One of the least automated sectors is the construction industry, as it features manual-intensive labor as the primary source of manufacturing. Whether new business building, demolition, or refurbishment, robots can play a significant part in the life cycle of a building. As an extremely unautomated sector, with the advent of building robots, the building sector can experience a significant effect. As building businesses are looking for more and more duties to automate in order to improve effectiveness and productivity, the demand for building robots is likely to increase soon.
Also, implementing robotics in the construction industry eliminates human problems such as laziness, errors, harm, disputes with employees, and the need for health and safety insurance.
According to market research, the global construction robot market will grow at a CAGR of over 20% during the forecast period 2019–2025.
The construction robots enhance productivity, end product quality; decrease manual activities, resulting in fewer mistakes; shorten building time; reduce expenses, and boost safety in hazardous work settings. Building robots productivity is high when the building materials are standardized and job procedures repeated.
Attracted by expected worldwide market growth and underlying latent demand, a number of players expand their company through strategic mergers and acquisitions and alliances.
With many companies developing new technologies and countless R&D operations, the construction robot market is extremely competitive. The significant players in the worldwide market for construction robot are,
• Built Robotics
• Brokk
• Caterpillar Inc
• Construction Robotics
• Fastbrick Robotics
• Komatsu Ltd
• Apis Cor
• Blueprint Robotics
• Constructions-3D
• Husqvarna AB
• Cybe Construction
• ICON build
• MudBots
• S-Squared 3D Printers
• Total Kustom
• Volvo
• Xtreee
The report classifies the overall construction robot market into sections based on the type and region
Segments Based on Type:
Cartesian robots
A cartesian coordinate robot is an industrial robot whose three main control axes are linear and at correct angles to each other. The three sliding joints correspond to the up-down, in-out, back-forth motion of the wrist.
Cylindrical robots
Cylindrical robots are robots whose axes form a scheme of cylindrical coordinates. The majority of Cylindrical robots consists of two moving components: rotary and linear actuators. Machine developers could pick them for their space economy because they have a cylindrical work envelope. The robot can be put in the center of a workspace and can operate anywhere around it because of its rotational component.
Spherical robots
Spherical robots, are stationary robot arms with spherical or near-sphere job envelopes that can be placed in a polar coordinate system. Typically a spherical robot consists of a spherical shell that serves as the robot's body and an Inner Driving Unit (IDU) that allows the robot to move.
Humanoid robot
A humanoid robot is a robot constructed to resemble the human body with its body form. The design may be for functional reasons, such as interaction with human instruments and surroundings, for testing, or other purposes, such as studies of the bipedal locomotive. In general, humanoid robots have a torso, a head, two arms, and two legs, although some types of humanoid robots, for instance, can only model portion of the body from the tail
SCARA
SCARA is an acronym for the Selective Compliance Articulated Robot Arm, meaning that it is X-Y compliant and Z-axis stiff. The SCARA setup is unique and intended to manage a range of activities in material handling. They are all-in-onene robots, meaning that a SCARA robot, apart from end-of-arm tools, comes with x, y, z and rotary movement in a single set.
Articulated robots
An articulated robot is a robot with rotary joints. Articulated robots range from the basic two-articled structure to systems with 10 or more interacting joints.
2. Segments Based on Region:
Among areas, North America is the worldwide construction robot market's leading income generator with a significant market share contributed by the US. APAC is one of the fastest increasing robotics market in the world, with considerable development in China, Japan, and South Korea. Countries that produced a significant share of worldwide robot building market income in 2018 include the United States, Germany, China, Japan, South Korea, France, and Denmark.
The purpose of this report is to identify, evaluate, and forecast the segment-based worldwide construction robot market, including type, implementation, and area.
