HANDHELD 3D SCANNERS MARKET

KEY FINDINGS

• Handheld 3D scanners are gaining traction in manufacturing, healthcare, construction, and entertainment due to their versatility, portability, and ability to quickly capture detailed 3D data.

• Continuous improvement in sensor technology, integration of AI, and enhanced software capabilities are fueling market expansion. Users are attracted by improvements in accuracy, resolution, and scanning speed offered by new handheld 3D scanner models.

• Manufacturers are prioritizing the development of lightweight, ergonomic handheld 3D scanners with long battery life and intuitive interfaces to meet user preferences for portability and ease of use.

• Handheld 3D scanners are increasingly used in cultural heritage preservation, forensic research, education, and personal interests, broadening market opportunities.

• AI-powered features automate data processing and alignment tasks, while cloud integration facilitates remote data storage, collaboration, and access, enhancing scanner efficiency.

• New handheld 3D scanners feature advanced software functionalities including automatic mesh generation, real-time visualization, alignment algorithms, and CAD software integration to optimize performance.

• Integration with augmented reality (AR) allows users to overlay scanned 3D images in real-world environments, particularly beneficial in industries like construction for on-site visualization.

• AI and machine learning enhance scanning capabilities with features such as automatic object detection, noise reduction, and adaptive scanning strategies, improving scan accuracy and user experience.

• Manufacturers are developing tailored handheld 3D scanning solutions for sectors such as healthcare (e.g., prosthetics), automotive (e.g., quality control), and archaeology (e.g., archives), catering to unique industry needs.

• With increased digitalization, there is a heightened focus on data security and privacy. Manufacturers incorporate robust encryption protocols and secure data transfer mechanisms to safeguard sensitive 3D scan data from unauthorized access and breaches.

HANDHELD 3D SCANNERS MARKET OVERVIEW

The global market for handheld 3D scanners is rapidly expanding, fueled by their increasing adoption across a wide range of industries and applications.

Handheld scanners are prized for their portability, ease of use, and versatility, making them indispensable tools in industrial manufacturing, quality control, healthcare, archaeology, and education sectors.

Key drivers of market growth include advancements in accuracy, scanning speed, and seamless integration with existing workflows.

Manufacturers and customers alike are showing heightened interest, drawn by improved affordability and enhanced software functionalities.

Handheld 3D scanners are utilized extensively for tasks such as reverse engineering, rapid prototyping, virtual fitting, and documenting cultural heritage artifacts.

To enhance user experience and cater to diverse industry needs, manufacturers are continuously innovating.

They are developing application-specific features and integrating advanced technologies such as artificial intelligence (AI) and augmented reality (AR).

These innovations enable tailored solutions that meet the specific demands of various sectors, ensuring continued expansion and adoption of handheld 3D scanners globally.

HANDHELD 3D SCANNERS MARKET INTRODUCTION

Handheld 3D scanners represent a significant leap in digital technology, transforming the way objects and environments are captured and reconstructed in three dimensions.

Unlike traditional static scanners, these handheld devices offer unmatched flexibility and mobility, revolutionizing industries ranging from manufacturing to healthcare and art.

They enable the precise digital replication of physical objects for a myriad of applications.

Utilizing structured light, laser technology, or depth-enhanced cameras, handheld 3D scanners capture detailed geometric data and convert it into high-resolution 3D models.

The evolution of these scanners has been driven by advancements in sensor technology, data processing capabilities, and sophisticated software algorithms.

They have become indispensable tools across industries, supporting tasks such as reverse engineering, archaeological preservation, and the development of virtual reality assets, empowering users to accurately and efficiently digitize the physical world.

HANDHELD 3D SCANNERS MARKET SIZE AND FORECAST

The Global Handheld 3D Scanners Market was valued at $XX billion in 2023 and is projected to reach $XX billion by 2030, with a compound annual growth rate (CAGR) of XX% from 2024 to 2030.

HANDHELD 3D SCANNERS MARKET TECHNOLOGICAL TRENDS

Improved accuracy and resolution

One of the major trends in handheld 3D scanners is the continued improvement in accuracy and resolution. Manufacturers combine high-resolution cameras, advanced sensors and advanced depth-sensing technologies to obtain finer details and more accurate measurements. This quality is essential for demanding applications greater integrity plays a role, such as construction quality control and comprehensive archaeological analysis. 

Portability and user-friendliness

Handheld 3D scanners are becoming more portable and efficient, making them easier to control and manipulate in different locations. This trend includes miniaturization of the equipment weight, improved grip, and increased battery life for longer scanning times. These enhancements cater to users who need flexibility and mobility when performing scanning tasks, whether in the field or in the shop.

Multi-modal scanning capability

Modern handheld scanners incorporate multi-modal scanning capability, allowing users to capture both geometry (shape) and texture (color) data simultaneously. This capability provides color capture which is in-depth, including RGB cameras combined with light or laser scanning technologies configured to capture accurate geometry. Multimodal scanning is essential to produce realistic 3D images with accurate surface textures.

