
3rd International Electronic Conference on Sensors and Applications
Part of the International Electronic Conference on Sensors and Applications series
15–30 Nov 2016
- Go to the Sessions
-
- A. Biosensors
- B. Chemical Sensors
- C. Physical Sensors
- D. Sensors Networks
- E. Applications
- P. Posters
- S1. MEMS and NEMS
- S2. Smart Systems and Structures
- S3. Fiber Optic Sensors
- S4. Factories of the Future
- S5. Sensing Technologies for Water Resource Management
- S6. Sensors for the Monitoring of the Low Voltage Distribution Network and Transition to the Smart Grid
- S7. Foreword
- Event Details
Call for Papers
The 3rd International Electronic Conference on Sensors and Applications will be held from 15–30 November 2016 in the internet environment. This event will solely be an online proceeding which allows the participation from all over the world with no concerns of travel and related expenditures, while at the same time making rapid and direct exchanges about the latest research findings and novel ideas in sensors. All proceedings will be held online at https://sciforum.net/conference/ecsa-3.
The conference aims to bring the scientists working in the field onto a common platform and promote and advance the exciting and rapidly changing field of sensing technologies and applications along the following 5 main themes and 7 specific sessions:
- Biosensors (Section A)
- Chemical Sensors (Section B)
- Physical Sensors (Section C)
- Sensor Networks (Section D)
- Applications (Section E)
- Posters: In this section, posters can be presented without an accompanying proceedings paper. Posters will be available online on this website during and after the e-conference. However, will not be added to the proceedings of the conference.
- MEMS and NEMS (Specific Session S1)
- Smart Systems and Structures (Specific Session S2)
- Fiber Optic Sensors (Specific Session S3)
- Factories of the Future (Specific Session S4)
- Sensing Technologies for Water Resource Management (Specific Session S5)
- Sensors for the Monitoring of the Low Voltage Distribution Network and Transition to the Smart Grid (Specific Session S6)
Abstracts (in English) should be submitted by 5 October 2016 online at https://www.sciforum.net/login. For accepted abstracts, the full paper can be submitted by 10 November 2016. The conference itself will be held from 15–30 November 2016.
Paper Submission GuidelinesFor information about the procedure for submission, peer-review, revision and acceptance of conference proceedings papers, please refer to the section "Instructions for Authors": https://www.sciforum.net/conference/ecsa-3/page/instructions.
Conference Chairs
Sessions
A. BiosensorsB. Chemical Sensors
C. Physical Sensors
D. Sensors Networks
E. Applications
P. Posters
S1. MEMS and NEMS
S2. Smart Systems and Structures
S3. Fiber Optic Sensors
S4. Factories of the Future
S5. Sensing Technologies for Water Resource Management
S6. Sensors for the Monitoring of the Low Voltage Distribution Network and Transition to the Smart Grid
S7. Foreword
Instructions for Authors
Submissions should be done by the authors online by registering with www.sciforum.net, and using the "New Submission" function once logged into system.
- Scholars interested in participating with the conference can submit their abstract (about 200-250 words covering the areas of manuscripts for the proceedings issue) online on this website until 5 October 2016.
- The Conference Committee will pre-evaluate, based on the submitted abstract, whether a contribution from the authors of the abstract will be welcome for the 3rd International Electronic Conference on Sensors and Applications. All authors will be notified by 10 October 2016 about the acceptance of their abstract.
- If the abstract is accepted for this conference, the author is asked to submit the manuscript, optionally along with a PowerPoint and/or video presentation of his/her paper (only PDF), until the submission deadline of 10 November 2016.
- The conference proceedings papers and presentations will be available on sciforum.net/conference/ecsa-3 for discussion during the time of the conference 15-30 November 2016.
- The Open Access Journal Sensors will publish Special Issue of the conference and accepted papers will be published in the proceedings of the conference itself. After the conference, the Conference Committee will select manuscripts that may be included for publication in the Special Issue of the journal Sensors (the submission to the journal is independent from the conference proceedings and will follow the usual process of the journal, including peer-review, APC...).
