Yahoo Finance Educational Robot Market by Type, Component, Education Level and Region - Global Forecast to 2027
Global Educational Robot Market
Dublin, Oct. 04, 2022 (GLOBE NEWSWIRE) -- The "Global Educational Robot Market by Type (Humanoid Robots, Collaborative Industrial Robots), Component (Sensors, End Effectors, Actuators, Controllers), Education Level (Higher Education, Special Education) - Forecast to 2027" report has been added to ResearchAndMarkets.com's offering.
The global educational robot market size is expected to grow from USD 1.4 billion in 2022 to USD 3.2 billion by 2027, at a CAGR of 17.3% during the forecasted period.
Collaborative robots are becoming more affordable and are easier to program, especially for novice users. Universities are studying how to utilize the potential of collaborative robots across several different industries by uncovering new uses and applications, improving existing applications, enhancing robot efficiency, and studying robots' effects on health and occupational safety in the workplace.
For instance, the US, universities such as Johns Hopkins, The University of Maryland, Virginia Tech, Marshall University, and others have dedicated collaborative robot education centers that expose students to collaborative robots and offer robotics research opportunities.
Software is the fastest growing segment of educational robot market during the forecast period
New software solutions are being developed for use in industrial and service robots. Industrial robots require preventive maintenance because multiple robots are functioning at the same time. 5G connectivity is now also being tested for networking industrial robots. For service robots, AI plays a vital role in advancing humanoid robots for functions such as movement, speech recognition and object identification. Hence, the market for software components is expected to grow at a faster rate during the forecast period.
Special education segment is the fastest growing segment of educational robot market by 2027
The educational robot market for special education is expected to grow at the highest CAGR between 2022 and 2027. Humanoid robots hold a niche but dedicated market for catering to children with special needs. Collaborative robot technology is also being explored for assisting differently abled people. In some cases, collaborative robots are being used as assistive arms for differently abled people. Their inherently safe design allows them to be used alongside humans. Their penetration is currently limited. Kinova Robots (Canada) is one of the very few companies that has developed assistive robots using collaborative robot technology.
Europe is the second fastest growing market for educational robot during the forecast period
Unlike many countries in Europe, universities in the UK have an English-dominant curriculum, which makes it an attractive destination for foreign students looking to get a degree in robotics. Educational institutions in the UK also collaborate with other educational centers worldwide to strengthen educational partnerships with other countries.
This enables the collaboration of students from different universities in robotics projects as well as the sharing of new developments across universities in the field of robotics.
Also, the education sector in the UK has already shifted to a digital learning environment, which is facilitating robotics education in schools. Apart from Germany, Italy is the only country in Europe that houses robotics companies, such as Comau and CMA Robotics. These instances are the few driving factors enabling the growth of educational robot market in Europe.
Key Topics Covered:
1 Introduction
2 Research Methodology
3 Executive Summary
4 Premium Insights
4.1 Attractive Opportunities in Educational Robot Market
4.2 Educational Robot Market, by Type
4.3 Educational Robot Market, by Component
4.4 Educational Robot Market in North America, by Type Vs. by Country
4.5 Educational Robot Market, by Education Level
4.6 Educational Robot Market, by Region
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.1.1 Increasing Deployment of Robots in Manufacturing Industries to Promote New Job Opportunities
5.2.1.2 Surging Demand for Collaborative Robots in Education and Industrial Sectors
5.2.1.3 Growing Research and Developments Related to Humanoid Robots to Transform Service Sector
5.2.2 Restraints
5.2.2.1 High Costs Associated with Educational Robots
5.2.3 Opportunities
5.2.3.1 Introduction of Industrial Robots in High Schools
5.2.3.2 Designing Humanoid Robots for Students with Special Needs
5.2.4 Challenges
5.2.4.1 Lack of Interoperability Standards in Robotic Industry
5.2.4.2 Difficulties Faced by Training Centers to Conduct Hands-On Training
5.3 Value Chain Analysis
5.4 Ecosystem/Market Map
5.4.1 Educational Robot Oems
5.4.2 Suppliers
5.4.3 Robot Integrators
5.4.4 Distributors
5.4.5 It/Big Data Companies
5.4.6 Software Solutions Providers
5.4.7 Research Centers
5.5 Price Analysis
5.6 Technology Analysis
5.6.1 Key Technologies and Trends
