Technical Program
Monday, October 10 9:00 - 10:30
HP1: e-Health, artificial intelligence, and machine learning
STWiMob'22 - ST1: LoRa & Deep Learning
- Deep Learning-based receiver for Uplink in LoRa Networks with Sigfox Interference
- Decentralized Evaluation of Trust in Ad Hoc Networks using Neural Networks
- Experimental throughput models for LoRa networks with capture effect
- A Security-Centric Deep Learning Enabled Camera Solution for Real-Time Human Fall Detection
Monday, October 10 11:00 - 12:30
HP2: e-Health Data: processing, sharing, and challenges
STWiMob'22 - ST2: 5G Networks
- Real time testbeds for 5G NSA and SA mobile architectures to provide VoLTE and VoNR services over IP Multimedia Core Network Subsystem
- Energy Saving Router Rotation Protocol for DECT-2020 NR
- Optimal Aggregation of RF and VLC Bands for Beyond 5G Mobile Services
- Assessment of 5G RAN Features for Integrated Services Provisioning in Smart Cities
Monday, October 10 14:00 - 15:30
HP3: e-Health platforms, solutions, and services
- Backend Concept of the eSano eHealth Platform for Internet- and Mobile-based Interventions
- VitalPod: A Low Power In-Ear Vital Parameter Monitoring System
- Augmented and Virtual Reality Based Exergames in GAME2AWE for Elderly Fall Prevention
- A Cost-effective Infrared Thermographic System for Diabetic Foot Screening
STWiMob'22 - ST3: AI and vehicular networks
Monday, October 10 16:00 - 17:30
HP4: Sensor-based e-Health frameworks
- Plastic Optical Fiber Sensor-based Smart Mattress For Sleeping Posture Remote Monitoring
- Evaluating Parameters of the TUG Test Based on Data from IMU and UWB Sensors
- Integrating AR and IoT Services into mHealth Applications for Promoting Wellbeing
- Cardiac monitoring novel low-power sensor measuring upper thoracic electrostatic charge variation
VN4RRSR'22 - VN: VN4RRSR'22 Session
- On Handling of Certificate Digest in V2X Communication
- Characterisation of Horizontally Induced Vibrations on Antenna's Channel Response at Millimetre-Wave
- Prioritization for Latency Reduction in 5G MEC-Based VRU Protection Systems
- On-the-Road Comparison of LTE-V2X Cooperative Awareness Message Distribution between Regular and Vulnerable Road Users
Tuesday, October 11 8:30 - 9:00
Opening Ceremony
Tuesday, October 11 9:30 - 10:30
Keynote1: Reliable and Available Wireless: The IPv6 contribution towards end-to-end determinism over 5G and beyond
Abstract
Deterministic Networking is an attempt to emulate the properties of a serial link over a switched fabric, by providing a bounded latency and eliminating congestion loss, even when co-existing with best-effort traffic. It is getting traction in various industries including professional A/V, manufacturing, online gaming, and SmartGrid automation, enabling cost and performance optimizations (e.g., vs. loads of P2P cables). Bringing determinism in a packet network means eliminating the statistical effects of multiplexing that result in probabilistic jitter and loss. This can be approached with a tight control of the physical resources to maintain the amount of traffic within a budgeted volume of data per unit of time that fits the physical capabilities of the underlying network, and the use of time-shared resources (bandwidth and buffers) per circuit, and/or by shaping and/ or scheduling the packets at every hop. This innovation was initially introduced on wired networks, with IEEE 802.1 Time Sensitive networking (TSN) for Ethernet LANs, and is being extended over Wi-Fi and 5G. This talks goes through the parallel efforts at the IETF by the DetNet and RAW working groups, where RAW extends DetNet to provide high reliability and availability for IP connectivity over a wireless medium.