Manuscripts for the proceedings issue must have the following organization:
First page:
- Title
- Full author names
- Affiliations (including full postal address) and authors' e-mail addresses
- Abstract (200-250 words)
- Keywords
- Introduction
- Methods
- Results and Discussion
- Conclusions
- (Acknowledgements)
- References
Manuscripts should be prepared in MS Word or any other word processor and should be converted to the PDF format before submission. The publication format will be PDF. The manuscript should count at least 3 pages (incl. figures, tables and references) and should not exceed 6 pages.
Authors are encouraged to prepare a presentation in PowerPoint or similar software, to be displayed online along with the Manuscript. Slides, if available, will be displayed directly in the website using Sciforum.net's proprietary slides viewer. Slides can be prepared in exactly the same way as for any traditional conference where research results can be presented. Slides should be converted to the PDF format before submission so that our process can easily and automatically convert them for online displaying.
Besides their active participation within the forum, authors are also encouraged to submit video presentations. If you are interested in submitting, please contact the conference organizer – [email protected] to get to know more about the procedure. This is an unique way of presenting your paper and discuss it with peers from all over the world. Make a difference and join us for this project!
Submission: Manuscripts should be submitted online at www.sciforum.net/login by registering and logging in to this website.
Accepted File Formats
- MS Word: Manuscript prepared in MS Word must be converted into a single file before submission. When preparing manuscripts in MS Word, the Electronic Conference on Sensors and Applications Microsoft Word template file (see download below) must be used. Please do not insert any graphics (schemes, figures, etc.) into a movable frame which can superimpose the text and make the layout very difficult.

- Paper Format: A4 paper format, the printing area is 17.5 cm x 26.2 cm. The margins should be 1.75 cm on each side of the paper (top, bottom, left, and right sides).
- Paper Length: The conference proceedings paper should not be longer than 6 pages. The conference manuscript should be as concise as possible.
- Formatting / Style: The paper style of the Journal Sensors should be followed. You may download the template file to prepare your paper (see above). The full titles and the cited papers must be given. Reference numbers should be placed in square brackets [ ], and placed before the punctuation; for example [4] or [1-3], and all the references should be listed separately and as the last section at the end of the manuscript.
- Authors List and Affiliation Format: Authors' full first and last names must be given. Abbreviated middle name can be added. For papers written by various contributors a corresponding author must be designated. The PubMed/MEDLINE format is used for affiliations: complete street address information including city, zip code, state/province, country, and email address should be added. All authors who contributed significantly to the manuscript (including writing a section) should be listed on the first page of the manuscript, below the title of the article. Other parties, who provided only minor contributions, should be listed under Acknowledgments only. A minor contribution might be a discussion with the author, reading through the draft of the manuscript, or performing English corrections.
- Figures, Schemes and Tables: Authors are encouraged to prepare figures and schemes in color. Full color graphics will be published free of charge. Figure and schemes must be numbered (Figure 1, Scheme I, Figure 2, Scheme II, etc.) and a explanatory title must be added. Tables should be inserted into the main text, and numbers and titles for all tables supplied. All table columns should have an explanatory heading. Please supply legends for all figures, schemes and tables. The legends should be prepared as a separate paragraph of the main text and placed in the main text before a table, a figure or a scheme.
It is the authors' responsibility to identify and declare any personal circumstances or interests that may be perceived as inappropriately influencing the representation or interpretation of clinical research. If there is no conflict, please state here "The authors declare no conflict of interest." This should be conveyed in a separate "Conflict of Interest" statement preceding the "Acknowledgments" and "References" sections at the end of the manuscript. Financial support for the study must be fully disclosed under "Acknowledgments" section.
