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LAHR, Gustavo José Giardini et al. A hybrid model-based evolutionary optimization with passive boundaries for physical human-robot interaction. 2022, Anais.. Piscataway, NJ, USA: IEEE, 2022. Disponível em: https://doi.org/10.1109/ICRA46639.2022.9811606. Acesso em: 18 jul. 2024.
APA
Lahr, G. J. G., Garcia, H. B., Ajoudani, A., Boaventura, T., & Caurin, G. A. de P. (2022). A hybrid model-based evolutionary optimization with passive boundaries for physical human-robot interaction. In Proceedings. Piscataway, NJ, USA: IEEE. doi:10.1109/ICRA46639.2022.9811606
NLM
Lahr GJG, Garcia HB, Ajoudani A, Boaventura T, Caurin GA de P. A hybrid model-based evolutionary optimization with passive boundaries for physical human-robot interaction [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/ICRA46639.2022.9811606
Vancouver
Lahr GJG, Garcia HB, Ajoudani A, Boaventura T, Caurin GA de P. A hybrid model-based evolutionary optimization with passive boundaries for physical human-robot interaction [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/ICRA46639.2022.9811606
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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TAMANAKA, Gustavo Teruo Bernardino e AROCA, Rafael Vidal e CAURIN, Glauco Augusto de Paula. Fault-tolerant architecture and implementation of a distributed control system using containers. 2022, Anais.. Piscataway, NJ, USA: IEEE, 2022. Disponível em: https://doi.org/10.1109/LARS/SBR/WRE56824.2022.9995745. Acesso em: 18 jul. 2024.
APA
Tamanaka, G. T. B., Aroca, R. V., & Caurin, G. A. de P. (2022). Fault-tolerant architecture and implementation of a distributed control system using containers. In Proceedings. Piscataway, NJ, USA: IEEE. doi:10.1109/LARS/SBR/WRE56824.2022.9995745
NLM
Tamanaka GTB, Aroca RV, Caurin GA de P. Fault-tolerant architecture and implementation of a distributed control system using containers [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/LARS/SBR/WRE56824.2022.9995745
Vancouver
Tamanaka GTB, Aroca RV, Caurin GA de P. Fault-tolerant architecture and implementation of a distributed control system using containers [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/LARS/SBR/WRE56824.2022.9995745
Godoy, R. V. de, Lahr, G. J. G., Dwivedi, A., Reis, ^T. ^J. ^S. ^dos, Polegato, P. H., Becker, M., et al. (2022). Electromyography-based, robust hand motion classification employing temporal multi-channel vision transformers. In Proceedings. Piscataway, NJ, USA: IEEE. doi:10.1109/BioRob52689.2022.9925307
NLM
Godoy RV de, Lahr GJG, Dwivedi A, Reis ^T^J^S^dos, Polegato PH, Becker M, Caurin GA de P, Liarokapis M. Electromyography-based, robust hand motion classification employing temporal multi-channel vision transformers [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/BioRob52689.2022.9925307
Vancouver
Godoy RV de, Lahr GJG, Dwivedi A, Reis ^T^J^S^dos, Polegato PH, Becker M, Caurin GA de P, Liarokapis M. Electromyography-based, robust hand motion classification employing temporal multi-channel vision transformers [Internet]. Proceedings. 2022 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.1109/BioRob52689.2022.9925307
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MACEDO, João Paulo Costa Antunes de e BIDINOTTO, Jorge Henrique e BROMFIELD, Michael A. Loss of control in flight: comparing qualitative pilot opinion with quantitative flight data. 2020, Anais.. Reston, VA, USA: AIAA, 2020. Disponível em: https://doi.org/10.2514/6.2020-2911. Acesso em: 18 jul. 2024.
APA
Macedo, J. P. C. A. de, Bidinotto, J. H., & Bromfield, M. A. (2020). Loss of control in flight: comparing qualitative pilot opinion with quantitative flight data. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2020-2911
NLM
Macedo JPCA de, Bidinotto JH, Bromfield MA. Loss of control in flight: comparing qualitative pilot opinion with quantitative flight data [Internet]. Proceedings. 2020 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2020-2911
Vancouver
Macedo JPCA de, Bidinotto JH, Bromfield MA. Loss of control in flight: comparing qualitative pilot opinion with quantitative flight data [Internet]. Proceedings. 2020 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2020-2911
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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LAHR, Gustavo José Giardini et al. Genetic approach for coupled dynamics optimization in a multiple degree-of-freedom system. 2020, Anais.. Piscataway, NJ, USA: IEEE, 2020. Disponível em: https://repositorio.usp.br/directbitstream/30798964-bff5-41c0-9fdf-b2dd7dd03e9d/09307457.pdf. Acesso em: 18 jul. 2024.
