Robotic Art in Creation and Development of Innovative Shapes and Programs for Automated Driven Cars with Artificial Intelligence

Authors

  • Doru-Laurean Băldean Lecturer, Department of Automotive Engineering and Transportation at Technical University from Cluj-Napoca, Cluj-Napoca, Romania
  • Florin-Alexandru Covaciu Lecturer, Department of Automation Engineering and Robotics at Technical University from Cluj-Napoca, Cluj-Napoca, Romania

DOI:

https://doi.org/10.18662/jsmi/2.1/3

Keywords:

automation, automotive, autonomous, robotics, technology

Abstract

Nature is evolving continuously. Humanity seems like is always searching for something new and in a cultural (ex)change. Technology is the preferred instrument for (self-)development processes in human-nature relationship and interactions. In the present era many people (children and grown-ups) are interested in playing and working with smart phones and other technological products which are performing day by day more complex tasks and diverse interactions. As the level of intelligence does increase when it comes to technological products, higher the interest of the customers will be. Today, even computer browsers are learning the searching behaviours of their users. Programming and adjusting the robots and automatic systems to interact in quite complex fashion with the surrounding environment in other to perform different tasks and to interact with intelligent beings is still quite a difficult challenge due to the great amount of data that needs to be considered and processed. In the present paper the authors show a small part of the designing process for a robotic vehicle in virtual reality environment by using Unity 5 application and other engineering tools. Vehicle considered for digitisation is Chevrolet Camaro and the performed tasks should be automated driving in testing scenario. Self-driven cars are a challenging project for all automotive and robotics engineers nowadays. There is a strong competition between the automotive and robotic technicians to develop and test the first autonomous or self-driving vehicle. In the present case the authors bring to the public attention their interdisciplinary effort to research and development of an innovative vehicle, with the purpose of improving road safety and comfort. It is expected that automated vehicles to provide superior and complex experiences during road travel. Art creation and scientific research are furthermore supported by this field of human activity.

References

Chebly, A., Talj, R., & Charara, A. (2017). Coupled Longitudinal and Lateral Control for an Autonomous Vehicle Dynamics Modeled using a Robotics Formalism. IFAC Papers On Line. 50(1), 12526-32.

Covaciu, F. A., & Băldean, D. L. (2019). Contribution to Research of the Applied Engineering Protocol to Implement a Fuzzy Regulator for Autonomous Driving of an Automotive Model Implemented in Virtual Reality. In I. Dumitru, & D. Covaciu (Eds.), The 30th SIAR International Congress of Automotive and Transport Engineering Science and Management of Automotive and Transp. Engineering (pp. 468-476). Basel: Springer International Publishing.

Covaciu, F. A., & Băldean, D. L. (2018). Designing and Control of a Exploitation Mobile Robot, Using Virtual Reality as a Simulation Environment. In A.I. Chereches, & M. Bejan (Eds.), Stiinta si inginerie. Bucuresti: AGIR. Retrieved from https://stiintasiinginerie.ro/34-43.

Hodor, A., Berce, P., & Comes, R. (2013). Some Considerations About 3D Replication of Complex Surfaces. Acta Technica Napocensis, 56, 153 - 8.

Jiménez, F. A., Naranjo, J. E., Anaya, J. J., Garcia, F., Ponz, A., & Armingol, J. M. (2016). Advanced Driver Assistance System for Road Environments to Improve Safety and Efficiency. In Transportation Research Procedia, 14, 2245 - 54.

Jovrea, S., & Borzan, A. I. (2018). Researching On-board Display of Essential Information. In A.I. Chereches, & M. Bejan (Eds.), Stiinta si inginerie. Bucuresti: AGIR. Retrieved from http://stiintasiinginerie.ro/31-67.

Moldovan, A., & Borzan, A. I. (2017). Experimental Research of the Management System from the Peugeot 4007 S.U.V. In A.I. Chereches, & M. Bejan (Eds.), Stiinta si inginerie. București: AGIR. Retrieved from http://stiintasiinginerie.ro/31-71.

Yusupbekov, N. R., Marakhimov, A. R., Igamberdiev, H. Z., & Umarov, Sh. X. (2016). Application of Soft-Computing Technologies to the Traffic Control System Design Problems. Procedia Computer Science, 102, 540 - 6.

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Published

2020-07-06

How to Cite

Băldean, D.-L., & Covaciu, F.-A. (2020). Robotic Art in Creation and Development of Innovative Shapes and Programs for Automated Driven Cars with Artificial Intelligence. Journal for Social Media Inquiry, 2(1), 22-39. https://doi.org/10.18662/jsmi/2.1/3

Issue

Vol. 2 No. 1 (2020): Journal for Social Media Inquiry

Section

Articles

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