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Overview
The robotic sensor market size is forecast to reach USD 3,582.46 million by 2030, after growing at a CAGR of 7.65% during 2025-2030. The robotic sensor market is growing rapidly due to the increasing adoption of automation and robotics across industries such as manufacturing, healthcare, logistics, and defense. Robotic sensors are essential for enabling robots to perceive their environment, enhance accuracy, and perform tasks autonomously. The demand for advanced sensors like vision sensors, force/torque sensors, proximity sensors, and tactile sensors is rising as industries seek more sophisticated robotic solutions for applications like assembly, inspection, and navigation.
Report Coverage
The report “Robotic Sensor Market– Forecast (2025-2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the Robotic Sensor market.
By Sensor Type: Laser Sensor, Proximity Sensor, Sound Sensor, Force Sensor, Temperature Sensor, Vision Sensor, Others.
BY Robot Type: Industrial, Service (Professional, Personal & Domestic)
By Process: Mechanical, Chemical.
By End-user Industry: Manufacturing, Military & Defense, Transportation & Logistics, Healthcare, Agriculture, Others.
By Geography: North America, South America, Europe, Asia-Pacific, RoW
Key Takeaways
• On June 26, 2024, Toronto-based robotics sensor and edge AI provider Forcen announced the successful closure of an $8.35 million CAD ($6.12 million USD) funding round, co-led by Brightspark Ventures and BDC Capital’s Deep Tech Venture Fund. This investment, with support from Garage Capital, MaRS IAF, and returning investors such as EmergingVC, underscores the growing interest and financial backing in the robotics sensor market. The funding will enable Forcen to advance its cutting-edge sensor and AI solutions, accelerating the development of more intelligent, autonomous robotic systems and driving further innovation in the robotics sensors.
• On July 20, 2022, the launch of Toposens' 3D Ultrasonic Echolocation Sensor ECHO ONE® marks a significant advancement in sensor technology, addressing the critical need for enhanced safety in mobile robots within industrial environments. With its sophisticated 3D collision avoidance capabilities and advanced processing unit, this sensor is poised to drive growth in the robotics sensor market by offering a solution to the challenges of real-time, precise obstacle detection in dynamic settings.
• On May 26, 2020, GelSight received a $728,000 grant from the National Science Foundation's SBIR Program to develop a compact sensor toolkit aimed at delivering human-like tactile sensing capabilities for robotics. This funding highlights the growing demand for advanced tactile sensors in the robotics industry and is expected to accelerate the adoption of more sophisticated sensing technologies. By enabling robots to replicate human-like touch, this development will drive innovation in robotics, particularly in applications requiring precision, dexterity, and enhanced interaction with their environments, fueling further growth in the robotic sensor market.
By Sensor Type - Segment Analysis
Laser Sensors dominated the robotic sensor market in 2024. Laser sensors have become integral to the advancement of robotic systems, offering precise distance measurement and object detection capabilities that are essential for various applications. In industrial automation, laser sensors are employed for tasks such as object positioning, quality control, and safety monitoring. For instance, in robotic welding processes, laser sensors enable real-time seam tracking, ensuring high precision and adaptability to variations in the workpiece. This application enhances production efficiency and product quality by reducing errors and rework.
By Robot Type- Segment Analysis
Industrial segment dominated the robotic sensor market in 2024. The industrial robotics sector is experiencing significant growth, largely due to the increasing adoption of automation to enhance productivity and precision. Sensors play a pivotal role in enabling robots to perform complex tasks with high accuracy. For instance, in automotive assembly lines, AI-driven robots equipped with advanced sensors monitor the health of machinery, such as robotic arms and conveyor systems, predicting potential malfunctions and allowing maintenance teams to address issues proactively, thereby minimizing production downtime.
By End-user Industry- Segment Analysis
Manufacturing dominated the robotic sensor market in 2024. The robotic sensor market in the manufacturing industry is growing significantly due to the increasing adoption of automation and robotics to enhance productivity, precision, and efficiency. Sensors play a critical role in enabling robots to perform complex tasks such as assembly, inspection, welding, and material handling with high accuracy. The demand for advanced sensors like vision sensors, force/torque sensors, proximity sensors, and tactile sensors is driven by the need for real-time data acquisition and improved decision-making in manufacturing processes. The rise of Industry 4.0 and smart factory initiatives has further accelerated the integration of robotic sensors, as they enable predictive maintenance, quality control, and seamless human-robot collaboration
By Geography - Segment Analysis
North America dominated the robotic sensor market in 2024. The robotic sensor market in North America is experiencing robust growth due to the region's strong focus on automation, technological innovation, and advanced manufacturing processes. The adoption of robotic sensors is being driven by the increasing need for precision, efficiency, and safety across industries such as automotive, aerospace, healthcare, and logistics. In manufacturing, robotic sensors enable tasks like quality control, assembly, and material handling, contributing to enhanced productivity and reduced operational costs.