CopyrightMDPI AG, the publisher of the Sciforum.net platform, is an open access publisher. We believe that authors should retain the copyright to their scholarly works. Hence, by submitting a Communication paper to this conference, you retain the copyright of your paper, but you grant MDPI AG the non-exclusive right to publish this paper online on the Sciforum.net platform. This means you can easily submit your paper to any scientific journal at a later stage and transfer the copyright to its publisher (if required by that publisher).
List of accepted submissions (45)
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sciforum-009562 | A multiscale approach to the smart deployment of micro-sensors over flexible plates | , , , |
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In former studies, we proposed a topology optimization approach to maximize the sensitivity to damage of measurements collected through a network of sensors deployed over flexible, thin plates. Within such frame, a damage must be intended as a change of the structural health characterized by a reduction of the relevant load-carrying capacity. By properly comparing the response of the healthy, undamaged structure and the response of the damaged one, independently of the location of the source of damage, a procedure to optimally deploy a given set of sensors was provided. In this work we extend the aforementioned approach within a multi-scale frame, to account for (at least) three different length-scales: a macroscopic one, linked to the dimensions of the structure to be monitored; a mesoscopic one, linked to the characteristic size of the damaged region(s); a microscopic one, linked to the size of inertial microelectromechanical systems (MEMS) to be used within a marginally invasive health monitoring system. Results are provided for a square plate simply supported along its border, to show how the micro-sensors are to be deployed to maximize the sensitivity of measurements to damage, and to also discuss the speedup obtained with the proposed multiscale approach in comparison with a standard single-scale one. |
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sciforum-009330 | Sensing Strategies to Monitor the Motion of a Full Variable Valve Train in Combustion Engines | , | N/A |
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This paper deals with all required parts to set up the full variable valve train (FVVT) system to be used in intake and exhaust valves of combustion engines from the electrical/electronic point of view. This includes the displacement and pressure sensors that are needed to conduct research on the fully variable valve train while in operation and the electronic auxiliaries such as the amplifier for the piezo actuator, the dSPACE control system and the used function generator. In particular, the use of displacement transducers for all relevant pistons and stems is crucial for the FVVT system control. As only the piezo actuator is equipped with a displacement sensor, the remaining sensors still need to be chosen. Within the previous FVVT system two different displacement sensors have been used on the engine valve stem. Three displacement sensors and one pressure sensor are implemented into the mechanical core of the system (consisting of lever transmission, control unit, servo valve and engine valve body), which is driven by the piezo actuator and supplied with hydraulic pressure by a pump, that requires a 230 V power supply and a tank, which the hydraulic fluid can return to. While the pressure sensor monitors the hydraulic pressure within the lever transmission, displacement sensors need to be chosen to monitor the motion of the
Measured results are presented. |
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sciforum-009716 | Nonlinear-based MEMS sensors and active switches for gas and acceleration applications | N/A |
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In this talk, we demonstrate the realization of smart sensors and actuators through the exploitation of principles of nonlinear dynamics at the micro scale. Specifically, we demonstrate combining sensing and actuation into a single device through what is called smart switches triggered by the detection of a desirable physical quantity. The concept aims to reduce the complexity of systems that rely on controllers and complex algorithms to on demand trigger actions. In the first part of the talk, we discuss the category of switches triggered by the detection of gas. Toward this, electrostatically microbeams resonators are fabricated, then coated with highly absorbent polymers (MOFs), and afterward are exposed to gases. Such devices can be useful for instant alarming of toxic gases. In the second part, we demonstrate switches triggered by shock and acceleration. The concept is demonstrated on a millimeter-scale capacitive sensor. The sensor is tested using acceleration generated from shakers. Such devices can be used for the deployment of airbags in automobiles. |
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sciforum-009351 | Proximity and Contact Sensing with Instrumented Compliant Wrist for Close Guidance of Robotic Manipulators | , | N/A |
