28 results on '"Fiori, Lorenzo"'
Search Results
2. Trunk muscle co-activation and activity in one- and two-person lifting
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Chini, Giorgia, Varrecchia, Tiwana, Tatarelli, Antonella, Silvetti, Alessio, Fiori, Lorenzo, Draicchio, Francesco, and Ranavolo, Alberto
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- 2022
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3. The Effect of a Wearable Assistive Trunk Exoskeleton on the Motor Coordination of People with Cerebellar Ataxia.
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Tatarelli, Antonella, Babič, Jan, Casali, Carlo, Castiglia, Stefano Filippo, Chini, Giorgia, Ciancia, Rosanna, Cioffi, Ettore, Fiori, Lorenzo, Michieli, Mariagrazia, Montante, Barbara, Serrao, Mariano, Varrecchia, Tiwana, and Ranavolo, Alberto
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CEREBELLAR ataxia ,CENTER of mass ,ROBOTIC exoskeletons ,MOTOR ability ,RANGE of motion of joints - Abstract
The motor features of people with cerebellar ataxia suggest that locomotion is substantially impaired due to incoordination of the head, trunk, and limbs. The purpose of this study was to investigate how well a wearable soft passive exoskeleton worked for motor coordination in these patients. We used an optoelectronic system to examine the gait of nine ataxic people in three different conditions: without an exoskeleton and with two variants of the exoskeleton, one less and the other more flexible. We investigated kinematics using trunk ranges of motion, the displacement of the center of mass in the medio-lateral direction, and the parameters of mechanical energy consumption and recovery. Furthermore, we investigated the lower limb and trunk muscle coactivation. The results revealed a reduction of the medio-lateral sway of the center of mass, a more efficient behavior of the body in the antero-posterior direction, an energy expenditure optimization, a reduction of muscle coactivation and a better coordination between muscle activations. As a result, the findings laid the groundwork for the device to be used in the rehabilitation of individuals with cerebellar ataxia. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Remote-sensing hyperspectral imaging for applications in archaeological areas: Non-invasive investigations on wall paintings and on mural inscriptions in the Pompeii site
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Cucci, Costanza, Picollo, Marcello, Chiarantini, Leandro, Uda, Gianni, Fiori, Lorenzo, De Nigris, Bruno, and Osanna, Massimo
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- 2020
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5. The Lower Limb Muscle Co-Activation Map during Human Locomotion: From Slow Walking to Running.
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Fiori, Lorenzo, Castiglia, Stefano Filippo, Chini, Giorgia, Draicchio, Francesco, Sacco, Floriana, Serrao, Mariano, Tatarelli, Antonella, Varrecchia, Tiwana, and Ranavolo, Alberto
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HUMAN locomotion , *GAIT in humans , *JOINT stiffness , *CENTER of mass , *WALKING speed , *MUSCLES , *RUNNING speed , *RANGE of motion of joints , *ANKLE - Abstract
The central nervous system (CNS) controls movements and regulates joint stiffness with muscle co-activation, but until now, few studies have examined muscle pairs during running. This study aims to investigate differences in lower limb muscle coactivation during gait at different speeds, from walking to running. Nineteen healthy runners walked and ran at speeds ranging from 0.8 km/h to 9.3 km/h. Twelve lower limb muscles' co-activation was calculated using the time-varying multi-muscle co-activation function (TMCf) with global, flexor–extension, and rostro–caudal approaches. Spatiotemporal and kinematic parameters were also measured. We found that TMCf, spatiotemporal, and kinematic parameters were significantly affected by gait speed for all approaches. Significant differences were observed in the main parameters of each co-activation approach and in the spatiotemporal and kinematic parameters at the transition between walking and running. In particular, significant differences were observed in the global co-activation (CIglob, main effect F(1,17) = 641.04, p < 0.001; at the transition p < 0.001), the stride length (main effect F(1,17) = 253.03, p < 0.001; at the transition p < 0.001), the stride frequency (main effect F(1,17) = 714.22, p < 0.001; at the transition p < 0.001) and the Center of Mass displacement in the vertical (CoMy, main effect F(1,17) = 426.2, p < 0.001; at the transition p < 0.001) and medial–lateral (CoMz, main effect F(1,17) = 120.29 p < 0.001; at the transition p < 0.001) directions. Regarding the correlation analysis, the CoMy was positively correlated with a higher CIglob (r = 0.88, p < 0.001) and negatively correlated with Full Width at Half Maximum (FWHMglob, r = −0.83, p < 0.001), whereas the CoMz was positively correlated with the global Center of Activity (CoAglob, r = 0.97, p < 0.001). Positive and negative strong correlations were found between global co-activation parameters and center of mass displacements, as well as some spatiotemporal parameters, regardless of gait speed. Our findings suggest that walking and running have different co-activation patterns and kinematic characteristics, with the whole-limb stiffness exerted more synchronously and stably during running. The co-activation indexes and kinematic parameters could be the result of global co-activation, which is a sensory-control integration process used by the CNS to deal with more demanding and potentially unstable tasks like running. