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On the Problem of Moving Objects With Autonomous Robots: A Unifying High-Level Planning Approach

TitleOn the Problem of Moving Objects With Autonomous Robots: A Unifying High-Level Planning Approach
Publication TypeJournal Article
Year of Publication2016
AuthorsMarino, H, Ferrati, M, Settimi, A, Rosales, C, Gabiccini, M
JournalIEEE ROBOTICS AND AUTOMATION LETTERS
Volume1
Issue1
Pagination469-476
Date Published01/2016
KeywordsRobotics
Abstract

Moving objects with autonomous robots is a wide topic that includes single-arm pick-and-place tasks, object regrasping, object passing between two or more arms in the air or using support surfaces such as tables and similar. Each task has been extensively studied and many planning solutions are already present in the literature. In this letter, we present a planning scheme which, based on the use of pre-defined elementary manipulation skills, aims to unify solutions which are usually obtained by means of different planning strategies rooted on hardcoded behaviors. Both robotic manipulators and environment fixed support surfaces are treated as end-effectors of movable and non-movable types, respectively. The task of the robot can thus be broken down into elementary building blocks, which are endeffector manipulation skills, that are then planned at the kinematic level. Feasibility is ensured by propagating unforeseen low-level failures at the higher level and by synthesizing different behaviors. The validity of the proposed solution is shown via experiments on a bimanual robot setup and in simulations involving a more complex setup similar to an assembly line.

URLhttp://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7384694
DOI10.1109/LRA.2016.2519149
Custom 1

pacman, soma

Refereed DesignationRefereed

Neuro-fuzzy physiological computing to assess stress levels in virtual reality therapy

TitleNeuro-fuzzy physiological computing to assess stress levels in virtual reality therapy
Publication TypeJournal Article
Year of Publication2015
AuthorsTartarisco, G, Carbonaro, N, Tonacci, A, Bernava, GM, Arnao, A, Crifaci, G, Cipresso, P, Riva, G, Gaggioli, A, De Rossi, D, Tognetti, A, Pioggia, G
JournalINTERACTING WITH COMPUTERS
Volume27
Pagination521–533
ISSN0953-5438
KeywordsBioengineering
URLhttp://dx.medra.org/10.1093/iwc/iwv010
DOI10.1093/iwc/iwv010
Refereed DesignationRefereed

Music, clicks, and their imaginations favor differently the event-based timing component for rhythmic movements

TitleMusic, clicks, and their imaginations favor differently the event-based timing component for rhythmic movements
Publication TypeJournal Article
Year of Publication2015
AuthorsBravi, R, Quarta, E, Del Tongo, C, Carbonaro, N, Tognetti, A, Minciacchi, D
JournalEXPERIMENTAL BRAIN RESEARCH
Volume233
Pagination1945–1961
ISSN0014-4819
KeywordsBioengineering
URLhttp://dx.medra.org/10.1007/s00221-015-4267-z
DOI10.1007/s00221-015-4267-z
Refereed DesignationRefereed

fabrication and perivascular implantation of bioactive scaffolds engineered with human adventitial progenitor cells for stimulation of arteriogenesis in peripheral ischemia

Titlefabrication and perivascular implantation of bioactive scaffolds engineered with human adventitial progenitor cells for stimulation of arteriogenesis in peripheral ischemia
Publication TypeJournal Article
Year of Publication2016
AuthorsCarrabba, M, De Maria, C, Oikawa, A, Reni, C, Rodriguez-Arabaolaza, I, Spencer, H, Slater, S, Avolio, E, Dang, Z, Spinetti, G, MADEDDU, P, Vozzi, G
JournalBiofabrication
Volume8
Issue1:015020
Date Published03/24
KeywordsBioengineering
DOI10.1088/1758-5090/8/1/015020
Refereed DesignationRefereed

The Change in Fingertip Contact Area as a Novel Proprioceptive Cue

TitleThe Change in Fingertip Contact Area as a Novel Proprioceptive Cue
Publication TypeJournal Article
Year of Publication2016
AuthorsMoscatelli, A, Bianchi, M, Serio, A, Terekhov, A, Hayward, V, Ernst, M, Bicchi, A
JournalCurrent Biology
Volume26
Issue9
Pagination1159–1163
Date Published05/2016
KeywordsHaptics, Robotics
Abstract

Humans, many animals, and certain robotic hands have deformable fingertip pads. Deformable pads have the advantage of conforming to the objects that are being touched, ensuring a stable grasp for a large range of forces and shapes. Pad deformations change with finger displacements during touch. Pushing a finger against an external surface typically provokes an increase of the gross contact area, potentially providing a relative motion cue, a situation comparable to looming in vision. The rate of increase of the area of contact also depends on the compliance of the object. Because objects normally do not suddenly change compliance, participants may interpret an artificially induced variation in compliance, which coincides with a change in the gross contact area, as a change in finger displacement, and consequently they may misestimate their finger’s position relative to the touched object. To test this, we asked participants to compare the perceived displacements of their finger while contacting an object varying pseudo-randomly in compliance from trial to trial. Results indicate a bias in the perception of finger displacement induced by the change in compliance, hence in contact area, indicating that participants interpreted the altered cutaneous input as a cue to proprioception. This situation highlights the capacity of the brain to take advantage of knowledge of the mechanical properties of the body and of the external environment.

