, and analysis of a
large volume of heterogeneous data generated from different sources in
urban spaces, such as portable devices, sensors, vehicles,
humans, among others. Urban Computing is an interdisciplinary area that
connects information and communication technology, advanced management
of large volumes of data, and diverse data analysis methods to propose
solutions to problems faced by cities. In
addition, Urban Computing seeks to understand the nature of urban and
social phenomena to better plan the future of cities and improve their
inhabitants' quality of life. UrbCom aims to create a space for: (1)
presentation and discussion of studies in the
area of Urban Computing; (2) collaboration between researchers from
different areas that, given the interdisciplinary nature, is not limited
to Computer Science.</div>
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<b>SecRIoT 2025 (6th International Workshop on Security and Reliability of IoT)</b></div>
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The next years more than 20 billion devices will be interconnected. The
Internet of Things provides unparalleled opportunities for the
development of new novel services. Currently, most of the new electronic
devices are offering from basic to advanced networking
capabilities in the context of smart environments. Newer vehicles are
partially or completely autonomous, powered by modern microprocessors,
hundreds of sensors and Internet enabled services. The same applies to
robotic and medical devices and almost every
other advanced equipment. Despite the longstanding efforts of the
scientific community to secure Internet and Network communications,
Operating Systems and Software Applications, only a limited amount of
this knowledge has been applied to the IoT ecosystems.
Most of the IoT devices, including modern vehicles suffer from numerous
and multilayered vulnerabilities. Default, weak or no password
authentication for remote connections, unencrypted traffic or obsolete
and insecure cryptographic algorithms, outdated, unmanaged
and vulnerable software are among the most serious problems of the IoT
landscape. Even more alarming is the unregulated manufacturing process
of many IoT constructors. Aiming to reduce the cost and minimize the
time to market of their products, minimal or
none effort is put to secure and support them sufficiently. Worse,
there are recorded cases of IoT devices delivered with preinstalled
malware that demonstrate total lack of operations security in the supply
chain. In contrary to software applications in PCs
and mobile devices, the owners are not likely to replace their devices
because of security problems. As consequence, these systems remain
vulnerable for extended periods. Recent very large-scale DDoS attacks
based and executed entirely by IoT Botnets, signify
the magnitude of the problem. The aim of SecRIoT is to bring together
researchers and professionals that are responsible for the secure
design, deployment and operation of current and future IoT systems.</div>
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<b>DISCOLI 2025 (4th International Workshop on Distributed Collective Intelligence)</b></div>
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Recent technological and scientific trends are promoting a vision where
intelligence is more and more distributed and collective. Indeed, as
computing and communication technologies are becoming increasingly
pervasive, and complexity of systems is growing in
terms of scale, heterogeneity, and interaction, hence the focus tends
to shift from the intelligence of individual devices or agents to the
collective intelligence (CI) emerging from a dynamic collection of
diverse devices. Such intelligence would allow systems
to address complex problems through proper coordination (e.g.,
cooperation or competition), to self-organise to promote functionality
under changing environments, and to improve decision-making
capabilities. The workshop aims to provide a forum where researchers
and practitioners can share and discuss fundamental concepts, models,
and techniques for studying and implementing collectively intelligent
distributed systems. Accordingly, it welcomes original research work
providing ideas and technical contributions for
promoting scientific discussion and practical adoption of CI mechanisms
in engineered systems. As such, the workshop also welcomes
cross-disciplinary contributions (e.g., extracting computational
mechanisms from natural systems exhibiting forms of CI) and
contributions from related research areas like coordination (the study
of interaction), multi-agent systems (MAS), socio-technical systems,
organisational paradigms, Wireless Sensor and Actuator Networks (WSANs),
the Internet of Things (IoT), crowd computing,
and swarm robotics.</div>
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<b>LS-NoT 2025 (3rd International Workshop on Long and Short Range Wireless Technologies Applied to IoT for Networks of Tomorrow)</b></div>
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The boundaries between the physical and digital worlds are rapidly
blurring, leading to complex systems that integrate smart components.
This drive towards innovative futuristic applications across many
sectors, aiming to improve societal quality of life. Examples
include Smart Cities, precision agriculture, and mitigation of white
rural areas, among many others. At the heart of these Smart Systems lies
the Internet of Things (IoT), which enables the collection of
real-world data through sensing devices. IoT relies
on wireless communications to self-organize and interface with core
networks, serving as a bridge between the physical and digital domains.
