According to the World Health Organization (WHO), outdoor air pollution is accountable for at least 4.2 million premature deaths per year, and possibly as high as 8.8 million per year. Air pollution has not only increased acute threats to public health, but also increased the economic burden establishing it as a leading environmental risk factor for health globally. Worldwide, more than 80% of urban residents are exposed to outdoor air pollution levels that exceed the WHO limits. As this outdoor polluted air undergoes exchange with the air inside vehicle cabins, vehicle occupants may suffer elevated exposure to ambient/outdoor air pollutants of varying extents during this time. Additionally, personal air pollution exposure within vehicles varies not only under different ventilation settings, but also during time of the day and road type. The project aims to investigate how the outdoor air quality is a determinable factor of health and personal air pollution exposure in passenger cars. Knowing that in Europe 56% of the population use their cars as the main transportation option, it is essential to understand controllable exposure reduction mechanisms for better management of occupants’ exposure to air pollutants. Specifically the research objectives of the project are to determine the absolute exposure and inhalation dose of vehicle occupants to nitric oxide (NO), nitrogen dioxide (NO2), PM10, PM2.5 PM1 (particulate matter with aerodynamic diameter ≤ 10, 2.5 and 1 µm, respectively), UFP (ultrafine particles with aerodynamic diameter < 300 nm), LSDA (lung surface deposited area of the aerosols), carbon dioxide (CO2) and volatile organic compounds (VOC) relatively to the one directly outside vehicles under different ventilations settings, cabin filters of vehicles and roads. The project’s second research objective is to apply two targeted interventions to investigate the air pollution exposure reduction potential of different cabin air filters and indoor air purifiers. MMAAP-VEX third research objective is to investigate the effect of physical and chemical processes of pollutants to air pollution exposure within-vehicles and how they change with different ventilation and driving conditions and outside - inside sources with experimental and numerical modelling approaches. The final research objective is to develop novel modelling techniques that can estimate personal exposure inside cars depending upon the roadside air pollution levels, ventilation preference and route choice. MMAP-VEX research is critical for effective indoor air quality management policies, alternative, greener commuting strategies and control of daily exposure to air pollution.