URLhttp://www.sciencedirect.com/science/article/pii/S0960982216301348
DOI10.1016/j.cub.2016.02.052
Refereed DesignationRefereed

A synergy-based hand control is encoded in human motor cortical areas

TitleA synergy-based hand control is encoded in human motor cortical areas
Publication TypeJournal Article
Year of Publication2016
AuthorsLeo, A, Handjaras, G, Bianchi, M, Marino, H, Gabiccini, M, Guidi, A, Scilingo, EP, Pietrini, P, Bicchi, A, Santello, M, Ricciardi, E
JournaleLIFE
Abstract

How the human brain controls hand movements to carry out different tasks is still debated. The concept of synergy has been proposed to indicate functional modules that may simplify the control of hand postures by simultaneously recruiting sets of muscles and joints. However, whether and to what extent synergic hand postures are encoded as such at a cortical level remains unknown. Here, we combined kinematic, electromyography, and brain activity measures obtained by functional magnetic resonance imaging while subjects performed a variety of movements towards virtual objects. Hand postural information, encoded through kinematic synergies, were represented in cortical areas devoted to hand motor control and successfully discriminated individual grasping movements, significantly outperforming alternative somatotopic or muscle-based models. Importantly, hand postural synergies were predicted by neural activation patterns within primary motor cortex. These findings support a novel cortical organization for hand movement control and open potential applications for brain-computer interfaces and neuroprostheses.

URLhttp://elifesciences.org/content/5/e13420v2
DOI10.7554/eLife.13420
Refereed DesignationRefereed

Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands

TitleHand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands
Publication TypeJournal Article
Year of Publication2016
AuthorsSantello, M, Bianchi, M, Gabiccini, M, Ricciardi, E, Salvietti, G, Prattichizzo, D, Ernst, M, Moscatelli, A, Jorntell, H, Kappers, A, Kyriakopulos, K, Albu-Schaeffer, A, Castellini, C, Bicchi, A
JournalPhysics of Life Reviews
Volume17
Pagination1-23
Date Published07/2016
KeywordsHaptics, Robotics
URLhttp://www.sciencedirect.com/science/article/pii/S1571064516000269
Refereed DesignationRefereed

No More Heavy Lifting: Robotic Solutions to the Container Unloading Problem

TitleNo More Heavy Lifting: Robotic Solutions to the Container Unloading Problem
Publication TypeJournal Article
Year of Publication2016
AuthorsStoyanov, T, Vaskeviciusz, N, Mueller, CA, Fromm, T, Krug, R, Tincani, V, Mojtahedzadeh, R, Kunaschk, S, Ernits, RM, Canelhas, DR, Bonilla, M, Schwertfeger, S, Bonini, M, Halfar, H, Pathak, K, Rohde, M, Fantoni, G, Bicchi, A, Birk, A, Lilienthal, A, Echelmeyer, W
JournalIEEE Robotics and Automation Magazine
Volume23
Start Page94
Issue4
Date Published08/2016
KeywordsRobotics
URLhttps://ieeexplore.ieee.org/document/7553531
DOI10.1109/MRA.2016.2535098
Refereed DesignationRefereed

ThimbleSense: a fingertip-wearable tactile sensor for grasp analysis

TitleThimbleSense: a fingertip-wearable tactile sensor for grasp analysis
Publication TypeJournal Article
Year of Publication2016
AuthorsBattaglia, E, Bianchi, M, Altobelli, A, Grioli, G, Catalano, MG, Serio, A, Santello, M, Bicchi, A
JournalIEEE Transactions on Haptics
Volume9
Issue1
Pagination121-133
Date Published03/2016
ISSN1939-1412
KeywordsHaptics, Robotics
Abstract

Accurate measurement of contact forces between hand and grasped objects is crucial to study sensorimotor control during grasp and manipulation. In this work we introduce ThimbleSense, a prototype of individual-digit wearable force/torque sensor based on the principle of intrinsic tactile sensing. By exploiting the integration of this approach with an active marker-based motion capture system, the proposed device simultaneously measures absolute position and orientation of the fingertip, which in turn yields measurements of contacts and force components expressed in a global reference frame. The main advantage of this approach with respect to more conventional solutions is its versatility. Specifically, ThimbleSense can be used to study grasping and manipulation of a wide variety of objects, while still retaining complete force/torque measurements. Nevertheless, validation of the proposed device is a necessary step before it can be used for experimental purposes. In this work we present the results of a series of experiments designed to validate the accuracy of ThimbleSense measurements and evaluate the effects of distortion of tactile afferent inputs caused by the device’s rigid shells on grasp forces.

