The 3D Body Scanners market was evaluated at $3.26 billion in 2021, and it is projected to reach $ 6.33 billion by the end of 2027, with a CAGR of 14.5 % during the forecast period (2022 - 2027).3D Body Scanner technology has yet to have a significant impact in home and private settings, it is widely employed in the entertainment and media industries to create video games and films. Other industries that benefit from these devices include healthcare, and manufacturing, among others, where they can be used for onsite manufacture. A growing number of applications have used 3D Body Scanners to drive innovation.
3D scanning is a technique for capturing the three-dimensional qualities of an object, as well as data like color and texture. This technology aids in the reduction of production time, cost, and effort while also enhancing output quality. It aids in the exact representation of a particle as well as the clear visualization of a component. There is a slew of highly advanced imaging applications hitting the market. 3D scanners are a key element of the total value chain since they facilitate printing and imaging applications.3D Body scanning is widely utilized in healthcare and is becoming more widely employed in the media and entertainment industries. Furthermore, technical improvements have enabled end-users to do in-depth scanning across a variety of industry verticals.
3D Body Scanners are used in the media and entertainment sector to create digital or 3D models for virtual filmmaking and video games. Rather than constructing them from scratch, 3D models are built by scanning real items, including actors. 3D scanners, when combined with CAD software, enable designers to produce costumes and props in just a few hours. Scanning is used in the gaming business to investigate people, things, and the environment to create realistic simulations through gamification. To provide players with a better user experience, the majority of game producers have begun to use 3D Body Scanning to build gaming characters.
The rising use of 3D Scanners for 3D images of patient’s bodies is driving this market growth
The use of 3D scanners for three-dimensional portraiture and motion graphics of human models, as well as their use in human movement analysis, forensic surveillance, and hearing investigations, is driving the industry. Furthermore, in the medical domain, they are largely utilized for lung function tests, custom prostheses, and breast topography, as well as body deformities, glaucoma, orthodontics, and orthopedic surgery, all of which are expected to fuel market growth throughout the forecast period.
Growing demand for 3D Body Scanning for the apparel industry helps to drive the market
3D body scanning technology is used to create custom-fit clothing, size predictions, virtual try-on, and personalized patterns for home sewers, among other things. It enables businesses to collect three-dimensional data about each customer in real-time and provide tailored sizing and design options.It enables customers to benefit from the most contemporary form of custom-tailoring. The ultimate purpose of this technological advancement is to deliver relevant information to customers and assist them in selecting the proper gear with a great fit.
The 3D Body Scanners Market's growth is being stifled by the high costs of 3D Scanner Devices
3D scanning is still in its infancy, with relatively little awareness among retailers and producers, as well as its application in the fashion business. The cost of body scanning is just too high for people with an ordinary income to afford it. Because this 3D technique is not effectively integrated with computer systems, buyers are rarely able to choose a design on their own. They must rely on a competent designer to use the body data to adjust the design pattern and make personalized clothing that fits the customer perfectly. This complicates and increases the cost of the body scanning procedure.
Stationary 3D scanners are attached to a tripod or arm that is fixed in place. These scanners are typically used to scan huge things. These scanners require little monitoring and contact from the operator, but they can produce precise results in a short amount of time.
Furthermore, demand for handheld 3D scanners is predicted to increase over the projection period, as these scanners aid in accessing hard-to-reach places. Handheld scanners, unlike stationary scanners, can catch things of varying sizes, ranging from a specific portion of the body to the entire body.
Due to its application in many stages of product design creation and implementation, the industrial manufacturing market has the largest share. 3D scanning is a useful tool since it allows you to collect the data you need in the shortest amount of time possible, allowing you to speed up your industrial workflow. It also aids in swiftly identifying flaws in existing items for future prototypes.
Furthermore, three-dimensional scanning allows medical experts to analyze body parts in-depth before surgical treatment, therefore the healthcare industry is predicted to have the highest CAGR in the future years. Various 3D printed medical equipment, prosthetics, and medical models can be manufactured using 3D scanning.
North America is thought to have a sizable market share. Rising consumer spending power, access to a variety of digital touchpoints, ongoing technological advancements in 3D scanning, and growth in the need for exceptionally accurate 3D scanning all contribute to the expansion. Furthermore, a surge in the demand for enormous volumes of 3D data for modeling and analysis is projected to fuel the market opportunity.
Due to the rising industrial sector in countries like China, India, Japan, and South Korea, the Asia Pacific 3D Body Scanner market accounted for over 30% of revenue share in 2020. Scanning systems for micron-level electronics inspection will become more popular as the consumer electronics markets in South Korea and China develop.
The rising use of scanning in numerous areas, including healthcare, entertainment, and manufacturing, has given Europe a stronghold on the global market. Growing company attention to 3D printing, as well as 3D machine vision, are some of the drivers propelling the European market forward.
In the coming years, the Middle East and Africa, as well as Latin American countries, are likely to rise significantly. Companies and governments in nations such as the United Arab Emirates, Saudi Arabia, Brazil, and Argentina are abandoning oil and gas in favor of investing in a range of other areas, including technology.
