Page 95

Vehı́culos de tres ruedas con vista hacia la movilidad urbana: Una revisión del estado del arte — 95

[8]

UN Habitat. World Cities Report 2016 - Urbanization and Development: Emerging Futures. United Nations, Nairobi, Kenia, 2016.

[22]

P. Mulhall, S.M. Lukic, S.G. Wirasingha, Y.J. Lee, and A. Emadi. Solar-assisted electric auto rickshaw threewheeler. IEEE Trans. Veh. Technol., USA, 2010.

[9]

A. Crotte Alvarado and C. Arvizu. Proyectos de movilidad y transporte del BID en México. Banco Interamericano de Desarrollo, México, 2017.

[23]

Saeedi and Kazemi. Stability of Three-Wheeled Vehicles with and without Control System. Int. J. Automot. Eng., USA, 2013.

[10]

J.C. Solı́s Ávila and C. Sheinbaum Pardo. Consumo de energı́a y emisiones de co 2 del autotransporte en méxico y escenarios de mitigación. Rev. Int. Contam. Ambient., 32(1):7–23, 2016.

[24]

[11]

L. Güereca Hernández, A. Padilla Rivera, H. Herrera Paz, and C. Carius Estrada. Evaluación de la Huella de Carbono con enfoque de Análisis de Ciclo de Vida para 12 Sistemas Constructivos. Banco Interamericano de Desarrollo, México, 2016.

M. Ataei, A. Khajepour, , and S. Jeon. Reconfigurable Integrated Stability Control for Four- and Three-wheeled Urban Vehicles with Flexible Combinations of Actuation Systems. IEEE/ASME Transactions on Mechatronics, USA, 2018.

[25]

S. Saxena, A. Gopal, and A. Phadke. Electrical consumption of two-, three- and four-wheel light-duty electric vehicles in India. IEEE Transportation Electrification Conference, ITEC-India, 2014.

[12]

V. Senthil, A. Patel, and M. Hariharan. Indian Market Analysis and Sales Strategy for potential Sports Electric Vehicle Segment. IEEE Transportation Electrification Conference, ITEC-India, 2018.

[26]

[13]

S. Habib, M.M. Khan, F. Abbas, L. Sang, M.U. Shahid, and H. Tang. A Comprehensive Study of Implemented International Standards, Technical Challenges, Impacts and Prospects for Electric Vehicles. IEEE Access, USA, 2018.

A. Crotte, C. Arvizu, C. Mojica, and I. Granada. Apoyo al desarrollo de Sistemas Inteligentes de Transporte (ITS). Banco Interamericano de Desarrollo, México, 2017.

[27]

[14]

M. Ataei, A. Khajepour, and S. Jeon. Rollover stabilities of three-wheeled vehicles including road configuration effects. Proc. Inst. Mech. Eng. Part D J. Automob. Eng., USA, 2017.

Organización Mundial de la Salud. El estrés según la organización mundial de la salud, seguridad de los vehı́culos de motor de dos y tres ruedas, 2018. http://www.who.int; accedido en septiembre de 2018.

[28]

A. Poullikkas. Sustainable options for electric vehicle technologies. Renew. Sustain. Energy Rev., USA, 2015.

[29]

S.J. Rind, Y. Ren, Y. Hu, J. Wang, and L. Jiang. Configurations and control of traction motors for electric vehicles: a review. Chinese J. Electr. Eng., China, 2017.

[30]

D. Patel and T. Patel. Technology used in electric vehicle. IEEE Explore, USA, 2018.

[31]

J.P.F. Trovao, M.A. Roux, E. Menard, and M.R. Dubois. Energy- and power-split management of dual energy storage system for a three-wheel electric vehicle. IEEE Trans. Veh. Technol., USA, 2017.

[32]

B. Sarlioglu, C.T. Morris, D. Han, and S. Li. Driving Toward Accessibility: A Review of Technological Improvements for Electric Machines, Power Electronics, and Batteries for Electric and Hybrid Vehicles. IEEE Industry Applications Magazine, USA, 2017.

[33]

E. Chemali, M. Preindl, P. Malysz, and A. Emadi. Electrochemical and Electrostatic Energy Storage and Management Systems for Electric Drive Vehicles: State-of-the-Art Review and Future Trends. IEEE Journal of Emerging and Selected Topics in Power Electronics, USA, 2016.

[34]

R.T. Doucette and M.D. McCulloch. Modeling the CO2 emissions from battery electric vehicles given the power generation mixes of different countries. Energy Policy, USA, 2011.

[35]

A. Wong. Some less-discussed externalities of contemporary electric vehicle mania in Canada. Energy, USA, 2017.

[15]

V. Cossalter, A. Doria, and M. Ferrari. Potentialities of a Light Three-Wheeled Vehicle for Sustainable Mobility. 1st Biennial International Conference on Dynamics for Design; 14th International Conference on Advanced Vehicle Technologies, USA, 2012.

[16]

A. of T.S.I. Professionals. Manual on classification of motor vehicle traffic crashes, 2017. https://www.nhtsa.gov; accedido en septiembre de 2018.

[17]

U.S.G.S. Administration. Amend definition of 3-wheeled vehicles, 2018. https://www.reginfo.gov; accedido en septiembre de 2018.

[18]

INEGI. Reporte por áreas geográficas, instituto nacional de estadı́stica y geografı́a, 2018. http://www.beta.inegi.org.mx; accedido en octubre de 2018.

[19]

Organización de los Estados Americanos. Sistema de información sobre comercio exterior, 2018. http://www.sice.oas.org; accedido en octubre de 2018.

[20]

J.J. Antony and K. Jayabal. Rollover dynamics of a narrow tilting three-wheeled vehicle. MATEC Web of Conferences, 51(1):1002–1016, 2016.

[21]

S.A. Milani and S. Azadi. Fuzzy Vehicle Dynamic Control for a Three-Wheeled Vehicle Using Tilt Mechanism. Int. J. Automot. Eng., USA, 2014.

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Camino hacia la Internacionalización: Logística internacional  

La presente obra reúne 14 documentos de investigación aplicada y de revisión de literatura los cuales fueron elaborados de forma conjunta po...

Camino hacia la Internacionalización: Logística internacional  

La presente obra reúne 14 documentos de investigación aplicada y de revisión de literatura los cuales fueron elaborados de forma conjunta po...

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