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| 新型コロナウイルス感染症とロシア・ウクライナ戦争の影響により、建設用ロボットトータルステーションのグローバル市場は 2022にxxxドルと推定され、2028年までにxxxドルの規模に達し、2022年から2028年の予測期間中にxxx%のCAGRで成長すると予測されています。 建設用ロボットトータルステーションのアメリカ市場は、2023年から2028年の予測期間中にxxx%のCAGRで、2022年xxxドルから2028年xxxドルに達すると推定されています。 建設用ロボットトータルステーションの中国市場は、2023年から2028年の予測期間中にxxx%のCAGRで、2022年xxxドルから2028年xxxドルに達すると推定されています。 建設用ロボットトータルステーションのヨーロッパ市場は、2023年から2028年の予測期間中にxxx%のCAGRで、2022年xxxドルから2028年xxxドルに達すると推定されています。 生産面において、本レポートは2017年から2022年までの建設用ロボットトータルステーションの生産、成長率、メーカー別市場シェア、地域別市場シェア、および2028年までの予測を調査しています。販売面において、本レポートは2017年から2022年までの地域別、企業別、タイプ別、アプリケーション別の建設用ロボットトータルステーションの売上および2028年までの予測に焦点を当てています。 建設用ロボットトータルステーションのグローバル主要企業には、Hexagon、Topcon、Trimble、CST/berger、South、FOIF、Boif、Changzhou Dadi Surveying Science & Technology、HILTEなどがあります。2021年、世界のトップ5プレイヤーは売上ベースで約xxx%の市場シェアを占めています。 建設用ロボットトータルステーション市場は、タイプとアプリケーションによって区分されます。世界の建設用ロボットトータルステーション市場のプレーヤー、利害関係者、およびその他の参加者は、当レポートを有益なリソースとして使用することで優位に立つことができます。セグメント分析は、2017年~2028年期間のタイプ別およびアプリケーション別の販売量、売上、予測に焦点を当てています。 【タイプ別セグメント】 0.5"、1"、その他 【アプリケーション別セグメント】 地質エンジニアリング、道路/橋梁/国土、その他 【掲載地域】 北米:アメリカ、カナダ ヨーロッパ:ドイツ、フランス、イギリス、イタリア、ロシア アジア太平洋:日本、中国、韓国、インド、オーストラリア、台湾、インドネシア、タイ、マレーシア 中南米:メキシコ、ブラジル、アルゼンチン 中東・アフリカ:トルコ、サウジアラビア、UAE 【目次(一部)】 ・調査の範囲 - 建設用ロボットトータルステーション製品概要 - タイプ別市場(0.5"、1"、その他) - アプリケーション別市場(地質エンジニアリング、道路/橋梁/国土、その他) - 調査の目的 ・エグゼクティブサマリー - 世界の建設用ロボットトータルステーション販売量予測2017-2028 - 世界の建設用ロボットトータルステーション売上予測2017-2028 - 建設用ロボットトータルステーションの地域別販売量 - 建設用ロボットトータルステーションの地域別売上 - 北米市場 - ヨーロッパ市場 - アジア太平洋市場 - 中南米市場 - 中東・アフリカ市場 ・メーカーの競争状況 - 主要メーカー別建設用ロボットトータルステーション販売量 - 主要メーカー別建設用ロボットトータルステーション売上 - 主要メーカー別建設用ロボットトータルステーション価格 - 競争状況の分析 - 企業M&A動向 ・タイプ別市場規模(0.5"、1"、その他) - 建設用ロボットトータルステーションのタイプ別販売量 - 建設用ロボットトータルステーションのタイプ別売上 - 建設用ロボットトータルステーションのタイプ別価格 ・アプリケーション別市場規模(地質エンジニアリング、道路/橋梁/国土、その他) - 建設用ロボットトータルステーションのアプリケーション別販売量 - 建設用ロボットトータルステーションのアプリケーション別売上 - 建設用ロボットトータルステーションのアプリケーション別価格 ・北米市場 - 北米の建設用ロボットトータルステーション市場規模(タイプ別、アプリケーション別) - 主要国別の建設用ロボットトータルステーション市場規模(アメリカ、カナダ) ・ヨーロッパ市場 - ヨーロッパの建設用ロボットトータルステーション市場規模(タイプ別、アプリケーション別) - 主要国別の建設用ロボットトータルステーション市場規模(ドイツ、フランス、イギリス、イタリア、ロシア) ・アジア太平洋市場 - アジア太平洋の建設用ロボットトータルステーション市場規模(タイプ別、アプリケーション別) - 主要国別の建設用ロボットトータルステーション市場規模(日本、中国、韓国、インド、オーストラリア、台湾、インドネシア、タイ、マレーシア) ・中南米市場 - 中南米の建設用ロボットトータルステーション市場規模(タイプ別、アプリケーション別) - 主要国別の建設用ロボットトータルステーション市場規模(メキシコ、ブラジル、アルゼンチン) ・中東・アフリカ市場 - 中東・アフリカの建設用ロボットトータルステーション市場規模(タイプ別、アプリケーション別) - 主要国別の建設用ロボットトータルステーション市場規模(トルコ、サウジアラビア) ・企業情報 