Volume - 1 Issue - 1 (2024)
International Journal of Transportation Research and Technology
Volume – 1
Issue – 1
ISSN:
- Rasim Alizade, Kanan Azimov*, Javad Samadzade
- DOI: 10.71108/transporttech.vm01is01.01
- Full text: Yes | Abstract: Yes | Keywords: 9 | References: 18
APA
Alizade, R., Azimov, K. & Samadzade, J. (2024). Multifaceted Euclidean Manipulators of Spacecraft Docking System. International Journal of Transportation Research and Technology, 1(1). 5-16. https://www.doi.org/10.71108/transporttech.vm01is01.01
MLA
Alizade, R., Azimov, K. and Samadzade, J. “Multifaceted Euclidean Manipulators of Spacecraft Docking System.” International Journal of Transportation Research and Technology, vol. 1, no. 1, 2024, pp.5-16. https://www.doi.org/10.71108/transporttech.vm01is01.01
Chicago
Alizade, R., Azimov, K. and Samadzade, J. “Multifaceted Euclidean Manipulators of Spacecraft Docking System.” International Journal of Transportation Research and Technology 1, no. 1 (2024): 5-16. https://www.doi.org/10.71108/transporttech.vm01is01.01
Harvard
Alizade, R., Azimov, K. and Samadzade, J., 2024. Multifaceted Euclidean Manipulators of Spacecraft Docking System. International Journal of Transportation Research and Technology, 1(1), pp.5-16. https://www.doi.org/10.71108/transporttech.vm01is01.01
Vancouver
Alizade R, Azimov K, Samadzade J. Multifaceted Euclidean Manipulators of Spacecraft Docking System. TransportTech [online]. 2024;1(1):5-16. Available from: https://www.doi.org/10.71108/transporttech.vm01is01.01
- Burak Berkay Kaya*, Chingiz Hajiyev
- DOI: 10.71108/transporttech.vm01is01.02
- Full text: Yes | Abstract: Yes | Keywords: 5 | References: 13
APA
Kaya, B. & Hajiyev, Ch. (2024). 6-DOF Nonlinear Dynamic Modeling and Control of Autonomous Underwater Vehicle. International Journal of Transportation Research and Technology, 1(1). 17-29. https://www.doi.org/10.71108/transporttech.vm01is01.02
MLA
Kaya, B. and Hajiyev, Ch. “6-DOF Nonlinear Dynamic Modeling and Control of Autonomous Underwater Vehicle.” International Journal of Transportation Research and Technology, vol. 1, no. 1, 2024, pp.17-29. https://www.doi.org/10.71108/transporttech.vm01is01.02
Chicago
Kaya, B. and Hajiyev, Ch. “6-DOF Nonlinear Dynamic Modeling and Control of Autonomous Underwater Vehicle.” International Journal of Transportation Research and Technology 1, no. 1 (2024): 17-29. https://www.doi.org/10.71108/transporttech.vm01is01.02
Harvard
Kaya, B. and Hajiyev, Ch., 2024. 6-DOF Nonlinear Dynamic Modeling and Control of Autonomous Underwater Vehicle. International Journal of Transportation Research and Technology, 1(1). pp.17-29. https://www.doi.org/10.71108/transporttech.vm01is01.02
Vancouver
Kaya B, Hajiyev Ch. 6-DOF Nonlinear Dynamic Modeling and Control of Autonomous Underwater Vehicle. TransportTech [online]. 2024;1(1):17-29. Available from: https://www.doi.org/10.71108/transporttech.vm01is01.02
- Mehmet Ziya Sogut
- DOI: 10.71108/transporttech.vm01is01.03
- Full text: Yes | Abstract: Yes | Keywords: 5 | References: 21
APA
Sogut, M. Z. (2024). Shipping Towards Decarbonization by Holistic Approach. International Journal of Transportation Research and Technology, 1(1). 30-41. https://www.doi.org/10.71108/transporttech.vm01is01.03
MLA
Sogut, M. Z. “Shipping Towards Decarbonization by Holistic Approach.” International Journal of Transportation Research and Technology, vol. 1, no. 1, 2024, pp.30-41. https://www.doi.org/10.71108/transporttech.vm01is01.03
Chicago
