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Next-Generation Mobility Markets: Global and Domestic Trends, Segment Insights and Future Outlook

General Report April 30, 2025
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  • As of April 30, 2025, the mobility industry stands at a pivotal juncture marked by transformative trends and significant growth potential. The comprehensive analysis reveals a global market poised for remarkable expansion, projected to surge from USD 263 billion in 2025 to approximately USD 6.59 trillion by 2035, reflecting a staggering compound annual growth rate (CAGR) of 38%. This trajectory is fueled by a convergence of urbanization pressures, the integration of sustainable transportation solutions, and technological advancements, particularly in Mobility as a Service (MaaS). The interconnection of various transit modes within a unified service model significantly enhances user experience, promoting adaptable and convenient travel options for urban populations.

  • Regional dynamics further underscore the varying growth patterns across the Americas, Europe, and the Asia-Pacific region. In North America, substantial advancements in smart city initiatives are establishing a robust foundation for the MaaS sector, while Europe capitalizes on regulatory frameworks supporting sustainable practices. The Asia-Pacific region, driven by rapid urbanization and increasing technology adoption, is emerging as a powerhouse in next-gen mobility solutions. The demand for efficient, integrated transportation frameworks is acutely informed by overarching trends in urbanization, digitalization, and sustainability.

  • Furthermore, the report delves into the evolving landscape of shared and smart mobility trends, illustrating a shift towards sustainable travel choices among consumers. As of mid-2025, the shared mobility market is experiencing solid growth, driven by diverse service models ranging from ride-hailing to car-sharing and transit integration. Simultaneously, technological enablers such as AI and IoT are revolutionizing the mobility ecosystem, enhancing operational efficiencies and delivering improved customer experiences.

  • Electric public transport and logistics innovations are actively reshaping industry standards, with significant investments aimed at electrification and advancing fleet management technologies. The establishment of clear regulatory guidelines and infrastructure development lays the groundwork for a more sustainable future in urban mobility.

Global Market Overview

  • Global market size and growth projections to 2035

  • The global market for next-generation mobility is poised for substantial growth, with projections indicating a significant expansion from USD 263 billion in 2025 to approximately USD 6.59 trillion by 2035, reflecting a compound annual growth rate (CAGR) of 38%. This remarkable growth is attributed to increasing urbanization, the adoption of sustainable transport solutions, and advancements in mobility technologies, such as Mobility as a Service (MaaS). The integration of multiple transportation options into a single service model enhances user experience, making travel more convenient and flexible.

  • By 2035, North America is expected to maintain a leading position in the MaaS market due to the prevalence of smart city initiatives and extensive consumer adoption of integrated transport solutions. Meanwhile, Europe is anticipated to experience rapid growth driven by regulatory support for sustainable practices, while the Asia-Pacific region will capitalize on rising smartphone penetration and urbanization.

  • Regional dynamics: APAC, Americas, Europe

  • Regional dynamics of the mobility market illustrate distinct growth patterns across various geographies. The Americas, particularly the United States and Canada, are spearheading the MaaS sector, supported by high levels of urban congestion, investments in smart transportation solutions, and proactive government policies promoting electric vehicle (EV) proliferation.

  • In Europe, countries like Germany, France, and the UK are adopting MaaS as part of broader initiatives to reduce carbon emissions and enhance public transportation efficiency. The European Union’s emphasis on regulatory measures is encouraging the implementation of multimodal transport systems, facilitating smoother travel experiences.

  • The Asia-Pacific region, led by nations like China, Japan, and India, is witnessing explosive growth in mobility solutions driven by rapid urbanization, increasing income levels, and consumer demand for innovative transport options. Government investments in smart infrastructure and technology further facilitate this expansion.

  • Key demand drivers: urbanization, digitalization, sustainability

  • The overarching drivers of the mobility market are urbanization, digitalization, and sustainability. Urban populations are forecasted to surge, intensifying pressure on existing transportation infrastructures and creating demand for efficient, integrated mobility solutions. This scenario is accelerating the adoption of MaaS and shared mobility concepts, fundamentally transforming how citizens traverse urban centers.

  • Digital transformation plays a crucial role in facilitating seamless travel experiences through enhanced connectivity and real-time data analytics. These technologies enable the integration of multiple transport modes, making urban mobility more accessible and efficient.