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Impairment of Global Lower Limb Muscle Coactivation During Walking in Cerebellar Ataxias
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Fiori, Lorenzo, Ranavolo, Alberto, Varrecchia, Tiwana, Tatarelli, Antonella, Conte, Carmela, Draicchio, Francesco, Castiglia, Stefano Filippo, Coppola, Gianluca, Casali, Carlo, Pierelli, Francesco, and Serrao, Mariano
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- 2020
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7. Common and specific gait patterns in people with varying anatomical levels of lower limb amputation and different prosthetic components
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Varrecchia, Tiwana, Serrao, Mariano, Rinaldi, Martina, Ranavolo, Alberto, Conforto, Silvia, De Marchis, Cristiano, Simonetti, Andrea, Poni, Ida, Castellano, Simona, Silvetti, Alessio, Tatarelli, Antonella, Fiori, Lorenzo, Conte, Carmela, and Draicchio, Francesco
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- 2019
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8. Author Correction: Behaviour reactions of bottlenose dolphins (Tursiops truncatus) to multirotor Unmanned Aerial Vehicles (UAVs)
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Fettermann, Ticiana, Fiori, Lorenzo, Bader, Martin, Doshi, Ashray, Breen, Dan, Stockin, Karen A., and Bollard, Barbara
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- 2020
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9. A step over the horse race model: study of inhibitory control of gait initiation by a stop signal task
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Fiori, Lorenzo
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inhibitory control ,Stop signal task ,gait initiation ,horse race model ,behavior - Published
- 2023
10. Behaviour reactions of bottlenose dolphins (Tursiops truncatus) to multirotor Unmanned Aerial Vehicles (UAVs)
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Fettermann, Ticiana, Fiori, Lorenzo, Bader, Martin, Doshi, Ashray, Breen, Dan, Stockin, Karen A., and Bollard, Barbara
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- 2019
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11. Combined Use of sEMG and Inertial Sensing to Evaluate Biomechanical Overload in Manufacturing: An On-the-Field Experience †.
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Monaco, Maria Grazia Lourdes, Fiori, Lorenzo, Marchesi, Agnese, Muoio, Mariarosaria, Garzillo, Elpidio Maria, Caputo, Francesco, Miraglia, Nadia, Lamberti, Monica, Silvetti, Alessio, and Draicchio, Francesco
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ERECTOR spinae muscles ,MANUFACTURING workstations ,CHRYSLER automobiles ,WEARABLE technology ,FIAT automobiles ,MUSCLES ,ASSEMBLY line balancing - Abstract
Biomechanical overload is considered a significant occupational risk in manufacturing and a potential cause of musculoskeletal disorders. This research aims to introduce new methodologies for the quantitative risk evaluation of biomechanical risk by combining surface electromyography with a motion acquisition system based on inertial measurement units. Due to the lack of experimental data in the literature acquired in a real industrial environment during the working shift, an on-the-field study regarding an automotive assembly line workstation has been carried out in collaboration with Fiat Chrysler Automobiles Italy S.p.A. Data related to the trunk flexion forward and the erector spinae muscle activity have been acquired for several consecutive working cycles by considering three different workers. Data analyses indicated kinematic and muscular activity patterns consistent with those expected and that the proposed wearable technologies can be integrated and used simultaneously during work activities. Furthermore, the results demonstrated data repeatability, strengthening the feasibility and usefulness of the combined use of kinematic and electromyography technologies to assess biomechanical overload in production lines. This study could lay the bases for the future definition of a method for assessing biomechanical overload due to awkward postures. [ABSTRACT FROM AUTHOR]
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- 2023
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12. Reward prospect affects strategic adjustments in stop signal task.
