Péter Tamás Szemes scite author profile

Péter Tamás Szemes

5Publications

62Citation Statements Received

67Citation Statements Given

How they've been cited

How they cite others

Affiliations

University of Debrecen, The University of Tokyo, Tokyo University of Science

Publications

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Electric Vehicle Modelling and Simulation of a Light Commercial Vehicle Using PMSM Propulsion

Babangida¹,

Szemes²

2021

Hung. J. Ind. Chem.

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Even though the Internal Combustion Engine (ICE) used in conventional vehicles is one of the major causes of global warming and air pollution, the emission of toxic gases is also harmful to living organisms. Electric propulsion has been developed in modern electric vehicles to replace the ICE.The aim of this research is to use both the Simulink and Simscape toolboxes in MATLAB to model the dynamics of a light commercial vehicle powered by electric propulsion. This research focuses on a Volkswagen Crafter with a diesel propulsion engine manufactured in 2020. A rear-wheel driven electric powertrain based on a Permanent Magnet Synchronous Motor was designed to replace its front-wheel driven diesel engine in an urban environment at low average speeds.In this research, a Nissan Leaf battery with a nominal voltage of 360 V and a capacity of 24 kWh was modelled to serve as the energy source of the electric drivetrain. The New European Driving Cycle was used in this research to evaluate the electric propulsion. Another test input such as a speed ramp was also used to test the vehicle under different road conditions. A Proportional Integral controller was applied to control the speed of both the vehicle and synchronous motor. Different driving cycles were used to test the vehicle. The vehicle demonstrated a good tracking capability in each type of test. In addition, this research determined that the fuel economy of electric vehicles is approximately 19% better than that of conventional vehicles.

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Welding trajectory reconstruction based on the Intelligent Space concept

Takarics

Szemes

Németh

et al. 2008

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Superflexible robot programming reduces the profitable batch sizes of industrial robots. The paper presents a new way to determine the trajectory for welding robots based on the Intelligent Space concept. The system uses two cameras and edge detection with other image processing algorithms to find the welding path in the image. The three dimensional trajectory is obtained by stereo vision; afterwards it is transformed to the actual robot language.

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Pedestrian-Behavior-Based Mobile Agent Control in Intelligent Space

Szemes

Hashimoto

Korondi³

2005

IEEE Trans. Instrum. Meas.

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Development of a single-master multi-slave tele-micromanipulation system

et al. 2007

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This paper proposes the development of a human-robot cooperative tele-micromanipulation system through a network. We have developed a novel single-master (PHANToM haptic device) multi-slave (6-d.o.f. parallel manipulator) scaled tele-micromanipulation system which enables human operators to perform meso or small-size object manipulation such as assembly or manufacturing with sufficient telepresence. It is expected to improve the human's operability and the overall dexterity of conventional tele-micromanipulation systems. To overcome the problems of the multiple parallel mechanism manipulator, virtual kinematic mapping is considered, based on the manipulability analysis of the workspace. The pick-and-place experiment results prove the validity of the developed single-master multi-slave system.

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Mobile Agent Gain Scheduler Control in Inter-Continental Intelligent Space

Vanijjirattikhan

Chow²,

Szemes³

et al.

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