Furthermore, the Building Robot Market Report enables venture capitalists to better understand the businesses and make informed choices and is mainly intended to provide strategically significant competitor information, data analysis, and market, creation, and execution of an efficient marketing plan for the company's managers
Table of Contents
Construction Robot Market – Global Forecast up to 2025
1 Executive Summary
1.1 Synopsis of Key Findings
2 Industry Outlook
2.1 Industry Snapshot
2.1.1 Industry Overview
2.1.2 Industry Trends
3 Market Snapshot
3.1 Total Addressable Market
3.2 Segmented Addressable Market
3.2.1 PEST Analysis
3.2.2 Porter’s Five Force Analysis
3.3 Related Markets
4 Market Characteristics
4.1 Market Evolution (Billing in OSS/BSS, Telecom, and IoT Impact)
4.1.1 Ecosystem
4.2 Market Trends and Impact
4.3 Value Chain Analysis (IoT Product, IoT Services, and IoT Applications)
4.4 Market Segmentation
4.5 Market Dynamics
4.5.1 Market Drivers
4.5.2 Market Restraints
4.5.3 Market Opportunities
4.5.4 DRO Impact Analysis
5 By Organization Size – Market Size and Analysis
5.1 Overview
5.2 SMEs
5.3 Large Enterprises
6 By Application – Market Size and Analysis
6.1 Overview
6.2 Commercial Building
6.3 Transportation and Logistics
6.4 Telecom
6.5 Smart Home Appliances
6.6 Government
6.7 Manufacturing
6.8 Others (Healthcare and Farming)
7 By Geography – Market Size and Analysis
7.1 Overview
7.2 North America
7.2.1 US
7.2.2 Canada
7.3 Europe
7.3.1 UK
7.3.2 Germany
7.3.3 France
7.3.4 Rest of Europe
7.4 Asia Pacific
7.4.1 China
7.4.2 Australia
7.4.3 Japan
7.4.4 India
7.4.5 Rest of Asia Pacific
7.5 Middle East Africa
7.5.1 South Africa
7.5.2 UAE
7.5.3 Rest of Middle East Africa
7.6 Latin America
7.6.1 Brazil
7.6.2 Mexico
7.6.3 Rest of Latin America
8 Competitive Landscape
8.1 Competitor Analysis
8.2 Product/Offerings Portfolio Analysis
8.3 Market Developments
8.3.1 Mergers & Acquisitions (M&A), Expansions, and Partnerships
8.3.2 Business Restructuring
8.3.3 Product Launches & Exhibitions
9 Vendor Profiles
9.1 Comarch
9.2 Amdocs
9.3 Ericsson
9.4 Magnaquest
9.5 Cerillion
9.6 JeraSoft
9.7 PortaOne
9.8 BillRun
9.9 NetCracker
9.10 IOT Billing
10 Annexure
10.1 Report Scope
10.2 Market Definition
10.3 Research Methodology
10.3.1 Data Collation & In-house Estimation
10.3.2 Market Triangulation
10.3.3 Forecasting
10.4 Study Declarations
10.5 Report Assumptions
10.6 Stakeholders
10.7 Abbreviations
List of Tables
TABLE 1 KEY FACTS ABOUT CONSTRUCTION INDUSTRY 2018
TABLE 2 GLOBAL CONSTRUCTION ROBOT MARKET 2018–2025 ($MILLION)
TABLE 3 GLOBAL CONSTRUCTION ROBOT MARKET, BY TYPE, 2018–2025 ($MILLION)
TABLE 4 GLOBAL CONSTRUCTION ROBOT MARKET, BY APPLICATION, 2018–2025 ($MILLION)
TABLE 5 GLOBAL CONSTRUCTION ROBOT MARKET, BY GEOGRAPHY, 2018–2025 ($MILLION)
TABLE 6 MAJOR COMPANIES AND THEIR OPERATIONS
TABLE 7 PRODUCT/OFFERINGS: GLOBAL CONSTRUCTION ROBOT MARKET
TABLE 8 MERGER & ACQUISITION, 2013–2019
TABLE 9 EXPANSIONS, 2013–2019
TABLE 10 BUSINESS RESTRUCTURING, 2013–2019
TABLE 13 SAP: OVERVIEW
TABLE 14 SAP: STRATEGIC SNAPSHOT
TABLE 15 SAP: PRODUCT/SERVICE PORTFOLIO
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TABLE XX RESEARCH METHODOLOGY OF GLOBAL CONSTRUCTION ROBOT MARKET: DATA COLLATION AND IN-HOUSE ESTIMATION
TABLE XX RESEARCH METHODOLOGY OF GLOBAL CONSTRUCTION ROBOT MARKET TRIANGULATION
TABLE XX RESEARCH METHODOLOGY OF GLOBAL CONSTRUCTION ROBOT MARKET FORECASTING
List of Figures
CHART 1 GLOBAL CONSTRUCTION ROBOT MARKET 2018
CHART 2 GLOBAL CONSTRUCTION ROBOT MARKET REVENUE, 2018–2025 ($MILLION)
CHART 5 PEST ANALYSIS: GLOBAL CONSTRUCTION ROBOT MARKET
CHART 6 PORTER’S 5 FORCE ANALYSIS: GLOBAL CONSTRUCTION ROBOT MARKET
CHART 7 GLOBAL CONSTRUCTION ROBOT MARKET ECOSYSTEM
CHART 8 SEGMENTATION: GLOBAL CONSTRUCTION ROBOT MARKET
CHART 9 MARKET DYNAMICS – DRIVERS, RESTRAINTS & OPPORTUNITIES
CHART 10 DRO – IMPACT ANALYSIS: GLOBAL CONSTRUCTION ROBOT MARKET
CHART 11 GLOBAL CONSTRUCTION ROBOT MARKET, BY TYPE, 2018
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CHART 18 GLOBAL CONSTRUCTION ROBOT MARKET, BY GEOGRAPHY, 2018
CHART 19 CONSTRUCTION ROBOT MARKET IN APAC, MAR
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