Your search keyword '"Lorenzo Mucchi"' showing total 214 results

1. Noise Level Modulation for Secure Optical Communications

Author

Stefano Caputo, Silvia Viciani, Stefano Gherardini, Giacomo Borghini, Francesco Cataliotti, and Lorenzo Mucchi

Subjects

Optical communications, physical layer security, noise injection, noise modulation, information theoretical security, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Noise Level Modulation (NLM) is a robust physical-layer security technique which uses the injection of random phase noise into the transmitted signal to provide confidentiality in optical networks. The legitimate receiver can seamlessly recover the information by utilizing a feedback loop, while eavesdropping attempts fail, irrespective of the attacker’s location or computational capabilities. This paper outlines the theoretical and implementation principles of NLM when applied to full fiber-optic networks. Our findings reveal that NLM can attain a complete secrecy rate while ensuring compatibility with existing optical devices and protocols. We also propose a practical fiber optic-based implementation scheme, providing a thorough analysis of its variations from the theoretical framework. Furthermore, we delve into the challenges associated with NLM in the context of secure full optical communication systems and explore potential future directions.

Published

2024

2. IEEE 802.15.7-Compliant Full Duplex Visible Light Communication: Interference Analysis and Experimentation

Author

Stefano Caputo, Stefano Ricci, and Lorenzo Mucchi

Subjects

Experimentation, FPGA, full duplex, IEEE 802.15.7, interference modeling, intelligent transportation systems, Transportation engineering, TA1001-1280, Transportation and communications, HE1-9990

Abstract

This article presents a thorough investigation into the contrasting dynamics of full-duplex and half-duplex communication within the framework of visible light communication (VLC) networks compliant with the IEEE 802.15.7 standard. The main contributions of this research deal with Field Programmable Gate Array (FPGA) implementation, experimental data acquisition, interference evaluation, and performance assessment. In particular, the study delves into implementing both full-duplex and half-duplex communication schemes using FPGA technology for vehicular communications compliant to the IEEE 802.15.7 standard. Full-duplex is obtained by simultaneously transmitting over the same optical channel, without any multiplexing or access division strategy. Through experimental data acquisition, the paper provides a detailed comparison of the two communication schemes, shedding light on their respective strengths and limitations. Furthermore, the paper introduces an interference evaluation framework, which contributes to the understanding of the real benefits of full-duplex VLC through theoretical modeling of the interference and experimental validation. The performance evaluation section quantifies key metrics, allowing for a comprehensive assessment of the overall efficacy of full-duplex and half-duplex VLC systems in a vehicular network context. This research offers a perspective on the practical implications and trade-offs associated with adopting either half- and full-duplex VLC communication paradigm, paving the way for informed decision-making in the design and deployment of intelligent transportation systems (ITS) based on IEEE 802.15.7 networks.

Published

2024

3. Geomorphology of the upper sector of the Roncovetro active landslide (Emilia-Romagna Region, Italy)

Author

Giulia Dotta, Alessandro Fornaciai, Giovanni Bertolini, Iaria Isola, Luca Nannipieri, Massimiliano Favalli, Pierfrancesco Burrato, Roberto Devoti, Giovanni Gigli, Lorenzo Mucchi, Emanuele Intrieri, Marco Pizziolo, Teresa Gracchi, and Nicola Casagli

Subjects

Landslides, geomorphological map, LiDAR, Digital Elevation Model (DEM), topographic change detection, Maps, G3180-9980

Abstract

ABSTRACTWe present the geomorphological map of the upper sector of the Roncovetro active landslide (Enza Valley, Emilia-Romagna, Italy). The 1:1500 scale map provides an accurate picture of the landslide in October 2014. The map is mainly based on the data collected during an airborne LiDAR survey. The capability of LiDAR to ‘penetrate’ the vegetation cover makes these data the most complete and accurate topographic dataset of this landslide. The map shows that the upper sector of the Roncovetro landslide consists of gravity- and water runoff-related forms. Gravitational features are linked to sliding and flowing movements that characterize the short- and long-term behaviour of the landslide. By comparing the 2014 LiDAR-Digital Elevation Model (DEM) with the 1973 DEM provided by the Emilia-Romagna Region, we calculated that 6.2 ± 0.8 × 105 m3 of material has moved from the top of the Roncovetro landslide in about 40 years.

Published

2023

4. Health Community 4.0: An Innovative Multidisciplinary Solution for Tailored Healthcare Assistance Management

Author

Sara Jayousi, Chiara Barchielli, Marco Alaimo, Sara Guarducci, Stefano Caputo, Marzia Paffetti, Paolo Zoppi, and Lorenzo Mucchi

Subjects

information and communication technologies, healthcare, nursing, patients’ management, Internet of Things, health monitoring, Chemical technology, TP1-1185

Abstract

This paper presents a co-designed solution aimed at improving community healthcare assistance management. To enhance patients’ self-awareness of their health status, encouraging active participation in care process, and to support nurses in delivering patient-centered care, we have developed an innovative platform with a highly customized app. This platform was designed using a multi-disciplinary, bottom-up approach. Patient data collection and processing facilitate the automation of care timeline planning, based on real-time patients’ needs and the available resources. To achieve this goal, different components have been considered: real-time health data collection and processing, patient care planning, decision support for nurses, secure communication for data transmission, and user-friendly interfaces to ensure easy access to platform functionalities.