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Compliance in robotic systems has been exploited to allow rigid mechanisms to come into contact with complex and possibly fragile objects. By incorporating compliance and instrumentation into a single device nearby objects can be detected before direct contact occurs. That way, safer and smoother robot guidance can be achieved both while approaching and while touching surfaces. Furthermore, the path planning and control problem is simplified as position based algorithms can be used regardless of the state of system, be it in free motion or constrained motion, or even during transitions between the two modes. This paper presents the design and experimental validation of a lightweight, low-cost and stand-alone instrumented compliant wrist mechanism which can be mounted on the tool plate of any rigid robotic manipulator. Embedded arrays of infrared sensors provide distance measurements. Each is finely tuned via a novel calibration procedure that overcomes inter-sensor variability. All signal processing is also embedded and wireless transmission connects the device to the robot controller to support path control. Real-time acquired measurements on the position and orientation of surfaces located in close proximity or in contact with the robot’s end effector permit close guidance of its operation. Experimental work demonstrates how the device provides physical compliance to prevent large impact forces to occur during non-contact to contact transitions by the manipulator’s end effector. It also demonstrates the stability and accuracy of the device outputs. Primary applications of the proposed instrumented compliant wrist include smooth surface following in manufacturing and safe human-robot interaction. |
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sciforum-008796 | Modular sensor architecture for automated agricultural data collection on the field | , , , | N/A |
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Due to the increasingly growth in population, it is important to better use natural resources for food production and efficiency, driving the use of sensors each time more to monitor several aspects of the soil and of the crops in the field. However, it is known that the harsh conditions of the field environment demands more robust and energy efficient sensor devices. One example is soil water monitoring for irrigation: Brazil, for example, consumes 69% of its freshwater only for irrigation purposes, which shows the need of using adequate water moisture sensors. Based on that, this work proposes a modular architecture that integrates several sensor technologies, including battery-less sensors and low power sensors for soil moisture measurements, but not limited to them. The proposed system relies on a mobile robot that can locate each deployed sensor autonomously, collect its data and make it available on-line using cloud services. As proof of concept, a low-cost mobile robot is built using a centimeter level accuracy location system, that allows the robot to travel to each sensor and collect their data. The robot is equipped with an UHF antenna to provide power to RF powered battery-less sensors, a Bluetooth low energy data collector and a Zigbee data collector. An experimental evaluation compares reading distance and successful rate of sensor location and reading. |
Partner Events
Current developments show that in the near future the wide availability of low cost, short range radio technology, along with advances in wireless networking, will enable wireless adhoc sensor networks to become commonly deployed. In these networks, each node may be equipped with a variety of sensors, such as acoustic, seismic, infrared, motion, biomedical and chemical sensors with higher level of information inference associated with identification, embedded signal processing and networking of the data. This conference intends to be the meeting point of researchers and practitioners to share experiences and ideas on innovative developments in any aspect of sensor networks, including Hardware of Sensor Networks, Wireless Communication Protocols, Sensor Networks Software and Architectures, Wireless Information Networks, Data Manipulation, Signal Processing, Localization and Object Tracking through Sensor Networks, Obstacles, Applications and Uses. http://sensornets.org/.
Keynote Speakers

Mohammad I. Younis received a Ph.D. degree in engineering mechanics from Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, in 2004. He is currently an Associate Professor of Mechanical Engineering at King Abdullah University of Science and Technology, Thuwal, Saudi Arabia, and the State University of New York (SUNY), Binghamton, NY, USA. He serves as the Director of the MEMS and NEMS Characterization and Motion Laboratory. Dr. Younis is a recipient of the SUNY Chancellor’s Award for Excellence in Scholarship and Creative Activities in 2012, the National Science Foundation Faculty Early Career Development Award in 2009, and the Paul E. Torgersen Graduate Research Excellence Award in 2002. He holds several U.S. patents in MEMS sensors and actuators. He serves as an Associate Editor of Nonlinear Dynamics, the Journal of Computational and Nonlinear Dynamics, and the Journal of Vibration and Control. He has authored the book entitled MEMS Linear and Nonlinear Statics and Dynamics (Springer, 2011). He has authored more than ninety archival journal papers, all on the fields of MEMS and NEMS. He is a member of the American Society of Mechanical Engineers.

