Fwd: [CFP] IEEE INFOCOM WKSHPS: WiSARN 2021: International Workshop on Wireless Sensor, Robot and UAV Networks
-------- Weitergeleitete Nachricht -------- Betreff: [CFP] IEEE INFOCOM WKSHPS: WiSARN 2021: International Workshop on Wireless Sensor, Robot and UAV Networks Datum: Wed, 18 Nov 2020 15:19:41 +0100 Von: Angelo Trotta angelo.trotta@IEEE.ORG An: tciin@COMSOC.ORG
Apologies for cross and multiple postings
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14th International Workshop on Wireless Sensor, Robot and UAV Networks
*IEEE WISARN 2021*, co-located with *IEEE INFOCOM 2021* conference
Website: https://wisarn2021.nws.cs.unibo.it https://wisarn2021.nws.cs.unibo.it
*May 10, 2021 Virtual Conference*
Features:
-*Best Paper Award (BPA) *sponsored by the*Technology Innovation Institute (TII) *with a cash prize of *1,000 Euro.*
- Best-selected papers related to robotic sensors networks and 5G will be invited to submit an extended paper to the Special Issue on “*Internet of Things and Sensors Network in 5G Wireless Communications*”, MDPI Sensors journal
- Best-selected papers related to robotic sensors networks and 5G will be invited to submit an extended paper to the Special Issue on “*Mobile Fog and Edge Computing in Drone Swarms*”, MDPI Drones journal
Scope of the workshop
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Wireless Sensor, Robot and UAV networks are characterized by the coordination and mobility of nodes that are able to accomplish distributed sensing and actuation tasks. Leveraged by the control and mobility of actors, the networking process and applications embrace a whole new set of possibilities. Specialized networked systems, made of intelligent devices (such as robots and UAVs), may deploy, repair and relocate sensors to improve coverage, build routes and fix network partition to ensure data communication, change network topology to shape routing patterns and balance energy consumption, and to respond to reported events in a timely and effective manner. Also, they might be able to integrate within existing and upcoming mobile infrastructures (e.g. the 5G), by enabling the sensing operations on complex and dynamic scenarios, and to process the data on the edge or to offload them toward existing cloud services. The benefits are limited only by imagination. As an emerging field, ground and aerial robotic systems are in need of new networking techniques as well as of novel cloud/edge architectures for data gathering and processing that might unlock the potentials of such systems. To this purpose, WiSARN aims at bringing together state-of-the-art contributions on the design, specification and implementation of architectures, algorithms and protocols for current and future applications of sensor robotic and aerial networks. IEEE WiSARN 2021 will serve as incubator for scientific communities that share a particular research agenda in the area of the workshop’s topics. Moreover, it will provide its participants with opportunities to understand the major technical and application challenges of UAV/Robot networking as well as exchange and discuss scientific and engineering ideas related to their architecture, protocol, algorithm, and application design.
Topics of interest
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Original, unpublished contributions are solicited in design, implementation and evaluation of wireless sensor, robot and UAV networks. Possible topics include, but are not limited to:
- UAV-aided wireless sensor networks
- Communication protocols and wireless technologies for robotic systems
- UAV and robot networks in 5G systems
- Emergent behavior in robotic systems
- Cloud/fog/edge computing platforms in robotic systems
- Data management, gathering and aggregation issues in robotic systems
- Modeling and control of fleet of UAVs
- Autonomic and self-organizing coordination and communication in Robot and UAV networks
- Energy-efficient and real-time communication protocols in Robot and UAV networks
- Distributed control and management for Robot and UAV network deployments
- Map exploration and pattern formation of mobile robots
- Robot task assignment
- Biologically inspired communication systems for Robot and UAV networks
- Software-Defined Aerial Networks
- Endurance Management
- Context-awareness and decision making for UAV systems
- Path planning, and target tracking in UAV networks
- Quality of service, security and robustness issues
- Robot advanced motion control
- Optimal control of networked robots
- Novel applications of Robot and UAV networks
Committees
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General Chairs
- Enrico Natalizio, University of Lorraine, France
- Yannis Paschalidis, Boston University, USA
Technical Program Chairs
- Marco Di Felice, University of Bologna, Italy
- Joaquin Garcia-Alfaro, Institut Polytechnique de Paris, France
- Guan Zhangyu, State University of New York at Buffalo, USA
Web and Publicity Chairs
- Angelo Trotta, University of Bologna, Italy
Submission Instructions
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To submit your paper, it is required that the manuscript follows the standard IEEE camera-ready format (double column, 10-pt font) and be submitted as PDF file (formatted for 8.5-11 inch paper) as well as the requirement set by the EDAS paper submission system. Submitted paper must be original and unpublished papers with no more than 6 pages, including bibliography.
All accepted papers of INFOCOM (main program and workshops), after being presented at the conference, will be included in the proceedings to be submitted for publication in IEEE Xplore®.
Submission link: https://edas.info/N27895 https://edas.info/N27895
Deadlines:
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Submission deadline: December 15, 2020
Notification: January 15, 2021
Camera-ready: February, 15, 2021
Workshop date: May 10, 2021
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participants (1)
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Lars Wolf