Global Automated Valet Parking Solution Supply, Demand and Key Producers, 2026-2032
Description
The global Automated Valet Parking Solution market size is expected to reach $ 5490 million by 2032, rising at a market growth of 29.5% CAGR during the forecast period (2026-2032).
Automated Valet Parking Solution (AVP) is a low-speed automated driving and automated parking function operating within a defined parking ODD, typically positioned across SAE Level 3 to Level 4. After drop-off, the driver initiates a "park/recall" mission via a smartphone or the in-vehicle HMI; the vehicle—leveraging onboard automated driving capabilities and, where applicable, parking-facility infrastructure (e.g., sensing, localization markers, connectivity, and orchestration systems)—performs route planning, obstacle avoidance, slot parking, and vehicle retrieval. Level 3 implementations generally retain a defined driver-responsibility and takeover framework (subject to local regulations and operational procedures), whereas Level 4 AVP enables unoccupied, unsupervised valet-style parking within the constrained domain, which is the typical target state for AVP.
Automated Valet Parking Solution is a controlled-environment automated driving application in which an unoccupied vehicle is handed over at a designated drop-off/transfer zone and then navigates at low speed within a defined parking facility to find a parking space, park, and later return to a pick-up zone. In standards and industry practice, AVP is commonly positioned as a Level 4 automated driving use case within a prescribed area and operating boundary—prioritizing a verifiable safety case and well-defined environmental conditions rather than open-road generality.
Technically, AVP is evolving along two main paths. A vehicle-centric approach relies primarily on onboard sensing and compute to localize, plan, and maneuver inside parking facilities, reducing infrastructure dependency but increasing the burden on onboard perception and robustness across diverse garages. An infrastructure-/facility-centric approach equips the parking facility with sensors, markers, connectivity, and edge compute to perceive the environment and coordinate vehicle motion, improving controllability and accelerating commercialization in specific sites while requiring facility investment and multi-party coordination. With international standards now published, AVP is moving from one-off pilots toward more repeatable deployments, supported by clearer expectations on operating functions, environmental conditions, and performance verification.
Commercially, AVP is not a single product but a system-of-systems spanning vehicle capability, parking facility equipment, and operational services. Automakers monetize vehicle-side features and user experience; suppliers deliver sensing, control, and integration; parking operators provide site access, retrofits, and daily O&M; and infrastructure/platform providers deliver facility sensing, orchestration, and backend operations. Value capture typically comes from vehicle feature packaging, site retrofit delivery plus software/maintenance revenue, and operator-side benefits such as improved bay utilization, reduced labor, and service bundling with charging, cleaning, and concierge offerings. In practice, the party that controls orchestration—and the clarity of safety responsibility boundaries—often determines scalability.
Regionally, AVP tends to advance fastest where regulations, standardization, and controlled pilot sites converge. Europe has been active in standardization and pilots, and Germany has hosted commercially approved trials—demonstrating a compliance pathway for driverless parking within defined facilities. Overall, AVP scales more like an infrastructure rollout (replicating site-by-site) than a purely vehicle-driven feature diffusion.
This report studies the global Automated Valet Parking Solution demand, key companies, and key regions.
This report is a detailed and comprehensive analysis of the world market for Automated Valet Parking Solution, and provides market size (US$ million) and Year-over-Year (YoY) growth, considering 2025 as the base year. This report explores demand trends and competition, as well as details the characteristics of Automated Valet Parking Solution that contribute to its increasing demand across many markets.
Highlights and key features of the study
Global Automated Valet Parking Solution total market, 2021-2032, (USD Million)
Global Automated Valet Parking Solution total market by region & country, CAGR, 2021-2032, (USD Million)
U.S. VS China: Automated Valet Parking Solution total market, key domestic companies, and share, (USD Million)
Global Automated Valet Parking Solution revenue by player, revenue and market share 2021-2026, (USD Million)
Global Automated Valet Parking Solution total market by Type, CAGR, 2021-2032, (USD Million)
Global Automated Valet Parking Solution total market by Application, CAGR, 2021-2032, (USD Million)
This report profiles major players in the global Automated Valet Parking Solution market based on the following parameters - company overview, revenue, gross margin, product portfolio, geographical presence, and key developments. Key companies covered as a part of this study include Valeo, Bosch, Motovis Intelligent Technology, Huawei, Apollo, UISEE, Momenta, Tesla, Voyager Technology, etc.