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Giuffrida, Valentina, Marc, Isabel Beatrice, Ramawat, Surabhi, Fontana, Roberto, Fiori, Lorenzo, Bardella, Giampiero, Fagioli, Sabrina, Ferraina, Stefano, Brunamonti, Emiliano, and Pani, Pierpaolo
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COGNITIVE ability ,RESPONSE inhibition ,VIDEO games - Abstract
Interaction with the environment requires us to predict the potential reward that will follow our choices. Rewards could change depending on the context and our behavior adapts accordingly. Previous studies have shown that, depending on reward regimes, actions can be facilitated (i.e., increasing the reward for response) or interfered (i.e., increasing the reward for suppression). Here we studied how the change in reward perspective can influence subjects' adaptation strategy. Students were asked to perform a modified version of the Stop-Signal task. Specifically, at the beginning of each trial, a Cue Signal informed subjects of the value of the reward they would receive; in one condition, Go Trials were rewarded more than Stop Trials, in another, Stop Trials were rewarded more than Go Trials, and in the last, both trials were rewarded equally. Subjects participated in a virtual competition, and the reward consisted of points to be earned to climb the leaderboard and win (as in a video game contest). The sum of points earned was updated with each trial. After a learning phase in which the three conditions were presented separately, each subject performed 600 trials testing phase in which the three conditions were randomly mixed. Based on the previous studies, we hypothesized that subjects could employ different strategies to perform the task, including modulating inhibition efficiency, adjusting response speed, or employing a constant behavior across contexts. We found that to perform the task, subjects preferentially employed a strategy-related speed of response adjustment, while the duration of the inhibition process did not change significantly across the conditions. The investigation of strategic motor adjustments to reward's prospect is relevant not only to understanding how action control is typically regulated, but also to work on various groups of patients who exhibit cognitive control deficits, suggesting that the ability to inhibit can be modulated by employing reward prospects as motivational factors. [ABSTRACT FROM AUTHOR]
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- 2023
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13. Restart errors reaction time of a two-step inhibition process account for the violation of the race model’s independence in multi-effector selective stop signal task.
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Marc, Isabel Beatrice, Giuffrida, Valentina, Ramawat, Surabhi, Fiori, Lorenzo, Fontana, Roberto, Bardella, Giampiero, Fagioli, Sabrina, Ferraina, Stefano, Pani, Pierpaolo, and Brunamonti, Emiliano
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EXECUTIVE function ,GOAL (Psychology) ,NEURAL inhibition - Abstract
Goal-oriented actions often require the coordinated movement of two or more effectors. Sometimes multi-effector movements need to be adjusted according to a continuously changing environment, requiring stopping an effector without interrupting the movement of the others. This form of control has been investigated by the selective Stop Signal Task (SST), requiring the inhibition of an effector of a multicomponent action. This form of selective inhibition has been hypothesized to act through a two-step process, where a temporary global inhibition deactivating all the ongoing motor responses is followed by a restarting process that reactivates only the moving effector. When this form of inhibition takes place, the reaction time (RT) of the moving effector pays the cost of the previous global inhibition. However, it is poorly investigated if and how this cost delays the RT of the effector that was required to be stopped but was erroneously moved (Stop Error trials). Here we measure the Stop Error RT in a group of participants instructed to simultaneously rotate the wrist and lift the foot when a Go Signal occurred, and interrupt both movements (nonselective Stop version) or only one of them (selective Stop version) when a Stop Signal was presented. We presented this task in two experimental conditions to evaluate how different contexts can influence a possible proactive inhibition on the RT of the moving effector in the selective Stop versions. In one context, we provided the foreknowledge of the effector to be inhibited by presenting the same selective or non-selective Stop versions in the same block of trials. In a different context, while providing no foreknowledge of the effector(s) to be stopped, the selective and nonselective Stop versions were intermingled, and the information on the effector to be stopped was delivered at the time of the Stop Signal presentation.We detected a cost in both Correct and Error selective Stop RTs that was influenced by the different task conditions. Results are discussed within the framework of the race model related to the SST, and its relationship with a restart model developed for selective versions of this paradigm. [ABSTRACT FROM AUTHOR]
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- 2023
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14. Indexes for motor performance assessment in job integration/reintegration of people with neuromuscular disorders: A systematic review.