Published

2024

5. ICT in Nursing and Patient Healthcare Management: Scoping Review and Case Studies

Author

Sara Jayousi, Chiara Barchielli, Marco Alaimo, Stefano Caputo, Marzia Paffetti, Paolo Zoppi, and Lorenzo Mucchi

Subjects

Informationand Communication Technologies, healthcare, nursing, patients’ management, Internet of Things, Artificial Intelligence, Chemical technology, TP1-1185

Abstract

Over the past few decades, Information and Communication Technologies (ICT) have revolutionized the fields of nursing and patient healthcare management. This scoping review and the accompanying case studies shed light on the extensive scope and impact of ICT in these critical healthcare domains. The scoping review explores the wide array of ICT tools employed in nursing care and patient healthcare management. These tools encompass electronic health records systems, mobile applications, telemedicine solutions, remote monitoring systems, and more. This article underscores how these technologies have enhanced the efficiency, accuracy, and accessibility of clinical information, contributing to improved patient care. ICT revolution has revitalized nursing care and patient management, improving the quality of care and patient satisfaction. This review and the accompanying case studies emphasize the ongoing potential of ICT in the healthcare sector and call for further research to maximize its benefits.

Published

2024

6. ICT Framework for Supporting Applied Behavior Analysis in the Social Inclusion of Children with Neurodevelopmental Disorders

Author

Sara Jayousi, Alessio Martinelli, Paolo Lucattini, and Lorenzo Mucchi

Subjects

Information and communication technologies, ICT, wireless communications, applied behavior analysis, ABA, children with neurodevelpmental disorders, Chemical technology, TP1-1185

Abstract

The applied behavior analysis (ABA) model emphasizes observable and measurable behaviors by carrying out decision making using experimental data (behavioral observation assessment strategies). In this framework, information and communication technology (ICT) becomes highly suitable for enhancing the efficiency and effectiveness of the methodology. This paper aims to delve into the potential of ICT in providing innovative solutions to support ABA applications. It focuses on how ICT can contribute to fostering social inclusion with respect to children with neurodevelopmental disorders. ICT offers advanced solutions for continuous and context-aware monitoring, as well as automatic real-time behavior assessments. Wireless sensor systems (wearable perceptual, biomedical, motion, location, and environmental sensors) facilitate real-time behavioral monitoring in various contexts, enabling the collection of behavior-related data that may not be readily evident in traditional observational studies. Moreover, the incorporation of artificial intelligence algorithms that are appropriately trained can further assist therapists throughout the different phases of ABA therapy. These algorithms can provide intervention guidelines and deliver an automatic behavioral analysis that is personalized to the child’s unique profile. By leveraging the power of ICT, ABA practitioners can benefit from cutting-edge technological advancements to optimize their therapeutic interventions and outcomes for children with neurodevelopmental disorders, ultimately contributing to their social inclusion and overall wellbeing.

Published

2023

7. Exploring the Effects of LED-Based Visible Light Communication on Reading and Color Perception in Indoor Environments: An Experimental Study

Author

Stefano Caputo, Lorenzo Mucchi, Regina Comparetto, Vittoria D’Antoni, Alessandro Farini, Valentina Orsi, and Elisabetta Baldanzi

Subjects

visible light communications (VLC), human perceptions, psychophysical tests, Chemical technology, TP1-1185

Abstract

Visible light communications (VLC) is a technology that enables the transmission of digital information with a light source. VLC is nowadays seen as a promising technology for indoor applications, helping WiFi to handle the spectrum crunch. Possible indoor applications range from Internet connection at home/office to multimedia content delivery in a museum. Despite the vast interest of researchers in both theoretical analysis and experimentation on VLC technology, no studies have been carried out on the human perceptions of objects illuminated by VLC-based lamps. It is important to define if a VLC lamp decreases the reading capability or modifies the color perception in order to make VLC a technology appropriate for everyday life use. This paper describes the results of psychophysical tests on humans to define if VLC lamps modify the perception of colors or the reading speed. The results of the reading speed test showed a 0.97 correlation coefficient between tests with and without VLC modulated light, leading us to conclude that there is no difference in the reading speed capability with and without VLC-modulated light. The results of the color perception test showed a Fisher exact test p-value of 0.2351, showing that the perception of color is not influenced by the presence of the VLC modulated light.

Published

2023

8. Physical-Layer Security in 6G Networks

Author

Lorenzo Mucchi, Sara Jayousi, Stefano Caputo, Erdal Panayirci, Shahriar Shahabuddin, Jonathan Bechtold, Ivan Morales, Razvan-Andrei Stoica, Giuseppe Abreu, and Harald Haas

Subjects

6G, physical-layer security, MIMO, IRS, visible light communications, authentication, Telecommunication, TK5101-6720, Transportation and communications, HE1-9990

Abstract

The sixth generation (6G) of mobile network will be composed by different nodes, from macro-devices (satellite) to nano-devices (sensors inside the human body), providing a full connectivity fabric all around us. These heterogeneous nodes constitute an ultra dense network managing tons of information, often very sensitive. To trust the services provided by such network, security is a mandatory feature by design. In this scenario, physical-layer security (PLS) can act as a first line of defense, providing security even to low-resourced nodes in different environments. This paper discusses challenges, solutions and visions of PLS in beyond-5G networks.

