e-scooter app development How to Build a Successful E-Scooter App: Features, Costs, and Market Trends

Global warming has compelled the world to adopt eco-friendly vehicles and transportation. E-scooter App is one such micro-mobility solution that offers an environment-friendly alternative. However, a good E-Scooter app is not a walk in the park. The developers need to be very specific about features and development methodologies. 

In this blog, we will discuss the best procedure for developing an E-Scooter app, the essential features required for the application’s success, and the comprehensive stages of app development.  

Let’s begin with a better understanding of E-Scooter App Development. 

Spearheading Drives for the Growth of E-Scooters

Necessity is the mother of all inventions. The E-Scooter industry is no different. A flood of environmental concerns and socio-economic thrust propelled the growth of this industry. 

The reasons are worthy to be discovered. Let’s find out.

Micro-mobility Penetration

The modern infrastructure supports E-Scooters to cater to mass locomotion. Environmental issues, city congestion, budget sustainability, cost-effectiveness, ecological relief, non-renewable energy limitations, smart EV charging solutions, and high-speed urbanization are some of the highlighted reasons. 

Constitutional Support

Government policies are continuously falling in the favour of the E-Scooter industry. Favorable subsidies, tax benefits, policy framing, electric vehicle charging management systems, enforced carbon-emission laws, and eco-friendly mandates cultivate a fertile ground for E-Scooter apps. 

Market Expansion

Global leaders like Bird, Spin, and Lime are scaling high revenue with limitless business prospects. This eye-dilating profit-making mechanism is alluring other investors to reassess their investment planning. 

Smart City Integration

Smart city initiatives like IoT products, AI devices, virtual assistance, pre-booking digital parking, docking hubs, and charging stations have concrete government backing. This prosperity is making the growth more concrete for an E-Scooter app. 

Carbon Reduction

There are reports which claim that E-Scooter adoption reduces the carbon footprint by 63%. Such colossal greenhouse takedown will elevate the E-Scooter apps among rational masses. 

First-&-Last-Mile Connectivity

FLM connectivity of E-Scooter applications is comparatively more convenient than other transports. The growing number of electric vehicles in public transport is adding up to the virtue. Some states promote a volume of E-Scooter integration across public networks for better sustainability. 

Battery Driven

The recent development of lithium-ion batteries is improving the scooter range and reducing charging time. This aids both the purpose and convenience of an E-Scooter app. 

Subscription-Based Models

For frequent users, E-Scooters are coming up with subscription models that are economical, extra privileged, and filled with rewards and gift pointers. 

Growing Investments / Partnerships

Venture capital firms, TATA, Ford, Volkswagen, BMW, and other large corporations are investing in e-scooter startups, accelerating industry growth.

Demand for Safety / Regulation Compliance

Users and governments are pushing for better safety measures, such as mandatory helmets and speed limits.

What is an E-Scooter App? Know the Essential Features for Electric Scooter App Development

An E-Scooter App is very similar to scooter rental applications which allows users to book the vehicle from their current location. The app allows you to unlock the vehicles using a QR code, use it, and then pay the amount as per the calculated ride time. 

This is an automated service where the app can be categorized under IoT or on-demand solutions. 

Now, know the basic and advanced features that must be available in the E-Scooter application. 

Basic Features

These are ideally user-centric features that add up to the feasibility of your customers. 

A few significant among them are: 

Profile Management

Profile Manager helps you sign up with your phone number, email address, or social media account. Other than this, it also enables the application to capture personal details like name, email ID, residential address, location, ride preference, etc. 

GPS & Map Integration

GPS and map integration allows the users to check the availability of all nearby scooters. Here you can also get to see the scooters with features, color, pricing, proximity, and battery availability. 

Smart Lock / QR Code Scanner

QR scanner or smart lock enable customers to book the vehicles instantly. Here you also get an NFC-based lock/unlock system for a quick tap-and-go experience. 

Booking & Ride Scheduling

Quick ride scheduling and on-the-spot booking are other essential features of a successful E-Scooter app. Pre-booking options and spot-booking options are very beneficial for scheduling.

Vehicles during peak hours. 

Multiple Payment Gateways

More than one payment method broadens the compatibility of the users. Payment gateways like debit cards, credit cards, UPI, PayPal, Apple Pay, and in-house wallets boost the convenience of the customers. 