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Chini, Giorgia, Fiori, Lorenzo, Tatarelli, Antonella, Varrecchia, Tiwana, Draicchio, Francesco, and Ranavolo, Alberto
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NEUROMUSCULAR diseases ,JOB performance ,INDUSTRIAL robots ,OCCUPATIONAL achievement ,STOCK index futures - Abstract
Individuals of working age affected by neuromuscular disorders frequently experience issues with their capacity to get employment, difficulty at work, and premature work interruption. Anyway, individuals with a disability could be able to return to work, thanks to targeted rehabilitation as well as ergonomic and training interventions. Biomechanical and physiological indexes are important for evaluating motor and muscle performance and determining the success of job integration initiatives. Therefore, it is necessary to determinate which indexes from the literature are the most appropriate to evaluate the effectiveness and efficiency of the return-to-work programs. To identify current and future valuable indexes, this study uses a systematic literature review methodology for selecting articles published from 2011 to March 30, 2021 fromScopus, Web of Science, and PubMed and for checking the eligibility and the potential bias risks. The most used indexes for motor performance assessment were identified, categorized, and analyzed. This review revealed a great potential for kinetic, kinematic, surface electromyography, postural, and other biomechanical and physiological indexes to be used for job integration/reintegration. Indeed, wearable miniaturized sensors, kinematic, kinetic, and sEMG-based indexes can be used to control collaborative robots, classify residual motor functions, and assess pre-post-rehabilitation and ergonomic therapies. [ABSTRACT FROM AUTHOR]
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- 2022
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15. Drone Surveys Are More Accurate Than Boat-Based Surveys of Bottlenose Dolphins (Tursiops truncatus).
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Fettermann, Ticiana, Fiori, Lorenzo, Gillman, Len, Stockin, Karen A., and Bollard, Barbara
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- 2022
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16. Biomechanical overload risk assessment in Industry 4.0
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Silvetti, Alessio, Ranavolo, Alberto, Varrecchia, Tiwana, Chini, Giorgia, Papale, Adriano, Fiori, Lorenzo, Fiorelli, Ari, Tatarelli, Antonella, Trovato, Roberto, and Draicchio, Francesco
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- 2022
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17. Whale-watching contributions for the study of cetacean-cephalopod interactions.
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SUCIU, STÉPHANIE R. A., ZEREBA, JASMINE, FIORI, LORENZO, and AZEVEDO, JOSÉ M. N.
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CETACEA ,CEPHALOPODA ,TOOTHED whales ,GENETIC barcoding ,OCTOPODA - Abstract
Cephalopods are the primary source of food for several species of odontocetes. The unstable nature of this trophic resource is likely to affect the ecology of their cetacean predators. This can be reflected in whale conservation status but also in the tourist activities which focus on cetacean observation. However, the study of cetacean-cephalopod interactions is limited by the complicated and heavy logistics of dedicated scientific campaigns. Fortunately, this limitation can be overcome by coupling modern molecular tools with indirect sampling methods. In this note we present the first results of a project to involve whale watching companies, which represent an intense observation effort worldwide, in the collection of biological material and information for studies of cetaceancephalopod interactions and cephalopod distribution. In early 2020 we contacted all whale watching companies on São Miguel Island, Azores. All of them welcomed the invitation and received training and a sampling kit. Nine cephalopod tissue samples were collected, most of them in close association with sperm whales. All samples were determined by DNA barcoding (confirmed in a few cases by morphological observation) to belong to the gelatinous giant octopod Haliphron atlanticus (Octopoda, Alloposidae). We believe that, although the Azores may have particularly favourable conditions for participatory science, similar programs can be replicated elsewhere. [ABSTRACT FROM AUTHOR]
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- 2021
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18. Using Unmanned Aerial Vehicles (UAVs) to assess humpback whale behavioral responses to swim-with interactions in Vava'u, Kingdom of Tonga.