Published

2021

9. Characterization of Field of View in Visible Light Communication Systems for Intelligent Transportation Systems

Author

Marco Seminara, Tassadaq Nawaz, Stefano Caputo, Lorenzo Mucchi, and Jacopo Catani

Subjects

Visible light communication, intelligent transportation systems, optical systems, infrastructure to vehicle, vehicle to vehicle, field of view, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

This paper reports a detailed experimental characterization of non Line-of-Sight (LoS) optical performances of a Visible Light Communication (VLC) system using a real traffic light for ultra-low latency, infrastructure-to-vehicle (I2V) communications for intelligent transportation systems (ITS) protocols. Despite the implementation of long-sought ITS protocols poses the crucial need to detail how the features of optical stages influence the overall performances of a VLC system in realistic configurations, such characterization has rarely been addressed at present. We carried out an experimental investigation in a realistic configuration where a regular traffic light (TX), enabled for VLC transmission, sends digital information towards a receiving stage (RX), composed by an optical condenser and a dedicated amplified photodiode stage. We performed a detailed measurements campaign of VLC performances encompassing a broad set of optical condensers, and for TX-RX distances in the range 3-50 m, in terms of both effective Field of View (EFOV) and Packet Error Rate (PER). The results show several angle-dependent nontrivial behaviors for different lens sets as a function of position on the measurement grid, highlighting critical aspects for ITS applications as well as identifying most suitable optical configurations depending on the specific application and on the required EFOV. We also provide a theoretical model for both the signal intensity and the EFOV as a function of several parameters, such as distance, RX orientation and focal length of the specific condenser. To our best knowledge, there are no optical and EFOV experimental analyses for VLC systems in ITS applications in literature. Our results could be very relevant in the near future to assess a most suited solution in terms of acceptance angle when designing a VLC system for real applications, where angle-dependent misalignment effects play a non-negligible role, and we argue that they could have more general implications with respect to the pristine I2V case mentioned here.

Published

2020

10. ETSI SmartBAN Architecture: The Global Vision for Smart Body Area Networks

Author

Matti Hamalainen, Lorenzo Mucchi, Marc Girod-Genet, Tuomas Paso, John Farserotu, Hirokazu Tanaka, Daisuke Anzai, Laura Pierucci, Rida Khan, Muhammad Mahtab Alam, and Philippe Dallemagne

Subjects

Interoperability, medium access control, open data format, physical layer, semantic interoperability, wireless, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper presents a condensed review of the European smart body area network (BAN) standardization work and its already published standards. The work is carried out under the ETSI Technical Committee (TC) SmartBAN. The goal of ETSI TC SmartBAN is to define and develop new European BAN standards; fostering the successful market adoption of wireless BAN technology by providing a standardized way to bring new interoperable products into the health, medical, sport, leisure and IoT markets, targeting to global exploitation. TC SmartBAN covers wireless communications, especially the physical and medium access control layers, associated security, semantic interoperability and open data representation, which are necessary features in the data transmissions, as well as building blocks of the future smart coordinator. The use of smart coordinator centralizes the network intelligence to the hub, which enables implementation of simple nodes. The SmartBAN approach will be computationally light, and it supports reliable operations across heterogeneous networks. Due to the semantic approach in all functional levels, SmartBAN also supports high interoperability. For emergency traffic, SmartBAN provides different priority classes and fast channel access associated with a low latency. Novel concept adopted in the SmartBAN for high-priority traffic is a multi-use channel access, which can also improve the spectral efficiency. Not only on-body nodes and applications, TC SmartBAN is considering in-body communications for capsule endoscopy. In addition, SmartBAN collaborates with other standardization groups, such as oneM2M and AIOTI, to widen the impact of its work.

Published

2020

11. EEG Authentication System Based on One- and Multi-Class Machine Learning Classifiers

Author

Luis Hernández-Álvarez, Elena Barbierato, Stefano Caputo, Lorenzo Mucchi, and Luis Hernández Encinas

Subjects

electroencephalogram, machine learning, multi-class classifier, one-class classifiers, user authentication, Chemical technology, TP1-1185

Abstract

In the current Information Age, it is usual to access our personal and professional information, such as bank account data or private documents, in a telematic manner. To ensure the privacy of this information, user authentication systems should be accurately developed. In this work, we focus on biometric authentication, as it depends on the user’s inherent characteristics and, therefore, offers personalized authentication systems. Specifically, we propose an electrocardiogram (EEG)-based user authentication system by employing One-Class and Multi-Class Machine Learning classifiers. In this sense, the main novelty of this article is the introduction of Isolation Forest and Local Outlier Factor classifiers as new tools for user authentication and the investigation of their suitability with EEG data. Additionally, we identify the EEG channels and brainwaves with greater contribution to the authentication and compare them with the traditional dimensionality reduction techniques, Principal Component Analysis, and χ2 statistical test. In our final proposal, we elaborate on a hybrid system resistant to random forgery attacks using an Isolation Forest and a Random Forest classifiers, obtaining a final accuracy of 82.3%, a precision of 91.1% and a recall of 75.3%.

