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2022-2029 年汽車 3D 地圖系統的全球市場Global 3D Map Systems for Automotive Market - 2022-2029 |
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汽車導航非常重要,因為它會告知協助者不熟悉的區域。 3D 導航的出現增加了地圖的有用性和可用性。
3D 地圖可以更準確地告訴主持人其周圍環境。 精確的導航、定位和更舒適的駕駛都得益於 3D 地圖。 自動駕駛車輛,包括汽車、卡車、移動機器人、無人機和其他無人駕駛飛機,需要了解周圍環境並做出適當反應。
世界技術進步使3D地圖能夠理解周圍的任何維度,而開發3D地圖的高成本和不斷升級的需求正在推動全球汽車3D地圖系統市場的增長。這是一個主要市場驅動力。 然而,高昂的初始投資成本可能是市場的製約因素。
世界上的技術進步使 3D 地圖能夠理解周圍的每個維度。
三維地圖徹底改變了導航和工程領域。 3D地圖的優勢在於,它使設計師能夠通過三維地考慮周圍環境來進行準確的設計。 在美國哥倫比亞縣,3D 地圖技術提高了數據準確性並改善了公共服務。 美國已投入八幅完整道路網絡的全景高分辨率 3D 圖像,總計 1,100 線性英裡和近 2,500 條街道,以創建用於規劃項目、法規執行挑戰和緊急情況的虛擬地圖。。 此外,縣官員將照片與現有的 GIS 數據相結合。
火星收集系統由高性能相機和軟件程序組成,用於創建 3D 照片。 我們在 8 月訪問了哥倫比亞縣,拍攝縣邊界內的每條路線。 每種技術使用八張代表該縣完整道路覆蓋範圍的圖像,照片的每個像素中都存儲有緯度、經度和海拔信息。
此外,位於加利福尼亞的移動地圖技術提供商 Earthmine 創建了該套件。 這張 3D 地圖提供了道路基礎設施的虛擬圖片,規劃人員和其他縣官員可以結合 GIS 數據進行編輯。 earthmine 的程序用戶可以使用易於理解的“查看器版本”查看 3D 地圖。 GIS 用戶還可以將地圖引入 Esri 的 ArcMap 等地理空間工具,高級用戶可以使用 AutoCAD 中的 3D 渲染作為開發設計理念的背景。
3D地圖開發成本高,需要不斷的版本升級
3D 地圖可以幫助汽車的方式之一是減輕實時構建地圖的負擔。 創建 3D 地圖需要大量計算,但預先創建 3D 地圖可以有效地從自動駕駛汽車中卸載這種計算密集型任務。 借助 3D 地圖,自動駕駛汽車可以專注於識別和跟蹤地圖中的對象,而不是首先掃描周圍環境來識別某些東西。
在創建 3D 地圖之前,車輛必須行駛到地圖繪製區域並收集自動駕駛車輛所需的數據。 然後,將原始視頻數據轉換為與 ADAS 兼容的格式。 3D 地圖系統比 2D 地圖系統更昂貴,因為偵察、創建和轉換 3D 地圖需要大量投資。 此外,需要及時更新以保持數據的準確性,並且會增加互聯網數據使用費。 因此,3D地圖價格昂貴,需要不斷升級,是主要的市場製約因素。
COVID-19 影響分析
由於 COVID-19 疫情導致多家製造工廠關閉數月之久,汽車和汽車 3D 地圖系統的全球市場已大幅下滑。 此外,COVID-19 疫情導致許多國家的生產活動減少。 由於 COVID-19 流行病導致的大規模停工大大降低了消費者購買商品的意願。 此外,這些產品的供應鏈管理中斷也對這些產品的市場產生了重大影響。
COVID-19 對汽車行業的擴張造成了沉重打擊,中國暫停了零部件出口,歐洲製造業普遍中斷,美國裝配廠關閉。 然而,由於疫情對養老金的需求以及中產階級可支配收入的增加帶來的汽車普及率提高,汽車領域和汽車3D地圖系統正在顯著復甦。
3D Map Systems for Automotive Market reached around US$ XX million in 2021 and is expected to achieve significant growth by reaching up to US$ XX million by 2029, growing at a CAGR of YY% during the forecast period (2022-2029).