HANDHELD 3D SCANNERS MARKET NEW PRODUCT LAUNCH

Atlassian Max and Marvelscan

Hexagon launched two groundbreaking handheld 3D scanners, Atlassian Max and MarvelScan, tailored for aerospace industry applications in both indoor and outdoor environments. These scanners represented Hexagon’s debut in the handheld 3D scanning market, offering unparalleled versatility. Atlassian Max and MarvelScan were designed to be highly portable, supporting a variety of tasks such as manual scanning, automated quality monitoring, and reverse engineering.

Equipped with ergonomic, wireless capabilities, these scanners provided metrology-grade scanning without the constraints of fixtures or specific environmental conditions. Users could effortlessly switch between standard and micro modes to capture both expansive scenes and intricate, high-resolution details. This flexibility streamlined data integration into a cohesive point cloud, eliminating previous limitations and reducing scanning time.

HandySCAN BLACK+

Creaform, a division of AMETEK, Inc., introduced its latest generation of handheld 3D scanners with the launch of the HandySCAN BLACK+|Elite and a redesigned SILVER Series. These advancements were tailored to meet the evolving requirements of metrology professionals and designers aiming to enhance quality control and product development processes.

The HandySCAN BLACK+|Elite set a new benchmark in accuracy, particularly highlighted by the Accu+ Kit, ensuring exceptional volumetric accuracy of 0.020mm + 0.015mm/m. It featured Flex Volume capabilities to expand scanning measurement volume and offered adjustable scanning distances ranging from 200 mm to 700 mm, enhancing versatility across various scanning scenarios.

Certified through rigorous tests compliant with VDI/VDE 2634 Part 3 and ISO 10360 standards for sensor acceptance, the BLACK+|Elite underscored Creaform’s commitment to precision and reliability in the market.

RANGE 2 handheld 3D scanner

Revopoint launched its latest innovation, the RANGE 2 handheld 3D scanner, aimed at revolutionizing the scanning of large objects with its advanced capabilities. Traditionally, the 3D scanning process was constrained by machine size and cost, but the RANGE 2 democratized this by enabling effortless creation of 3D models.

The RANGE 2 featured dual depth cameras utilizing structured infrared light technology, specifically optimized for capturing large objects such as furniture, cars, and even the human body. Unlike smaller scanners that struggled with larger objects, the RANGE 2 excelled with enhanced depth cameras that doubled the sensor size and extended the scanning distance from 400 mm to 1300 mm — a remarkable 60% increase compared to its predecessor. This enhancement enabled fast and accurate capture of objects as large as 860 x 1380 mm with detailed precision.

HANDHELD 3D SCANNERS MARKET SEGMENTATION

By Geography

• • U.S
  • Europe
  • China
  • Asia(Ex-China)
  • ROW

By Technology Type

• • Laser Scanners
  • Structured Light Scanners
  • Depth Camera Scanners
  • Others

By Application

• • Industrial Manufacturing
  • Healthcare and Medical
  • Architecture and Construction
  • Art and Cultural Heritage
  • Education and Research
  • Others

By End User

• • Automotive
  • Aerospace and Defense
  • Consumer Electronics
  • Education and Research Institutions
  • Others

HANDHELD 3D SCANNERS MARKET KEY PLAYERS

• Hexagon AB
• FARO Technologies, Inc.
• Creaform (AMETEK Inc.)
• Trimble Inc.
• Artec 3D
• Revopoint 3D Technologies Inc.
• Shining 3D
• 3D Systems Corporation
• Carl Zeiss AG
• Solutionix Corp

HANDHELD 3D SCANNERS MARKET REPORT WILL ANSWER THE FOLLOWING QUESTIONS

1. What are the key factors driving the uptake of handheld 3D scanners in various industries? 
2. How are sensor technologies in handheld 3D scanners market evolving and what is its impact on industry growth? 
3. What is the projected market size and revenue forecast for the global handheld 3D scanners market over the next five years, considering current adoption rates and technological advancements?
4. What is the typical price range for high-precision handheld 3D scanners suitable for industrial applications, considering factors such as scanning accuracy, portability, and software integration?
5. What are the key features and capabilities that users look for when choosing a handheld 3D scanner? 
6. Which non-traditional industries are looking for new applications with handheld 3D scanners market, and what are the emerging opportunities? 
7. How does the combination of AI, machine learning and cloud computing improve the efficiency of handheld 3D scanners? 
8. What are the latest developments in the software enabled by handheld 3D scanners, and how do they improve overall performance? 
9. What advantages does the integration of AR technology bring to handheld 3D scanners, especially in industries such as manufacturing? 
10. How can AI and machine learning be used to enhance the scanning capabilities of handheld 3D scanners market? 
11. How are handheld 3D scanning solutions customized to the needs of specific industries such as healthcare, automotive, and mining? 
12. What steps are manufacturers taking to ensure data security and privacy in processing 3D scan data?