scholarly journals On the choice of grasp type and location when handing over an object

2019 ◽  
Vol 4 (27) ◽  
pp. eaau9757 ◽  
Author(s):  
F. Cini ◽  
V. Ortenzi ◽  
P. Corke ◽  
M. Controzzi
Keyword(s):  
Human Hand ◽  
Social Activities ◽  
Robotic Grasping ◽  
Task Constraints ◽  
Cooperative Manipulation ◽  
Open Issue ◽  
Grasp Type ◽  
And Task

The human hand is capable of performing countless grasps and gestures that are the basis for social activities. However, which grasps contribute the most to the manipulation skills needed during collaborative tasks, and thus which grasps should be included in a robot companion, is still an open issue. Here, we investigated grasp choice and hand placement on objects during a handover when subsequent tasks are performed by the receiver and when in-hand and bimanual manipulation are not allowed. Our findings suggest that, in this scenario, human passers favor precision grasps during such handovers. Passers also tend to grasp the purposive part of objects and leave “handles” unobstructed to the receivers. Intuitively, this choice allows receivers to comfortably perform subsequent tasks with the objects. In practice, many factors contribute to a choice of grasp, e.g., object and task constraints. However, not all of these factors have had enough emphasis in the implementation of grasping by robots, particularly the constraints introduced by a task, which are critical to the success of a handover. Successful robotic grasping is important if robots are to help humans with tasks. We believe that the results of this work can benefit the wider robotics community, with applications ranging from industrial cooperative manipulation to household collaborative manipulation.

scholarly journals Temporal hierarchy of intrinsic neural timescales converges with spatial core-periphery organization

2021 ◽  
Vol 4 (1) ◽  
Author(s):  
Mehrshad Golesorkhi ◽  
Javier Gomez-Pilar ◽  
Shankar Tumati ◽  
Maia Fraser ◽  
Georg Northoff
Keyword(s):  
Time Window ◽  
Human Cortex ◽  
The Core ◽  
Novel Variant ◽  
Open Issue ◽  
Task Differences ◽  
Spatial Hierarchy ◽  
Fundamental Insight ◽  
Insight Into ◽  
And Task

AbstractThe human cortex exhibits intrinsic neural timescales that shape a temporal hierarchy. Whether this temporal hierarchy follows the spatial hierarchy of its topography, namely the core-periphery organization, remains an open issue. Using magnetoencephalography data, we investigate intrinsic neural timescales during rest and task states; we measure the autocorrelation window in short (ACW-50) and, introducing a novel variant, long (ACW-0) windows. We demonstrate longer ACW-50 and ACW-0 in networks located at the core compared to those at the periphery with rest and task states showing a high ACW correlation. Calculating rest-task differences, i.e., subtracting the shared core-periphery organization, reveals task-specific ACW changes in distinct networks. Finally, employing kernel density estimation, machine learning, and simulation, we demonstrate that ACW-0 exhibits better prediction in classifying a region’s time window as core or periphery. Overall, our findings provide fundamental insight into how the human cortex’s temporal hierarchy converges with its spatial core-periphery hierarchy.

scholarly journals Target Finding With a Spatially Aware Handheld Chart Display

2012 ◽  
Vol 54 (6) ◽  
pp. 1040-1052 ◽  
Author(s):  
Colin Ware ◽  
Roland Arsenault
Keyword(s):  
Cognitive Strategies ◽  
External World ◽  
Perspective View ◽  
Task Constraints ◽  
Spatial Transformations ◽  
Handheld Device ◽  
Environmental Features ◽  
Display Configuration ◽  
Small Screen Devices ◽  
And Task

Objective: The objective was to evaluate the use of a spatially aware handheld chart display in a comparison with a track-up fixed display configuration and to investigate how cognitive strategies vary when performing the task of matching chart symbols with environmental features under different display geometries and task constraints. Background: Small-screen devices containing both accelerometers and magnetometers support the development of spatially aware handheld maps. These can be designed so that symbols representing targets in the external world appear in a perspective view determined by the orientation of the device. Method: A panoramic display was used to simulate a marine environment. The task involved matching targets in the scene to symbols on simulated chart displays. In Experiment 1, a spatially aware handheld chart display was compared to a fixed track-up chart display. In Experiment 2, a gaze monitoring system was added and the distance between the chart display and the scene viewpoint was varied. Results: All respondents were faster with the handheld device. Novices were much more accurate with the handheld device. People allocated their gaze very differently if they had to move between a map display and a view of the environment. Conclusion: There may be important benefits to spatially aware handheld displays in reducing errors relating to common navigation tasks. Application: Both the difficulty of spatial transformations and the allocation of attention should be considered in the design of chart displays.