APA
Lahr, G. J. G., Marão, L. A. B., Garcia, H. B., Boaventura, T., & Caurin, G. A. de P. (2020). Genetic approach for coupled dynamics optimization in a multiple degree-of-freedom system. In Proceedings. Piscataway, NJ, USA: IEEE. Recuperado de https://repositorio.usp.br/directbitstream/30798964-bff5-41c0-9fdf-b2dd7dd03e9d/09307457.pdf
NLM
Lahr GJG, Marão LAB, Garcia HB, Boaventura T, Caurin GA de P. Genetic approach for coupled dynamics optimization in a multiple degree-of-freedom system [Internet]. Proceedings. 2020 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/30798964-bff5-41c0-9fdf-b2dd7dd03e9d/09307457.pdf
Vancouver
Lahr GJG, Marão LAB, Garcia HB, Boaventura T, Caurin GA de P. Genetic approach for coupled dynamics optimization in a multiple degree-of-freedom system [Internet]. Proceedings. 2020 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/30798964-bff5-41c0-9fdf-b2dd7dd03e9d/09307457.pdf
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BOCCATO, Bruno Ribeiro e BRAVO MOSQUERA, Pedro David e CATALANO, Fernando Martini. Experimental assessment of a non-conventional fighter aircraft: effects of canard on the performance of a dorsal intake. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-4200. Acesso em: 18 jul. 2024.
APA
Boccato, B. R., Bravo Mosquera, P. D., & Catalano, F. M. (2019). Experimental assessment of a non-conventional fighter aircraft: effects of canard on the performance of a dorsal intake. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-4200
NLM
Boccato BR, Bravo Mosquera PD, Catalano FM. Experimental assessment of a non-conventional fighter aircraft: effects of canard on the performance of a dorsal intake [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-4200
Vancouver
Boccato BR, Bravo Mosquera PD, Catalano FM. Experimental assessment of a non-conventional fighter aircraft: effects of canard on the performance of a dorsal intake [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-4200
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BOTERO BOLÍVAR, Laura et al. Numerical analysis of the instabilities behind a blunt slat trailing-edge. 2019, Anais.. Madrid, Espanha: SEA, 2019. Disponível em: https://repositorio.usp.br/directbitstream/dcd29da1-7d14-4d78-a1ae-543b60c12178/trabalho%2003%20-%20Numerical%20analysis%20of%20the%20instabilities%20behind%20a%20blunt%20slat%20trailing-edge%20%28internoise%202019%29.pdf. Acesso em: 18 jul. 2024.
APA
Botero Bolívar, L., Acevedo Giraldo, D., Pereira, L. T. L., Catalano, F. M., Reis, D. C. dos, & Coelho, E. L. C. (2019). Numerical analysis of the instabilities behind a blunt slat trailing-edge. In Proceedings. Madrid, Espanha: SEA. Recuperado de https://repositorio.usp.br/directbitstream/dcd29da1-7d14-4d78-a1ae-543b60c12178/trabalho%2003%20-%20Numerical%20analysis%20of%20the%20instabilities%20behind%20a%20blunt%20slat%20trailing-edge%20%28internoise%202019%29.pdf
NLM
Botero Bolívar L, Acevedo Giraldo D, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Numerical analysis of the instabilities behind a blunt slat trailing-edge [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/dcd29da1-7d14-4d78-a1ae-543b60c12178/trabalho%2003%20-%20Numerical%20analysis%20of%20the%20instabilities%20behind%20a%20blunt%20slat%20trailing-edge%20%28internoise%202019%29.pdf
Vancouver
Botero Bolívar L, Acevedo Giraldo D, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Numerical analysis of the instabilities behind a blunt slat trailing-edge [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/dcd29da1-7d14-4d78-a1ae-543b60c12178/trabalho%2003%20-%20Numerical%20analysis%20of%20the%20instabilities%20behind%20a%20blunt%20slat%20trailing-edge%20%28internoise%202019%29.pdf
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HIMENO, Fernando Henrique Tadashi et al. Recirculating coherent structures inside the cove of a bulb sealed slat. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-3695. Acesso em: 18 jul. 2024.