Vehicle navigation is crucial as it informs the driver of uncharted territory. The usefulness and usability of maps have increased with the advent of 3D navigational maps.
3D maps give the driver a more precise view of the surroundings. Accurate navigation, location determination and more pleasant driving are all aided by 3D maps. Any autonomous vehicle, including vehicles, trucks, mobile robots, drones and other pilotless aircraft, must be able to see its surroundings and respond appropriately.
The ability of 3D maps to understand all dimensions of their surroundings due to rising technological advancements globally, higher cost of developing 3D maps and the requirement for constant upgrading are major market drivers for the global 3D map systems for automotive market. However, high initial investment costs could be a major market restraint.
The ability of 3D maps to understand all dimensions of their surroundings due to rising technological advancements globally
In the fields of navigation and engineering, three-dimensional maps sparked a revolution. The benefit of 3D maps is that they provide an understanding of all dimensions in the surroundings, allowing designers to produce accurate designs by examining them. In Columbia County, U.S., three-dimensional mapping technology enhances data accuracy and public services. U.S. has invested in eight panoramic high-resolution 3-D images, totaling 1,100 linear miles and almost 2,500 streets, of its complete road network to create virtual maps for planning projects, code enforcement difficulties and emergencies. Further, the county employees integrated the photos with already-existing GIS data.
The Mars Collection System, consisting of a sophisticated camera setup and a software program, was used to generate 3-D photographs. The business traveled to Columbia County in August and photographed each route inside the county's boundaries. Eight images representing the county's complete street coverage, including latitude, longitude and elevation information, stored in each pixel of the photographs were used by the respective technology.
Further, Earthmine, a California-based provider of mobile mapping technology, created the suite. The 3-D maps provide county personnel with a virtual picture of street infrastructure that planners and other county officials can edit when combined with GIS data. Users of earthmine's program users can utilize the straightforward "viewer version" to view the 3-D maps. GIS users can also import the maps into geospatial tools such as Esri's ArcMap, while advanced users can use the 3-D renderings in AutoCAD as a backdrop for development design ideas.
Higher cost of developing 3D maps and the requirement for constant upgrading
One of the ways 3D mapping helps automobiles is by relieving them of the load of building their maps in real time. Because producing 3D maps requires a lot of computing power, pre-built 3D maps effectively offload this computation-intensive job from the autonomous vehicle. When a 3D map is provided, the vehicle may focus on identifying and tracking objects within it rather than having first to survey the surroundings to identify anything within them.
Before a 3D map can be made, a vehicle must travel to the area to map and gather data required for autonomous vehicles. The raw video data will then be converted into an ADAS-compatible format. Due to the significant investment needed to scout, create and convert 3D maps, 3D map systems are more expensive than 2D map systems. Furthermore, timely updates are necessary for data accuracy, which adds to the cost of internet data usage. Therefore, The market is severely constrained by the higher cost of 3D maps and the requirement for constant upgrading.
COVID-19 Impact Analysis
The market for automobiles and 3D map systems for automotive has significantly fallen globally due to multiple manufacturing facilities being closed for months owing to the COVID-19 epidemic. Furthermore, numerous countries have reduced production activity due to the COVID-19 epidemic. The massive lockdown imposed by the COVID-19 epidemic caused a sudden drop in consumer interest in purchasing goods. Also, disruption of the supply chain management of those products has significantly influenced the market for those products.
COVID-19 has significantly harmed the automobile sector's expansion due to the suspension of Chinese part exports, the broad disruption of European manufacturing and the closure of American assembly plants. However, the automotive sector and 3D map systems for cars are making a significant comeback due to the rising adoption of cars brought on by the pandemic's penned-up demand and rising disposable income among the middle-class population.
The global 3D map systems for automotive market is classified based on system, navigation, vehicle, sales channel and region.