Francisco Falcone (M05, SM09) received his Telecommunications Engineering Degree (1999) and PhD in Communications Engineering (2005), both at the Universidad Pública de Navarra (UPNA) in Spain. From 1999 to 2000 he worked as Microwave Commissioning Engineer at Siemens-Italtel. From 2000 to 2008 he worked as Radio Network Engineer in Telefónica Móviles. In 2009 he co-founded Tafco Metawireless, a spin off devoted to complex EM analysis. From 2003 to 2009 he was also Assistant Lecturer at UPNA, becoming Associate Professor in 2009. His research area is artificial electromagnetic media, complex electromagnetic scenarios and wireless system analysis. He has over 280 contributions in journal and conference publications. He has been recipient of the CST Best Paper Award in 2003 and 2005, Best PhD in 2006 awarded by the Colegio Oficial de Ingenieros de Telecomunicación, Doctorate award 2004-2006 awarded by UPNA, Juan Lopez de Peñalver Young Researcher Award 2010 awarded by the Royal Academy of Engineering of Spain and Premio Talgo 2012 for Technological Innovation.
Conference Schedule
- Conference Open: 15-30 November 2016
- Abstract Submission: 5 October 2016
- Notification of Acceptance: 10 October 2016
- Proceedings Paper Submission Deadline: 10 November 2016
Conference Organizers
Dr. Stefano Mariani
Department of Civil and Environmental Engineering Politecnico di Milano, Italy
Editorial Board Member and Guest Editor of several
Special Issues of the Journal Sensors
Dr. Francesco Ciucci
The Hong Kong University of Science and Technology
Kowloon, Hong Kong
Dr. Dirk Lehmhus
ISIS Sensorial Materials Scientific Centre
University of Bremen
Bremen, Germany
Dr. Thomas B. Messervey
CEO and Co-Founder, Research to Market Solution s.r.l. Pavia, Italy
Dr. Alberto Vallan
Department of Electronics and Telecommunications Politecnico di Torino
Turin, Italy
Dr. Stefan Bosse
Department of Mathematics and Computer Science, University of Bremen, Germany
Scientific Advisory Committee
Dr. Stefano Mariani, Department of Civil and Environmental Engineering, Politecnico di Milano, Italy
Dr. Francesco Ciucci, The Hong Kong University of Science and Technology, Hong Kong
Dr. Dirk Lehmhus, ISIS Sensorial Materials Scientific Centre, University of Bremen, Germany
Dr. Thomas B. Messervey, CEO and Co-Founder, Research to Market Solution s.r.l., Italy
Dr. Alberto Vallan, Department of Electronics and Telecommunications, Politecnico di Torino, Italy
Dr. Stefan Bosse, Department of Mathematics and Computer Science, University of Bremen, Germany
Dr. Francisco Falcone, Universidad Publica de Navarra, UPNA, Spain
Dr. Cinzia Caliendo, Institute of Photonics and Nanotechnology, IFN, National Research Council of Italy, CNR, Italy
Prof. Dr. Caterina Ciminelli, Optoelectronics Laboratory, Politecnico di Bari, Italy
Dr. Peter Cragg, School of Pharmacy and Biomolecular Sciences, University of Brighton, UK
Prof. Dr. Jamal Deen, Electrical and Computer Engineering, McMaster University, Canada
Dr. Ye Fang, Biochemical Technologies, Science and Technology Division, Corning Incorporated, USA
Prof. Dr. Juan A. Gomez-Pulido, Computer Architecture and Logic Design Group (ARCO), Department of Technologies of Computers and Communications, University of Extremadura, Spain
Prof. Dr. Vinod Gupta, FWIF, FNASc., Department of Chemistry, Indian Institute of Technology Roorkee, India
Prof. Dr. Dusan Losic, School of Chemical Engineering, University of Adelaide, Australia
Prof. Dr. Huangxian Ju, Department of Chemistry, Nanjing University, China
Prof. Dr. Spas Kolev, School of Chemistry, The University of Melbourne, Australia
Prof. Dr. Shinya Maenosono, School of Materials Science, Japan Advanced Institute of Science and Technology, Japan
Dr. Kwang W. Oh, SMALLab (Sensors and Microactuators Learning Lab), Department of Electrical Engineering, University at Buffalo, USA
Dr. Roberto Pilloton, 1st Researcher at CNR Institute for Atmospheric Pollution CNR, Italy
Dr. Matteo Tonezzer, IMEM - CNR Institute of Materials for Electronics and Magnetism – Italian National Research Council, Italy
