市場調查報告書
商品編碼
1297016
城市空中交通的全球市場Global Urban Air Mobility Market |
本報告提供全球城市空中交通市場的相關調查,提供市場預測,市場動態,趨勢分析等全面性資訊。大城市的人口增加,對可替代永續的運輸手段的需求提升,促進了市場的成長。
十年城市空中交通市場分析詳細概述了城市空中交通市場的增長、不斷變化的市場動態、技術採用以及本章介紹的整體市場吸引力。
該部分涵蓋了預計影響該市場的 10 項主要技術以及這些技術可能對整個市場產生的影響。
該市場的10年城市空中交通市場預測詳細介紹了上述細分市場。
該部分涵蓋地區性城市空中交通市場趨勢、驅動因素、制約因素和挑戰,以及政治、經濟、社會和技術方面。該部分還詳細介紹了各地區的市場預測和情景分析。區域分析的後半部分包括主要參與者的概況、供應商格局和企業基準。根據正常情況估算的目前市場規模。
本章討論了該市場的主要防禦計劃,還涵蓋了該市場的最新消息和專利申請。本章還涵蓋了國家層面的十年市場預測和情景分析。
機會矩陣幫助讀者瞭解該市場中的高機會細分市場。
我們的專家對這個市場的分析意見
Urban air mobility (UAM) uses small and medium sized highly automated aircraft to transport people or goods at lower altitudes in urban and suburban regions that have grown as a result of traffic congestion. It typically refers to both established and developing technology, such as conventional helicopters, vertical-takeoff and landing (VTOL) aircraft, electrically propelled VTOL aircraft, and unmanned aerial vehicles (UAVs) (UAVs). Multiple electric-powered rotors or fans are used for lift and propulsion on these aircraft, and fly-by-wire technologies are used to operate them. Since the early days of powered flight, inventors have investigated ideas for urban air mobility. Urban air mobility is a part of the Advanced Air Mobility (AAM) concept, which encompasses more use cases than only intracity passenger transportation.
Public approval of UAM depends on a number of variables, including but not limited to security, social equality, noise, energy consumption, and safety. Safety concerns include the potential for flights beyond of authorized airspace, close proximity to people and/or buildings, critical system failures or loss of control, and hull loss, and they overlap with the majority of present aircraft risks. Cyber security risks also arise with autonomous or remote-piloted aircraft. Two important elements that affect how the public perceives eVTOL aircraft vehicles employed in UAM applications are the type and volume of noise produced by aircraft and rotorcraft. The physical safety of passengers in the absence of crew members and the cyber security of the urban air mobility vehicles and the systems that control it are two specific security concerns.
Any city faces a significant problem while putting in place a suitable UAM infrastructure. Due to the necessity of picking up or dropping off passengers in densely populated city districts, vertiports must be integrated into the architecture and infrastructure of the existing city, ensuring quick but secure boarding and disembarking. The vertiports must be connected to other mobility options, such as first- and last-mile transit, in order to ensure a seamless journey. The vertiport design must also be created in close coordination with the aircraft because several factors, like as the size of the landing platform or operating needs like charging equipment, are affected. Authorities at the state and local levels will probably impose operator and company licensing requirements for air taxi and metro operations. Scalable autonomous use cases for eVTOLs will necessitate automated fleet management software and related protocols. A successful system of traffic control for autonomous eVTOL operations needs to have the UAM Traffic Management (UTM) technological specifications, operational protocols, and supporting infrastructure and technology. To fly in airspace with a variety of cooperative, non-cooperative, and autonomous traffic and to be able to safely deconflict eVTOLs from this traffic, eVTOL aircrafts will need an integrated, automated system for UAM traffic management. For the local community's health, acceptable noise levels and the ensuing noise abatement techniques must be created.
The increasing population in metropolitan cities is causing congestion of existing transport infrastructure such as roads and railways. The continuous movement of rural population to urban and sub urban locations will cripple the transport infrastructure in the near future. There is increasing demand for alternative and sustainable transport solution that will ease traffic congestion and decrease the transit time to and from a location. This is one of the primary factors for federal and state governments across the world to explore, invest and development credible advanced air mobility (AAM) solutions.