Advanced Features

So, after discussing the basic features that most of the users will require, it’s time to note down the advanced traits and attributes. 

Some of them are: 

Rewards & Points

Regular rewards and points will keep the customers engaged with the application. Frequent loyalty programs, fun challenges & leaderboards keep the users stuck to the application. 

Social Sharing 

Sharing the app on trending social networks like Instagram, Twitter, LinkedIn, and Twitter would accumulate new customers. It also encourages referral programs, bonus options, and an indirect feedback mechanism to current consumers. 

Offline Connectivity

Offline connectivity in e-scooters offers you unstoppable operation even in low-network or no-network areas. Riders can unlock, use scooters, navigate, and end trips without internet dependency. This is truly a phenomenal user experience, especially for those who are living in remote & desolate areas. This feature is also vital in areas like tunnels, bridges, underground parking, flyovers, and remote locations. It fosters reliability, reduces connectivity issues, and ensures uninterrupted accessibility to the services. 

AI Route Optimization

AI-based route optimization in an E-scooter app improves navigation by evaluating real-time traffic conditions, road safety, shortcut routes, and other user compatibility. It not only suggests the quickest route to users, but also ensures the least battery consumption, cost efficiency, and smooth urban navigation. 

Report & Analytics

E-scooter apps leverage reports and analytics to track user behavior, ride patterns, revenue, and fleet performance. Real-time data insights help optimize scooter deployment, predict demand, and enhance maintenance strategies. Advanced analytics improve decision-making, boost profitability, and ensure efficient operations, making e-scooter services smarter and more sustainable.

Must Read- 10 Best E-Scooter Apps – Features and Cost

E-Scooter App: User Panel & Admin Panel

Now, let’s analyse the high-end features of user-panel & admin panel that must be available in an E-Scooter app development project. 

User Panel	Admin Panel
Profile Creation: Registration via ph.no, email ID, social media account.	Block, edit, and send messages to users.
Map: Integrated map for real-time scooter availability.	Permission management for multiple roles & functionalities.
Account Manager: Profile management, payment alteration, preference management.	Manage territories, cities, and location limits.
Status Check: Check scooter status like battery level, pricing, availability.	Add new vehicles, edit current details, view ride history.
Safety Features: Speed warning, emergency dial, helmet warning.	Monitor location and stop theft with GPS tracking.
Book Ride: Instantly get a scooter with QR scan and unlocking features.	Analyze and evaluate past ride history.
Notification Alert: Safety reminders, push notifications, discount updates ,ride updates.	Ticket raising, complaint handling, resolve technical issues & refund issues
Payment Gateways: Debit card, Credit cards, UPI, App Wallet, & API-hosted, payment gateways.	Analyse user engagement, and monitor ride statistics.

Technology Stack for e-Scooter Mobile App Development

A robust and reliable technology boutique would help you build apps with seamless performance, high-end security, hyper-focused objectives, and limitless possibilities. 

• Frontend: Flutter & React Native for Cross-platform app development
• Backend: Ruby on Rails, Node.js, Django
• Database: MongoDB, PostgreSQL, Firebase
• Mapping & Navigation: Mapbox, Google Maps API
• Cloud Infrastructure: Azure, AWS, Google Cloud
• IoT Connectivity: Bluetooth, 5G, MQTT
• Machine Learning & AI: IBM Watson, TensorFlow, OpenAI
• Security: Firebase Authentication, OAuth, JWT

Stages of E-Scooter App Development: A Comprehensive Guideline

The development project of an E-Scooter app can be bifurcated into 7 fundamental stages. 

They are: Market research, requirement analysis, app consultation, front-end development, backend development, quality assurance & testing, launch & market, post-delivery 

Stage 1: Market Research / Requirement Analysis

This is the very first step when you conduct in-depth market research and analyze the successful competitors in the arena. 

Market research is essential for:

• Identifying potential audiences
• Align feature list
• Streamline development budget
• Data-driven decision making
• High-End innovation

Stage 2: Define Revenue Blueprint

In stage 2, you have to structure the revenue blueprint. 