Sogut, M. Z. “Shipping Towards Decarbonization by Holistic Approach.” International Journal of Transportation Research and Technology 1, no. 1 (2024): 30-41. https://www.doi.org/10.71108/transporttech.vm01is01.03
Harvard
Sogut, M. Z., 2024. Shipping Towards Decarbonization by Holistic Approach. International Journal of Transportation Research and Technology, 1(1). pp.30-41. https://www.doi.org/10.71108/transporttech.vm01is01.03
Vancouver
Sogut MZ. Shipping Towards Decarbonization by Holistic Approach. TransportTech [online]. 2024;1(1):30-41. Available from: https://www.doi.org/10.71108/transporttech.vm01is01.03
- Huseyngulu Guliyev, Elshan Manafov, Farid Huseynov*
- DOI: 10.71108/transporttech.vm01is01.04
- Full text: Yes | Abstract: Yes | Keywords: 6 | References: 12
APA
Guliyev, H., Manafov, E. & Huseynov, F. (2024). Methodology for Assessment of the Technical Condition of Electric Motors and Descriptive Forms of Signals. International Journal of Transportation Research and Technology, 1(1). 42-54. https://www.doi.org/10.71108/transporttech.vm01is01.04
MLA
Guliyev, H., Manafov, E. and Huseynov, F. “Methodology for Assessment of the Technical Condition of Electric Motors and Descriptive Forms of Signals.” International Journal of Transportation Research and Technology, vol. 1, no. 1, 2024, pp.42-54. https://www.doi.org/10.71108/transporttech.vm01is01.04
Chicago
Guliyev, H., Manafov, E. and Huseynov, F. “Methodology for Assessment of the Technical Condition of Electric Motors and Descriptive Forms of Signals.” International Journal of Transportation Research and Technology 1, no. 1 (2024): 42-54. https://www.doi.org/10.71108/transporttech.vm01is01.04
Harvard
Guliyev, H., Manafov, E. and Huseynov, F., 2024. Methodology for Assessment of the Technical Condition of Electric Motors and Descriptive Forms of Signals. International Journal of Transportation Research and Technology, 1(1), pp.42-54. https://www.doi.org/10.71108/transporttech.vm01is01.04
Vancouver
Guliyev H, Manafov E, Huseynov F. Methodology for Assessment of the Technical Condition of Electric Motors and Descriptive Forms of Signals. TransportTech [online]. 2024;1(1):42-54. Available from: https://www.doi.org/10.71108/transporttech.vm01is01.04
- Birol Kilkis
- DOI: 10.71108/transporttech.vm01is01.05
- Full text: Yes | Abstract: Yes | Keywords: 6 | References: 12
APA
Kilkis, B. (2024). Hydrogen Fueled UAV for Wildfire Fighting and Aerial Reconnaissance Coupled with Land Side Hydrogen Mobility. International Journal of Transportation Research and Technology, 1(1). 55-64. https://www.doi.org/10.71108/transporttech.vm01is01.05
MLA
Kilkis, B. “Hydrogen Fueled UAV for Wildfire Fighting and Aerial Reconnaissance Coupled with Land Side Hydrogen Mobility.” International Journal of Transportation Research and Technology, vol. 1, no. 1, 2024, pp.55-64. https://www.doi.org/10.71108/transporttech.vm01is01.05
Chicago
Kilkis, B. “Hydrogen Fueled UAV for Wildfire Fighting and Aerial Reconnaissance Coupled with Land Side Hydrogen Mobility.” International Journal of Transportation Research and Technology 1, no. 1 (2024): 55-64. https://www.doi.org/10.71108/transporttech.vm01is01.05
Harvard
Kilkis, B., 2024. Hydrogen Fueled UAV for Wildfire Fighting and Aerial Reconnaissance Coupled with Land Side Hydrogen Mobility. International Journal of Transportation Research and Technology, 1(1), pp.55-64. https://www.doi.org/10.71108/transporttech.vm01is01.05
Vancouver
Kilkis B. Hydrogen Fueled UAV for Wildfire Fighting and Aerial Reconnaissance Coupled with Land Side Hydrogen Mobility. TransportTech [online]. 2024;1(1):55-64. Available from: https://www.doi.org/10.71108/transporttech.vm01is01.05