april 2016

Cari colleghi,
vi inoltro la newsletter della I-RAS.

Vi ricordo che a Settembre ci vedremo per la consueta riunione annuale del Chapter.
Se non riceverò a breve proposte alternative, la riunione si terrà a Roma in occasione del Convegno SIDRA 2016.

Cordialmente,

Lucia

www.i-ras.it

INDICE

IEEE AdCom Petition for Maria Pia Fanti (Lucia Pallottino)
I-RAS: Young Author Best Paper Award 2016 - Call for Application (Lucia Pallottino)
SHERPA Summer School on Field Robotics - Registration Info (Lorenzo Marconi)
Scuola di Bertinoro 2016 - Apertura iscrizioni (Claudio Melchiorri & Maria Elena Valcher)
PhD positions in Autonomous and Robotic Systems at the University of Genoa (Fulvio Mastrogiovanni)

1. IEEE AdCom Petition for Maria Pia Fanti

La Prof.ssa Maria Pia Fanti è candidata all'IEEE RAS AdCom attraverso una petizione. Se volete sostenere la sua candidatura accedete con le credenziali IEEE al sito www.ieee.org/petition e selezionate "Society Election Petitions" entro il 1 Maggio 2016.
Personalmente ritengo che la candidatura di Maria Pia sia un'ottima occasione per la nostra comunità e pertanto vi chiedo cortesemente di firmare la petizione e supportare la sua candidatura tra i colleghi iscritti alla RAS.

Lucia

2. I-RAS: Young Author Best Paper Award 2016 - Eigth Edition - Call for Application

The IEEE Robotics and Automation Society Italian Chapter (http://www.i-ras.it) Young Author Best Paper Award 2016 (YABP) is given to an author or co-author of a recent paper published in one of the journals sponsored by the IEEE Robotics and Automation Society (RAS). The official call can be found on the I-RAS website.

The following applies:
- publication date should be during 2014-2015
- the author must be a member of I-RAS during 2016
- the author's birth date must be later or equal than January, 1, 1981
- it is allowed to resubmit unawarded papers of the previous call

The IEEE RAS Italian Chapter Young Author Best Paper is selected by a Committee formed by the Chair of the Chapter and by 4 other IEEE RAS members nominated by the Chair. The Chapter Chair is the President of the Committee, she will vote only in case of parity.

Interested authors must send an application with a letter in which the contribution of the author is clearly stated.

Accompanying letters, by the authors themselves or by others, are welcome but not mandatory.

Applications and letters must be sent to lucia.pallottino@unipi.it by June 30, 2016 at the latest.

The 2016 Award Committee is composed by Emanuele Menegatti, Paolo Rocco, Cristian Secchi,
Loredana Zollo, and Lucia Pallottino and will complete the selection by August 31, 2016.

The 2016 Award, which consists of a certificate and a cheque for 500€, will be presented at the annual I-RAS meeting in September.

We gratefully acknowledge the IEEE Italian Section, sponsor of the award.

Lucia Pallottino
Chair of the Italian Chapter of IEEE Robotics and Automation Society

2. SHERPA SUMMER SCHOOL ON FIELD ROBOTICS Centro “Bruno Crepaz”, Passo Pordoi, Italy June 20-24 2016

The SHERPA Summer School 2016 is a five-day course to provide participants with a full overview of major aspects and research activities concerning robotics in search and rescue scenarios. The school is primarily directed to PhD and Postdoc students whose research interests are in robotics.

The school will touch many topics that play a role in designing an effective robotic platform operating in search and rescue scenarios, such as:

Software and functional robotic architectures for S&R
Technologies in S&R robotics
Mixed-initiative cooperative systems
Multimodal interaction
Sensor fusion in robotics
Simultaneous localization and mapping
Navigation and low-level control

The school is organized in the context of the FP7 European Project SHERPA (http://www.sherpaproject.eu/) whose goal is to develop a mixed ground and aerial robotic platform to support search and rescue activities in a real-world hostile environments like the alpine scenario. Demonstration of SHERPA technologies is also planned during the week.