APA
Himeno, F. H. T., Amaral, F. R. do, Souza, D. S., Rodriguez, D., & Medeiros, M. A. F. de. (2019). Recirculating coherent structures inside the cove of a bulb sealed slat. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-3695
NLM
Himeno FHT, Amaral FR do, Souza DS, Rodriguez D, Medeiros MAF de. Recirculating coherent structures inside the cove of a bulb sealed slat [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3695
Vancouver
Himeno FHT, Amaral FR do, Souza DS, Rodriguez D, Medeiros MAF de. Recirculating coherent structures inside the cove of a bulb sealed slat [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3695
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ACEVEDO GIRALDO, Daniel et al. Experimental and numerical aeroacoustic analyses of a large-scale flap side-edge model. 2019, Anais.. Madrid, Espanha: SEA, 2019. Disponível em: https://repositorio.usp.br/directbitstream/3de08e9e-beab-4d74-a11f-1565256469b2/trabalho%2004%20-%20Experimental%20and%20Numerical%20Aeroacoustic%20Analyses%20of%20a%20Large-scale%20Flap%20Side-edge%20Model%20%28internoise%202019%29_removed.pdf. Acesso em: 18 jul. 2024.
APA
Acevedo Giraldo, D., Botero Bolívar, L., Pereira, L. T. L., Catalano, F. M., Reis, D. C. dos, & Coelho, E. L. C. (2019). Experimental and numerical aeroacoustic analyses of a large-scale flap side-edge model. In Proceedings. Madrid, Espanha: SEA. Recuperado de https://repositorio.usp.br/directbitstream/3de08e9e-beab-4d74-a11f-1565256469b2/trabalho%2004%20-%20Experimental%20and%20Numerical%20Aeroacoustic%20Analyses%20of%20a%20Large-scale%20Flap%20Side-edge%20Model%20%28internoise%202019%29_removed.pdf
NLM
Acevedo Giraldo D, Botero Bolívar L, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Experimental and numerical aeroacoustic analyses of a large-scale flap side-edge model [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/3de08e9e-beab-4d74-a11f-1565256469b2/trabalho%2004%20-%20Experimental%20and%20Numerical%20Aeroacoustic%20Analyses%20of%20a%20Large-scale%20Flap%20Side-edge%20Model%20%28internoise%202019%29_removed.pdf
Vancouver
Acevedo Giraldo D, Botero Bolívar L, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Experimental and numerical aeroacoustic analyses of a large-scale flap side-edge model [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/3de08e9e-beab-4d74-a11f-1565256469b2/trabalho%2004%20-%20Experimental%20and%20Numerical%20Aeroacoustic%20Analyses%20of%20a%20Large-scale%20Flap%20Side-edge%20Model%20%28internoise%202019%29_removed.pdf
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PAGANI JÚNIOR, Carlos do Carmo e CALDAS, Luciano Coutinho e MEDEIROS, Marcello Augusto Faraco de. An experimental and numeric investigation towards a reliable acoustic pressure level estimate using phased-array techniques. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-2700. Acesso em: 18 jul. 2024.
APA
Pagani Júnior, C. do C., Caldas, L. C., & Medeiros, M. A. F. de. (2019). An experimental and numeric investigation towards a reliable acoustic pressure level estimate using phased-array techniques. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-2700
NLM
Pagani Júnior C do C, Caldas LC, Medeiros MAF de. An experimental and numeric investigation towards a reliable acoustic pressure level estimate using phased-array techniques [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2700
Vancouver
Pagani Júnior C do C, Caldas LC, Medeiros MAF de. An experimental and numeric investigation towards a reliable acoustic pressure level estimate using phased-array techniques [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2700
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REIS, Danillo Cafaldo dos et al. A study on the 3D effects of slat cove fillers. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-2406. Acesso em: 18 jul. 2024.
APA
Reis, D. C. dos, Coelho, E. L. C., Pereira, L. T. L., Catalano, F. M., & Lima, L. S. de M. (2019). A study on the 3D effects of slat cove fillers. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-2406
NLM
Reis DC dos, Coelho ELC, Pereira LTL, Catalano FM, Lima LS de M. A study on the 3D effects of slat cove fillers [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2406
Vancouver
Reis DC dos, Coelho ELC, Pereira LTL, Catalano FM, Lima LS de M. A study on the 3D effects of slat cove fillers [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2406
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RIBEIRO, Daniel Garcia e BRAVO MOSQUERA, Pedro David e CERÓN MUÑOZ, Hernán Darío. Heat transfer effects on aerodynamic performance of a S809 airfoil for wind turbine application. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://repositorio.usp.br/directbitstream/558bdbaf-a0df-406a-aee5-d60273db8fa1/trabalho%2001%20-%20Heat%20transfer%20effects%20on%20aerodynamic%20performance%20of%20a%20S809%20airfoil%20for%20wind%20turbine%20application%20%28AIAA%20Propulsion%20and%20Energy%202019%20Forum%29.pdf. Acesso em: 18 jul. 2024.
