, Average Vehicle Occupancy Factors for Computing Travel Time Reliability Measures and Total Peak Hour Excessive Delay Metrics, pp.1-8, 2018.

D. Fiorello, A. Martino, L. Zani, P. Christidis, and E. ,

. Navajas-cawood, Mobility data across the EU 28 member states : results from an extensive CAWI survey, Transp. Res. Procedia, vol.14, pp.1104-1113, 2016.

J. , Optimisation of Electric Drive Units for Low Speed Electric Vehicles, 2019.

M. Forissier, L'electrification des vehicules : pas si simple !, 2019.

R. Rajamani, Vehicle Dynamics and Control

G. Lino and A. Sciarretta, Vehicle Propulsion Systems, 2007.

. Green-car-congress, Bosch introduces new 48V Li-ion pack for mild-hybrids, 2017.

L. Guzzella and A. Amstutz, CAE Tools for Quasi-Static Modeling and Optimization of Hybrid Powertrains, vol.48, pp.1762-1769, 1999.

F. Badin, Hybrid Vehicles, IFPEN. TECHNIP, 2013.

B. Subirana, M. Puig, and S. Sarma, Can small smart swappable battery EVs outperform gas powertrain economics?, IEEE Conf. Intell. Transp. Syst. Proceedings, ITSC, p.11, 2012.

A. Burke, Chapitre 39: Electro chemical capacitors, Linden's Handbook of Batteries, 2011.

A. Burke and H. Zhao, Applications of Supercapacitors in Electric and Hybrid Vehicles, IEEE 82nd Veh. Technol. Conf., no. April, pp.1-15, 2015.

M. Muratori, Thermal Characterization of Lithium-Ion Battery Cell, Politecnico Di Milano, 2009.

H. Maleki, Thermal Properties of Lithium-Ion Battery and Components, The Handbook of Lithium-Ion Battery Pack Design, vol.146, pp.65-89, 1999.

H. Sorger, The Tailored Engine & Powertrain for 48V, Comprehensive Solutions for Optimum Efficiency and Cost, vol.17, 2007.

R. Kochhan, S. Fuchs, B. Reuter, P. Burda, S. Matz et al.,

. Lienkamp, An Overview of Costs for Vehicle Components, Fuels and Greenhouse Gas Emissions, ResearchGate, pp.1-26, 2017.

M. Fries, Optimization of hybrid electric drive system components in long-haul vehicles for the evaluation of customer requirements, Proc. Int. Conf. Power Electron. Drive Syst, pp.1141-1146, 2012.

L. Goldie-scot, A behind the scenes take on lithium-ion battery prices, 2019.

.. A. Burke, Energy Storage with Batteries and Supercapacitors in vehicle applications, Univ. California-Davis Inst. Transp. Stud, 2017.

F. Van-der, S. Sluis, A. Yildiz, P. Brandsma, and M. Veltmans,

B. T. Kunze, N. R. Council, Cost, Effectiveness, and Deployment of Fuel Economy Technologies for Light-Duty Vehicles, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01796348

M. Bertoncello, A. Husain, and T. Möller, Setting the framework for car connectivity and user experience, 2018.

, 26, The V2X (Vehicle-to-Everything) Communications Ecosystem: 2019 -2030 -Opportunities, Challenges, Strategies & Forecasts, 2019.

, Reducing CO2 emissions from passenger cars and light commercial vehicles post-2020, Eur. Automob. Manuf. Assoc, 2016.

C. Barreto, A. M. Canuto, and I. Silva, A Machine Learning Approach Based on Automotive Engine Data Clustering A Machine Learning Approach Based on Automotive Engine Data Clustering for Driver Usage Profiling Classification, 2018.

L. Joud, Stratégie intelligente de gestion du système énergétique global d'un véhicule hybride, École doctorale Sciences pour l'ingénieur et microtechniques

, Belfort), 2018.

Q. Gong, S. Member, Y. Li, and Z. Peng, Trip-Based Optimal Power Management of Plug-in Hybrid Electric Vehicles, vol.57, pp.3393-3401, 2008.