Biography
Pascal Thubert has been actively involved in research, development and standards efforts on Internet mobility and wireless technologies since joining Cisco in Y2K. He currently works at Cisco's Chief Technology and Architecture office, where he focuses on products and standards in the general context of IPv6, wireless, and the Internet of Things. He co-chairs 6TiSCH, the IETF Working Group focusing on IPv6 over the 802.15.4 TSCH deterministic MAC, and LPWAN, that applies IETF protocols over low power wide area networking technologies. Earlier, he specialized in IPv6 as applied to mobility and wireless devices and developed routers and switches microcode in Cisco's core IPv6 product development group. In parallel with his R&D missions, he has authored multiple IETF RFCs and draft standards dealing with IPv6, mobility and the Internet of Things, including NEMO, 6LoWPAN and RPL.
Tuesday, October 11 11:00 - 12:30
SW1 : Wireless Networking Wireless Networking
- HTTP Adaptive Streaming System Maximizing Overall Video Quality over SDN-enabled Wi-Fi APs
- RSSI: Lost and Alone, a Case for Redundancy
- Paving the way towards delivering messages based on user interests in OppNets
- Hierarchical Federated Learning for the Next Generation IoT
- Towards a Fully Programmable Internet of Things
SW2 : Signal processing and AI Signal processing and AI
- Multi-Carrier (OFDM) Cooperative Transmission in MANETs with Multiple Carrier Frequency Offsets
- Smart Full-Exploitation of Beamforming Fusion assisted Spectrum Sensing for Cognitive Radio
- Over-the-Air Computing under Adaptive Channel State Estimation
- Unveiling Cellular Antenna Orientations from Large Crowdsourced Datasets: A Deep Learning Approach
Tuesday, October 11 14:00 - 15:30
SW3 : Security Security
- Fuzzy approach for load balancing in Blockchain-based Software Defined Vehicular Networks
- Holo-Block Chain: A Hybrid Approach for Secured IoT Healthcare Ecosystem
- An Efficient Data Integrity Verification Scheme For Distributed Fog Computing Architecture
- Secrecy Performance of Small-Cell Networks over Nakagami-m Fading in the Presence of Unreliable Backhaul and Imperfect CSI
- AODV-Miner: Consensus-Based Routing Using Node Reputation
SW4 : Antennas and micro wave devices Antennas and micro wave devices
- A Symmetric Wideband Doherty Power Amplifier for the n78 - 5G NR Frequency Band
- Ultra-Wideband Steerable Antenna Array Based on EBG Structure for Millimeter Wave 5G Applications
- Enhanced Meander antenna for in-body telemetry applications
- Evaluation of Angle of Arrival in Indoor Environments with Bluetooth 5.1 Direction Finding
Tuesday, October 11 16:00 - 17:30
SW5: LoRa LoRa networks
- Generic Model to Quantify Energy Consumption for Different LoRaWAN Channel Access Methods
- ADR-Lite: A Low-Complexity Adaptive Data Rate Scheme for LoRa Network
- LoRaWAN optimization using optimized Auto-Regressive algorithm, Support Vector Machine and Temporal Fusion Transformer for QoS ensuring
- LoRaOpp: A Protocol for Opportunistic Networking and Computing in LoRa Networks
SW6: Artificial Intelligence Artificial Intelligence
- Drone-Assisted Lane Change Maneuver using Reinforcement Learning with Dynamic Reward Function
- Real-Time Deep Learning based Road Deterioration Detection for Smart Cities
- Deep Learning-Based QoE Prediction for Streaming Services in Mobile Networks
- INTRAFORCE: Intra-Cluster Reinforced Social Transformer for Trajectory Prediction
Wednesday, October 12 9:30 - 10:30
Keynote2: Reconfigurable Intelligent and Holographic Surfaces for Wireless Communications
Abstract
A Reconfigurable Intelligent Surface (RIS) is a planar structure that is engineered to have properties that enable the dynamic control of the electromagnetic waves. In wireless communications and networks, RISs are an emerging technology for realizing programmable and reconfigurable wireless propagation environments through nearly passive and tunable signal transformations. RIS-assisted programmable wireless environments are a multidisciplinary research endeavor. This presentation is aimed to report the latest research advances on modeling, analyzing, and optimizing RISs for wireless communications with focus on electromagnetically consistent models, analytical frameworks, and optimization algorithms. In addition, the interplay between RISs and holographic surface-based transceivers will be discussed with focus on near-field communications in line-of-sight channels.