Hexagon、Topcon、Trimble、CST/berger、South、FOIF、Boif、Changzhou Dadi Surveying Science & Technology、HILTE ・産業チェーン及び販売チャネル分析 - 建設用ロボットトータルステーションの産業チェーン分析 - 建設用ロボットトータルステーションの原材料 - 建設用ロボットトータルステーションの生産プロセス - 建設用ロボットトータルステーションの販売及びマーケティング - 建設用ロボットトータルステーションの主要顧客 ・マーケットドライバー、機会、課題、リスク要因分析 - 建設用ロボットトータルステーションの産業動向 - 建設用ロボットトータルステーションのマーケットドライバー - 建設用ロボットトータルステーションの課題 - 建設用ロボットトータルステーションの阻害要因 ・主な調査結果 |
Robotic total station, also known as measuring robot, is the measurement platform with automatic target recognition, automatic calibration, automatic angle measurement and distance measurement, automatic target tracking, automatic recording function. The primary use of robotic total stations is in surveying, which is critical and demands high precision.Widely used in the construction industry.
Market Analysis and Insights: Global Robotic Total Stations for Construction Market
Due to the COVID-19 pandemic, the global Robotic Total Stations for Construction market size is estimated to be worth US$ million in 2022 and is forecast to a readjusted size of US$ million by 2028 with a CAGR of % during the forecast period 2022-2028. Fully considering the economic change by this health crisis, 0.5″ accounting for % of the Robotic Total Stations for Construction global market in 2021, is projected to value US$ million by 2028, growing at a revised % CAGR from 2022 to 2028. While Geological Engineering segment is altered to an % CAGR throughout this forecast period.
China Robotic Total Stations for Construction market size is valued at US$ million in 2021, while the US and Europe Robotic Total Stations for Construction are US$ million and US$ million, severally. The proportion of the US is % in 2021, while China and Europe are % and % respectively, and it is predicted that China proportion will reach % in 2028, trailing a CAGR of % through the analysis period 2022-2028. Japan, South Korea, and Southeast Asia are noteworthy markets in Asia, with CAGR %, %, and % respectively for the next 6-year period. As for the Europe Robotic Total Stations for Construction landscape, Germany is projected to reach US$ million by 2028 trailing a CAGR of % over the forecast period 2022-2028.
The global key manufacturers of Robotic Total Stations for Construction include Hexagon, Topcon, Trimble, CST/berger, South, FOIF, Boif, Changzhou Dadi Surveying Science & Technology and HILTE. etc. In 2021, the global top five players have a share approximately % in terms of revenue.