Prof. Dr. Maurizio Valle, Department of Electrical, Electronic and Telecommunications Engineering, and Naval Architecture, University of Genova, Italy
Conference Secretariat
Mr. Harry Fu
MDPI Branch Office, Wuhan
E-Mail: [email protected]
Ms. Lin Li
MDPI Branch Office, Beijing
E-Mail: [email protected]
For information regarding sponsoring opportunities, please contact the conference secretariat.
A. Biosensors
Section Chair:
Dr. Stefano Mariani, Department of Civil and Environmental Engineering, Politecnico di Milano, Italy
Session Chair
Dr. Stefano Mariani, Politecnico di Milano
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B. Chemical Sensors
Section Chair:
Dr. Francesco Ciucci, The Hong Kong University of Science and Technology, Hong Kong
Session Chair
Dr. Francesco Ciucci
C. Physical Sensors
Dr. Dirk Lehmhus, ISIS Sensorial Materials Scientific Centre, University of Bremen, Germany and Dr. Alberto Vallan, Department of Electronics and Telecommunications, Politecnico di Torino, Italy
Session Chair
Dr. Dirk Lehmhus, Fraunhofer IFAM
D. Sensors Networks
Section Chair:
Dr. Stefano Mariani, Department of Civil and Environmental Engineering, Politecnico di Milano, Italy
Session Chair
Dr. Stefano Mariani, Politecnico di Milano
E. Applications
Section Chair:
Dr. Thomas B. Messervey, CEO and Co-Founder, Research to Market Solution s.r.l., Italy
Session Chair
Dr. Thomas Messervey
P. Posters
In this section, posters can be presented without an accompanying proceedings paper. Posters will be available online on this website during and after the e-conference. However, will not be added to the proceedings of the conference.
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S1. MEMS and NEMS
Section Chairs:
Dr. Stefano Mariani, Department of Civil and Environmental Engineering, Politecnico di Milano, Italy
The MEMS and NEMS Section is aimed at gathering together contributions on the modelling and analysis of Micro-Electro-Mechanical-Systems (MEMS) and Nano-Electro-Mechanical-Systems (NEMS), and on their real-life applications. Works on the theoretical, numerical and experimental aspects are solicited, especially those stemming from multi-disciplinary approaches.
Contributions are welcome to address the following topics:
- Multi-physics modeling
- Uncertainty quantification at the micro- and nano-scale
- System identification and control
- Sensor optimization
- Damping phenomena
- Stiction and other contact or proximity phenomena
- Effect of emerging materials, like graphene
Applications to be considered include, but are not limited to:
- Inertial sensors
- Physical sensors
- Chemical sensors
- RF switches
- Micromirrors
- Energy harvesters
Session Chair
Dr. Stefano Mariani, Politecnico di Milano
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S2. Smart Systems and Structures
Section Chairs:
Dr. Dirk Lehmhus, ISIS Sensorial Materials Scientific Centre, University of Bremen, Germany
Dr. Stefan Bosse, Department of Computer Science, Workgroup Robotics, University of Bremen, Bremen, Germany
Trends emerging in engineering and micro-system applications such as the development of sensorial materials show a growing demand for distributed autonomous computing in sensor networks consisting of miniaturized low-power smart sensors embedded in technical structures. A Sensor Network is composed of nodes capable of sensor processing and communication. Smart Systems are composed of more complex networks (and networks of networks) differing significantly in computational power and available resources. They provide higher level information processing that maps the raw sensor data to condensed information. They can provide, for example, Internet connectivity of perceptive systems (body area networks...). These smart systems unite the traditionally separated sensing, aggregation, and application levels, offering a more unified design approach and more generic and unified architectures. Smart systems glue software and hardware components to an extended operational unit.
