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Research Report on Global Handheld 3D LiDAR scanner Market

June 25, 2024

Latest company news about Research Report on Global Handheld 3D LiDAR scanner Market

A handheld 3D LiDAR scanner is a portable device used to capture the geometric shape and surface details of objects or scenes in 3D. It operates by emitting laser beams to scan the target, and calculates the object's distance and shape by measuring the reflection or echo of light.

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Such scanners typically consist of the following components:

Laser emitter: Emits laser beams to scan the target object.

Receiver: Collects the laser beams reflected from the target object.

Control unit: Manages the emission and reception processes of the laser, and processes the scanning data.

Software: Processes the scanning data to generate 3D models and for subsequent analysis.

When using a handheld 3D LiDAR scanner, the operator aims the scanner at the target object and scans it from different angles and positions. The laser beam creates many points on the object's surface, forming a point cloud dataset. By performing multiple scans from various angles and positions, a more complete point cloud dataset can be obtained.

After scanning, the scan data can be imported into related software for processing. By processing and aligning the point cloud data, 3D models of the target object can be generated. These models find applications in industrial design, architectural measurement, cultural heritage preservation, and other fields.

The handheld 3D LiDAR scanner offers the advantages of portability and flexibility, allowing scanning in diverse environments and suitability for small or immobile target objects. Widely applied across multiple industries, it provides users with a high-precision, rapid solution for acquiring three-dimensional data.

According to the latest research report by QY Research, the global market size for handheld 3D LiDAR scanners was approximately $367.4 million in 2023 and is projected to reach $665.6 million by 2029, with a compound annual growth rate (CAGR) of 10.41% over the coming years.

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Navigating through congested parking garages can be a daunting task. Handheld LiDAR scanners offer a practical solution by quickly mapping the garage's layout, including columns, walls, and parking spaces. This data can be integrated into navigation systems, enabling drivers to find available parking spaces efficiently and reducing traffic congestion.


Key Drivers

Growing Demand Across Industries: Industries such as Architecture, Engineering, Construction (AEC), Automotive, Healthcare, and Manufacturing have a rising need for high-precision digital models and 3D scanning applications, driving the growth of the handheld 3D LiDAR scanner market.

Real-time Data Capture Capability: Handheld 3D LiDAR scanners can capture accurate and detailed 3D data in real-time, making them ideal for on-site measurement and inspection, thus promoting their adoption.

Advancements in Laser Scanning Technology: Progress in laser scanning technology, such as the development of high-resolution sensors, improved scanning speeds, and enhanced data processing capabilities, is enhancing the performance of handheld 3D LiDAR scanners and driving market growth.

Increased Applications in Reverse Engineering and Quality Control: Handheld 3D LiDAR scanners are increasingly used in reverse engineering, quality control, inspection, and rapid prototyping applications, which is fostering market expansion.

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Key Barriers

High Initial Costs: A significant constraint in the handheld 3D LiDAR scanner market is the relatively high initial costs associated with acquiring these devices. Advanced technology, precision, and functionality typically require substantial upfront investment, which may hinder widespread adoption across all sectors, especially for small businesses with limited budgets.

Complexity and Skill Requirements: Effectively using handheld 3D LiDAR scanners requires a certain level of technical expertise and training. Operators need to understand device setup, operation, data management, and accurate interpretation of results. The complexity of this technology could limit its adoption in industries or regions facing a shortage of skilled technical personnel.

Data Processing Challenges: While advancements in data processing capabilities improve the performance of handheld 3D LiDAR scanners, managing the large volume of data generated during scanning remains a challenge. This can lead to project delays and additional costs associated with data processing software and hardware.

Limited Range and Field of View: Handheld 3D LiDAR scanners often have limitations in scanning range and field of view. This means they may not be suitable for scanning larger objects or environments, requiring multiple scans and post-processing to create complete 3D models. This limitation could restrict applications such as large-scale construction projects.



Miniaturization and Portability: A trend in handheld 3D LiDAR scanner development is becoming more compact and portable, enhancing usability in various environments. This trend enables users to carry scanners to remote or hard-to-reach locations for on-site measurements.

Enhanced Data Processing Software: Continued improvements in data processing software are expected. These advancements will streamline the handling of large scan data volumes, making them more accessible and efficient for users with varying levels of technical expertise.

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