APA
Ribeiro, D. G., Bravo Mosquera, P. D., & Cerón Muñoz, H. D. (2019). Heat transfer effects on aerodynamic performance of a S809 airfoil for wind turbine application. In Proceedings. Reston, VA, USA: AIAA. Recuperado de https://repositorio.usp.br/directbitstream/558bdbaf-a0df-406a-aee5-d60273db8fa1/trabalho%2001%20-%20Heat%20transfer%20effects%20on%20aerodynamic%20performance%20of%20a%20S809%20airfoil%20for%20wind%20turbine%20application%20%28AIAA%20Propulsion%20and%20Energy%202019%20Forum%29.pdf
NLM
Ribeiro DG, Bravo Mosquera PD, Cerón Muñoz HD. Heat transfer effects on aerodynamic performance of a S809 airfoil for wind turbine application [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/558bdbaf-a0df-406a-aee5-d60273db8fa1/trabalho%2001%20-%20Heat%20transfer%20effects%20on%20aerodynamic%20performance%20of%20a%20S809%20airfoil%20for%20wind%20turbine%20application%20%28AIAA%20Propulsion%20and%20Energy%202019%20Forum%29.pdf
Vancouver
Ribeiro DG, Bravo Mosquera PD, Cerón Muñoz HD. Heat transfer effects on aerodynamic performance of a S809 airfoil for wind turbine application [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/558bdbaf-a0df-406a-aee5-d60273db8fa1/trabalho%2001%20-%20Heat%20transfer%20effects%20on%20aerodynamic%20performance%20of%20a%20S809%20airfoil%20for%20wind%20turbine%20application%20%28AIAA%20Propulsion%20and%20Energy%202019%20Forum%29.pdf
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MATHIAS, Marlon Sproesser e MEDEIROS, Marcello Augusto Faraco de. Global instability analysis of a boundary layer flow over a small cavity. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-3535. Acesso em: 18 jul. 2024.
APA
Mathias, M. S., & Medeiros, M. A. F. de. (2019). Global instability analysis of a boundary layer flow over a small cavity. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-3535
NLM
Mathias MS, Medeiros MAF de. Global instability analysis of a boundary layer flow over a small cavity [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3535
Vancouver
Mathias MS, Medeiros MAF de. Global instability analysis of a boundary layer flow over a small cavity [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3535
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BRAVO MOSQUERA, Pedro David e CERÓN MUÑOZ, Hernán Darío e CATALANO, Fernando Martini. Design and computational analysis of a closed non-planar wing aircraft coupled to a boundary layer ingestion propulsion system. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-3850. Acesso em: 18 jul. 2024.
APA
Bravo Mosquera, P. D., Cerón Muñoz, H. D., & Catalano, F. M. (2019). Design and computational analysis of a closed non-planar wing aircraft coupled to a boundary layer ingestion propulsion system. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-3850
NLM
Bravo Mosquera PD, Cerón Muñoz HD, Catalano FM. Design and computational analysis of a closed non-planar wing aircraft coupled to a boundary layer ingestion propulsion system [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3850
Vancouver
Bravo Mosquera PD, Cerón Muñoz HD, Catalano FM. Design and computational analysis of a closed non-planar wing aircraft coupled to a boundary layer ingestion propulsion system [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-3850
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MARÃO, Luiz Afonso Batalha et al. Deep reinforcement learning control of autonomous terrestrial wheeled robots in a challenge task. 2019, Anais.. São Bernardo do Campo, SP: FEI, 2019. Disponível em: https://repositorio.usp.br/directbitstream/3a152ae1-f99a-4754-a6db-950a7ca2e41d/trabalho%2001%20Deep%20Reinforcement%20Learning%20Control%20of%20Autonomous%20Terrestrial%20Wheeled%20Robots%20in%20a%20Challenge%20Task%20II%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20HUMANOIDES%20%28BRAHUR%29%20E%20III%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20DE%20SERVI%C3%87O%20%28BRAS.pdf. Acesso em: 18 jul. 2024.