On May 26, 2020, GelSight received a $728,000 grant from the National Science Foundation's SBIR Program to develop a compact sensor toolkit aimed at delivering human-like tactile sensing capabilities for robotics. This funding highlights the growing demand for advanced tactile sensors in the robotics industry and is expected to accelerate the adoption of more sophisticated sensing technologies. By enabling robots to replicate human-like touch, this development will drive innovation in robotics, particularly in applications requiring precision, dexterity, and enhanced interaction with their environments, fueling further growth in the robotic sensor market.
Drivers – Robotic Sensor Market
• Increasing Demand for Automation Across Industries
The global push towards automation is a significant driver of the robotic sensor market. Industries such as manufacturing, logistics, and healthcare are increasingly integrating robots to enhance efficiency, precision, and productivity. Robotic sensors are essential components that enable robots to perceive their environment, make informed decisions, and execute tasks accurately. For instance, in automotive assembly lines, AI-driven robots equipped with advanced sensors monitor the health of machinery, predicting potential malfunctions and allowing maintenance teams to address issues proactively, thereby minimizing production downtime.
In the logistics sector, companies like Amazon have implemented autonomous mobile robots (AMRs) equipped with LiDAR and vision sensors to streamline warehouse operations. These robots navigate warehouses, avoid obstacles, and transport goods efficiently, reducing the reliance on manual labor and increasing operational efficiency.
• Advancements in Sensor Technologies
Continuous advancements in sensor technologies are propelling the robotic sensor market forward. Developments in areas such as LiDAR, vision sensors, and tactile sensors have significantly enhanced the capabilities of robots, enabling them to perform complex tasks with higher accuracy and reliability. For example, in agriculture, robots equipped with LiDAR sensors are used for crop mapping in orchards and vineyards, detecting foliage growth and the need for pruning or other maintenance, thereby optimizing crop yield and resource usage.
In the realm of human-robot interaction, advancements in tactile sensors are providing robots with human-like dexterity. Companies like Contactile are developing tactile sensors that enable robots to perform autonomous handling and manipulation tasks in unstructured environments, allowing them to make real-time decisions and interact more naturally with their surroundings. Furthermore, improvements in AI and machine learning algorithms have enhanced sensor data processing, enabling robots to interpret complex sensory information and adapt to dynamic environments. This has led to the development of robots capable of performing intricate tasks such as climbing and parkour, expanding their applicability across various industries.
Challenges – Robotic Sensor Market
• High Costs and Economic Constraints
The development and integration of advanced robotic sensors often involve substantial financial investments, posing a significant barrier to widespread adoption. High-precision sensors, such as LiDAR and advanced vision systems, can be prohibitively expensive, especially for small and medium-sized enterprises (SMEs). For instance, the cost of implementing autonomous mobile robots (AMRs) in a warehouse setting includes not only the sensors themselves but also the necessary infrastructure upgrades and maintenance expenses. This financial burden can deter companies from adopting robotic solutions, despite the potential long-term benefits in efficiency and productivity.
Additionally, the rapid pace of technological advancements can render existing sensor technologies obsolete, leading to concerns about the longevity and return on investment of such systems. Companies may hesitate to invest in expensive sensor technologies if there is a risk that newer, more efficient solutions will emerge shortly thereafter. This uncertainty can slow the adoption rate of robotic sensors across various industries.
Market Landscape
Technology launches and R&D activities are key strategies adopted by players in the robotic sensor market. in 2024, the robotic sensor market share has been consolidated by the major players accounting for 43% of the share. Major players in the robotic sensor are Keyence Corporation, Rockwell Automation Inc., Honeywell International Inc., Fanuc Corporation, Teledyne Technologies, OMRON Corporation, ATI Industrial Automation Inc., Sensata Technologies Inc., TE Connectivity Ltd., Tekscan Inc., among others.
Developments:
- In June 2024, Keyence has unveiled the LJ-S8000 Series 3D Laser Snapshot Sensor, the first to utilize a motor-driven scanning detection method. This advanced device combines appearance inspection, dimensioning, and detection into a single solution, offers various head models to handle diverse targets, and delivers high-speed imaging in as little as 0.2 seconds.
- In October 2023, OMRON has launched the new FH-SMD Series 3D Vision Sensor designed for robot arms. These sensors can be mounted directly on robots to recognize randomly positioned (bulk) parts in three dimensions, enabling compact assembly, inspection, and pick-and-place operations that are challenging for traditional robots, all while enhancing productivity.
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