What is he best known for?
The fields of study he is best known for:
- Artificial intelligence
- Mechanical engineering
- Electrical engineering
Hannes Bleuler mainly investigates Magnetic bearing, Control engineering, Mechanical engineering, Control theory and Engraving.
His Magnetic bearing study which covers Magnetic levitation that intersects with Bearing and Electromagnetic coil.
His study in the fields of Control theory under the domain of Control engineering overlaps with other disciplines such as Scheme.
His Engraving study integrates concerns from other disciplines, such as Electrochemical machining, Gravity feed and Machining.
His Brake research includes themes of Actuator and Haptic technology.
His Actuator research incorporates themes from Control system and Robot, Human–robot interaction.
His most cited work include:
- The DESI Experiment Part I: Science,Targeting, and Survey Design (545 citations)
- Control strategies for active lower extremity prosthetics and orthotics: a review (510 citations)
- Active tactile exploration using a brain–machine–brain interface (420 citations)
What are the main themes of his work throughout his whole career to date?
The scientist’s investigation covers issues in Simulation, Haptic technology, Artificial intelligence, Robot and Actuator.
His studies deal with areas such as Kinematics, Mechanism, Control engineering, Torque and Workspace as well as Simulation.
His work is dedicated to discovering how Haptic technology, Virtual reality are connected with Perception and Illusion and other disciplines.
Hannes Bleuler is interested in Robotics, which is a field of Artificial intelligence.
Hannes Bleuler combines topics linked to Climbing with his work on Robot.
His research on Actuator concerns the broader Control theory.
He most often published in these fields:
- Simulation (24.57%)
- Haptic technology (23.21%)
- Artificial intelligence (19.80%)
What were the highlights of his more recent work (between 2015-2021)?
- Physical medicine and rehabilitation (5.46%)
- Exoskeleton (5.46%)
- Simulation (24.57%)
In recent papers he was focusing on the following fields of study:
Hannes Bleuler mostly deals with Physical medicine and rehabilitation, Exoskeleton, Simulation, Haptic technology and Artificial intelligence.
His Exoskeleton research incorporates elements of Gait and Stairs.
In his study, which falls under the umbrella issue of Gait, Control engineering is strongly linked to Torque.
His Simulation research integrates issues from Workspace, Laparoscopic surgery and Robotic arm.
Hannes Bleuler has researched Haptic technology in several fields, including Mechatronics, Teleoperation and Virtual reality, Human–computer interaction.
His work deals with themes such as Computer vision and Body perception, which intersect with Artificial intelligence.
Between 2015 and 2021, his most popular works were:
- The DESI Experiment Part I: Science,Targeting, and Survey Design (545 citations)
- Long-Term Training with a Brain-Machine Interface-Based Gait Protocol Induces Partial Neurological Recovery in Paraplegic Patients (182 citations)
- The DESI Experiment Part II: Instrument Design (90 citations)
In his most recent research, the most cited papers focused on:
- Artificial intelligence
- Mechanical engineering
- Electrical engineering
His scientific interests lie mostly in Physical medicine and rehabilitation, Simulation, Galaxy, Baryon acoustic oscillations and Dark energy.
His research on Physical medicine and rehabilitation also deals with topics like
- Rehabilitation together with Motor control, Gait, Proprioception and Perception,
- Physical therapy which is related to area like Sensation, Illusion, Crossmodal and Somatosensory system.
His research in Simulation intersects with topics in Delta robot, Laparoscopy and Artificial intelligence.
Hannes Bleuler interconnects Gait, Exoskeleton Device and Torque in the investigation of issues within Artificial intelligence.
His study in Quasar and Redshift survey is done as part of Galaxy.
His work on Redshift, Redshift-space distortions and Dark matter as part of general Astrophysics research is often related to High density, thus linking different fields of science.
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