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Fiori, Lorenzo, Martinez, Emmanuelle, Orams, Mark B., and Bollard, Barbara
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DRONE aircraft , *TOURISM , *SWIMMERS , *AERIAL videography , *NURTURING behavior - Abstract
The Kingdom of Tonga is a one of the few countries worldwide that allow swim-with-whales tourism activities. Most of the tour operators are based in Vava'u archipelago which represents an important breeding ground for Oceania humpback whales (Megaptera novaeangliae). This study represents an assessment of the effects of swimmer approaches on humpback whales' behaviour using Unmanned Aerial Vehicles (UAVs). UAV flights took place during the 2016 and 2017 whale breeding seasons from onboard research and swim-with-whales vessels. Whales' behavioural states (resting, travelling, surface-active, socialising, nurturing) were assessed from aerial videos and the proportions of time spent in each state in the presence and absence of swimmers were compared. Whale agonistic behaviours directed towards swimmers and the injury of a swimmer caused by a whale were documented. Results indicate that in-water tourism activities significantly altered the time spent in each behavioural state by humpback whale in Vava'u. Mother-calf pairs decreased the proportion of time spent nurturing, while the time spent travelling increased two-fold when approached by swimmers. These findings indicate a potential energy expenditure increase for humpback whale mothers and their calves in response to swim-with tourism activities in Vava'u. Moreover, whales' behavioural responses can pose danger of injury to swimmers. [ABSTRACT FROM AUTHOR]
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- 2020
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19. Mating patterns of dusky dolphins (Lagenorhynchus obscurus) explored using an unmanned aerial vehicle.
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Orbach, Dara N., Eaton, Jordan, Fiori, Lorenzo, Piwetz, Sarah, Weir, Jody S., Würsig, Melany, and Würsig, Bernd
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DRONE aircraft ,DOLPHINS ,ANIMAL courtship ,BRIDGE bearings ,WATER ,RESPIRATION in plants ,CETACEA ,FISH locomotion - Abstract
Few studies have explored the mating patterns of free‐ranging cetaceans, largely because of logistical challenges. We used an unmanned aerial vehicle (UAV) to follow and video‐record 25 groups of mating dusky dolphins (Lagenorhynchus obscurus) near the surface of the water and examine how behavior patterns varied with mating group type. We collected aerial footage of dolphins mating in traditional Isolated Pods and within Integrated Pods and compared differences in the number of mating animals, swimming speed, bearing change, percent time at the surface of the water, female respiration rate, copulatory position rate, and sex‐specific mating behaviors. Only the mean number of mating animals and some sex‐specific mating behaviors varied significantly between the two mating group types. More dolphins were engaged in mating behaviors in Isolated Pods than Integrated Pods. Males engaged in more interference behaviors in Isolated Pods compared to Integrated Pods. Females performed fewer speed bursts but more rolls on their backs in Integrated Pods compared to Isolated Pods. Several similarities and differences were found in comparison to boat‐based research of the same population of dolphins. We highlight the value of UAVs for noninvasive and accurate collection of cetacean behavioral data. [ABSTRACT FROM AUTHOR]
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- 2020
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20. Insights into the use of an unmanned aerial vehicle (UAV) to investigate the behavior of humpback whales (Megaptera novaeangliae) in Vava'u, Kingdom of Tonga.
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Fiori, Lorenzo, Martinez, Emmanuelle, Bader, Martin K.‐F., Orams, Mark B., and Bollard, Barbara
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HUMPBACK whale behavior ,HUMPBACK whale ,DRONE aircraft ,NURTURING behavior ,VERTICALLY rising aircraft ,DATA collection platforms ,WHALES - Abstract
Vertical take‐off and landing (VTOL) unmanned aerial vehicles (UAVs) are becoming invaluable data collection platforms for cetacean research. In particular, multi‐rotors can be used to measure whales and investigate their behavior. Moreover, VTOL UAVs are increasingly accessible for recreational and commercial pilots, and close encounters with whales are widely documented. Unfortunately, quantitative assessments of potential disturbance for the targeted animals are not yet published and guidelines for responsible use of UAVs around cetaceans are still under development. We conducted VTOL UAV surveys on humpback whales in Vava'u, Kingdom of Tonga. Interestingly, whale behaviors such as socializing and nurturing were not detected by trained observers on board the research vessel, but were evident from the UAV. Nevertheless, no significant differences were detected in diving and swim parameters between absence and presence of UAV flying at 30 m altitude. These results suggest that VTOL UAVs can be a noninvasive tool to gather morphometric and behavioral data on baleen whales. However, further research is necessary to establish whether applications that require flight altitudes lower than 30 m and targeting different species may elicit behavioral responses. [ABSTRACT FROM AUTHOR]
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- 2020
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21. Effects of whale-based tourism in Vava’u, Kingdom of Tonga: Behavioural responses of humpback whales to vessel and swimming tourism activities.