  • Sustainability initiatives are also reshaping demand within the mobility sector, with increasing focus on reducing greenhouse gas emissions and enhancing energy efficiency. Governments worldwide are implementing regulations and incentives to promote EV usage and shared transport solutions, aligning economic growth with environmental stewardship.

  • Competitive landscape and major players

  • The competitive landscape of next-generation mobility is marked by a variety of players ranging from traditional transport operators to tech-driven startups. Major companies within the global MaaS market include Uber Technologies Inc., Lyft, Didi Chuxing, and local platforms such as Moovit and Citymapper, which are innovating by integrating different transport modalities within their services.

  • These companies are leveraging advancements in AI, IoT, and data analytics to streamline operations, enhance user interface, and provide real-time updates, thereby improving customer satisfaction levels. Partnerships between governmental bodies and private sectors are also catalyzing their growth, allowing for the deployment of more integrated and efficient transportation solutions.

  • Comparing domestic vs international market trajectories

  • The trajectories for domestic and international mobility markets exhibit significant variances shaped by local regulations, consumer preferences, and infrastructural readiness. Domestic markets, particularly within North America and Europe, are characterized by strong regulatory frameworks that promote sustainable transport innovations, while international markets are often burgeoning with opportunities, particularly in developing regions where infrastructure expansion can be leapfrogged by advanced technology.

  • Internationally, regions like Asia-Pacific are catching up rapidly by adopting innovative solutions such as electric and shared mobility platforms to address unique challenges posed by urbanization. These markets are expected to witness faster growth rates as technology adoption increases and governmental support aligns with infrastructural investments.

Mobility as a Service (MaaS) Landscape

  • Defining MaaS models and service offerings

  • Mobility as a Service (MaaS) encompasses a variety of models and service offerings that aim to provide a unified travel experience through digital platforms. This concept integrates multiple forms of transportation services, such as ride-hailing, public transit, bike-sharing, and car rental, into a single accessible digital interface. The objective is to enhance user convenience and minimize reliance on private vehicles, thus promoting sustainable urban mobility. As the demand for integrated transportation solutions increases, technologies enabling MaaS are rapidly evolving to include real-time data analytics, mobile app interfaces, and advanced payment systems.

  • Market segmentation by service type: ride-hailing, car-sharing, transit integration

  • The MaaS market is diversified across various service types, including ride-hailing, car-sharing, and public transit integration. As of April 30, 2025, the growth of ride-hailing services is substantial, driven by consumer preference for flexibility and convenience. Car-sharing services, which allow users to rent vehicles for short periods, have seen significant uptake, fostering a shift away from traditional vehicle ownership. Transit integration efforts are crucial as cities work to unify their public transportation systems with private mobility services, creating a seamless travel experience. This integration is critical for cities like Helsinki, which has set a benchmark with its Whim app, facilitating multimodal trip planning and payments.

  • Technology enablers: platforms, payment systems, connectivity

  • The success of MaaS relies heavily on several technological enablers, including robust platforms, advanced payment systems, and ubiquitous connectivity. These platforms not only provide users with the ability to plan and book trips across multiple modes of transport but also utilize AI and IoT technologies to enhance operational efficiency. Streamlined payment systems, integrating various payment methods into a single seamless transaction process, are also essential for user acceptance and engagement. Continuous advancements in connectivity, such as the rollout of 5G networks, further empower MaaS frameworks by enabling real-time data sharing to optimize service delivery.

  • Adoption trends and customer preferences

  • Adoption trends in the Mobility as a Service market illustrate a clear shift towards convenience and sustainability among consumers. Recent data indicates that users are increasingly opting for services that offer flexible travel options and integrated mobility solutions. The emphasis on reducing carbon footprints has led to a growing preference for electric and shared mobility solutions. For instance, the integration of biometrics and digital identification methods into MaaS platforms is setting new standards for personalized and efficient customer experiences. As of now, consumers are seeking seamless and transparent interactions with mobility providers, often favoring service models that reduce their environmental impact.

  • Forecasts for 2025-2035 and revenue projections

  • Market forecasts for the Mobility as a Service sector signal explosive growth in revenue from approximately USD 263 billion in 2025 to a projected USD 6.59 trillion by 2035, representing a compound annual growth rate (CAGR) of about 38%. This growth is largely attributed to increasing smartphone penetration, evolving consumer behaviors favoring shared mobility solutions, and significant investments in smart infrastructure by both public and private sectors. The strategic partnerships between transport operators and tech companies are expected to create an expansive ecosystem that enhances operational synergies, thereby accelerating the adoption of MaaS across global markets.