The list of confirmed speakers is:

Antonio Bicchi (University of Pisa),
Herman Bruyninckx (Katholike Universiteit Leuven)
Patrick Doherty (Linkoping University)
Alberto Finzi (University of Naples Federico II)
Igor Gilitschenski (ETH Zürich)
Lorenzo Marconi (University Bologna)
Claudio Melchiorri (University Bologna)
Davide Scaramuzza (University of Zürich)
Bruno Siciliano (University of Naples Federico II)
Stefano Stramigioli (University of Twente)
Satoshi Tadokoro (Tohoku University)

Applications should be submitted via email to Lorenzo Marconi (lorenzo.marconi@unibo.it) before April 30. All applicants must provide a free format letter (max. 1 page) describing their research and a motivation for attending the school.

The number of participants is limited to a maximum of 50. If more applications are received, participants will be selected according to the following criteria:

Priority will be given to PhD and Postdoc students not belonging to the Universities partner of SHERPA;
Balancing between nationalities;
Work area, background and motivations as described in the submitted letter;
Date of application submission.
Notification of acceptance will be sent on May 2. The final registration deadline is May 15.

The registration fee is 400 € and covers participation to the Summer school, full board and lodging from Sunday June 19 afternoon to Saturday June 25 morning in local structures. The costs refer to accommodation in double or triple rooms. Registration payment details will be sent on acceptance of participation.

A transportation service will be organized for the students from the train station of Bolzano to the location of the school (Passo Pordoi) on Sunday June 19 afternoon. A return transportation service will be also organized on Saturday April 25 morning. The cost is included in the registration fee. Details will be sent on acceptance of participation.

The school will be held in the CAI (Club Alpino Italiano) Training Centre "Bruno Crepaz" (http://www.caiveneto.it/crepaz/). The center is located on the Passo Pordoi, 2.239 AMSL in the heart of the Dolomites. Students are accommodated in the nearby hotels Savoia (www.savoiahotel.net) and Col di Lana (www.coldilana.it). Information and Agenda Refined information and final agenda of the school can be retrieved at the link: http://www.sherpa-project.eu/sherpa/SummerSchool

On Wednesday June 22 afternoon an excursion organized by CAI is planned. Further social activities will be organized in the evenings of the week.

Summary of Important Dates

- Applications for summer school: April 30

- Notification of acceptance: May 2

- Registration deadline: May 15

- Summer school: June 20-24

3. Scuola di Bertinoro 2016

Cari Colleghi,

dando seguito alla nostra precedente email, vi confermiamo che la Scuola SIDRA 2016 si terra' a Bertinoro con:

— inizio lunedi' 11 luglio alle 8:30
— termine sabato 16 luglio ore 13:00.

I due temi di questa edizione sono:
1) Robust and constrained control (Franco Blanchini, Patrizio Colaneri)
2) Distributed Control and its applications (Ruggero Carli, Luca Schenato)

Come l’anno scorso, le lezioni saranno interamente in inglese; tutte le informazioni sono raccolte nelle pagine web: http://sidra2016.dei.unibo.it/
e http://www.automatica.it/dottorato_scuole.htm.

Anche quest'anno e' prevista la possibilita' di sostenere una prova certificata di accertamento dell'apprendimento, per consentire, a chi fosse interessato, il riconoscimento di crediti da utilizzare in situazioni specifiche di sede. Inoltre, come già annunciato, vi confermiamo che la Scuola è aperta anche a studenti di Dottorato provenienti da sedi estere.

I partecipanti saranno ospitati presso il Centro Universitario di Bertinoro. Le disponibilita' logistiche verranno assegnate sulla base della data di prenotazione. Informazioni sul Centro sono disponibili sulla pagina web http://www.centrocongressibertinoro.it/; la persona di riferimento presso il Ce.U.B e' la sig.ra Monica Michelacci (e-mail:mmichelacci@ceub.it - Tel. 0543 446500).