APA
Marão, L. A. B., Garcia, H. B., Casteluci, L. C., Magalhães, D. V., & Caurin, G. A. de P. (2019). Deep reinforcement learning control of autonomous terrestrial wheeled robots in a challenge task. In Proceedings. São Bernardo do Campo, SP: FEI. Recuperado de https://repositorio.usp.br/directbitstream/3a152ae1-f99a-4754-a6db-950a7ca2e41d/trabalho%2001%20Deep%20Reinforcement%20Learning%20Control%20of%20Autonomous%20Terrestrial%20Wheeled%20Robots%20in%20a%20Challenge%20Task%20II%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20HUMANOIDES%20%28BRAHUR%29%20E%20III%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20DE%20SERVI%C3%87O%20%28BRAS.pdf
NLM
Marão LAB, Garcia HB, Casteluci LC, Magalhães DV, Caurin GA de P. Deep reinforcement learning control of autonomous terrestrial wheeled robots in a challenge task [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/3a152ae1-f99a-4754-a6db-950a7ca2e41d/trabalho%2001%20Deep%20Reinforcement%20Learning%20Control%20of%20Autonomous%20Terrestrial%20Wheeled%20Robots%20in%20a%20Challenge%20Task%20II%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20HUMANOIDES%20%28BRAHUR%29%20E%20III%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20DE%20SERVI%C3%87O%20%28BRAS.pdf
Vancouver
Marão LAB, Garcia HB, Casteluci LC, Magalhães DV, Caurin GA de P. Deep reinforcement learning control of autonomous terrestrial wheeled robots in a challenge task [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/3a152ae1-f99a-4754-a6db-950a7ca2e41d/trabalho%2001%20Deep%20Reinforcement%20Learning%20Control%20of%20Autonomous%20Terrestrial%20Wheeled%20Robots%20in%20a%20Challenge%20Task%20II%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20HUMANOIDES%20%28BRAHUR%29%20E%20III%20WORKSHOP%20BRASILEIRO%20DE%20ROB%C3%94S%20DE%20SERVI%C3%87O%20%28BRAS.pdf
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SPILLERE, André M. N. et al. Inlet liner design for a fan noise test rig. 2019, Anais.. Reston, VA, USA: AIAA, 2019. Disponível em: https://doi.org/10.2514/6.2019-2724. Acesso em: 18 jul. 2024.
APA
Spillere, A. M. N., Braga, D. S., Seki, L. A., Bonomo, L. A., Cordioli, J. A., Rocamora Junior, B. M., et al. (2019). Inlet liner design for a fan noise test rig. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2019-2724
NLM
Spillere AMN, Braga DS, Seki LA, Bonomo LA, Cordioli JA, Rocamora Junior BM, Greco Júnior PC, Reis DC dos, Coelho ELC. Inlet liner design for a fan noise test rig [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2724
Vancouver
Spillere AMN, Braga DS, Seki LA, Bonomo LA, Cordioli JA, Rocamora Junior BM, Greco Júnior PC, Reis DC dos, Coelho ELC. Inlet liner design for a fan noise test rig [Internet]. Proceedings. 2019 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2019-2724
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
DAUD FILHO, Antonio Carlos e BELO, Eduardo Morgado. Flight dynamics modeling and trim curves of a conceptual semi-tandem wing VTOL UAV. 2018, Anais.. Edinburgh, UK: ICAS, 2018. Disponível em: https://repositorio.usp.br/directbitstream/987dd969-af4d-49be-a001-64ec8719b596/trabalho%2001%20-%20FLIGHT%20DYNAMICS%20MODELING%20AND%20TRIM%20CURVES%20OF%20A%20CONCEPTUAL%20SEMI-TANDEM%20WING%20VTOL%20UAV%20%2831st%20Congress%20of%20the%20International%20Council%20of%20the%20Aeronautical%20Sciences%29_removed.pdf. Acesso em: 18 jul. 2024.