Shared and Smart Mobility Trends

  • Overview of shared mobility market by service and business model

  • The shared mobility market has seen significant growth, rising from USD 198.23 billion in 2024 to an estimated USD 217.80 billion in 2025, with projections indicating a compound annual growth rate (CAGR) of 10.24% until 2030. This growth has been propelled by innovative service offerings that extend beyond traditional taxi and car-sharing models to include adaptive micro-transit and on-demand ride-sharing platforms. Key players in the sector have embraced technology to deliver customized services that meet the evolving needs of urban populations seeking more flexible, environmentally-friendly, and convenient transport options.

  • Smart mobility technologies: IoT, AI, data analytics

  • Smart mobility is increasingly defined by its integration of advanced technologies, particularly the Internet of Things (IoT), artificial intelligence (AI), and data analytics. These innovations streamline urban transportation by enhancing the efficiency, safety, and reliability of mobility services. IoT devices facilitate real-time data flow between vehicles and city infrastructure, enabling smarter traffic management and improved transit coordination. AI algorithms optimize routes and manage shared vehicle fleets, significantly improving traffic flows and reducing congestion in densely populated areas.

  • Growth drivers: cost efficiency, environmental goals, policy support

  • The shared and smart mobility landscape is fueled by several key drivers: the need for cost-efficient transport solutions, growing environmental awareness, and strong policy support from governments. Urban centers face mounting pressure to enhance sustainability; hence, mobility providers are increasingly advocating for solutions that reduce carbon footprints through electrification and integrated public transport links. Additionally, government incentives to lower emissions are prompting further investment in smart mobility technologies, aligning with global sustainability objectives.

  • Recent innovations and pilot programs

  • Innovation in shared and smart mobility continues to flourish, with various pilot programs emerging to test cutting-edge technologies. For instance, many cities globally are deploying smart-card systems and mobile apps that provide seamless multimodal travel experiences. Furthermore, new adaptive ride-sharing platforms are taking consumer preferences into account, allowing users to blend different transport modes flexibly. Pilot programs focused on electric vehicles and IoT-enhanced public transit systems are being implemented to assess their effectiveness in real-world settings.

  • Projected CAGR and market value by 2034

  • Market projections indicate that the shared mobility sector is poised for robust expansion, with estimates suggesting it will reach a market value of approximately USD 356 billion by 2030 and potentially over USD 419 billion by 2034 in the broader context of smart mobility. This growth will be underpinned by a CAGR of around 24.8% in smart mobility technologies, highlighting the increasing importance of electrification, connected infrastructure, and digitally-enabled services as primary components of the transportation ecosystem.

Urban Air Mobility and Air Taxi Development

  • Maturation of eVTOL technology

  • The maturation of electric vertical takeoff and landing (eVTOL) technology is crucial for the development of urban air mobility (UAM). With advancements in battery technology, aerodynamics, and propulsion systems, eVTOLs promise to provide a safe, efficient, and sustainable mode of transportation in urban environments. These aircraft have been engineered to produce lower noise levels and require less space than traditional helicopters, making them suitable for dense urban settings. As of April 30, 2025, several companies are progressing through the prototyping phase, with multiple designs tested to determine optimal configurations for urban operation.

  • Status of pilot programmes and test flights scheduled for 2025

  • Pilot programs are set to commence in various urban centers by the end of 2025, marking a significant milestone for air taxi operations. These programs will serve to integrate eVTOLs into existing transport networks while testing infrastructure like vertiports, takeoff and landing zones. Cities that are likely candidates for these pilot programs include San Francisco, Los Angeles, and Dallas, where the demand for innovative transportation solutions is high. The insights generated from these initiatives are expected to inform future regulatory frameworks and operational standards, critically shaping the commercial viability of air taxis.

  • Regulatory framework and certification hurdles

  • The development of a robust regulatory framework remains one of the most significant challenges facing the UAM sector. As of April 30, 2025, the Federal Aviation Administration (FAA) is working towards establishing safety protocols and certification criteria for eVTOL aircraft. This process is anticipated to take several years, with initial certifications expected between 2027 and 2028. Widespread acceptance of air taxi operations hinges upon effective regulatory frameworks that ensure safety, efficiency, and public trust. Preparatory work includes drafting regulations that account for air traffic management and the unique operational characteristics of eVTOLs.