Published

2022

12. The Role of Bidirectional VLC Systems in Low-Latency 6G Vehicular Networks and Comparison with IEEE802.11p and LTE/5G C-V2X

Author

Stefano Caputo, Lorenzo Mucchi, Muhammad Ali Umair, Marco Meucci, Marco Seminara, and Jacopo Catani

Subjects

visible light communication (VLC), 5G, 6G, intelligent transportation systems, bidirectional communication, vehicular communications, Chemical technology, TP1-1185

Abstract

In this paper, we present very recent results regarding the latency characterization of a novel bidirectional visible light communication (VLC) system for vehicular applications, which could be relevant in intelligent transportation system (ITS) safety applications, such as the assisted and automated braking of cars and motorbikes in critical situations. The VLC system has been implemented using real motorbike head- and tail-lights with distances up to 27 m in a realistic outdoor scenario. We performed a detailed statistical analysis of the observed error distribution in the communication process, assessing the most probable statistical values of expected latency depending on the observed packet error rate (PER). A minimum attainable observed round-trip latency of 2.5 ms was measured. Using our dataset, we have also estimated the probability to receive correctly a message with a specific average latency for a target PER, and we compare it to the ultra-reliable low-latency (URLL) 5G communications service. In addition, a mobility model is implemented to compare the VLC and radio frequency (RF) technologies (IEEE802.11p, LTE, 5G) to support an automated braking systems for vehicles in urban platooning.

Published

2022

13. Secrecy Capacity and Secure Distance for Diffusion-Based Molecular Communication Systems

Author

Lorenzo Mucchi, Alessio Martinelli, Sara Jayousi, Stefano Caputo, and Massimiliano Pierobon

Subjects

Molecular communication, secrecy capacity, diffusion-based channel, physical-layer security, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The biocompatibility and nanoscale features of Molecular Communication (MC) make this paradigm, based on molecules and chemical reactions, an enabler for communication theory applications in the healthcare at its biological level (e.g., bimolecular disease detection/monitoring and intelligent drug delivery). However, the adoption of MC-based innovative solutions into privacy and security-sensitive areas is opening new challenges for this research field. Despite fundamentals of information theory applied to MC have been established in the last decade, research work on security in MC systems is still limited. In contrast to previous literature focused on challenges, and potential roadmaps to secure MC, this paper presents the preliminary elements of a systematic approach to quantifying information security as it propagates through an MC link. In particular, a closed-form mathematical expression for the secrecy capacity of an MC system based on free molecule diffusion is provided. Numerical results highlight the dependence of the secrecy capacity on the average thermodynamic transmit power, the eavesdropper's distance, the transmitted signal bandwidth, and the receiver radius. In addition, the concept of secure distance in an MC system is introduced and investigated for two different techniques of signal detection, i.e., based on energy and amplitude. The secrecy capacity can be used to determine how much secure information (bit/sec/Hz) can be exchanged and within which operative range, while the secure distance can be used to set the transmit power to obtain a secure channel at a given distance. We envision these metrics will be of utmost importance for a future design framework tailored to MC systems and their practical applications.

Published

2019

14. IoT Nodes Authentication and ID Spoofing Detection Based on Joint Use of Physical Layer Security and Machine Learning

Author

Dania Marabissi, Lorenzo Mucchi, and Andrea Stomaci

Subjects

physical layer security, wireless fingerprinting, machine learning, intrusion detection, Information technology, T58.5-58.64

Abstract

The wide variety of services and applications that shall be supported by future wireless systems will lead to a high amount of sensitive data exchanged via radio, thus introducing a significant challenge for security. Moreover, in new networking paradigms, such as the Internet of Things, traditional methods of security may be difficult to implement due to the radical change of requirements and constraints. In such contexts, physical layer security is a promising additional means to realize communication security with low complexity. In particular, this paper focuses on node authentication and spoofing detection in an actual wireless sensor network (WSN), where multiple nodes communicate with a sink node. Nodes are in fixed positions, but the communication channels varies due to the scatterers’ movement. In the proposed security framework, the sink node is able to perform a continuous authentication of nodes during communication based on wireless fingerprinting. In particular, a machine learning approach is used for authorized nodes classification by means of the identification of specific attributes of their wireless channel. Then classification results are compared with the node ID in order to detect if the message has been generated by a node other than its claimed source. Finally, in order to increase the spoofing detection performance in small networks, the use of low-complexity sentinel nodes is proposed here. Results show the good performance of the proposed method that is suitable for actual implementation in a WSN.

Published

2022

15. ETSI SmartBAN System Performance and Coexistence Verification for Healthcare

Author

Harri Viittala, Lorenzo Mucchi, Matti Hamalainen, and Tuomas Paso

Subjects

Body area network, channel occupancy, measurement, simulation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

European Telecommunications Standard Institute (ETSI) Technical Committee (TC) Smart Body Area Network (SmartBAN) defines and specifies low-power physical and medium access control layers for SmartBANs. Several use cases have been defined for SmartBAN, such as sleep monitoring, fall monitoring, and apnea monitoring. The specialist task force 511, working under ETSI TC SmartBAN, studied the performance of the system and evaluated coexistence with other wireless systems. In this paper, the simulator model based on the SmartBAN specification is introduced. Based on the simulation results, the receiver sensitivity for the SmartBAN system is defined. In addition, the interference model extracted from the measurements in the Oulu university hospital is discussed. This paper presents the summary of the simulation results based on the above-mentioned interference models. The simulation results showed that when there is a high interference in a communication channel, the SmartBAN system cannot gain an acceptable frame error level without a physical layer protocol data unit repetition technique and a high signal-to-interference power ratio level (SIR). In a low interference scenario, repetition is also needed when SIR is less than 9 dB.