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Fiori, Lorenzo, Martinez, Emmanuelle, Orams, Mark B., and Bollard, Barbara
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HUMPBACK whale , *WHALES , *ANIMAL sexual behavior , *MARINE biology , *ANIMAL behavior , *MATING grounds - Abstract
Vava’u, Kingdom of Tonga, is a well-established whale-watching destination in the South Pacific. Between July and October, the waters around the archipelago represent one of the most important breeding grounds for Oceania humpback whales (Megaptera novaeangliae). The Tongan government allows tourist swimming activities with whales and tour operators strongly promote the practice of swimming-with-whales, focusing primarily on mother-calf pairs. However, there is increasing evidence, derived from empirical research on swim-with-cetacean tourism, that this kind of interaction affects cetacean behaviour and can lead to negative effects on the cetaceans involved. This study represents the first assessment of humpback whales’ behavioural responses to vessel and swimmer approaches in Vava’u. Fifty-six surveys took place during the 2016 and 2017 whale breeding seasons aboard dedicated research and tour vessels. Whale dive time, number of reorientation events, and respiration rates were documented in both the absence and presence of boats and swimmers. Vessel approach type, swimmer placement, and whale avoidance responses were also recorded. Results indicate that the average diving time and the proportion of time spent diving in the presence of swimming activities increased significantly for mother-calf pairs (F2 , 36 = 18.183, P < 0.001; F2 , 36 = 5.462, P = 0.009, respectively). Moreover, avoidance responses of whales towards tour vessels were observed for one third of vessel approaches (33.5%) and the avoidance rate was significantly affected by the boat approach type (95% CI: 20.7–69.2%, z = 3.50, P < 0.001). Finally, low levels of compliance to the existing Tongan swim-with-whales regulations were documented, in particular the stipulated whale resting time between interactions with tour operator vessels and swimmers was often not respected (38.4%). Vava’u is an important calving ground for the Oceania humpback whale population and these findings should be carefully considered by stakeholders in Tonga and at other locations where swim-with-whales opportunities are being undertaken. Effective strategies to reduce the risk of detrimental effects on the whales targeted by swimming activities, especially mother-calf pairs, are needed. [ABSTRACT FROM AUTHOR]
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- 2019
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22. Dusky Dolphin (Lagenorhynchus obscurus) Mother-Calf Pairs: An Aerial Perspective.
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Weir, Jody S., Fiori, Lorenzo, Orbach, Dara N., Piwetz, Sarah, Protheroe, Carys, and Würsig, Bernd
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DUSKY dolphin , *DOLPHIN behavior , *DRONE aircraft , *ANIMAL young , *PARENTAL behavior in animals , *SPEED , *MARINE mammal respiration - Abstract
The article reports on the observation of mother and calve behavior among dusky dolphins via the use of an unmanned aerial vehicle (UAV). Particular attention was given to swimming speed, inter-adult distance, and respiration and suckling rates in the area between the Kaikoura Peninsula and the Haumuri Bluffs, New Zealand.
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- 2018
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23. The Use of Unmanned Aerial Systems in Marine Mammal Research.
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Fiori, Lorenzo, Doshi, Ashray, Martinez, Emmanuelle, Orams, Mark B., and Bollard-Breen, Barbara
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DRONE aircraft , *PHOTOGRAMMETRY , *MARINE mammal populations , *MARINE mammal mortality ,PHOTOIDENTIFICATION of animals - Abstract
Unmanned aerial systems (UAS), commonly referred to as drones, are finding applications in several ecological research areas since remotely piloted aircraft (RPA) technology has ceased to be a military prerogative. Fixed-wing RPA have been tested for line transect aerial surveys of geographically dispersed marine mammal species. Despite many advantages, their systematic use is far from a reality. Low altitude, long endurance systems are still highly priced. Regulatory bodies also impose limitations while struggling to cope with UAS rapid technological evolution. In contrast, small vertical take-off and landing (VTOL) UAS have become increasingly affordable but lack the flight endurance required for long-range aerial surveys. Although this issue and civil aviation regulations prevent the use of VTOL UAS for marine mammal abundance estimation on a large scale, recent studies have highlighted other potential applications. The present note represents a general overview on the use of UAS as a survey tool for marine mammal studies. The literature pertaining to UAS marine mammal research applications is considered with special concern for advantages and limitations of the survey design. The use of lightweight VTOL UAS to collect marine mammal behavioral data is also discussed. [ABSTRACT FROM AUTHOR]
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- 2017
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24. Presentation of IR pictures on helmet-mounted displays.