Il costo di partecipazione include la quota di iscrizione e le spese di soggiorno con trattamento di mezza pensione (pernottamento, colazione e pranzo). Le tariffe sono di 500,00 Euro per la sistemazione in camera doppia e 630,00 Euro per la sistemazione in camera singola (permanenza dal pomeriggio di domenica 10 luglio al pomeriggio di sabato 16 luglio).

La richiesta di partecipazione, da formalizzare con il modulo di iscrizione che verra' reso disponibile via WEB dal Ce.U.B., e' impegnativa.

La procedura di iscrizione prevede i seguenti “step":

- 05 giugno 2016: termine per la presentazione della richiesta di ammissione da inviare ai sottoscritti compilando la scheda reperibile a
http://sidra2016.dei.unibo.it/more-info/#PreRegistrationForm (in questo sito sono presenti anche altre informazioni di carattere generale sulla Scuola)

- 15 giugno 2016: invio di nostra comunicazione di ammissione alla scuola

- 26 giugno 2016: termine per il pagamento della quota di partecipazione, da versare secondo le modalita' che saranno indicate sul modulo di iscrizione (che sarà reso disponibile su web dal Ce.U.B.)

Al momento della partenza, il Centro rilascera' ricevuta delle spese sostenute. Per questioni logistiche contattare direttamente la Sig.ra Michelacci.

Stante il grande interesse dei temi e, come sempre, l’alta qualità dei docenti coinvolti (che non sono solo di livello nazionale), confidiamo come sempre in una numerosa partecipazione!

A tutti i nostri piu' cordiali saluti.

Maria Elena Valcher, Claudio Melchiorri

4. PhD positions in Autonomous and Robotic Systems at the University of Genoa (Fulvio Mastrogiovanni)

Dear All,

A number of PhD positions are available in the field of Robotics and Autonomous Systems, as part of the PhD course in Bioengineering and Robotics, at the Department of Informatics, Bioengineering, Robotics, and Systems Engineering, University of Genoa, Italy. Scholarships will be available on the basis of the applicants' rankings.

Prospective candidates are invited to send inquiries to Fulvio Mastrogiovanni . The call topics of the Robotics and Autonomous Systems track can be found at:

https://urldefense.proofpoint.com/v2/url?u=http-3A__phd.dibris.unige.it_...

All the details related to applications are available at the official web page of the PhD course:

https://urldefense.proofpoint.com/v2/url?u=http-3A__phd.dibris.unige.it_...

==> The deadline for applications is June 10th, 2016 at 12.00 noon (Italian time, CET+1).

Herewith you can find all the RAS titles and topic abstracts:

=> Theme 1:Sensor based control of bi-manual robots for human-robot cooperative operations

Description:Innovative robot systems are expected to work and cooperate with other robots and humans for the execution of handling and manipulation tasks for industrial and service applications. To this aim bi-manual highly sensorized robots (e.g., Baxter from Rethinking Robotics, Frida from ABB, Justin from DLR-KUKA, to name a few) are expected to execute highly coordinated motions to handle and manipulate rigid and flexible objects (e.g., cables, etc.) autonomously or in cooperation with other agents (either robots or humans). These operations must be executed properly reacting to unexpected events and to changes within their working envelope of the robot in order to ensure the reliable and safe (in case of interaction with humans) execution of the planned tasks.

This involves the usage of highly sensorized robot systems or robot working cells (depending on context and application), typically featuring multiple camera sensors, range sensors, tactile and force/torque sensors, and possibly task specific sensing devices. These robot systems will enable the execution of demanding tasks like the handling and manipulation of non-rigid objects (e.g., articulated, deformable, flexible etc.), which are currently executed mostly by humans. Examples of relevant tasks of this class for industrial or service applications include, but are not limited to:
handling of cables, assembly, packaging, co-operative human robot handling of non rigid/deformable objects, etc.

These research topics have been part of relevant international research projects
(ROBOSKIN: www.roboskin.eu; CloPeMa: www.clopema.eu; RasoRoSo).