Published

2017

16. Ultra-Wideband Radar-Based Indoor Activity Monitoring for Elderly Care

Author

Matti Hämäläinen, Lorenzo Mucchi, Stefano Caputo, Lorenzo Biotti, Lorenzo Ciani, Dania Marabissi, and Gabriele Patrizi

Subjects

home, living, movement identification, remote monitoring, signal classification, k-nearest neighbour, Chemical technology, TP1-1185

Abstract

In this paper, we propose an unobtrusive method and architecture for monitoring a person’s presence and collecting his/her health-related parameters simultaneously in a home environment. The system is based on using a single ultra-wideband (UWB) impulse-radar as a sensing device. Using UWB radars, we aim to recognize a person and some preselected movements without camera-type monitoring. Via the experimental work, we have also demonstrated that, by using a UWB signal, it is possible to detect small chest movements remotely to recognize coughing, for example. In addition, based on statistical data analysis, a person’s posture in a room can be recognized in a steady situation. In addition, we implemented a machine learning technique (k-nearest neighbour) to automatically classify a static posture using UWB radar data. Skewness, kurtosis and received power are used in posture classification during the postprocessing. The classification accuracy achieved is more than 99%. In this paper, we also present reliability and fault tolerance analyses for three kinds of UWB radar network architectures to point out the weakest item in the installation. This information is highly important in the system’s implementation.

Published

2021

17. An Inertial Measurement Unit-Based Wireless System for Shoulder Motion Assessment in Patients with Cervical Spinal Cord Injury: A Validation Pilot Study in a Clinical Setting

Author

Riccardo Bravi, Stefano Caputo, Sara Jayousi, Alessio Martinelli, Lorenzo Biotti, Ilaria Nannini, Erez James Cohen, Eros Quarta, Stefano Grasso, Giacomo Lucchesi, Gabriele Righi, Giulio Del Popolo, Lorenzo Mucchi, and Diego Minciacchi

Subjects

inertial measurement unit, wireless sensors network, motion tracking, kinematics, range of motion, shoulder, Chemical technology, TP1-1185

Abstract

Residual motion of upper limbs in individuals who experienced cervical spinal cord injury (CSCI) is vital to achieve functional independence. Several interventions were developed to restore shoulder range of motion (ROM) in CSCI patients. However, shoulder ROM assessment in clinical practice is commonly limited to use of a simple goniometer. Conventional goniometric measurements are operator-dependent and require significant time and effort. Therefore, innovative technology for supporting medical personnel in objectively and reliably measuring the efficacy of treatments for shoulder ROM in CSCI patients would be extremely desirable. This study evaluated the validity of a customized wireless wearable sensors (Inertial Measurement Units—IMUs) system for shoulder ROM assessment in CSCI patients in clinical setting. Eight CSCI patients and eight healthy controls performed four shoulder movements (forward flexion, abduction, and internal and external rotation) with dominant arm. Every movement was evaluated with a goniometer by different testers and with the IMU system at the same time. Validity was evaluated by comparing IMUs and goniometer measurements using Intraclass Correlation Coefficient (ICC) and Limits of Agreement (LOA). inter-tester reliability of IMUs and goniometer measurements was also investigated. Preliminary results provide essential information on the accuracy of the proposed wireless wearable sensors system in acquiring objective measurements of the shoulder movements in CSCI patients.

Published

2021

18. User-Cell Association for Security and Energy Efficiency in Ultra-Dense Heterogeneous Networks

Author

Dania Marabissi, Lorenzo Mucchi, and Simone Morosi

Subjects

physical-layer security, ultra dense networks, energy efficiency, Chemical technology, TP1-1185

Abstract

The last decades have been characterized by an exponential increase in digital services. The demand is foreseen to further increase in the next years, and mobile networks will have to mandatorily supply connections to enable digital services with very different requirements, from ultra high speed to ultra low latency. The deployment and the coexistence of cells of different size, from femto to macro, will be one of the key elements for providing such pervasive wireless connection: the ultra dense networks (UDN) paradigm. How to associate users and base stations is one of the most investigated research topics. Many criteria can be drawn, from minimization of power consumption to optimization of throughput. In this paper we propose a new utility to optimize two of the most important features of future mobile connection: security and energy consumption. By using our utility it is possible to jointly select the base station to be activated in a UDN, and associate users to the base stations with the aim of maximizing the secure throughput by spending the minimum energy. Moreover, we propose a heuristic that allows to achieve performance very close to the optimal one with reduced complexity. Effectiveness of the proposed approach is proved by means of comparison with benchmark approaches.