Smart can be defined on different operational and processing levels and having different goals in mind. One aspect is the adaptivity and reliability in the presence of sensor, communication, node, and network failures that should not compromise the trust and quality of the computed information, for example, the output of a Structural Health Monitoring System (SHM). A Smart System can be considered on node, network, and network of network level. Another aspect of "smartness" is information processing with inaccurate or incomplete models (mechanical, technical, physical) requiring machine learning approaches, either supervised with training at design-time or unsupervised based on reward learning at run-time.
Growing system complexity requires an increase in autonomy of distributed data processing systems, addressed, for example, by the deployment of mobile multi-agent systems carrying and processing information. Self-organizing systems are one major approach to solve complex tasks by decomposing them into smaller and simpler task performed by a large group of individuals.
Smart "Functional" Structures extend classical perceptive systems with actuators responding to changes in the environment or load conditions in real-time, enabling Reactive Perceptive Systems.
Topics included but not limited to are:
- Software engineering for sensing applications and sensor clouds
- Data mining in sensing applications
- Autonomous computing systems
- Multi-agent systems and intelligent computing
- Machine learning supporting sensing applications
- Ubiquitous smart systems and applications
- Sensor cloud, cluster and grid computing
- Internet of Things
- Human-computer, human-sensing, and human-machine interaction
- Machine-to-Machine (M2M) networks
- Service-orientated information processing and computing
- Reliable and fault-tolerant system design and algorithms
- Platform design and architectures
- Active perceptive systems coupling sensing + actuation including robotic systems
Session Chairs
Dr. Dirk Lehmhus, Fraunhofer IFAM
Dr. Stefan Bosse, University of Bremen
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S3. Fiber Optic Sensors
Dr. Alberto Vallan, Department of Electronics and Telecommunications, Politecnico di Torino, Italy
This session is focused on Fiber Optic Sensors (FOS) and related applications. In the sensor market, FOS represent a relevant portion which is rapidly growing thanks to the availability of new optical and electro-optical devices characterized by a low-cost, a reduced power consumption and small dimensions. Session topics concern all the aspects related to the use of optical fibers in the sensor field, such as the development and testing of intrinsic sensors, the usage of fibers for extrinsic sensors or to power non-optical sensing devices, and also original fiber sensor applications and in-field results.
Suggested topics include:
- Fiber optic sensors for structural monitoring
- Health related applications
- High voltage/current/EM-field measurements
- Sensors for harsh environments
- MRI compliant sensors
- Chemical and biochemical sensors
- Fiber Bragg Gratings
- Interferometric sensors
- Polarimetric sensors
- Disposable fiber sensors
- Plastic Optical Fiber (POF) sensors
- Photonic-crystal fibers, microstructured fibers and other innovative fibers for sensing applications
- Quasi-distributed and distributed sensors
- Sensor testing and characterization procedures
- Multiplexing and remote sensing
- Power-over-fiber for sensor applications
- Modeling and correction of systematic effects and influence quantities
Session Chair
Professor Alberto Vallan, Politecnico di Torino
S4. Factories of the Future
Section Chairs:
Dr. Dirk Lehmhus, ISIS Sensorial Materials Scientific Centre, University of Bremen, Germany
Today, production technology is going through a transformation toward increasingly autonomous manufacturing systems and environments. This change is sometimes seen as being fundamental enough to designate it as the fourth industrial revolution captured in the term “Industry 4.0” first coined in Germany, where mechanization, mass production and computerization are considered the three preceding landmark transformations.