The revenue models can be:

• Pay-Per-Ride
• Monthly/Annual Subscription
• Local partnership
• Demand-based pricing
• Tiered Pricing
• Group ride packages
• B2B partnership
• Event Sponsorship

Stage 3: App Consultation 

Now, as per the market analysis and revenue streams, we will determine the process of:

• Wireframe designing
• User-flow designing
• Infrastructure planning
• Development roadmap
• MPV planning & prototyping
• Legal & compliance regulation

Stage 4: Front-End Development 

• Single-page application: Here we use Angular JS, React.js, and Veu.js to create applications with high-end user experience, comprehensive admin dashboard, coherent user portal, improved page-load speed, and least server requests. 
• Native E-Scooter application: Here we use Kotlin (Android) and Swift (iOS) to build applications with scalable user volume, better performance, and seamless hardware integration. 
• Cross-platform E-Scooter Application: You can use frameworks like Flutter and React Native to build budget-friendly and intuitive cross-platform applications.
• Progressive Web Application (PWA): To build app-oriented & offline-functional progressive web applications, you can service workers to cache content and improve page speed. 

Stage 5: Back-End Development / API Integration

• Monolithic Architecture: This is a single-frame architecture where the backed components like databases and APIs are bundled into boutique, large-scale, & less-scalable solutions. 
• Microservice Infrastructure: Here the backend components are broken down into independent elements for high scalability and improved flexibility. 
• Function-As-A-Service (FAAS): Here cloud services like Firebase Functions and AWS Lambda are used to craft automated scaling and reduce server management budget. 

Stage 6: Quality Assurance / Testing

• Unit Testing: This is to ensure the functionality of ride tracking, payment gateways, and QR scanners. 
• Security Testing: This will ensure the digital security of the transaction to get rid of any cyber threats. 
• Performance Testing: This test will ensure the scalability of the application to handle large volume traffic. 
• User Acceptance Testing: Also known as Beta testing, UAT is conducted to accumulate public feedback before application launching. 
• Iteration: This test is made to identify and fix bugs. 

Stage 7: Launch & Market

• App Store Launch: Launch the app in the Google Play Store, Apple Store, and Windows Store. 
• Soft Launch: This involves partially launching the application for a small group of audiences. 
• Social Media Marketing: Collaborate with YouTube & Instagram influencers, technology bloggers, high-following pages, and technology bloggers to create buzz in the market. 
• Referral Programme: Enroll in special offers, discounted packages, free rides, coupon points, third-party discounts, first-time discounts, Book 2 get 1 free, and more similar offers. 

Stage 8: After Delivery Maintenance

• Security Maintenance: Fix regular loop-holes to keep the app completely functional
• Added Features: Add recent features like smart parking, pre-scheduling, speed limit warning, safety alerts, auditory distraction control, and social sharing.  
• Scalability Alteration: Area expansion, new city integration, vehicle-number expansion, multiple languages support, new payment gateway integration, and added vehicle category are some of the scalable app benefits. 
• Data Optimization: Use AI-based insights to reset the price chart, notification frequency, and marketing campaigns. 

Also Read: Integrating IoT with Dockless eScooter App Development

Budget Estimation for Building an E-Scooter App

The budget breakdown of building an E-Scooter app depends on the feature integration, application complexity, development schedules, allocated resources, and technology stack. 

MVP (Minimum Viable Product)

This is the basic E-Scooter app that will cost around $15,000-$25,000

End-to-End Featured App

A full-fledged and feature-rich application will cost you $50,000 – $150,000. The price will fluctuate as per the added layouts and app complexity. 

Post-Delivery Maintenance & Feature-Updates

Ideally, a decent E-Scooter app will bring you 15-20% of development cost per year. Depending on the application’s scalability and feature addition, the price may vary. 

Also Read: How to Build an App Like PlugShare

Summing Up: Choose the Right e Scooter App Development Company

Now, you have complete knowledge of the electric scooter booking app, the development methodologies, required technologies, development stages, and budget breakdown for building an E-Scooter app. 

However, you need to hire a feasible service provider for the holistic and successful development of such complex and intuitive applications. 

TechGropse is a preferred e scooter app developer who is known for crafting top-rated, quality-first, and compliance-assured apps. With skilled single-point objective developers, and technology experts like AI engineers, Machine Learning professionals, and research analysts, TechGropse is fully capable of offering you a comprehensive and user-friendly E-Scooter application.  

Hope this blog was informative to you and has offered you all the necessary insights you were looking for. 

We wish you all the best for your E-Scooter app development project in the near future. 

Happy Reading!

FAQ

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