Published

2021

19. Low-Latency VLC System with Fresnel Receiver for I2V ITS Applications

Author

Tassadaq Nawaz, Marco Seminara, Stefano Caputo, Lorenzo Mucchi, and Jacopo Catani

Subjects

infrastructure-to-vehicle, vehicle-to-vehicle, Intelligent Transportation Systems, Visible Light Communication, Fresnel lenses, Technology

Abstract

This work presents a characterization of a low-cost, low-latency Visible Light Communication (VLC) prototype for infrastructure-to-vehicle (I2V) communication for future Intelligent Transportation Systems (ITS). The system consists of a regular traffic light as a transmitter (the red light is modulated with the information), and a photodetector as a receiver. The latter is equipped with low-cost Fresnel lenses as condensers, namely, 1 ′ ′ Fresnel and 2 ′ ′ Fresnel, to increase the optical gain of the system at the receiver. The system is capable of Active Decode and Relay (ADR) of information to further incoming units. The experimental characterization of amplitude and Packet Error Rate (PER) for the proposed system has been performed for distances up to 50 m. The results show that by incorporating the 2 ′ ′ Fresnel lens in the photodetector, an error free ( PER ≤ 10 − 5 ) I2V communication is established up to 50 m. Furthermore, the prototype can be used for both broadcast and beaconing transmission modes. This low-cost VLC-based system could offer sub-millisecond latency in the full ADR process for distances up to 36 m, which makes it suitable for integration in Cellular-V2X (C-V2X) and 5G platforms.

Published

2020

20. Experimental Measurements of a Joint 5G-VLC Communication for Future Vehicular Networks

Author

Dania Marabissi, Lorenzo Mucchi, Stefano Caputo, Francesca Nizzi, Tommaso Pecorella, Romano Fantacci, Tassadaq Nawaz, Marco Seminara, and Jacopo Catani

Subjects

visible light communications, 5G networks, smart vehicles, field trials, Technology

Abstract

One of the main revolutionary features of 5G networks is the ultra-low latency that will enable new services such as those for the future smart vehicles. The 5G technology will be able to support extreme-low latency thanks to new technologies and the wide flexible architecture that integrates new spectra and access technologies. In particular, visible light communication (VLC) is envisaged as a very promising technology for vehicular communications, since the information provided can flow by using the lights (as traffic-lights and car lights). This paper describes one of the first experiments on the joint use of 5G and VLC networks to provide real-time information to cars. The applications span from road safety to emergency alarm.

Published

2020

21. Energy Efficient Constellation for Wireless Connectivity of IoT Devices

Author

Lorenzo Mucchi, Luca Simone Ronga, and Sara Jayousi

Subjects

energy efficient communication, MAP detector, zero energy symbol, signal constellation, Chemical technology, TP1-1185

Abstract

Reducing energy consumption is one of the most important task of the approaching Internet of Things (IoT) paradigm. Existing communication standards, such as 3G/4G, use complex protocols (active mode, sleep modes) in order to address the waste of energy. These protocols are forced to transmit when one frame is only partially filled with information symbols. The hard task to adapt the power-saving mode with low latency to the discontinuity of the source is mainly due to the fact that the receiver cannot know a priori when the source has something to transmit. In this paper, we propose a modified signalling/constellation which can save energy by mapping a zero-energy symbol in the information source. This paper addresses the fundamentals of this new technique: the maximum a posteriori probability (MAP) criterion, the probability of error, the (energy) entropy, the (energy) capacity as well as the energy cost of the proposed technique are derived for the binary signalling case.

Published

2020

22. A Real Case of Implementation of the Future 5G City

Author

Dania Marabissi, Lorenzo Mucchi, Romano Fantacci, Maria Rita Spada, Fabio Massimiani, Andrea Fratini, Giorgio Cau, Jia Yunpeng, and Lucio Fedele

Subjects

5G, smart city, field-test, use cases, Information technology, T58.5-58.64

Abstract

The fifth generation (5G) of wireless communication systems is considered the key technology to enable a wide range of application scenarios and the effective spreading of the smart city concept. Vertical business use cases, specifically designed for the future 5G city, will have a strong economical and social impact. For this reason, ongoing 5G field trials have to test newly deployed technologies as well as the capability of 5G to create a new digital economy. This paper describes the 5G field trial environment that was launched in Italy at the end of 2017. The aim is to evaluate the capability of the 5G network of supporting innovative services with reference to suitably designed key performance indicators and to evaluate the opportunities offered by these services. Indeed, vertical business use cases, specifically designed for the future 5G city, with a strong economic and social impact, are under implementation and will be evaluated. In particular, the paper provides a detailed description of the deployment of an actual complete integrated 5G network. It shows how 5G is effective enabling technology for a wide range of vertical business and use cases. Indeed, its flexibility allows to satisfy completely different performance requirements of real services. Some preliminary results, obtained during the first phase, are presented for a smart mobility scenario.

Published

2018

23. Energy and Spectrum Efficient Wireless Sensor Networks

Author

Gianni Pasolini, George Alexandropoulos, Lorenzo Mucchi, Javier Prieto, and Yuan Shen

Subjects

Electronic computers. Computer science, QA75.5-76.95

Published

2016

24. Physical layer security at THz communications: the effects of phase and molecular noise.

Author

Stefano Caputo, Giacomo Borghini, Gianni Pasolini, Nicolò Longhi, Giampaolo Cuozzo, and Lorenzo Mucchi

Published

2024

25. Adaptive Security in Mobile Wireless Networks: Machine Learning-Enhanced Continuous Physical Layer Authentication for Dynamic Environments.