  • Infrastructure needs: vertiports, air-traffic management

  • The successful implementation of UAM will require significant investment in infrastructure, particularly the establishment of vertiports, which are key to facilitating takeoff and landing for air taxis. As of now, planning efforts are underway in various cities, but actual construction must begin soon to support the anticipated pilot programs. Additionally, advanced air traffic management systems will be essential to ensure the safe integration of eVTOLs with existing air traffic. Collaboration among stakeholders, including urban planners, aviation authorities, and private firms, will be pivotal in designing and deploying this new infrastructure seamlessly into urban landscapes.

  • Commercial launch timelines and safety considerations

  • Commercial operations for air taxis are projected to start in 2028, following successful pilot programs and the establishment of regulatory approvals. In the years leading up to 2028, extensive testing and public engagement will be necessary to build trust and ensure safety protocols are met. Safety considerations include not only the design of eVTOLs themselves but also the operational environment—ensuring vertiports are safe and that emergency protocols are in place. The success of air taxis will depend heavily on public perception, necessitating transparent communication about safety measures and operational standards from both regulatory bodies and service providers.

Electrification of Public Transport and Logistics Innovations

  • Market outlook for electric public transport systems

  • As of April 2025, the global electric public transport system market is positioned for significant growth, projected to reach a valuation of approximately USD 23.7 billion. This expansion reflects a compound annual growth rate (CAGR) of 14.9% anticipated from 2025 to 2034. Driving factors include escalating urbanization rates, stringent environmental regulations, and a worldwide shift toward sustainable mobility solutions. Various governments and municipalities are making substantial investments in electric buses, trams, and metro systems to lower carbon emissions and enhance energy efficiency, underscoring the role of electric public transport as a linchpin in the transition to smart city infrastructure. These systems are increasingly integrating zero-emission vehicles, advanced real-time tracking technologies, and intelligent route management systems to bolster operational efficiency and maximize ridership satisfaction.

  • Role of alternative fuel vehicles in urban growth

  • In the context of rapidly urbanizing cities, alternative fuel vehicles, particularly electric buses, are essential for promoting urban growth while combating the adverse effects of climate change. For example, cities like Cairo and Dakar are at the forefront of implementing electric bus rapid transit systems (BRT). In Dakar, the introduction of an all-electric BRT has significantly improved public transport access, enabling over 320, 000 daily passengers and markedly reducing reliance on diesel buses. This transition not only stimulates economic activity by ensuring job access but also promotes better public health outcomes by addressing air quality issues. The alternative fuel vehicles sector is thus pivotal in enabling municipalities to meet burgeoning urban demand sustainably.

  • Technological advances in dispatch and fleet management

  • Technologies such as AI-powered dispatch software are revolutionizing logistics and fleet management within the public transport sector. Recent advancements enable more efficient operations by automating key processes, such as load assignment and real-time vehicle tracking. A comprehensive digital platform connects transport operators with real-time insights into fleet performance and vehicle health, reducing operational inefficiencies and enhancing service delivery. Features like digital inspections and electronic bills of lading further streamline management, facilitating error reduction and improving communication among all stakeholders involved in vehicle transportation.

  • Sustainability targets and regulatory incentives

  • Governments worldwide are instituting increasingly ambitious sustainability targets, necessitating a substantial shift towards electrified transport solutions. Regulatory incentives play a crucial role in encouraging electric vehicle adoption among public transportation providers. These incentives can include subsidies for purchasing electric buses, grants for infrastructure improvement, and increased funding for research into sustainable transport technologies. As an example, recent investments are supporting the establishment of robust charging infrastructure necessary to facilitate the widespread deployment of electric buses, simultaneously addressing the challenges posed by upfront costs and perceived operational hurdles.

  • Challenges in scaling infrastructure and charging networks

  • While the electrification of public transport is advancing, significant challenges remain for expanding the necessary infrastructure and charging networks. The deployment of charging stations must match the growth of electric fleets, requiring substantial initial capital investment and strategic planning. Urban areas, in particular, face unique obstacles due to space constraints and the need for integration with existing transportation systems. Additionally, the technological requirements for smart charging solutions that minimize costs and maximize efficiency are still being developed. Initiatives must also focus on enhancing grid capacity to meet increased electricity demand resulting from the electrification efforts.