In terms of production side, this report researches the Robotic Total Stations for Construction capacity, production, growth rate, market share by manufacturers and by region (region level and country level), from 2017 to 2022, and forecast to 2028.
In terms of sales side, this report focuses on the sales of Robotic Total Stations for Construction by region (region level and country level), by company, by Angle Accuracy and by Application. from 2017 to 2022 and forecast to 2028.
Global Robotic Total Stations for Construction Scope and Segment
Robotic Total Stations for Construction market is segmented by Angle Accuracy and by Application. Players, stakeholders, and other participants in the global Robotic Total Stations for Construction market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on production capacity, revenue and forecast by Angle Accuracy and by Application for the period 2017-2028.
Segment by Angle Accuracy
0.5″
1″
Others
Segment by Application
Geological Engineering
Road, Bridges and Land Infrastructure
Others
By Company
Hexagon
Topcon
Trimble
CST/berger
South
FOIF
Boif
Changzhou Dadi Surveying Science & Technology
HILTE
Production by Region
North America
Europe
China
Japan
Consumption by Region
North America
United States
Canada
Europe
Germany
France
U.K.
Italy
Russia
Asia-Pacific
China
Japan
South Korea
India
Australia
China Taiwan
Indonesia
Thailand
Malaysia
Latin America
Mexico
Brazil
Argentina
Colombia
Middle East & Africa
Turkey
Saudi Arabia
UAE
1 Study Coverage
1.1 Robotic Total Stations for Construction Product Introduction
1.2 Market by Angle Accuracy
1.2.1 Global Robotic Total Stations for Construction Market Size by Angle Accuracy, 2017 VS 2021 VS 2028
1.2.2 0.5″
1.2.3 1″
1.2.4 Others
1.3 Market by Application
1.3.1 Global Robotic Total Stations for Construction Market Size by Application, 2017 VS 2021 VS 2028
1.3.2 Geological Engineering
1.3.3 Road, Bridges and Land Infrastructure
1.3.4 Others
1.4 Study Objectives
1.5 Years Considered
2 Global Robotic Total Stations for Construction Production
2.1 Global Robotic Total Stations for Construction Production Capacity (2017-2028)
2.2 Global Robotic Total Stations for Construction Production by Region: 2017 VS 2021 VS 2028
2.3 Global Robotic Total Stations for Construction Production by Region
2.3.1 Global Robotic Total Stations for Construction Historic Production by Region (2017-2022)
2.3.2 Global Robotic Total Stations for Construction Forecasted Production by Region (2023-2028)
2.4 North America
2.5 Europe
2.6 China
2.7 Japan
3 Global Robotic Total Stations for Construction Sales in Volume & Value Estimates and Forecasts
3.1 Global Robotic Total Stations for Construction Sales Estimates and Forecasts 2017-2028
3.2 Global Robotic Total Stations for Construction Revenue Estimates and Forecasts 2017-2028
3.3 Global Robotic Total Stations for Construction Revenue by Region: 2017 VS 2021 VS 2028
3.4 Global Robotic Total Stations for Construction Sales by Region
3.4.1 Global Robotic Total Stations for Construction Sales by Region (2017-2022)
3.4.2 Global Sales Robotic Total Stations for Construction by Region (2023-2028)
3.5 Global Robotic Total Stations for Construction Revenue by Region
3.5.1 Global Robotic Total Stations for Construction Revenue by Region (2017-2022)
3.5.2 Global Robotic Total Stations for Construction Revenue by Region (2023-2028)
3.6 North America
3.7 Europe
3.8 Asia-Pacific
3.9 Latin America
3.10 Middle East & Africa
4 Competition by Manufactures
4.1 Global Robotic Total Stations for Construction Production Capacity by Manufacturers
4.2 Global Robotic Total Stations for Construction Sales by Manufacturers
4.2.1 Global Robotic Total Stations for Construction Sales by Manufacturers (2017-2022)