Author

Dania Marabissi, Andrea Stomaci, and Lorenzo Mucchi

Published

2024

26. A Flexible Wireless Sensor Network Based on Ultra-Wide Band Technology for Ground Instability Monitoring

Author

Lorenzo Mucchi, Sara Jayousi, Alessio Martinelli, Stefano Caputo, Emanuele Intrieri, Giovanni Gigli, Teresa Gracchi, Francesco Mugnai, Massimiliano Favalli, Alessandro Fornaciai, and Luca Nannipieri

Subjects

Ultra-Wide Band, wireless sensor networks, monitoring, warning system, ground instability, landslide, time of flight, two-way ranging, Chemical technology, TP1-1185

Abstract

An innovative wireless sensor network (WSN) based on Ultra-Wide Band (UWB) technology for 3D accurate superficial monitoring of ground deformations, as landslides and subsidence, is proposed. The system has been designed and developed as part of an European Life+ project, called Wi-GIM (Wireless Sensor Network for Ground Instability Monitoring). The details of the architecture, the localization via wireless technology and data processing protocols are described. The flexibility and accuracy achieved by the UWB two-way ranging technique is analysed and compared with the traditional systems, such as robotic total stations (RTSs) and Ground-based Interferometric Synthetic Aperture Radar (GB-InSAR), highlighting the pros and cons of the UWB solution to detect the surface movements. An extensive field trial campaign allows the validation of the system and the analysis of its sensitivity to different factors (e.g., sensor nodes inter-visibility, effects of the temperature, etc.). The Wi-GIM system represents a promising solution for landslide monitoring and it can be adopted in combination with traditional systems or as an alternative in areas where the available resources are inadequate. The versatility, easy/fast deployment and cost-effectiveness, together with good accuracy, make the Wi-GIM system a possible solution for municipalities that cannot afford expensive/complex systems to monitor potential landslides in their territory.

Published

2018

27. A Metric for Secrecy-Energy Efficiency Tradeoff Evaluation in 3GPP Cellular Networks

Author

Fabio Ciabini, Simone Morosi, Lorenzo Mucchi, and Luca Simone Ronga

Subjects

secrecy capacity, energy efficiency, metric, cellular networks, Information technology, T58.5-58.64

Abstract

Physical-layer security is now being considered for information protection in future wireless communications. However, a better understanding of the inherent secrecy of wireless systems under more realistic conditions, with a specific attention to the relative energy consumption costs, has to be pursued. This paper aims at proposing new analysis tools and investigating the relation between secrecy capacity and energy consumption in a 3rd Generation Partnership Project (3GPP) cellular network , by focusing on secure and energy efficient communications. New metrics that bind together the secure area in the Base Station (BS) sectors, the afforded date-rate and the power spent by the BS to obtain it, are proposed that permit evaluation of the tradeoff between these aspects. The results show that these metrics are useful in identifying the optimum transmit power level for the BS, so that the maximum secure area can be obtained while minimizing the energy consumption.

Published

2016

28. The Role of Physical Layer Security in IoT: A Novel Perspective

Author

Tommaso Pecorella, Luca Brilli, and Lorenzo Mucchi

Subjects

Internet of Things, physical layer security, Body Area Networks, Wireless Sensor Networks, device configuration, key management, Information technology, T58.5-58.64

Abstract

This paper deals with the problem of securing the configuration phase of an Internet of Things (IoT) system. The main drawbacks of current approaches are the focus on specific techniques and methods, and the lack of a cross layer vision of the problem. In a smart environment, each IoT device has limited resources and is often battery operated with limited capabilities (e.g., no keyboard). As a consequence, network security must be carefully analyzed in order to prevent security and privacy issues. In this paper, we will analyze the IoT threats, we will propose a security framework for the device initialization and we will show how physical layer security can effectively boost the security of IoT systems.

Published

2016

29. Cooperative Localization in Wireless Ad Hoc and Sensor Networks

Author

Lorenzo Mucchi, Damien B. Jourdan, Chia-Chin Chong, and Davide Dardari

Subjects

Telecommunication, TK5101-6720, Electronics, TK7800-8360

Published

2008

30. Modified Spatial Channel Model for MIMO Wireless Systems

Author

Pekka Kyösti, Juha Ylitalo, Claudia Staderini, and Lorenzo Mucchi

Subjects

Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

The third generation partnership Project's (3GPP) spatial channel model (SCM) is a stochastic channel model for MIMO systems. Due to fixed subpath power levels and angular directions, the SCM model does not show the degree of variation which is encountered in real channels. In this paper, we propose a modified SCM model which has random subpath powers and directions and still produces Laplace shape angular power spectrum. Simulation results on outage MIMO capacity with basic and modified SCM models show that the modified SCM model gives constantly smaller capacity values. Accordingly, it seems that the basic SCM gives too small correlation between MIMO antennas. Moreover, the variance in capacity values is larger using the proposed SCM model. Simulation results were supported by the outage capacity results from a measurement campaign conducted in the city centre of Oulu, Finland.