This report also provides key insights about market drivers, restraints, opportunities, new product launches or approvals.
Stakeholders would have ease in decision-making through various strategy matrices used in analyzing the world Automated Valet Parking Solution market
Detailed Segmentation:
Each section contains quantitative market data including market by value (US$ Millions), by player, by regions, by Type, and by Application. Data is given for the years 2021-2032 by year with 2025 as the base year, 2026 as the estimate year, and 2027-2032 as the forecast year.
Global Automated Valet Parking Solution Market, By Region:
United States
China
Europe
Japan
South Korea
ASEAN
India
Rest of World
Global Automated Valet Parking Solution Market, Segmentation by Type:
Smart Vehicle
Smart Infrastructure
Global Automated Valet Parking Solution Market, Segmentation by Parking ODD:
Home-AVP
Public-AVP
Global Automated Valet Parking Solution Market, Segmentation by Vehicle:
Internal Combustion Engines
New Energy Vehicles
Global Automated Valet Parking Solution Market, Segmentation by Application:
Personal
Commercial
Companies Profiled:
Valeo
Bosch
Motovis Intelligent Technology
Huawei
Apollo
UISEE
Momenta
Tesla
Voyager Technology
Key Questions Answered
1. How big is the global Automated Valet Parking Solution market?
2. What is the demand of the global Automated Valet Parking Solution market?
3. What is the year over year growth of the global Automated Valet Parking Solution market?
4. What is the total value of the global Automated Valet Parking Solution market?
5. Who are the Major Players in the global Automated Valet Parking Solution market?
6. What are the growth factors driving the market demand?
Automated Valet Parking Solution (AVP) is a low-speed automated driving and automated parking function operating within a defined parking ODD, typically positioned across SAE Level 3 to Level 4. After drop-off, the driver initiates a "park/recall" mission via a smartphone or the in-vehicle HMI; the vehicle—leveraging onboard automated driving capabilities and, where applicable, parking-facility infrastructure (e.g., sensing, localization markers, connectivity, and orchestration systems)—performs route planning, obstacle avoidance, slot parking, and vehicle retrieval. Level 3 implementations generally retain a defined driver-responsibility and takeover framework (subject to local regulations and operational procedures), whereas Level 4 AVP enables unoccupied, unsupervised valet-style parking within the constrained domain, which is the typical target state for AVP.
Automated Valet Parking Solution is a controlled-environment automated driving application in which an unoccupied vehicle is handed over at a designated drop-off/transfer zone and then navigates at low speed within a defined parking facility to find a parking space, park, and later return to a pick-up zone. In standards and industry practice, AVP is commonly positioned as a Level 4 automated driving use case within a prescribed area and operating boundary—prioritizing a verifiable safety case and well-defined environmental conditions rather than open-road generality.
Technically, AVP is evolving along two main paths. A vehicle-centric approach relies primarily on onboard sensing and compute to localize, plan, and maneuver inside parking facilities, reducing infrastructure dependency but increasing the burden on onboard perception and robustness across diverse garages. An infrastructure-/facility-centric approach equips the parking facility with sensors, markers, connectivity, and edge compute to perceive the environment and coordinate vehicle motion, improving controllability and accelerating commercialization in specific sites while requiring facility investment and multi-party coordination. With international standards now published, AVP is moving from one-off pilots toward more repeatable deployments, supported by clearer expectations on operating functions, environmental conditions, and performance verification.
Commercially, AVP is not a single product but a system-of-systems spanning vehicle capability, parking facility equipment, and operational services. Automakers monetize vehicle-side features and user experience; suppliers deliver sensing, control, and integration; parking operators provide site access, retrofits, and daily O&M; and infrastructure/platform providers deliver facility sensing, orchestration, and backend operations. Value capture typically comes from vehicle feature packaging, site retrofit delivery plus software/maintenance revenue, and operator-side benefits such as improved bay utilization, reduced labor, and service bundling with charging, cleaning, and concierge offerings. In practice, the party that controls orchestration—and the clarity of safety responsibility boundaries—often determines scalability.