Segment-Specific Outlook: Bus, Taxi, and Logistics Sectors

  • Electrification and modernization of bus fleets

  • As of April 30, 2025, the electrification of bus fleets is a significant trend, reflecting a broader move toward sustainable public transport solutions. The global electric public transport system market was valued at USD 23.7 billion in 2024, with expectations to grow at a compound annual growth rate (CAGR) of 14.9% through 2034. Municipalities worldwide are increasingly investing in electric buses to comply with stringent environmental regulations and to address urban air quality concerns. Additionally, upgrades in battery management systems and the introduction of innovative charging solutions such as Vehicle-to-Grid technology are enhancing the operational efficiency of electric buses. For instance, companies like BYD are leading the charge by introducing AI-powered fleet management software in their electric buses, which optimizes fleet performance and reduces total operational costs.

  • Moreover, the integration of smart ticketing solutions and advanced driver assistance systems (ADAS) is becoming commonplace, making electric buses not only environmentally friendly but also enhancing passenger safety and comfort. The trend towards electrification also aligns with broader smart city initiatives, facilitating integrated mobility solutions that improve commuter experiences.

  • Evolution of taxi services: digital dispatch and ride-hailing

  • The evolution of taxi services has been markedly influenced by the rise of digital dispatch systems and ride-hailing applications. As of late April 2025, the shared mobility market has witnessed substantial growth, with the sector expanding from USD 198.23 billion in 2024 to an estimated USD 217.80 billion in 2025. This growth is attributed to ongoing technological advancements and changing consumer preferences favoring more flexible and efficient transport options.

  • Digital platforms streamline the process for both drivers and passengers. By enabling real-time tracking, fare estimation, and seamless payment processing, these platforms enhance user convenience and operational efficiency. Notably, companies such as Uber continue to dominate the market with innovative features in their applications, while smaller players are also stepping up competition by tailoring services to local market needs. Notably, the integration of electric vehicles into fleets is progressing, considering the increasing consumer awareness of environmental sustainability and safety. Consequently, taxi services are increasingly adopting platforms that utilize AI-driven analytics for demand forecasting and route optimization, further contributing to the overall efficiency of the sector.

  • Logistics sector transformation through AI-driven dispatch tech

  • The logistics sector is experiencing a pivotal transformation, driven predominantly by the adoption of AI-driven dispatch technologies. As of April 2025, innovative dispatch solutions are rapidly modernizing auto transport logistics, which has traditionally relied on fragmented, manual processes. Dispatch software is central to this transformation, facilitating a centralized digital platform that enhances communication between carriers and brokers.

  • A key benefit of this technology is the automation of critical processes, which not only reduces administrative overhead but also improves operational accuracy. For instance, integration of digital inspections and electronic bills of lading (eBOLs) streamlines paperwork, allowing for real-time monitoring and transparency throughout the transport process. As these technologies proliferate, they are significantly impacting the upper limits of operational scale, enabling logistics companies to manage substantial increases in shipments efficiently. The enhanced real-time visibility into deliveries and tracking capabilities foster greater accountability and customer satisfaction, ultimately revolutionizing how logistics operates in the current market landscape.

  • Regulatory and infrastructure challenges for each segment

  • While the bus, taxi, and logistics sectors are evolving positively, they all face significant regulatory and infrastructure challenges. Regulatory compliance remains a critical aspect, particularly concerning the adoption of electric vehicles and urban air mobility solutions. Governments are increasingly imposing stricter emission standards and safety regulations, which can pose hurdles for rapid implementation across all transport modalities. For example, the integration of electric buses into existing transit systems requires substantial infrastructural investment for charging stations and maintenance facilities.

  • In the taxi segment, regulatory frameworks concerning data privacy and ride-hailing practices continue to evolve, creating uncertainties for operators. These regulations must balance consumer protection, competition, and innovation in urban mobility. Furthermore, logistics firms face increasing scrutiny concerning data privacy and security, particularly as AI technologies become engrained in operations. Ensuring compliance while also maintaining the agility to innovate poses a considerable challenge for industry players.

  • Overall, addressing these regulatory frameworks while investing in necessary infrastructure—such as charging networks for electric vehicles and digital platform integration—will be vital for sustained growth and acceptance of new mobility solutions.

  • Segment growth projections and investment priorities

  • Looking towards the future, the outlook for growth in the bus, taxi, and logistics sectors appears robust, bolstered by advancements in technology, consumer behavior shifts, and environmental sustainability considerations. The shared mobility market, which encapsulates ride-hailing and other transport services, is projected to continue significant expansion, reaching USD 356.00 billion by 2030, driven by consumer demand for convenience and adaptability.

