This Frost & Sullivan analysis examines how the mobility market will evolve by the year 2050, influenced by the technological trends of the present day and technologies that might be developed in the future. This examination presents three different scenarios for the path that shared mobility may take and analyzes each of these scenarios in detail. The scope of the analysis is global.
The shared mobility industry is at a point where its future success depends on several factors that go beyond technology. It will have to adapt to new consumer behaviors, regulations that governments may introduce, and targets and benchmarks to be reached. While these are the main growth factors, economic viability and technological progress will determine the way mobility works and how it interacts with users and the urban environment. By 2050, new technological breakthroughs will transform the industry substantially.
This analysis considers all these factors to elaborate three possible scenarios, including each scenario’s user journey, stakeholder ecosystem, and a deep dive into various elements. Frost & Sullivan examines the factors driving and restraining growth in this space and analyzes the opportunities emerging from market developments for stakeholders and market players to leverage.
The Impact of the Top 3 Strategic Imperatives on the 2050 Vision of Urban Mobility
Transformative Megatrends
Why
- As a transformative technology, artificial intelligence (AI) will change how cities manage traffic and how stakeholders—municipal corporations, public transportation operators, and shared mobility operators—interact and operate.
Frost Perspective
- AI can analyze real-time and historical data to predict congestion and dynamically adjust traffic lights, reducing commute times and emissions.
- All text or voice-based assistants in vehicles and personal devices can use real-time traffic data and user preferences to recommend optimal routes and transportation options.
Disruptive Technologies
Why
- Metaverse technologies—persistent, 3D virtual environments accessible through virtual or augmented reality (VR/AR)—can be used to create virtual sandboxes for city planning.
Frost Perspective
- Metaverse technologies will help create virtual city twins. These simulations allow for testing infrastructure changes and optimizing layouts before real-world construction.
- Simulations can run in parallel to the real world and on real-world data for designers to test out new plans.
Innovative Business Models
Why
- A carbon credit system can encourage private individuals and public authorities to implement cleaner transportation choices.
- Carbon credits can create new business models that reduce or replace government subsidies.
Frost Perspective
- New business models will need to focus on individual credits where drivers of low-emission vehicles (electric vehicles [EVs], hybrids) can earn carbon credits for their reduced emissions.
- Carbon offset revenue from carbon credits may be used to invest in projects that promote equitable access to transportation.
The 2050 Vision of Urban Mobility
Growth Drivers
Driver |
|
|---|---|
Investments in AI for Shared Mobility |
|
Developing AI use cases for urban mobility will depend on R&D efforts focused specifically on developing AI models based on transportation data. This will drive investments into AI start-ups in this sector—fundraising in the current AI boom will expand as investors look for newer opportunities. | |
Autonomous Vehicles (AVs) |
|
As driverless technology matures and proves to be a safe, reliable, and cost-effective alternative to human drivers, it will transform many segments of the urban mobility market, including taxis, ridesharing, carpooling, and buses. This will spur a new phase of growth in urban mobility—the creation of new routes and business models that will ultimately shift urban mobility away from cars and toward shared mobility. | |
Battery Development |
|
The declining cost of electric batteries and battery materials and developments in battery technologies—such as solid-state batteries—will accelerate the electrification of urban mobility transportation. | |
The 2050 Vision of Urban Mobility
Growth Restraints
The 2050 Vision of Urban Mobility: Growth Restraints, Global
Restraint |
|---|
Data Privacy |
AI Regulation and Trust |
Cybersecurity Threats |
Why is it Increasingly Difficult to Grow?
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on the 2050 Vision of Urban Mobility
Growth Opportunities Fuel the Growth Pipeline Engine™
2050 Trend Forecasts
Key Trends Emerging for the City of the Future
Growth Drivers
Growth Restraints
Case Study—Singapore
Future Cities
Seamless City Scenario—Definition
Technology Benchmarking—Seamless City Scenario, 2024 and 2050
Infrastructure Benchmarking—Seamless City Scenario, 2024 and 2050
Consumer Behavior Benchmarking—Seamless City Scenario, 2024 and 2050
Regulations Benchmarking—Seamless City Scenario, 2024 and 2050
Sustainable City—Definition
Technology Benchmarking—Sustainable City Scenario, 2024 and 2050
Infrastructure Benchmarking—Sustainable City Scenario, 2024 and 2050
Consumer Behavior Benchmarking—Sustainable City Scenario, 2024 and 2050
Regulations Benchmarking—Sustainable City Scenario, 2024 and 2050
Tech-driven City—Definition
Technology Benchmarking—Tech-driven City Scenario, 2024 and 2050
Infrastructure Benchmarking—Tech-driven City Scenario, 2024 and 2050
Consumer Behavior Benchmarking—Tech-driven City Scenario, 2024 and 2050
Regulations Benchmarking—Tech-driven City Scenario, 2024 and 2050
Seamless City—Stakeholder Ecosystem
Seamless City—Stakeholder Ecosystem (continued)
Seamless City—Technology
Seamless City—Consumer Behavior
Seamless City—Infrastructure
Seamless City—Regulations
Sustainable City—Stakeholder Ecosystem
Sustainable City—Stakeholder Ecosystem (continued)
Sustainable City—Technology
Sustainable City—Consumer Behavior
Sustainable City—Infrastructure
Sustainable City—Regulations
Tech-driven City—Stakeholder Ecosystem
Tech-driven City—Stakeholder Ecosystem (continued)
Tech-driven City—Technology
Tech-driven City—Consumer Behavior
Tech-driven City—Infrastructure
Tech-driven City—Regulations
Growth Opportunity 1: Artificial Intelligence for Mobility
Growth Opportunity 1: Artificial Intelligence for Mobility (continued)
Growth Opportunity 2: Carbon Credits
Growth Opportunity 2: Carbon Credits (continued)
Technology Pathway
Conclusion
List of Exhibits
Legal Disclaimer
List of Figures- The 2050 Vision of Urban Mobility: Growth Drivers, Global, 2024–2050
- The 2050 Vision of Urban Mobility: Growth Restraints, Global, 2024–2050
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| Deliverable Type | Market Research |
|---|---|
| Author | Avishar Dutta |
| Industries | Automotive |
| No Index | No |
| Is Prebook | No |
| Keyword 1 | 2050 Vision of Urban Mobility |
| Keyword 2 | Urban Transport Growth |
| Keyword 3 | Urban Mobility 2050 Market |
| List of Charts and Figures | The 2050 Vision of Urban Mobility: Growth Drivers, Global, 2024–2050~ The 2050 Vision of Urban Mobility: Growth Restraints, Global, 2024–2050~ |
| Podcast | No |
| WIP Number | PFL8-01-00-00-00 |
The 2050 Vision of Urban Mobility
Technological Trends and Advancements and How They Will Transform Transportation by the Year 2050
06-Sep-2024
Global
Market Research