APA
Daud Filho, A. C., & Belo, E. M. (2018). Flight dynamics modeling and trim curves of a conceptual semi-tandem wing VTOL UAV. In Proceedings. Edinburgh, UK: ICAS. Recuperado de https://repositorio.usp.br/directbitstream/987dd969-af4d-49be-a001-64ec8719b596/trabalho%2001%20-%20FLIGHT%20DYNAMICS%20MODELING%20AND%20TRIM%20CURVES%20OF%20A%20CONCEPTUAL%20SEMI-TANDEM%20WING%20VTOL%20UAV%20%2831st%20Congress%20of%20the%20International%20Council%20of%20the%20Aeronautical%20Sciences%29_removed.pdf
NLM
Daud Filho AC, Belo EM. Flight dynamics modeling and trim curves of a conceptual semi-tandem wing VTOL UAV [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/987dd969-af4d-49be-a001-64ec8719b596/trabalho%2001%20-%20FLIGHT%20DYNAMICS%20MODELING%20AND%20TRIM%20CURVES%20OF%20A%20CONCEPTUAL%20SEMI-TANDEM%20WING%20VTOL%20UAV%20%2831st%20Congress%20of%20the%20International%20Council%20of%20the%20Aeronautical%20Sciences%29_removed.pdf
Vancouver
Daud Filho AC, Belo EM. Flight dynamics modeling and trim curves of a conceptual semi-tandem wing VTOL UAV [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://repositorio.usp.br/directbitstream/987dd969-af4d-49be-a001-64ec8719b596/trabalho%2001%20-%20FLIGHT%20DYNAMICS%20MODELING%20AND%20TRIM%20CURVES%20OF%20A%20CONCEPTUAL%20SEMI-TANDEM%20WING%20VTOL%20UAV%20%2831st%20Congress%20of%20the%20International%20Council%20of%20the%20Aeronautical%20Sciences%29_removed.pdf
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
ACEVEDO GIRALDO, Daniel et al. Experimental aeroacoustic and aerodynamic analysis of a large-scale flap side-edge model. 2018, Anais.. Reston, VA, USA: AIAA, 2018. Disponível em: https://doi.org/10.2514/6.2018-3799. Acesso em: 18 jul. 2024.
APA
Acevedo Giraldo, D., Botero Bolívar, L., Pereira, L. T. L., Catalano, F. M., Reis, D. C. dos, & Coelho, E. L. C. (2018). Experimental aeroacoustic and aerodynamic analysis of a large-scale flap side-edge model. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2018-3799
NLM
Acevedo Giraldo D, Botero Bolívar L, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Experimental aeroacoustic and aerodynamic analysis of a large-scale flap side-edge model [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-3799
Vancouver
Acevedo Giraldo D, Botero Bolívar L, Pereira LTL, Catalano FM, Reis DC dos, Coelho ELC. Experimental aeroacoustic and aerodynamic analysis of a large-scale flap side-edge model [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-3799
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
BOTERO BOLÍVAR, Laura et al. Parametric analysis of the influence of slat geometry on acoustic noise. 2018, Anais.. Reston, VA, USA: AIAA, 2018. Disponível em: https://doi.org/10.2514/6.2018-3593. Acesso em: 18 jul. 2024.
APA
Botero Bolívar, L., Pereira, L. T. L., Acevedo Giraldo, D., Catalano, F. M., Reis, D. C. dos, & Coelho, E. L. C. (2018). Parametric analysis of the influence of slat geometry on acoustic noise. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2018-3593
NLM
Botero Bolívar L, Pereira LTL, Acevedo Giraldo D, Catalano FM, Reis DC dos, Coelho ELC. Parametric analysis of the influence of slat geometry on acoustic noise [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-3593
Vancouver
Botero Bolívar L, Pereira LTL, Acevedo Giraldo D, Catalano FM, Reis DC dos, Coelho ELC. Parametric analysis of the influence of slat geometry on acoustic noise [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-3593
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
REGO, Leandro Falcão Loureiro et al. Aerodynamic and aeroacoustic experimental investigation of a simplified nose landing gear. 2018, Anais.. Reston, VA, USA: AIAA, 2018. Disponível em: https://doi.org/10.2514/6.2018-0759. Acesso em: 18 jul. 2024.
APA
Rego, L. F. L., Pereira, L. T. L., Catalano, F. M., Speth, R., Bent, P., & Fregnani, J. A. (2018). Aerodynamic and aeroacoustic experimental investigation of a simplified nose landing gear. In Proceedings. Reston, VA, USA: AIAA. doi:10.2514/6.2018-0759
NLM
Rego LFL, Pereira LTL, Catalano FM, Speth R, Bent P, Fregnani JA. Aerodynamic and aeroacoustic experimental investigation of a simplified nose landing gear [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-0759
Vancouver
Rego LFL, Pereira LTL, Catalano FM, Speth R, Bent P, Fregnani JA. Aerodynamic and aeroacoustic experimental investigation of a simplified nose landing gear [Internet]. Proceedings. 2018 ;[citado 2024 jul. 18 ] Available from: https://doi.org/10.2514/6.2018-0759