4.2.2 Global Robotic Total Stations for Construction Sales Market Share by Manufacturers (2017-2022)
4.2.3 Global Top 10 and Top 5 Largest Manufacturers of Robotic Total Stations for Construction in 2021
4.3 Global Robotic Total Stations for Construction Revenue by Manufacturers
4.3.1 Global Robotic Total Stations for Construction Revenue by Manufacturers (2017-2022)
4.3.2 Global Robotic Total Stations for Construction Revenue Market Share by Manufacturers (2017-2022)
4.3.3 Global Top 10 and Top 5 Companies by Robotic Total Stations for Construction Revenue in 2021
4.4 Global Robotic Total Stations for Construction Sales Price by Manufacturers
4.5 Analysis of Competitive Landscape
4.5.1 Manufacturers Market Concentration Ratio (CR5 and HHI)
4.5.2 Global Robotic Total Stations for Construction Market Share by Company Type (Tier 1, Tier 2, and Tier 3)
4.5.3 Global Robotic Total Stations for Construction Manufacturers Geographical Distribution
4.6 Mergers & Acquisitions, Expansion Plans
5 Market Size by Angle Accuracy
5.1 Global Robotic Total Stations for Construction Sales by Angle Accuracy
5.1.1 Global Robotic Total Stations for Construction Historical Sales by Angle Accuracy (2017-2022)
5.1.2 Global Robotic Total Stations for Construction Forecasted Sales by Angle Accuracy (2023-2028)
5.1.3 Global Robotic Total Stations for Construction Sales Market Share by Angle Accuracy (2017-2028)
5.2 Global Robotic Total Stations for Construction Revenue by Angle Accuracy
5.2.1 Global Robotic Total Stations for Construction Historical Revenue by Angle Accuracy (2017-2022)
5.2.2 Global Robotic Total Stations for Construction Forecasted Revenue by Angle Accuracy (2023-2028)
5.2.3 Global Robotic Total Stations for Construction Revenue Market Share by Angle Accuracy (2017-2028)
5.3 Global Robotic Total Stations for Construction Price by Angle Accuracy
5.3.1 Global Robotic Total Stations for Construction Price by Angle Accuracy (2017-2022)
5.3.2 Global Robotic Total Stations for Construction Price Forecast by Angle Accuracy (2023-2028)
6 Market Size by Application
6.1 Global Robotic Total Stations for Construction Sales by Application
6.1.1 Global Robotic Total Stations for Construction Historical Sales by Application (2017-2022)
6.1.2 Global Robotic Total Stations for Construction Forecasted Sales by Application (2023-2028)
6.1.3 Global Robotic Total Stations for Construction Sales Market Share by Application (2017-2028)
6.2 Global Robotic Total Stations for Construction Revenue by Application
6.2.1 Global Robotic Total Stations for Construction Historical Revenue by Application (2017-2022)
6.2.2 Global Robotic Total Stations for Construction Forecasted Revenue by Application (2023-2028)
6.2.3 Global Robotic Total Stations for Construction Revenue Market Share by Application (2017-2028)
6.3 Global Robotic Total Stations for Construction Price by Application
6.3.1 Global Robotic Total Stations for Construction Price by Application (2017-2022)
6.3.2 Global Robotic Total Stations for Construction Price Forecast by Application (2023-2028)
7 North America
7.1 North America Robotic Total Stations for Construction Market Size by Angle Accuracy
7.1.1 North America Robotic Total Stations for Construction Sales by Angle Accuracy (2017-2028)
7.1.2 North America Robotic Total Stations for Construction Revenue by Angle Accuracy (2017-2028)
7.2 North America Robotic Total Stations for Construction Market Size by Application
7.2.1 North America Robotic Total Stations for Construction Sales by Application (2017-2028)
7.2.2 North America Robotic Total Stations for Construction Revenue by Application (2017-2028)