Whatever battery technologies turn out to be useful for eVTOL aircraft flying, they will all need to meet the stringent certification standards set by the FAA and other aviation regulators. Battery manufacturers will be forced to spend a lot of time and money to get their products into civil aircraft as a result of these regulations. Extremely quick charging and high-power cell discharge are necessary for eVTOLs. The high load circumstances at takeoff and landing necessitate very careful thermal control for electric aircraft batteries. Manufacturers will need to implement containment and propagation measures to prevent the battery from harming the vehicle's structures and the aircraft from potential battery failures. Hence advanced in battery and electric propulsion technology will be key to the growth of the urban air mobility market.
The regulatory process finds it difficult to keep up with the rate of innovation and demands from the business community, many of whom are ignorant of aviation and the regulatory framework surrounding it. The rule-making process is essentially collaborative and calls for participation from the public, review by the public, and adherence to the Administrative Procedures Act. For something like UAM, which is a complex and multifaceted subject requiring many rulemakings and Part revisions, this results in a drawn-out process. In comparison to the conventional manned aircraft environment, the UAM and UAS sectors are considerably larger and more dispersed. The ecosystem is bigger than it has ever been and comprises a considerably greater range of corporate sophistication. As a result, some traditional business models would no longer be viable, necessitating the creation of fresh approaches to support the ecosystem's growth and the safe operation of unmanned aircraft in urban settings.
United Airlines has signed a conditional purchase deal for 200 four-seat electric aircraft plus 200 options, with the first deliveries anticipated as early as 2026. Eve Air Mobility is an electrical vertical takeoff and landing (eVTOL) aircraft business based in Melbourne, Florida, in the United States. Founded in 2020, Eve Air Mobility is a stand-alone division of Embraer's American affiliate EmbraerX. According to the terms of the agreement, the parties expect to collaborate on further tasks, such as research on the creation, utilization, and deployment of Eve's aircraft and the ecosystem for urban air mobility (UAM).
The lift-plus-cruise concept of Eve's design makes use of traditional fixed wings, rotors, and pushers to enable safety, efficiency, reliability, and certifiability. The vehicle is said to have a range of 60 miles (100 kilometers) and reduce noise levels by 90% when compared to current conventional aircraft. In addition, Eve is developing a fresh approach to air traffic control for the UAM sector's safe expansion. This software is anticipated to function with the same level of safety as Embraer's current air traffic management software and to be a crucial strategic tool for the expansion of the entire sector.
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Urban Air Mobility Market Report Definition
UAM Market Growth Segmentation
By Operation
By Region
By Payload
Urban Air Mobility Market Analysis Overview for next 10 Years
The 10-year market outlook would give a detailed overview of changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.
Market Technologies of Urban Air Mobility Market
This segment covers the top 10 technologies that is expected to impact this market and the possible implications these technologies would have on the overall market.
Global Urban Air Mobility Market growth Forecast
The 10-year market forecast of this market is covered in detailed across the segments which are mentioned above.
Regional Market Trends & Forecast of Urban Air Mobility Market
The regional market trends, drivers, restraints and Challenges of this market, the Political, Economic, Social and Technology aspects are covered in this segment. The market forecast and scenario analysis across regions are also covered in detailed in this segment. The last part of the regional analysis includes profiling of the key companies, supplier landscape and company benchmarking.
North America
Drivers, Restraints and Challenges
PEST
Market Forecast & Scenario Analysis
Key Companies
Supplier Tier Landscape
Company Benchmarking
Europe
Middle East
APAC
South America
Country Analysis of UAM Market
This chapter deals with the key defense programs in this market, it also covers the latest news and patents which have been filed in this market. Country level 10 year market forecast and scenario analysis are also covered in this chapter.
US
Defense Programs
Latest News
Patents
Current levels of technology maturation in this market
Market Forecast & Scenario Analysis
Canada
Italy
France
Germany
Netherlands
Belgium
Spain
Sweden
Greece
Australia
South Africa
India
China
Russia
South Korea
Japan
Malaysia
Singapore
Brazil
Opportunity Matrix of Urban Air Mobility Market
The opportunity matrix helps the readers understand the high opportunity segments in this market.
Expert Opinions on Urban Air Mobility Market Report
Hear from our experts their opinion of the possible analysis for this market.
Conclusions
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