Regionally, AVP tends to advance fastest where regulations, standardization, and controlled pilot sites converge. Europe has been active in standardization and pilots, and Germany has hosted commercially approved trials—demonstrating a compliance pathway for driverless parking within defined facilities. Overall, AVP scales more like an infrastructure rollout (replicating site-by-site) than a purely vehicle-driven feature diffusion.
This report studies the global Automated Valet Parking Solution demand, key companies, and key regions.
This report is a detailed and comprehensive analysis of the world market for Automated Valet Parking Solution, and provides market size (US$ million) and Year-over-Year (YoY) growth, considering 2025 as the base year. This report explores demand trends and competition, as well as details the characteristics of Automated Valet Parking Solution that contribute to its increasing demand across many markets.
Highlights and key features of the study
Global Automated Valet Parking Solution total market, 2021-2032, (USD Million)
Global Automated Valet Parking Solution total market by region & country, CAGR, 2021-2032, (USD Million)
U.S. VS China: Automated Valet Parking Solution total market, key domestic companies, and share, (USD Million)
Global Automated Valet Parking Solution revenue by player, revenue and market share 2021-2026, (USD Million)
Global Automated Valet Parking Solution total market by Type, CAGR, 2021-2032, (USD Million)
Global Automated Valet Parking Solution total market by Application, CAGR, 2021-2032, (USD Million)
This report profiles major players in the global Automated Valet Parking Solution market based on the following parameters - company overview, revenue, gross margin, product portfolio, geographical presence, and key developments. Key companies covered as a part of this study include Valeo, Bosch, Motovis Intelligent Technology, Huawei, Apollo, UISEE, Momenta, Tesla, Voyager Technology, etc.
This report also provides key insights about market drivers, restraints, opportunities, new product launches or approvals.
Stakeholders would have ease in decision-making through various strategy matrices used in analyzing the world Automated Valet Parking Solution market
Detailed Segmentation:
Each section contains quantitative market data including market by value (US$ Millions), by player, by regions, by Type, and by Application. Data is given for the years 2021-2032 by year with 2025 as the base year, 2026 as the estimate year, and 2027-2032 as the forecast year.
Global Automated Valet Parking Solution Market, By Region:
United States
China
Europe
Japan
South Korea
ASEAN
India
Rest of World
Global Automated Valet Parking Solution Market, Segmentation by Type:
Smart Vehicle
Smart Infrastructure
Global Automated Valet Parking Solution Market, Segmentation by Parking ODD:
Home-AVP
Public-AVP
Global Automated Valet Parking Solution Market, Segmentation by Vehicle:
Internal Combustion Engines
New Energy Vehicles
Global Automated Valet Parking Solution Market, Segmentation by Application:
Personal
Commercial
Companies Profiled:
Valeo
Bosch
Motovis Intelligent Technology
Huawei
Apollo
UISEE
Momenta
Tesla
Voyager Technology
Key Questions Answered
1. How big is the global Automated Valet Parking Solution market?
2. What is the demand of the global Automated Valet Parking Solution market?
3. What is the year over year growth of the global Automated Valet Parking Solution market?
4. What is the total value of the global Automated Valet Parking Solution market?
5. Who are the Major Players in the global Automated Valet Parking Solution market?
6. What are the growth factors driving the market demand?
Table of Contents
106 Pages
- 1 Supply Summary
- 2 Demand Summary
- 3 World Automated Valet Parking Solution Companies Competitive Analysis
- 4 United States VS China VS Rest of World (by Headquarter Location)
- 5 Market Analysis by Type
- 6 Market Analysis by Parking ODD
- 7 Market Analysis by Vehicle
- 8 Market Analysis by Application
- 9 Company Profiles
- 10 Industry Chain Analysis
- 11 Research Findings and Conclusion
- 12 Appendix
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