7.3 North America Robotic Total Stations for Construction Sales by Country
7.3.1 North America Robotic Total Stations for Construction Sales by Country (2017-2028)
7.3.2 North America Robotic Total Stations for Construction Revenue by Country (2017-2028)
7.3.3 United States
7.3.4 Canada
8 Europe
8.1 Europe Robotic Total Stations for Construction Market Size by Angle Accuracy
8.1.1 Europe Robotic Total Stations for Construction Sales by Angle Accuracy (2017-2028)
8.1.2 Europe Robotic Total Stations for Construction Revenue by Angle Accuracy (2017-2028)
8.2 Europe Robotic Total Stations for Construction Market Size by Application
8.2.1 Europe Robotic Total Stations for Construction Sales by Application (2017-2028)
8.2.2 Europe Robotic Total Stations for Construction Revenue by Application (2017-2028)
8.3 Europe Robotic Total Stations for Construction Sales by Country
8.3.1 Europe Robotic Total Stations for Construction Sales by Country (2017-2028)
8.3.2 Europe Robotic Total Stations for Construction Revenue by Country (2017-2028)
8.3.3 Germany
8.3.4 France
8.3.5 U.K.
8.3.6 Italy
8.3.7 Russia
9 Asia Pacific
9.1 Asia Pacific Robotic Total Stations for Construction Market Size by Angle Accuracy
9.1.1 Asia Pacific Robotic Total Stations for Construction Sales by Angle Accuracy (2017-2028)
9.1.2 Asia Pacific Robotic Total Stations for Construction Revenue by Angle Accuracy (2017-2028)
9.2 Asia Pacific Robotic Total Stations for Construction Market Size by Application
9.2.1 Asia Pacific Robotic Total Stations for Construction Sales by Application (2017-2028)
9.2.2 Asia Pacific Robotic Total Stations for Construction Revenue by Application (2017-2028)
9.3 Asia Pacific Robotic Total Stations for Construction Sales by Region
9.3.1 Asia Pacific Robotic Total Stations for Construction Sales by Region (2017-2028)
9.3.2 Asia Pacific Robotic Total Stations for Construction Revenue by Region (2017-2028)
9.3.3 China
9.3.4 Japan
9.3.5 South Korea
9.3.6 India
9.3.7 Australia
9.3.8 China Taiwan
9.3.9 Indonesia
9.3.10 Thailand
9.3.11 Malaysia
10 Latin America
10.1 Latin America Robotic Total Stations for Construction Market Size by Angle Accuracy
10.1.1 Latin America Robotic Total Stations for Construction Sales by Angle Accuracy (2017-2028)
10.1.2 Latin America Robotic Total Stations for Construction Revenue by Angle Accuracy (2017-2028)
10.2 Latin America Robotic Total Stations for Construction Market Size by Application
10.2.1 Latin America Robotic Total Stations for Construction Sales by Application (2017-2028)
10.2.2 Latin America Robotic Total Stations for Construction Revenue by Application (2017-2028)
10.3 Latin America Robotic Total Stations for Construction Sales by Country
10.3.1 Latin America Robotic Total Stations for Construction Sales by Country (2017-2028)
10.3.2 Latin America Robotic Total Stations for Construction Revenue by Country (2017-2028)
10.3.3 Mexico
10.3.4 Brazil
10.3.5 Argentina
10.3.6 Colombia
11 Middle East and Africa
11.1 Middle East and Africa Robotic Total Stations for Construction Market Size by Angle Accuracy
11.1.1 Middle East and Africa Robotic Total Stations for Construction Sales by Angle Accuracy (2017-2028)
11.1.2 Middle East and Africa Robotic Total Stations for Construction Revenue by Angle Accuracy (2017-2028)
11.2 Middle East and Africa Robotic Total Stations for Construction Market Size by Application
11.2.1 Middle East and Africa Robotic Total Stations for Construction Sales by Application (2017-2028)
11.2.2 Middle East and Africa Robotic Total Stations for Construction Revenue by Application (2017-2028)
11.3 Middle East and Africa Robotic Total Stations for Construction Sales by Country
11.3.1 Middle East and Africa Robotic Total Stations for Construction Sales by Country (2017-2028)