Major Key Players in the Market
Market Insights and Developments
COVID-19 impact on the Smart Security Systems Market
In 2020, the outbreak of COVID-19 had a substantial impact on the expansion of 3D Body scanning; nevertheless, by the end of 2022, demand for virtual reality and augmented reality solutions is predicted to expand at a pretty high rate. Nonetheless, other challenges occurred as a result of the COVID-19 epidemic, such as a scarcity of experienced staff and project delays or cancellations as a result of global partial and complete lockdown. During the projection period, however, the 3D Body Scanner market will develop due to the increased adoption of 3D scanning solutions in the healthcare, entertainment, and commercial sectors.
Chapter 1. Global 3D Body Scanners Market – Scope & Methodology
1.1. Market Segmentation
1.3. Research Methodology
1.4. Primary Sources
1.5. Secondary Sources
Chapter 2. Global 3D Body Scanners Market – Executive Summary
2.1. Market Size & Forecast – (2022 – 2027) ($M/$Bn)
2.2. Key Trends & Insights
2.3. COVID-19 Impact Analysis
2.3.1. Impact during 2022 - 2027
2.3.2. Impact on Supply – Demand
Chapter 3. Global 3D Body Scanners Market – Competition Scenario
3.1. Market Share Analysis
3.2. Product Benchmarking
3.3. Competitive Strategy & Development Scenario
3.4. Competitive Pricing Analysis
3.5. Supplier - Distributor Analysis
Chapter 4. Global 3D Body Scanners Market Entry Scenario
4.1. Case Studies – Start-up/Thriving Companies
4.2. Regulatory Scenario - By Region
4.3 Customer Analysis
4.4. Porter's Five Force Model
4.4.1. Bargaining Power of Suppliers
4.4.2. Bargaining Powers of Customers
4.4.3. Threat of New Entrants
4.4.4. Rivalry among Existing Players
4.4.5. Threat of Substitutes
Chapter 5. Global 3D Body Scanners Market - Landscape
5.1. Value Chain Analysis – Key Stakeholders Impact Analysis
5.2. Market Drivers
5.3. Market Restraints/Challenges
5.4. Market Opportunities
Chapter 6. Global 3D Body Scanners Market – By Type
6.2. Laser 3d Scanners
6.4. Laser 3d Scanners
6.5. Structured Light 3d Scanners
6.6. Optical Scanner
Chapter 7. Global 3D Body Scanners Market – By Device Type
Chapter 8. Global 3D Body Scanners Market- By End User
8.2. Clothing and Fashion Industry
8.4. Media and Entertainment
Chapter 9. 3D Body Scanners Market- By Region
9.1. North America
9.4. Rest of the World
Chapter 10. Global 3D Body Scanners Market – Company Profiles – (Overview, Product Portfolio, Financials, Developments)
10.1. Company 1
10.2. Company 2
10.3. Company 3
10.4. Company 4
10.5 Company 5
10.6. Company 6
10.7. Company 7
10.8. Company 8
10.9. Company 9
10.10. Company 10
Primary & Secondary Sources to Collect & Validate Data
Utilization of Both Top Down & Bottom Up Approach
Holistic Research Methodology
Scope & Introductory Research
In the initial stage of research, the scope for market is defined. In order to better understanding of the market, secondary focus is on different segmentations of the market. Preliminary research involves identifying key data points related to the market under consideration to estimate the market sizes to the best extent.
Based on the scope of the market and the key data points, a number of secondary sources are considered. This data collection stage consists of a team of analysts who gather data from various secondary resources, accessing proprietary databases and primary research by reaching out to key market participants and opinion leaders.
At this stage, collected data using several sources is arranged in structured format. The sources include industry participants, in-house models, key opinion leaders in the market ecosystem and databases. Historical data trends are established at this point, and compared to the current scenario. Based on the macro- and micro-factor prevailing in various geographies, proprietary data models are used to analyze key market countries. Key players in this market are listed based on their capabilities in revenue, sales, and development. The study also involves the identification of companies in the category of 'new entrants' and their potential effects on the market.
At this stage, the analyst team moves on to understand how the market has changed over the years. The total size of the market is gathered after an study of different business segments and end-users is done. An impact research is also done to see what factors will/may influence the market in the years ahead. The effect of various variables on the industry is often taken into account when forecasting market sizes.
Data verification is conducted at all research levels, however this stage is dedicated to more rigorous checking of the data points. At this stage, the estimated data is triangulated with company revenues and checked with industry experts including several senior executives and key opinion leaders in the market. The data is then summarized, and the findings are derived from the same for the report.
Quality Assurance & Report Preparation
Holistic research methodology is followed with combination of Top Down and Bottom Up approach to undertake the estimation and forecasting task in order to ensure quality of data. At this stage of the research process, a dedicated QA team checks the data and approves after several predefined checks. Each section is checked and questioned to make the report accurate and reliable. In case of discrepancy, a team of analysts reviews the issue, and the whole process is repeated again. That significantly improves the report's quality. After approval, all the parts of the report are brought together and is formatted by highly trained team thus making it ready to dispatch.