As we look towards the future, these wireless technologies must evolve
to meet the demands of increasingly complex Smart
Systems. This evolution is crucial to pave the way for tomorrow's
interconnected world.</div>
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For these reasons, our workshop aims to discover and promote innovative
solutions for both long-range and short-range IoT applications, with a
focus on next-generation networks. These technologies include the next
generation of the Internet (6G), Non-terrestrial
Networks (NTN), Cognitive Radio Networks (CRN), Low-Power Wide-Area
Networks (LPWAN), Vehicular Communications, and more.</div>
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<b>REFRESH 2025 (5th International Workshop on Real-life modeling in 5G/6G networks and beyond)</b></div>
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The economic and societal potential of emerging 5G/6G and cyber-physical
social systems is vastly greater than what has been realized so far,
and major investments are being made worldwide to develop the
corresponding science and technology. The Future Internet
paradigm, the proliferation of emerging networks and architectures,
wireless access technologies and multi-homing smart devices are evolving
towards a competitive environment, where users and devices have access
to various resources, while their behaviors
become strongly interdependent. This fact demands and motivates the
development of user-centric resource management and optimization
frameworks, which enable user’s self-optimization and autonomy. This
vision is further motivated and supported by the convergence
of various emerging technologies enabling Cyber-Physical Systems
operation, including 5G/B5G/6G technologies, Internet of Things (IoT),
Mobile Edge Computing and Software Defined Networking, all targeting
flexibility and efficiency. To deal with the involved
complexity, and driven by the requirements of autonomy and scalability,
distributed resource orchestration approaches appear as a necessity
rather than a desire.</div>
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The REFRESH Workshop aims at to stimulate research on the most novel
topics of real-life modeling in 5G/6G networks and beyond. This year’s
edition encourages submission of theoretical and experimental work
(including studies of real deployment), with a primary
interest in new directions of wireless networking in concrete
application scenarios and demonstrators in areas such as, but not
limited to: mobile edge computing, Internet of Things, cyber-physical
systems, unmanned aerial vehicles, public safety networks,
dynamic spectrum utilization, smart grid communications, wireless power
communication, green wireless networks, information-centric wireless
networks.</div>
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<b>IoT-Green 2025 (1st International Workshop on IoT-Driven Urban Sustainability and Green Technology)</b></div>
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The IoT-Green workshop invites researchers and industry experts to
explore the role of IoT technologies in fostering sustainable urban
environments. As cities grow, the need for efficient resource management
and eco-friendly practices becomes essential. This
workshop focuses on how IoT can support urban sustainability
initiatives, such as air quality monitoring, waste management, energy
conservation, and resource optimization. In this workshop we aim to
discuss cutting-edge IoT solutions that can help cities meet
environmental goals, reduce ecological footprints, and improve
citizens’ quality of life. The IoT-Green workshop aims at bringing
together researchers and practitioners designing and deploying systems
that apply IoT technologies in fostering sustainable urban
environments.</div>
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<b>HIEMI 2025 (1st International Workshop on Hybrid Intelligence for Internet of Everything Models and Implementations)</b></div>
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The Internet of Everything (IoE) model envisions integrating people,
data, processes, and things, enhancing traditional systems to enrich
human lives. A central challenge in IoE lies in evolving from simple
"connections among things" to a dynamic network of
"connections among people, processes, data, and things." As these
connections become more complex, meeting the demands of future systems
requires not only hybrid intelligence, where human and autonomous agents
work collaboratively, but also fully Artificial
Intelligence (AI) solutions capable of operating independently within
the IoE ecosystem. This workshop unites scientific and industrial
communities to discuss, propose, define, and evaluate models supporting
hybrid and artificial intelligence in interconnected
IoE ecosystems. Such approaches allow for adaptable systems where AI
can assist human operators or operate autonomously to address complex
challenges across various domains. The workshop also aims to create a
collaborative research agenda, highlighting future
directions in hybrid and artificial-only IoE models and
implementations.</div>
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<b>TI 2025 (2nd Workshop on Next Generation IoT and AI systems for Trusted, Human-Centered Intelligence)</b></div>
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In recent years Internet of Things (IoT) and Artificial Intelligence
(AI) technologies have been boosting the competitiveness of
organizations in sectors like manufacturing, energy, healthcare, and
smart cities. IoT technologies enable organizations to interact
with the physical world through cyber-physical systems and
internet-connected objects, improving the automation and efficiency of
their business processes. At the same time, AI technologies like machine
learning and industrial robots facilitate organizations
in deriving insights from large volumes of structured and unstructured
datasets, helping to optimize workflows and improve decision quality.
Moreover, the emergence of Large Language Models (LLMs) has further
transformed the landscape by enabling new capabilities
for IoT applications. LLMs can process and analyze unstructured data at
scale, generate human-like responses, and facilitate natural language
interactions between humans and machines. When deployed at the edge
within IoT ecosystems, LLMs bring opportunities
for real-time decision-making while reducing latency and bandwidth
requirements. However, these advancements also introduce challenges
related to explainability, trustworthiness, and resource efficiency in
highly decentralized environments. Addressing these
challenges is critical for building human-centered IoT/AI systems that
align with Industry 5.0 principles.</div>
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While these developments provide a solid foundation for Industry 4.0
applications, limitations remain in supporting the new wave of
human-centered AI applications envisioned for Industry 5.0. The
development of such applications requires an additional layer
of trustworthiness to enhance security, safety, transparency, and human
acceptability. This necessitates research into methods that promote
trustworthiness across multiple levels—ranging from ensuring data
integrity to explaining AI system operations to humans—and
fostering trusted human-machine collaboration. These goals can benefit
from recent advancements in cloud/edge/IoT continuum technologies (e.g.,
edge AI and edge LLM approaches that reduce the attack surface of
industrial data), blockchain-based anti-tampering
mechanisms, trusted human-centric AI paradigms like explainable AI
(XAI), neurosymbolic learning, and LLM-based IoT applications such as
IoT and digital twin applications for product design.</div>
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In this context, the aim of the 2nd Workshop on Next Generation IoT and
AI Systems for Trusted, Human-Centered Intelligence (TI-2025) is to
present research results on technologies, tools, and methods that
support the development, deployment, and operation
of trustworthy and human-centered IoT/AI systems across industries such
as manufacturing, smart cities, precision farming, energy, and
healthcare. The workshop particularly welcomes contributions addressing
IoT applications based on Generative AI and LLMs
(including edge-deployed LLMs) and related explainability challenges.</div><br></div>