In Industry 4.0, factories will increasingly decide autonomously on aspects like production process parameters, process sequences, production logistics etc. In order to be able to do so, these factories will need large amounts of data, from which the information needed in decision-making has to be derived without or with limited intervention of human beings. In parallel, new (or improved) manufacturing capabilities such as flexible manufacturing, mass customization and additive manufacturing bring new possibilities in terms of how products are made.
The present session invites papers to respond to the data driven demands of this next industrial revolution through the implementation of appropriate sensor systems through all phases of the product life-cycle. Results from ongoing or past European Factories of the Future projects and like research programs worldwide are welcome. Possible topics include:
- Development of new sensors for the monitoring of production processes
- Enabling KPI assessment and use via cost effective sensors and meters
- Application of sensor systems in production engineering on various levels, from the individual sensorized tool to heavily sensor-based, fully automated production systems and facilities
- Sensor data evaluation methods tailored for or transferred to applications in production engineering
- Workpiece-based monitoring of production processes, i.e. use of product-integrated sensors to provide feedback to production equipment
- Use of product-integrated sensors for feedback of life cycle data into the product (re) design phase to enable continuous improvement of products, including concrete examples of implementation of such feedback loops both on conceptual and realization level
Given this scope, the session has links to almost all sections of the conference, the common denominator being the fact that the presentations should target advanced manufacturing as application scenario.
Session Chair
Dr. Dirk Lehmhus, Fraunhofer IFAM
S5. Sensing Technologies for Water Resource Management
Section Chair:
Dr. Thomas B. Messervey, CEO and Co-Founder, Research to Market Solution s.r.l., Italy
The USA documents 237,600 water line breaks each year costing €2.8 billion annually. Normal water leakage instead runs at 7 billion gallons per day (http://www.waterworld.com/articles/print/volume-30/issue-7/editorial-features/patching-up-the-pipes-how-smart-technologies-help-cities-prevent-leaks-and-save-money.html). Globally, 750 million people (1 in 9 people) lack access to safe water (www.water.org). Indeed, most persons would likely be surprised that the water crisis is the #1 global risk based on impact to society (as a measure of devastation), and the #8 global risk based on likelihood (likelihood of occurring within 10 years) as announced by the World Economic Forum, January 2015 (http://reports.weforum.org/global-risks-2015/#frame/20ad6).
The need for water resource management stands at the intersection of several global challenges and cross-cutting themes which include climate change, aging national infrastructure, increased population and urbanization, and government, corporate and individual responsibilities toward the environment and sustainability. Amongst the range of possible solutions to answer the need for better water resource management is ICT (information communication technologies) in the form of sensors, smart meters, and the analytical platforms and software they make possible through the data they provide. In many cases, knowledge transfer and lessons learned can be taken from the energy and gas markets where work started earlier. It is also noteworthy the correlations between energy auditing and water auditing, carbon footprint assessment and water footprint assessment. Water (as a resource) is a next logical extension of ISO50001 (Energy Management Systems) principles.
Session G invites researchers and industrials working in the area of water sensing technologies for water resource management to present their work. A special invitation is extended to the platform www.ict4water.eu which clusters 10 research projects co-funded by the European Union on this topic area. A special invitation is also extended to industrials with new innovative solutions coming to the market. As the problem is global, papers are encouraged from all parts of the world.
Session Chair
Dr. Thomas Messervey
S6. Sensors for the Monitoring of the Low Voltage Distribution Network and Transition to the Smart Grid
Dr. Thomas B. Messervey, CEO and Co-Founder, Research to Market Solution s.r.l., Italy
Session Chair
Dr. Thomas Messervey
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S7. Foreword
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