Notes
This work was partially supported by the European Community funded projects WEARHAP, PACMAN and SOMA (contracts 601165, 600918 and 645599 respectively), by the ERC Advanced Grant no. 291166 SoftHands
URLhttp://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7294702
DOI10.1109/TOH.2015.2482478
Refereed DesignationRefereed

A muscle-like recruitment actuator with modular redundant actuation units for soft robotics

TitleA muscle-like recruitment actuator with modular redundant actuation units for soft robotics
Publication TypeJournal Article
Year of Publication2015
AuthorsMathijssen, G, Schultz, J, Vanderborght, B, Bicchi, A
JournalRobotics and Autonomous Systems
Volume74
Issuepart A
Pagination40-50
Date Published12/2015
KeywordsRobotics
Notes

This work was supported by ERC-291166-SOFTHANDS

URLhttp://www.sciencedirect.com/science/article/pii/S0921889015001384
DOI10.1016/j.robot.2015.06.010
Refereed DesignationRefereed

Epsilon-Optimal Synthesis for Unicycle-like Vehicles with Limited Field-Of-View Sensors

TitleEpsilon-Optimal Synthesis for Unicycle-like Vehicles with Limited Field-Of-View Sensors
Publication TypeJournal Article
Year of Publication2015
AuthorsSalaris, P, Cristofaro, A, Pallottino, L
JournalIEEE Transactions on Robotics (T-RO)
Volume31
Issue6
Pagination1404 - 1418
KeywordsEmbedded Control, Robotics
Abstract

In this paper we study the minimum length paths covered by the center of a unicycle equipped with a limited Field–Of–View (FOV) camera, which must keep a given landmark in sight. Previous works on this subject have provided the optimal synthesis for the cases in which the FOV is only limited in the horizontal directions (i.e. left and right bounds) or in the vertical directions (i.e. upper and lower bounds). In this paper we show how to merge previous results and hence obtaining, for a realistic image plane modeled as a rectangle, a finite alphabet of extremal arcs and the overall synthesis. As shown, this objective can not be straightforwardly achieved from previous results but needs further analysis and developments. Moreover, there are initial configurations such that there exists no optimal path. Nonetheless, we are always able to provide an e–optimal path whose length approximates arbitrarily well any other shorter path. As final results, we provide a partition of the motion plane in regions such that the optimal or e–optimal path from each point in thatregion is univocally determined.

DOI10.1109/TRO.2015.2492878
Refereed DesignationRefereed

Decoupling the role of stiffness from other hydroxyapatite signalling cues in periosteal derived stem cell differentiation

TitleDecoupling the role of stiffness from other hydroxyapatite signalling cues in periosteal derived stem cell differentiation
Publication TypeJournal Article
Year of Publication2015
AuthorsMattei, G, Ferretti, C, Tirella, A, Ahluwalia, A, Mattioli-Belmonte, M
JournalScientific Reports
Volume5
Pagination10778
ISSN2045-2322
KeywordsBioengineering
URLhttp://www.nature.com/doifinder/10.1038/srep10778
DOI10.1038/srep10778

CFD modelling of a mixing chamber for the realisation of functionally graded scaffolds

TitleCFD modelling of a mixing chamber for the realisation of functionally graded scaffolds
Publication TypeJournal Article
Year of Publication2015
AuthorsMattei, G, Vozzi, G
JournalComputers and Chemical Engineering
ISSN00981354
KeywordsBioengineering
Abstract

Biological tissues are characterised by spatially distributed gradients, intricately linked with functions. It widely accepted that ideal tissue engineered scaffolds should exhibit similar functional gradients to promote successful tissue regeneration. Focusing on bone, in previous work we proposed simple methods to obtain osteochondral functionally graded scaffolds (FGSs), starting from homogeneous suspensions of hydroxyapatite (HA) particles in gelatin solutions. With the main aim of developing an automated device to fabricate FGSs, this work is focused on designing a stirred tank to obtain homogeneous HA-gelatin suspensions. The HA particles transport within the gelatin solution was investigated through computational fluid dynamics (CFD) modelling. First, the steady-state flow field was solved for the continuous phase only. Then, it was used as a starting point for solving the multi-phase transient simulation. CFD results showed that the proposed tank geometry and setup allow for obtaining a homogeneous suspension of HA micro-particles within the gelatin solution.

URLhttp://www.sciencedirect.com/science/article/pii/S0098135415002823
DOI10.1016/j.compchemeng.2015.08.021

The nano-epsilon dot method for strain rate viscoelastic characterisation of soft biomaterials by spherical nano-indentation

TitleThe nano-epsilon dot method for strain rate viscoelastic characterisation of soft biomaterials by spherical nano-indentation
Publication TypeJournal Article
Year of Publication2015
AuthorsMattei, G, Gruca, G, Rijnveld, N, Ahluwalia, A
JournalJournal of the Mechanical Behavior of Biomedical Materials
Volume50
Pagination150–159
ISSN17516161
KeywordsBioengineering
URLhttp://linkinghub.elsevier.com/retrieve/pii/S1751616115002088
DOI10.1016/j.jmbbm.2015.06.015

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