Requirements:Applicants are expected to have a strong motivation for at least one of the following key topics in Robotics: robot control, robot programming, mechatronics. Furthermore, good attitude for experimental work is mandatory. The candidates must have: very good programming skills with different languages (including C/C++, Python, Matlab/Simulink); confidence with electronic hardware and be capable to conduct experiments; attitude to problem solving, and be strongly motivated to team working.

Contacts: Giorgio Cannata

=> Theme 2:Tactile sensing technologies and perception

Description:Tactile sensing is one key topic for the development of future robots capable of complex interaction with humans and objects. Design of tactile sensors as well as tactile based sensing, perception and control are challenging research topics and University of Genova has gained a solid reputation in this area in the past few years, and has been involved in important international research projects related to this topic (ROBOSKIN: www.roboskin.eu; CloPeMa: www.clopema.eu).

Tactile data convey information about the characteristics of the contact between the robot and the manipulated objects. This information is fundamental to proper control the grasping and manipulation; furthermore, controlled manipulation can in turn be used to extract further information useful to recognize and classify objects and contacts.

The objective of the PhD topic is to investigate techniques and methodologies for tactile data sensing, perception and interpretation. Furthermore, since tactile data are generated by active manipulation control another objective is the study of the mechanisms relating tactile based feedback robot control and tactile data perception.

Requirements:Applicants are expected to have strong background and experience in at least one of the following topics: robot control, machine learning, system identification. The candidates must have: very good programming skills with different languages (including C/C++, Matlab/Simulink); experience with electronic hardware; be capable to conduct experiments and be strongly motivated to team working.

Contacts: Giorgio Cannata

=> Theme 3:A study about how humans perceive robots in interaction processes

Description:Human-robot interaction is expected to play a significant role in the near future. As soon as robots will be employed in environments and for tasks requiring them to be in close contact with humans, the implications of their behaviours on human attitudes, emotions and feelings (eventually, behaviour) cannot be underestimated.

We are interested in assessing and measuring the effects of controlled robot behaviours on humans, specifically in all those aspects constituting what in cognitive psychology is termed non-verbal behaviour (e.g., gestures and their parameters, head motions, gaze), while humans and robots are engaged in a collaborative activity.

In fact, literature suggests that humans can be greatly influenced (at the subconscious level) by environmental and human factors, and their actions be dependent on perceptions they do not even conceptualise. The PhD proposal has two main objectives: on the one hand, design, investigate and
assess methods to adapt experimental protocols borrowed from behavioural and cognitive psychology to understand how human behaviour can be influenced by robot behaviour, and how humans interpret it; on the other hand, synthetize robot behaviours which take human expectations into account, and convey a specific (non-verbal) message as humans would do.

To this aim, the student will have also to encode specific sensorimotor skills, which will be mediated by insights in cognitive and behavioural psychology. Such skills will have to be part of a robot behavioural architecture able to allow for advanced forms of cognitive human-robot interaction.
The experimental assessment will be conducted using a Baxter dual-arm manipulator in the context of human-robot interaction processes, e.g., object handovers.

The project will be conducted in cooperation with University College London (UK), the
National Institute of Informatics and Keio University (both in Japan).

Requirements:Ontology-based and probabilistic knowledge representation techniques. Software development in C/C++. Problem-solving and experimental attitude.

Contacts: Fulvio Mastrogiovanni

=> Theme 4:The use of language to bootstrap robot?s knowledge and reasoning in human-robot interaction tasks

Description:According to the cognitive perspective on language development and evolution in humans, the language faculty plays a decisive role in the development of both rational thought and reasoning. Such an approach criticises the classical paradigm which views language as a communication capability derived from thought and its basic rules as a by product, i.e., the Chomsky?s notion of Universal Grammar. If the cognitive perspective has some degree of plausibility, then the implications in human-robot interaction scenarios can be particularly important.