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Balzarotti, Giorgio, Fiori, Lorenzo, and Malfagia, Roberto
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- 1994
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25. Global Muscle Coactivation of the Sound Limb in Gait of People with Transfemoral and Transtibial Amputation.
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Tatarelli, Antonella, Serrao, Mariano, Varrecchia, Tiwana, Fiori, Lorenzo, Draicchio, Francesco, Silvetti, Alessio, Conforto, Silvia, De Marchis, Cristiano, and Ranavolo, Alberto
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ARTIFICIAL limbs ,AMPUTATION ,LEG amputation ,MECHANICAL wear ,MUSCLES ,LEG ,BIONICS - Abstract
The aim of this study was to analyze the effect of the level of amputation and various prosthetic devices on the muscle activation of the sound limb in people with unilateral transfemoral and transtibial amputation. We calculated the global coactivation of 12 muscles using the time-varying multimuscle coactivation function method in 37 subjects with unilateral transfemoral amputation (10, 16, and 11 with mechanical, electronic, and bionic prostheses, respectively), 11 subjects with transtibial amputation, and 22 healthy subjects representing the control group. The results highlighted that people with amputation had a global coactivation temporal profile similar to that of healthy subjects. However, amputation increased the level of the simultaneous activation of many muscles during the loading response and push-off phases of the gait cycle and decreased it in the midstance and swing subphases. This increased coactivation probably plays a role in prosthetic gait asymmetry and energy consumption. Furthermore, people with amputation and wearing electronic prosthesis showed lower global coactivation when compared with people wearing mechanical and bionic prostheses. These findings suggest that the global lower limb coactivation behavior can be a useful tool to analyze the motor control strategies adopted and the ability to adapt to the prosthetic device. [ABSTRACT FROM AUTHOR]
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- 2020
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26. Human-Robot Collaboration (HRC) Technologies for Reducing Work-Related Musculoskeletal Diseases in Industry 4.0
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Ranavolo, Alberto, Chini, Giorgia, Draicchio, Francesco, Silvetti, Alessio, Varrecchia, Tiwana, Fiori, Lorenzo, Tatarelli, Antonella, Rosen, Patricia Helen, Wischniewski, Sascha, Albrecht, Philipp, Vogt, Lydia, Bianchi, Matteo, Averta, Giuseppe, Cherubini, Andrea, Fritzsche, Lars, Sartori, Massimo, Vanderborght, Bram, Govaerts, Renee, Ajoudani, Arash, Black, Nancy L., Neumann, W. Patrick, Noy, Ian, TechMed Centre, and Biomechanical Engineering
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Engineering ,Return to work ,Industry 4.0 ,business.industry ,05 social sciences ,Biomechanical load ,Human factors and ergonomics ,Workplace rehabilitation ,Risk management tools ,Work related ,Human–robot interaction ,Ergonomic ,03 medical and health sciences ,Engineering management ,0302 clinical medicine ,HRC ,Production (economics) ,WMSDs ,0501 psychology and cognitive sciences ,business ,Productivity ,050107 human factors ,030217 neurology & neurosurgery ,Agile software development - Abstract
The paper describes the activities of the European project SOPHIA, Socio-Physical Interaction Skills for Cooperative Human-Robot Systems in Agile Production. The consortium involves European partners from academia, research organizations and industry. Themain goal of the project is to develop a newgeneration of CoBots andWearbots and advanced instrumental-based biomechanical risk assessment tools in industrial scenarios to reduce work-related musculoskeletal disorders and to improve productivity in industry 4.0. Further aimof the project is to create the basis for newergonomic international Standards for manual handling activities.
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27. Pelvic obliquity as a compensatory mechanism leading to lower energy recovery: Characterization among the types of prostheses in subjects with transfemoral amputation.