  • Investment priorities are likely to focus on technological enhancements, such as smart dispatch solutions in logistics, electrification in public transport, and digital platforms in taxi services. Furthermore, collaboration between private and public entities is expected to shape policies that facilitate infrastructure development critical for future growth. As urban areas continue to grapple with congestion and pollution, the emphasis on sustainable, efficient travel solutions is anticipated to guide both investment decisions and operational strategies across each sector.

Wrap Up

  • In conclusion, the landscape of next-generation mobility is characterized by dynamic growth driven by urbanization, the integration of digital platforms, and an imperative for sustainability. Forecasts indicate that global and domestic markets are set to experience robust double-digit CAGRs through the early 2030s, with Mobility as a Service (MaaS) and smart mobility leading in innovation, alongside an increasing embrace of shared mobility concepts. While urban air mobility remains in a nascent stage, it presents a transformative frontier dependent on regulatory frameworks and adequate infrastructure to realize its full potential.

  • The electrification of public transport systems is not merely a trend but a necessary shift supported by evolving technologies and encouraging policy frameworks. The emphasis on AI-driven dispatch technologies is indicative of the ongoing revolution in logistics, promising increased operational efficiencies and enhanced service delivery. Looking towards the future, it is evident that strategic investment in digital platforms, charging infrastructure, and workforce development will be pivotal for integrated mobility providers.

  • Collaboration between public and private sectors will be crucial in establishing standards and fostering data-sharing initiatives to enhance the operational landscape for next-generation mobility solutions. As we advance, the convergence of autonomy, connectivity, and green energy will profoundly reshape the mobility ecosystem, presenting lucrative opportunities to mitigate congestion, reduce emissions, and enhance overall service quality and accessibility.

Glossary

  • Next-Gen Mobility: Refers to the evolution of transportation solutions that integrate advanced technologies, sustainability practices, and enhanced user experiences. As of April 30, 2025, this encompasses diverse services such as electric public transport, shared mobility, and urban air mobility initiatives.
  • Mobility as a Service (MaaS): MaaS is a digital platform that integrates various transportation services to provide users with seamless travel experiences. This concept aims to unify ride-hailing, public transit, and other mobility options under a single accessible interface, promoting convenience and reducing reliance on private vehicles.
  • Urban Air Mobility (UAM): UAM involves the development and deployment of aerial transportation systems in urban areas, primarily focusing on air taxis and eVTOL (electric vertical takeoff and landing) aircraft. As of April 30, 2025, UAM is still in planning stages, with pilot programs expected to commence to test its efficacy in urban landscapes.
  • eVTOL: Electric vertical takeoff and landing (eVTOL) refers to a class of aircraft designed for urban air mobility. These vehicles are engineered to operate quietly, efficiently, and sustainably in densely populated areas, with advancements focusing on battery technology and emissions reduction.
  • Electric Public Transport: Refers to public transportation systems that utilize electric vehicles, such as buses and trams. As of April 30, 2025, there is a significant push for electrification to meet sustainability targets and improve urban air quality, with projections indicating a market growth toward USD 23.7 billion.
  • Smart Mobility: Involves using advanced technologies like AI and IoT to enhance urban transport systems. Smart mobility aims to improve operational efficiency, safety, and user experience within the transportation sector, facilitating real-time data management and streamlined services.
  • Shared Mobility: Refers to transportation services that allow individuals to share a vehicle or ride, encompassing options like car-sharing and ride-hailing. As of mid-2025, this sector is experiencing growth driven by consumer preference for flexible and environmentally friendly transport solutions.
  • Dispatch Technology: This involves the use of software systems to optimize vehicle dispatching operations. Recent advancements focus on automating load assignments and real-time tracking, improving logistics and fleet management efficiencies within public transport and logistics sectors.
  • Compounded Annual Growth Rate (CAGR): A metric used to measure the growth of an investment or industry over a specific period, expressed as a percentage. The next-gen mobility market is projected to grow at a CAGR of 38% from 2025 to 2035, reflecting significant expansion and investment opportunities.
  • Technological Enablers: Technologies that support and enhance the functionalities of Mobility as a Service (MaaS) and other mobility solutions, including platforms, connectivity, and advanced payment systems, are integral to improving the efficiency and user engagement in mobility services.

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