5.6.1.1 Integration of Vision Systems with Industrial Robots
5.6.1.2 Growing Commercial Use of Humanoid Robots
5.6.2 Complementary Technologies
5.6.2.1 Penetration of IIoT and Ai in Industrial Manufacturing
5.6.2.2 Integration of Ai with Robots
5.6.2.3 Research on Standard Os for Robots
5.6.3 Adjacent Technology
5.6.3.1 Penetration of 5G in Industrial Manufacturing
5.7 Porter's Five Forces Model
5.8 Case Studies
5.8.1 Motlow College Becomes Abb Robotics Education Affiliate
5.8.2 Madison College Students Gain First Place in Industrial Robotics Competition
5.8.3 University of Toronto Acquired Six Kuka Robots
5.8.4 Talos Humanoid Robot Introduced at University of Edinburgh
5.8.5 Talos Humanoid Robot Introduced at University of Waterloo
5.9 Trade Data
5.10 Patent Analysis
5.11 Tariffs
5.12 Regulations
5.12.1 North America
5.12.2 Europe
5.12.3 Asia-Pacific
6 Educational Robot Market, by Type
6.1 Introduction
6.2 Service Robots
6.2.1 Humanoid Robots
6.2.1.1 Humanoid Robots are Most Complex Type of Service Robots
6.2.2 Non-Humanoid Robots
6.2.2.1 Non-Humanoid Robots Offer Greater Computer-Aided Creativity Compared to Humanoid Robots
6.3 Industrial Robots
6.3.1 Robot Manufacturers Offer Low-Payload Industrial Robots for Educational Use
6.4 Impact of COVID-19 on Educational Robot Types
7 Educational Robot Market, by Component
7.1 Introduction
7.2 Hardware
7.2.1 Robotic Arms
7.2.1.1 Industrial Robots Consist of Multi-Linked Arms Having Six to Seven Axes
7.2.2 End Effectors
7.2.2.1 End Effectors are Integral Part of Any Industrial Robot
7.2.3 Actuators/Drives
7.2.3.1 Electrical
7.2.3.1.1 Electrical Actuators are Much More Efficient Compared to Hydraulic Actuators
7.2.3.2 Pneumatic
7.2.3.2.1 Pneumatic Actuators Convert Electric Energy into Mechanical Energy
7.2.3.3 Hydraulic
7.2.3.3.1 Hydraulic Actuators are Used Where Heavy Forces and High Speed are Required
7.2.3.4 Piezoelectric
7.2.3.4.1 Piezoelectric Actuators Use Converse Piezoelectric Effect for Operation
7.2.3.5 Ultrasonic
7.2.3.5.1 Ultrasonic Actuators are Used to Control Vibrations, Positioning Applications, and Quick Switching
7.2.4 Control Systems/Controllers
7.2.4.1 Controllers Allow All Parts of Robot to Operate Together
7.2.5 Sensors
7.2.5.1 Gyroscopes
7.2.5.1.1 Gyroscopes are Used to Sense Angular Velocity in Three Dimensions
7.2.5.2 Microphones
7.2.5.2.1 Microphone Arrays are Used for Speech and Speaker Recognition Applications in Educational Robots
7.2.5.3 Accelerometers
7.2.5.3.1 Accelerometers Can Sense Wide Range of Non-Gravitational Acceleration Forces
7.2.5.4 Tilt Sensors
7.2.5.4.1 Tilt Sensors Can Measure Tilt Angle with Ground Plane Reference
7.2.5.5 Force/Torque Sensors
7.2.5.5.1 Force/Torque Sensors are Mainly Used in Collaborative Robots to Detect Collisions
7.2.5.6 Position Sensors
7.2.5.6.1 Position Sensors Measure Distance Traveled by a Robotic System from Its Reference Position
7.2.5.7 Vision/Image Sensors
7.2.5.7.1 Cmos Sensors are Widely Used in Cameras and Vision Systems
7.2.5.8 Others
7.2.6 Power Source Systems
7.2.6.1 Service Robots Mainly Use Batteries to Operate
7.2.7 Others
7.3 Software
7.3.1 Software is Designed Using Coded Commands So That Robots Can Carry Out Specific Tasks
8 Educational Robot Market, by Education Level
8.1 Introduction
8.2 Elementary and High School Education
8.2.1 Humanoid Robots are Widely Used as Learning Assistants at Elementary School Level
8.3 Higher Education
8.3.1 Service Robots are Extensively Used in Higher Education
8.4 Special Education
8.4.1 Educational Robots are Mostly Adopted for Special Education to Provide Unique and Interactive Solutions for Children
9 Educational Robot Market, by Region
10 Competitive Landscape
10.1 Overview
10.2 Market Evaluation Framework
10.2.1 Product Portfolio
10.2.2 Regional Focus
10.2.3 Manufacturing Footprint
10.2.4 Organic/Inorganic Play
10.3 Market Share Analysis: Educational Robot Market, 2021
10.4 5-Year Company Revenue Analysis
10.5 Company Evaluation Quadrant
10.5.1 Stars
10.5.2 Emerging Leaders
10.5.3 Pervasive Players
10.5.4 Participants
10.5.5 Company Footprint
10.6 Start-Up/Sme Evaluation Matrix
10.6.1 Progressive Companies
10.6.2 Responsive Companies
10.6.3 Dynamic Companies
10.6.4 Starting Blocks
10.7 Competitive Situations and Trends
10.7.1 Product Launches
10.7.2 Acquisitions, Partnerships, Collaborations, Agreements, & Joint Ventures
10.7.3 Contracts and Expansions
11 Company Profiles
11.1 Key Players
11.1.1 Abb
11.1.2 Yaskawa
11.1.3 Fanuc
11.1.4 Kuka
11.1.5 Universal Robots
11.1.6 Softbank Robotics Group
11.1.7 Robotis
11.1.8 Pal Robotics
11.1.9 Ubtech Robotics
11.1.10 Hanson Robotics
11.2 Other Key Players
11.2.1 Seiko Epson
11.2.2 Hyulim Robot
11.2.3 Probotics America
11.2.4 Aisoy Robotics
11.2.5 Sanbot Innovation
11.2.6 Techman Robot
11.2.7 Dji
11.2.8 Wonder Workshop
11.2.9 Pitsco
11.2.10 Robolink
11.2.11 Roboterra
12 Adjacent and Related Markets
13 Appendix
For more information about this report visit https://www.researchandmarkets.com/r/dazhr4
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