Bibliographic citations
Coyllo, C., Rodríguez, F., Pinto, C., Sotomayor, R. (2024). Modelo prolab: servicio tecnológico de monitoreo, supervisión y asistencia de condiciones de manejo para usuarios de vehículos particulares – Cleverdriver [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/27270
Coyllo, C., Rodríguez, F., Pinto, C., Sotomayor, R. Modelo prolab: servicio tecnológico de monitoreo, supervisión y asistencia de condiciones de manejo para usuarios de vehículos particulares – Cleverdriver []. PE: Pontificia Universidad Católica del Perú; 2024. http://hdl.handle.net/20.500.12404/27270
@mastersthesis{renati/2014980,
title = "Modelo prolab: servicio tecnológico de monitoreo, supervisión y asistencia de condiciones de manejo para usuarios de vehículos particulares – Cleverdriver",
author = "Sotomayor Gago, Rubén Darío",
publisher = "Pontificia Universidad Católica del Perú",
year = "2024"
}
Traffic accidents in Peru are significant social, economic, and public health challenges. This study introduces a Sensor Integrated Driver Assistance Platform tailored for Peruvian market. Through comprehensive analysis, including interviews, focus groups, market insights, and technical specifications, it addresses existing deficiencies and user concerns with a market-oriented solution. The proposed solution aims to enhance driving safety by offering a preventive vehicle monitoring and control service. The potential to reduce accident probabilities by up to 40%, as noted by the 2018 Safe Traffic Foundation, becomes a focal point. Utilizing advanced devices, it proactively alerts drivers to potential hazards, reducing the risk of accidents, injuries, and property damage, ultimately bolstering road safety and driver confidence. From a technical financial perspective, the project demonstrates robust economic viability with an impressive Net Present Value (NPV) of $1,108,773.92, a noteworthy Internal Rate of Return (IRR) at 44.77%, and a Profitability Index (PI) of 1.55. In the marketing realm, this innovation strategically adapts to Lima's dynamic market, exceeding the expectations of urban populations, particularly those in socio-economic strata A, B, and C. This initiative aligns seamlessly with Sustainable Development Goal 3, which aims to ensure a healthy life and well-being for all age groups. A comprehensive social impact analysis reveals a Social NPV of $959,162.36, signifying the positive difference between anticipated social benefits and associated project costs. In summary, the Innovative Incremental Implementation of Sensor Integrated Driver Assistance Platform represents a significant step in addressing traffic accidents in Lima. It combines cutting-edge technology, strong financial viability, and market adaptation, serving as a compelling case study for incremental innovation with profound social significance.
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