11.3.2 Middle East and Africa Robotic Total Stations for Construction Revenue by Country (2017-2028)
11.3.3 Turkey
11.3.4 Saudi Arabia
11.3.5 UAE
12 Corporate Profiles
12.1 Hexagon
12.1.1 Hexagon Corporation Information
12.1.2 Hexagon Overview
12.1.3 Hexagon Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.1.4 Hexagon Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.1.5 Hexagon Recent Developments
12.2 Topcon
12.2.1 Topcon Corporation Information
12.2.2 Topcon Overview
12.2.3 Topcon Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.2.4 Topcon Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.2.5 Topcon Recent Developments
12.3 Trimble
12.3.1 Trimble Corporation Information
12.3.2 Trimble Overview
12.3.3 Trimble Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.3.4 Trimble Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.3.5 Trimble Recent Developments
12.4 CST/berger
12.4.1 CST/berger Corporation Information
12.4.2 CST/berger Overview
12.4.3 CST/berger Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.4.4 CST/berger Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.4.5 CST/berger Recent Developments
12.5 South
12.5.1 South Corporation Information
12.5.2 South Overview
12.5.3 South Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.5.4 South Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.5.5 South Recent Developments
12.6 FOIF
12.6.1 FOIF Corporation Information
12.6.2 FOIF Overview
12.6.3 FOIF Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.6.4 FOIF Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.6.5 FOIF Recent Developments
12.7 Boif
12.7.1 Boif Corporation Information
12.7.2 Boif Overview
12.7.3 Boif Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.7.4 Boif Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.7.5 Boif Recent Developments
12.8 Changzhou Dadi Surveying Science & Technology
12.8.1 Changzhou Dadi Surveying Science & Technology Corporation Information
12.8.2 Changzhou Dadi Surveying Science & Technology Overview
12.8.3 Changzhou Dadi Surveying Science & Technology Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.8.4 Changzhou Dadi Surveying Science & Technology Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.8.5 Changzhou Dadi Surveying Science & Technology Recent Developments
12.9 HILTE
12.9.1 HILTE Corporation Information
12.9.2 HILTE Overview
12.9.3 HILTE Robotic Total Stations for Construction Sales, Price, Revenue and Gross Margin (2017-2022)
12.9.4 HILTE Robotic Total Stations for Construction Product Model Numbers, Pictures, Descriptions and Specifications
12.9.5 HILTE Recent Developments
13 Industry Chain and Sales Channels Analysis
13.1 Robotic Total Stations for Construction Industry Chain Analysis
13.2 Robotic Total Stations for Construction Key Raw Materials
13.2.1 Key Raw Materials
13.2.2 Raw Materials Key Suppliers
13.3 Robotic Total Stations for Construction Production Mode & Process
13.4 Robotic Total Stations for Construction Sales and Marketing
13.4.1 Robotic Total Stations for Construction Sales Channels
13.4.2 Robotic Total Stations for Construction Distributors
13.5 Robotic Total Stations for Construction Customers
14 Market Drivers, Opportunities, Challenges and Risks Factors Analysis
14.1 Robotic Total Stations for Construction Industry Trends
14.2 Robotic Total Stations for Construction Market Drivers
14.3 Robotic Total Stations for Construction Market Challenges
14.4 Robotic Total Stations for Construction Market Restraints
15 Key Finding in The Global Robotic Total Stations for Construction Study
16 Appendix
16.1 Research Methodology
16.1.1 Methodology/Research Approach
16.1.2 Data Source
16.2 Author Details
16.3 Disclaimer