The inability of 2D navigation systems to accurately predict the environment and the growing demand for highly acurate navigation systems in passenger vehicles
According to data, there were 5,59,08,989 passenger cars produced globally in 2020 and 5,70,54,295 in 2021. Similarly, passenger car sales increased from 5,39,17,153 units in 2020 to 5,63,98,471 units in 2021. Today, some of the most popular passenger vehicles are the hatchback, executive sedans, SUVs, cabriolets, limousines and sports cars. Executive sedans predominate in the passenger automobile market since they are the most sold luxury vehicle globally. In Q1 2022, for instance, the Tesla Model S topped the list with 159,470 sales, a 29 percent market share and a 22-spot increase. The BMW 5 Series, the previous market leader, has sold 80,254 vehicles (14.6 percent share).
With more than 7 million sales worldwide, the 5 Series is the second-best-selling BMW model ever. The Mercedes E Class earned the third position, which sold 70,384 vehicles (12.8 percent market share). The Hyundai Verna executive sedan sold 1,181 units in the Indian market as of May 2021, outpacing competitors like the Honda City and Maruti Suzuki Ciaz to take the top spot. The Hyundai Verna represented more than 34% of the segment's volume in May this year. The Honda City is the most advanced and feature-rich car in its class.
Since 2D map systems cannot accurately depict the surrounding environment, which frequently results in incorrect navigation, 3D map systems have revolutionized the field of navigation. As a result, manufacturers and users of passenger cars place a high priority on using 3D map systems, which has a positive impact on the market share of these vehicles.
The growing interest in off-roading and adventurous driving and the emergence of autonomous vehicles
North America is a highly industrialized region at the forefront of various major industries, primarily due to U.S. It is a major leader in the information technology sector. The demand for 3D map systems is primarily driven in the region by factors such as accuracy, a wider variety of information, rising tourism, more ride-hailing, growing interest in off-roading and adventurous driving and the growing attractiveness of tracking and hiking. Further, even though there are no fully autonomous vehicles on the road, the market for them is rapidly expanding in North America, particularly in U.S. For instance, Waymo operates in more than 300 autonomous vehicles with safety drivers in a 100-square-mile service area that includes the communities of Mesa, Chandler, Tempe and Gilbert. Additionally, legislation establishing common AV requirements for autonomous vehicles was passed by the House of Representatives of more than 41 states.
It is anticipated that autonomous vehicles, currently undergoing road testing, would need live HD maps, constantly updated to gather information on accidents, weather, road closures and live traffic. Since maps offer a lot of promise to improve ease and safety on the road and are a crucial "missing link" in the development of tomorrow's autonomous automobiles, the respective maps must be extremely accurate and current for completely autonomous vehicles. 3D maps provide the driver with a more accurate map of the area by displaying extensive information about the road surroundings as well as road structure, such as information about the surroundings like bridges, work in progress on the road and surrounding road and terrain areas. The increasing use of autonomous vehicles in North America may create numerous opportunities for the North America 3D Map Systems market.
The global 3D map systems for automotive market is growing and becoming increasingly competitive due to the presence of major players such as BAE Systems Plc.; Ni-ppon Seiki Co. Ltd.; TomTom International BV; Elektrobit; Axestrack; Dynamic Map Platform Co., Ltd.; NVIDIA Corporation; Continental AG; HERE and Robert Bosch GmbH. The market is fragmented and market players employ key strategies such as mergers, acquisitions, product launches, contributions and collaborations to gain a competitive advantage and recognition.
Robert Bosch GmbH
Overview: The company is a supplier of technology and services and operates in four different divisions, including energy and building technology, mobility solutions, industrial technology and consumer goods. The company has around 402,600 associates as of December 2021 and provides innovative solutions for smart homes, industry 4.0 and connected mobility. It has 440 subsidiaries and regional companies in almost 60 countries, including sales and service partners and a presence in more than 400 locations.
The company employs 76,100 associates in research and development, including more than 38,000 software engineers. The company has adopted the strategy to promote connected living and the use of artificial intelligence and it also serves its customers through different brands.
The global 3D map systems for automotive market report would provide approximately 69 tables, 63 figures and almost 179 pages.
Product Audience 2023
LIST NOT EXHAUSTIVE