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Castiglia, Stefano Filippo, Ranavolo, Alberto, Varrecchia, Tiwana, De Marchis, Cristiano, Tatarelli, Antonella, Magnifica, Fabrizio, Fiori, Lorenzo, Conte, Carmela, Draicchio, Francesco, Conforto, Silvia, and Serrao, Mariano
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AMPUTATION , *PROSTHETICS , *PELVIC diseases , *RECEIVER operating characteristic curves , *GAIT in humans , *ARTIFICIAL limbs , *RESEARCH , *NEUROLOGICAL disorders , *CONVALESCENCE , *RESEARCH methodology , *MEDICAL cooperation , *EVALUATION research , *GAIT disorders , *PHYSIOLOGICAL adaptation , *COMPARATIVE studies , *WALKING , *PELVIS , *KINEMATICS , *REHABILITATION ,FEMUR surgery - Abstract
Background: Subjects with transfemoral amputation (TFA) show an asymmetric gait pattern associated with a decreased ability to recover mechanical energy and an increased metabolic cost of walking.Research Question: This study aimed to identify the spatio-temporal and kinematic gait variables correlated with mechanical energy values in subjects with TFA and to observe the ability of the identified parameters to discriminate between TFA and controls according to the type of prosthesis.Methods: The gait of 40 subjects with TFA was evaluated with a motion 3-D optoelectronic system. Nine subjects wore a mechanical prosthesis (TFAm), seventeen a C-Leg prosthesis (TFAc), and fourteen a Genium prosthesis (TFAg). Spatio-temporal and pelvic kinematic parameters were measured. Energy recovery was measured relative to the whole-body center of mass (CoM) kinematics as the fraction of mechanical energy recovered during each walking step (R-step). Correlation tests and multiple linear regression analyses were used to evaluate the correlation and association between kinematic and energy variables, respectively. Receiver operating characteristics curves were plotted to assess the ability of the correlated parameter to distinguish subjects with TFA from controls, and optimal cutoff point values were calculated according to the type of prosthesis.Results: Among the spatio-temporal and kinematic parameters correlated to R-step, only pelvic obliquity of the prosthetic side was significantly associated with R-step. It showed an excellent ability to discriminate between TFA and controls. Furthermore, pelvic obliquity showed an excellent discriminative ability in identifying TFAm and TFAc and a good discriminative ability in identifying TFAg from controls.Significance: Pelvic obliquity plays an important role in energy recovery during gait for subjects using prosthetics. This information might be exploited to monitor the adaptation of subjects with TFA to prosthetic devices, to lower the energetic cost of walking potentially, and to reduce the long-term risks of secondary physical complications in prosthetic users. [ABSTRACT FROM AUTHOR]- Published
- 2020
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28. Combined Use of sEMG and Inertial Sensing to Evaluate Biomechanical Overload in Manufacturing: An On-the-Field Experience
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Maria Grazia Lourdes Monaco, Lorenzo Fiori, Agnese Marchesi, Mariarosaria Muoio, Elpidio Maria Garzillo, Francesco Caputo, Nadia Miraglia, Monica Lamberti, Alessio Silvetti, Francesco Draicchio, Monaco, Maria Grazia Lourde, Fiori, Lorenzo, Marchesi, Agnese, Muoio, Mariarosaria, Garzillo, Elpidio Maria, Caputo, Francesco, Miraglia, Nadia, Lamberti, Monica, Silvetti, Alessio, and Draicchio, Francesco
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Control and Optimization ,surface electromyography ,inertial sensors ,biomechanical overload ,experimental data analyses ,Control and Systems Engineering ,Mechanical Engineering ,Computer Science (miscellaneous) ,Electrical and Electronic Engineering ,Industrial and Manufacturing Engineering - Abstract
Biomechanical overload is considered a significant occupational risk in manufacturing and a potential cause of musculoskeletal disorders. This research aims to introduce new methodologies for the quantitative risk evaluation of biomechanical risk by combining surface electromyography with a motion acquisition system based on inertial measurement units. Due to the lack of experimental data in the literature acquired in a real industrial environment during the working shift, an on-the-field study regarding an automotive assembly line workstation has been carried out in collaboration with Fiat Chrysler Automobiles Italy S.p.A. Data related to the trunk flexion forward and the erector spinae muscle activity have been acquired for several consecutive working cycles by considering three different workers. Data analyses indicated kinematic and muscular activity patterns consistent with those expected and that the proposed wearable technologies can be integrated and used simultaneously during work activities. Furthermore, the results demonstrated data repeatability, strengthening the feasibility and usefulness of the combined use of kinematic and electromyography technologies to assess biomechanical overload in production lines. This study could lay the bases for the future definition of a method for assessing biomechanical overload due to awkward postures.
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- 2023
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