scholarly journals Multidigit force control during unconstrained grasping in response to object perturbations

2017 ◽  
Vol 117 (5) ◽  
pp. 2025-2036 ◽  
Author(s):  
Abdeldjallil Naceri ◽  
Alessandro Moscatelli ◽  
Robert Haschke ◽  
Helge Ritter ◽  
Marco Santello ◽  
...  
Keyword(s):  
Nervous System ◽  
Control Algorithm ◽  
External Disturbance ◽  
Human Hand ◽  
Force Distribution ◽  
Robotic Hand ◽  
Robotic Grasping ◽  
Motor Synergies ◽  
Complex Anatomy ◽  
The Central Nervous System

Because of the complex anatomy of the human hand, in the absence of external constraints, a large number of postures and force combinations can be used to attain a stable grasp. Motor synergies provide a viable strategy to solve this problem of motor redundancy. In this study, we exploited the technical advantages of an innovative sensorized object to study unconstrained hand grasping within the theoretical framework of motor synergies. Participants were required to grasp, lift, and hold the sensorized object. During the holding phase, we repetitively applied external disturbance forces and torques and recorded the spatiotemporal distribution of grip forces produced by each digit. We found that the time to reach the maximum grip force during each perturbation was roughly equal across fingers, consistent with a synchronous, synergistic stiffening across digits. We further evaluated this hypothesis by comparing the force distribution of human grasping vs. robotic grasping, where the control strategy was set by the experimenter. We controlled the global hand stiffness of the robotic hand and found that this control algorithm produced a force pattern qualitatively similar to human grasping performance. Our results suggest that the nervous system uses a default whole hand synergistic control to maintain a stable grasp regardless of the number of digits involved in the task, their position on the objects, and the type and frequency of external perturbations. NEW & NOTEWORTHY We studied hand grasping using a sensorized object allowing unconstrained finger placement. During object perturbation, the time to reach the peak force was roughly equal across fingers, consistently with a synergistic stiffening across fingers. Force distribution of a robotic grasping hand, where the control algorithm is based on global hand stiffness, was qualitatively similar to human grasping. This suggests that the central nervous system uses a default whole hand synergistic control to maintain a stable grasp.

Environmental and task constraints influence footfall variability in track and field jumping events

2017 ◽  
Vol 13 (4) ◽  
pp. 552-558
Author(s):  
Hubert Makaruk ◽  
Jared Marak Porter ◽  
Marcin Starzak
Keyword(s):  
Step Length ◽  
Gait Pattern ◽  
Track And Field ◽  
Environmental Constraints ◽  
Male Athletes ◽  
Task Constraints ◽  
Long Jump ◽  
Pointing Control ◽  
Pole Vault ◽  
And Task

By analysis of footfall variability in the long jump, triple jump, and pole vault, the present study was designed to highlight gait variability patterns required in varied nested tasks. Twelve male athletes in each event who participated in one international and two national competitions were involved in this study. Twenty five pairs of 1-m Optojump Next system bars were used to evaluate relevant footfall placement. The footfall variability was taken to present the pattern of step regulation and onset of visual regulation. The main results of this study showed that pole vaulters manifested a highly consistent gait pattern, which was different than the pattern which appeared in the horizontal jumps. The results also revealed that the onset of step length adjustments in the horizontal jumps occurred significantly later during the zeroing-in phase of the approach run in comparison to those utilized by the pole vaulters. These findings indicate that locomotor pointing control in the long jump, triple jump, and pole vault produce specific footfall variability patterns due to different task and environmental constraints that need to be taken into account during training and competition settings.

scholarly journals Kinematic characteristics of second‐order motor planning and performance in 6‐ and 10‐year‐old children and adults: Effects of age and task constraints

2019 ◽  
Vol 62 (2) ◽  
pp. 250-265 ◽  
Author(s):  
Erik Domellöf ◽  
Anna Bäckström ◽  
Anna‐Maria Johansson ◽  
Louise Rönnqvist ◽  
Claes Hofsten ◽  
...  
Keyword(s):  
Motor Planning ◽  
Second Order ◽  
Task Constraints ◽  
Kinematic Characteristics ◽  
And Performance ◽  
And Task

Understanding Environmental and Task Constraints on Talent Development

2017 ◽  
pp. 192-206 ◽  
Author(s):  
Keith Davids ◽  
Arne Güllich ◽  
Richard Shuttleworth ◽  
Duarte Araújo
Keyword(s):  
Talent Development ◽  
Task Constraints ◽  
And Task
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