Published

2007

31. 6G Technology as Enabler of Psychophysical Well-being & Social Inclusion Services for Citizen 4.0.

Author

Lorenzo Mucchi, Sara Jayousi, Stefano Caputo, Chiara Barchielli, Marzia Paffetti, Marco Alaimo, Paolo Zoppi, Simona Geli, Pietro Dionisio, Elena Tamburini, and Cristiano Paggetti

Published

2023

32. Recent Progress in ETSI TC SmartBAN Standardization.

Author

Matti Hämäläinen, Lorenzo Mucchi, Tuomas Paso, Daisuke Anzai, Hirokazu Tanaka, Cees J. M. Lanting, and Marco Hernandez

Published

2023

33. Visible Light Communications for Healthcare Applications: Opportunities and Challenges.

Author

Stefano Caputo, Giacomo Borghini, Sara Jayousi, Adnan Rashid, and Lorenzo Mucchi

Published

2023

34. Security of Wireless Body Area Networks for Healthcare Applications: Comparison between ETSI and IEEE Approaches.

Author

Giacomo Borghini, Stefano Caputo, Lorenzo Mucchi, Adnan Rashid, Sara Jayousi, Matti Hämäläinen, Tuomas Paso, and Marco Hernandez

Published

2023

35. Concept of Smart Coordinator for SmartBAN Networks.

Author

Marco Hernandez, Matti Hämäläinen, Tuomas Paso, Lorenzo Mucchi, Daisuke Anzai, and Hirokazu Tanaka

Published

2023

36. PROASSIST4.0: An Optimized Tele-Assistance System for the Future Healthcare.

Author

Lorenzo Mucchi, Sara Jayousi, Paola Cappanera, Filippo Visintin, Paolo Zoppi, Elisabetta Paoletti, Simona Geli, Pietro Dionisio, Elena Tamburini, and Cristiano Paggetti

Published

2022

37. Remote Secure eHealth Provision: ETSI SmartBAN as an Enabler.

Author

Matti Hämäläinen, Lorenzo Mucchi, and Tuomas Paso

Published

2022

38. Filtering Visible Light Reflections with a Single-Pixel Photodetector.

Author

Ander Galisteo, Patrizio Marcocci, Marco Zuniga, Lorenzo Mucchi, Borja Genovés Guzmán, and Domenico Giustiniano

Published

2020

39. How 6G Technology Can Change the Future Wireless Healthcare.

Author

Lorenzo Mucchi, Sara Jayousi, Stefano Caputo, Elisabetta Paoletti, Paolo Zoppi, Simona Geli, and Pietro Dionisio

Published

2020

40. Physical-layer security metric for user association in ultra-dense networks.

Author

Dania Marabissi, Lorenzo Mucchi, and Simone Casini

Published

2020

41. UWB Positioning for Industrial Applications: the Galvanic Plating Case Study.

Author

Alessio Martinelli, Sara Jayousi, Stefano Caputo, and Lorenzo Mucchi

Published

2019

42. An Overview of Security Threats, Solutions and Challenges in WBANs for Healthcare.

Author

Lorenzo Mucchi, Sara Jayousi, Alessio Martinelli, Stefano Caputo, and Patrizio Marcocci

Published

2019

43. Digital Resources Aiding Opportunities for Affiliation and Practical Reasoning Among People with Dementia: A Scoping Review.

Author

Catharina Melander, Malin Olsson, Sara Jayousi, Alessio Martinelli, and Lorenzo Mucchi

Published

2019

44. Medical Tele-Monitoring and Tele-Assistance for Diabetics Patients by Means of 5G Cellular Networks.

Author

Simone Morosi, Sara Jayousi, Lorenzo Mucchi, Federico Peinetti, Luca Mastrantonio, Gabriele Fioravanti, Andrea Giacomini, Andrea Fratini, F. Padiglione, and F. De Lucia

Published

2019

45. Social Inclusion for Children with Disabilities: The Role of ICT in Play and Entertainment Activities.

Author

Paolo Lucattini, Sara Jayousi, Alessio Martinelli, Lorenzo Mucchi, and Grazia Lombardi

Published

2019

46. On the trade-off between Secrecy and Energy-Efficiency in Multi-Layer Cellular Networks.

Author

Simone Morosi, Lorenzo Mucchi, Dania Marabissi, Marco Dolfi, and Katiuscia Marini

Published

2019

47. Performance Comparison Between ETSI SmartBAN and Bluetooth.

Author

Andrea DSouza, Harri Viittala, Matti Hämäläinen, and Lorenzo Mucchi

Published

2018

48. Secrecy Capacity of Diffusion-Based Molecular Communication Systems.

Author

Lorenzo Mucchi, Alessio Martinelli, Stefano Caputo, Sara Jayousi, and Massimiliano Pierobon

Published

2018

49. Ultra-Wide Band Positioning in Sport: How the On-Body Tag Location Affects the System Performance.

Author

Alessio Martinelli, Marco Dolfi, Simone Morosi, Lorenzo Mucchi, Matteo Paoli, and Andrea Agili

Published

2018

50. Benefits of Physical Layer Security to Cryptography: Tradeoff and Applications.

Author

Lorenzo Mucchi, Francesca Nizzi, Tommaso Pecorella, Romano Fantacci, and Flavio Esposito

Published

2019