Abstract: The rapid increase in urbanization and environmental concerns has led to a growing demand for sustainable transportation solutions. Electric vehicles (EVs) have emerged as a promising alternative, with their zero-emission nature and efficient energy utilization. This project aims to design and develop an electric bike (MINI R) with the futuristic features to address the challenges of urban mobility while promoting eco-friendly transportation. The E-Bike project involves the integration of advanced technologies like ultrasonic mapping and it also includes electric propulsion systems, lightweight materials, and internet of things (IOT)features. The primary objective is to create a compact, energy-efficient, affordable EBike and add more features in the bike other than bikes present in the market that offers convenience and comfort to the user. The research focuses on optimizing the E-Bike performance in terms of range, speed, and charging time, while ensuring safety and reliability. The project follows a systematic approach, beginning with a comprehensive review of existing electric bikes designs and related technologies. This analysis serves as the basis for selecting the most suitable components and subsystems for the E-Bike. Prototyping phase is also conducted to evaluate the design's functionality, durability, and user experience. Furthermore, about the technology, human-computer interaction plays a significant role in the E-Bike design. The project explores the development of a user-friendly interface that provides real-time information about battery status, speed, distance travelled, and navigation assistance. And one more feature is about the automatic head light intensity. This integration enhances the overall user experience and encourages the adoption of E-Bikes among diverse user groups. The successful implementation of the EVB project will contribute to a cleaner and greener urban transport ecosystem, reducing dependence on fossil fuels and minimizing air pollution.

Keywords: Electric bike, ultrasonic mapping, sustainable transportation, urban mobility, electric propulsion, lightweight materials, intelligent control, energy efficiency, user experience, human-computer interaction.

Cite:

Akash Polkar, Kaustubh Bhadade, Vipin B. Gawande, "Design & Development of Micro-Mobility E-Bike", IARJSET International Advanced Research Journal in Science, Engineering and Technology, vol. 10, no. 11, pp. 143-155, 2023, Crossref https://doi.org/10.17148/IARJSET.2023.101123.

| DOI: 10.17148/IARJSET.2023.101123