The main objective of this PhD proposal is to investigate methods to bootstrap robot?s knowledge and reasoning capabilities by means of a dialogue-based human-robot interaction process. We aim at a scenario where a human teaches a robot about objects, their properties and mutual configurations, using both demonstration and dialogue. The robot must be able to ground sensory perceptions (e.g., visual or haptic) with the syntax and semantic clues uttered by the human during the dialogue. Using the acquired knowledge, the robot will be therefore able to manipulate objects on the basis of human-provided instructions.

The knowledge acquired by the robot through the human-robot interaction process and the reasoning schema are going to be represented using models whose structures are borrowed from recent studies in behavioural psychology: the student will evaluate and use such conceptual tools as probabilistic ontologies to ground knowledge expressed using the Bayesian theory of subjective probability, the
Dempster-Shafer theory and its extensions, e.g., the Transferable Belief model, which are typically used to manage inconsistences.

The student will test and assess the developed models in a human-robot interaction scenario where a Baxter dual-arm manipulator will reason upon subjective spatial knowledge. The study will involve also joint work with the Japan Advanced Institute of Science and Technology (JAIST), as well as interdisciplinary work with experts in computational linguistics.

Requirements:Basic knowledge in statistics and probability theory. Knowledge representation and reasoning. Software development in C/C++.

Contacts: Fulvio Mastrogiovanni

=> Theme 5:Approximate methods for active identification

Description:The research will focus on system identification methods with particular attention to the role of the control action to improve (on line) the performance in terms of identification accuracy over a finite time or time.

As for the system model, the so-called ?black box? paradigm will be addressed. No specific structure for the system to be identified will be assumed. The use of parametrized approximation structures will be addressed whose complexity could be tuned a priori in order to reach a suitable trade-off between model accuracy and online computational requirement.

The parameters of the approximating structure will be tuned on line, when the control action will be used in order to improve the achieved model accuracy. Different control methods will be addressed, based on parameterization of the control laws as well as on approximate optimization methods.

Requirements:System Identification. Machine learning. Optimal control.

Contacts: Marco Baglietto

=> Theme 6:Cooperative robotics for the smart factory

Description:The application of robots within manufacturing industries dates back form the seventies and now represents a well-consolidated field of application. Most of its successes could however be achieved by exploiting the possibility of generally having the robot working within well structured environments, even if rigid and therefore very much lacking of flexibility, where very many, if not all, of the robot operations could be planned in advance in their very details; and then
executed with the required precision levels.

Accordingly with the Horizon 2020 Strategic Research Agenda (SRA) and related Multi Annual Roadmap (MRA) (but see also the recently launched European Challenge EUROC) all a set of challenges for the future factories have been therefore foreseen, also including the following important topics, by the way also addressing the specific needs of SME manufacturers:
- cost effectiveness at low lot sizes,
- intuitive to be used,
- easily adaptable to a wide variety of application tasks,
- easily reconfigurable modular kinematic structures,
- modular kinematic structures intrinsically exhibiting self-organizing properties (in terms of their reconfiguration and relevant motion control),
- exhibiting cooperation capabilities (with other robotic agents, as well as with humans during manipulation, assembly, transportation, etc.).

The proposed PhD program will address the last four of the above listed topics, by basing the activities concerning real time control and adaptation of the involved structures (mainly the self organization of modular robotic structures and cooperation capabilities) on some recent research results; clearly indicating the possibility of managing the mentioned topics within the same uniform, distributed and even decentralized, real time functional and algorithmic architectures.
Progresses in this direction are therefore expected as outputs of the PhD program; to be then experimented, for some typical manufacturing problems, within a strict integration with the higher levels of planning, decision and command, whose shift toward more abstract and simplified symbolic representation should actually be allowed, in the light of the expected real time control and adaptation results. To the above aims the PhD program will exploit different hardware resources for its experimental results; namely a crawler mobile manipulator for outdoor environments, two YouBot platforms and a Baxter bi-manual robotic system.

Requirements:Mechatronics. Multi-body kinematics and dynamicstheory. Robotics. The candidates must also have: strong programming skills (C/C++, Matlab/Simulink); attitude to problem solving, to conduct experiments, and finally be motivated to work within a research team in collaborative projects.

Contacts: Giuseppe Casalino