Biography
Marco Di Renzo is a CNRS Research Director (Professor) with the Laboratory of Signals and Systems (L2S) of Paris-Saclay University - CNRS and CentraleSupelec, Paris, France. He serves as the Coordinator of the Communications and Networks Research Area of the Laboratory of Excellence DigiCosme, as a Member of the Admission and Evaluation Committee of the Ph.D. School on Information and Communication Technologies, and as the Head of the Intelligent Physical Communications group with the Laboratory of Signals and Systems at CentraleSupelec. He serves as the Editor-in-Chief of IEEE Communications Letters, he is a founding member and a Vice Chair of the Industry Specification Group (ISG) on RIS within the European Telecommunications Standards Institute (ETSI), and he serves as the Rapporteur of the work item on communication models, channel models, and evaluation methodology. He is a Fellow of the IEEE, IET, and AAIA; an Ordinary Member of the European Academy of Sciences and Arts, and the Academia Europaea; and a Highly Cited Researcher. Also, he is a Fulbright Fellow and a Nokia Foundation Visiting Professor. His recent research awards include the 2021 EURASIP Best Paper Award, the 2022 IEEE COMSOC Outstanding Paper Award, and the 2022 Michel Monpetit Prize from the French Academy of Sciences
Wednesday, October 12 11:00 - 12:30
STWiMob'22 - ST4: Network Optimization
- Segment Prefetching at the Edge for Adaptive Video Streaming
- Spatio-Temporal Data Reduction Technique in WVSN for Smart Agriculture
- Optimizing the Array Factor of a Phased Array Antenna (PAA) using a genetic algorithm
- Micro-Doppler Characteristics of mmWave Indoor Backscattering Channels for RF Sensing
SW7: Applications & Energy Applications & Energy
- Bridging the Gap Between Java and Python in Mobile Software Development to Enable MLOps
- Object Recognition from 3D Point Cloud on Resource-Constrained Edge Device
- On the Fair Energy Sharing in Networks with Wireless Charging-capable Devices
- Semantic Communication for Capacity-aware Remote Collaboration
Wednesday, October 12 14:00 - 15:00
CWN'22 - CN: CWN'22 Session
- Decentralized P2P Federated Learning on Ad-hoc Like Networks with Non-IID Dataset
- WideVision: A Low-Power, Multi-Protocol Wireless Vision Platform for Distributed Surveillance
- On the Second Order Statistics of Cooperative UAV Communications underlying Interference Limited Composite Fading Conditions
Wednesday, October 12 14:00 - 15:30
SW8: 5G 5G networks
Wednesday, October 12 15:15 - 16:00
SIoA'22 - SI: SIoA'22 Session
Wednesday, October 12 15:30 - 17:00
Short Papers, Poster & Demos
- Effect of Users' Equipment Capability on Utilization of Heterogeneous Wireless Networks
- Air-to-Ground Channel Characterization for Unmanned Aerial Vehicles Based on Field Measurements
- Dynamic Adaptation of LoRaWAN Traffic for Real-time Emergency Operations
- CoDiPy: Performance Evaluation of Vehicular Cooperative Downloading in Python
- Innovative Secure Element Grids For Internet Of Secure Elements Servers
- Obstacle-aware On-demand 5G Network using a Mobile Robotic Platform
- Emu5GNet: an Open-Source Emulator for 5G Software-Defined Networks