Introducing RoboSense E1R: A Breakthrough in Lidar Technology for Robo

At the 2025 World Robot Conference (WRC), the spotlight on innovation was not limited to performance robots showcasing their boxing, dancing, and serving capabilities. A significant highlight was the consensus on the transformative potential of lidar technology in robotics. The conference revealed that 87% of autonomous mobile robots are now equipped with at least one lidar sensor, indicating a shift from lidar being seen as a supplementary accessory to its establishment as an essential component of autonomous systems.

Among the impressive displays, the Qinglong humanoid robot demonstrated its capabilities by precisely executing tasks akin to an "ironworker," while the CASBOT booth featured the full-sized bipedal humanoid robot CASBOT 02, which captivated attendees with its ability to interact effectively with onlookers. At the DOBOT booth, the new DOBOT Atom showcased intricate operations, enhanced by its use of innovative sensors.

As various manufacturers, including Ti5Robot, Hubei Humanoid Robot Innovation Center, Unitree Robotics, Pudu Technology, Yuanluo Technology, and Changxing Power, displayed an array of lidar-equipped robots, one product stood out among the rest: the RoboSense E1R.

RoboSense E1R: Overview and Key Features

The RoboSense E1R is recognized as the world's first all-solid-state digital lidar specifically engineered for robotic applications. This advanced lidar unit represents a leap forward in perception technology, combining robust design with high-performance capabilities to meet the diverse needs of modern robotics.

Key Features:

All-Solid-State Construction: The E1R is built on a solid-state architecture, eliminating moving parts which enhances its reliability and reduces maintenance needs.
High Resolution and Sensitivity: With 144 lines of output, the E1R produces high-resolution data essential for accurate navigation and object detection, even in complex environments.
Wide Field of View: The device offers a 120°×90° field of view, ensuring maximum coverage for obstacle detection and spatial awareness, which is critical for autonomous navigation.
Robust Performance: Enhanced by RoboSense’s proprietary SPAD-SoC technology, the E1R delivers superior data accuracy and anti-interference capabilities, which are vital in environments with high reflective surfaces.
Automotive-Grade Reliability: Designed to meet strict automotive standards, the E1R delivers consistent performance across a range of operational conditions, making it suitable for various applications.

Technical Specifications:

Field of View: 120° (horizontal) × 90° (vertical)
Resolution: 144 lines
Detection Range: Up to 100 meters (depending on environmental conditions)
Operating Temperature: -20°C to +65°C
Weight: Approximately 1 kg
Power Consumption: Low power requirements optimized for mobile platforms
Connectivity: Ethernet interface for seamless integration and data transmission

Application Scenarios for E1R

Autonomous Vehicles: The E1R is perfectly suited for self-driving applications, enabling real-time environmental mapping and safe navigation through intricate urban landscapes.

Logistics and Warehousing: In automated fulfillment centers, the E1R enhances the capabilities of robotic forklifts and delivery systems by enabling precise movement and inventory management.
Agricultural Robotics: Its ability to navigate through varied terrains makes the E1R ideal for agricultural robots engaged in planting, harvesting, and crop monitoring.
Industrial Automation: The E1R can be leveraged in factories for quality inspection processes and automation of assembly lines, significantly improving operational efficiency.
Smart Cities and Infrastructure: Deploying the E1R in smart city contexts can boost public safety, traffic management, and environmental monitoring through enhanced data collection.
Service Robotics: The E1R empowers service robots in sectors such as healthcare and hospitality, allowing them to navigate complex environments while providing essential support.

Conclusion: The Future of Lidar in Robotics

RoboSense's focus on cutting-edge technology, as demonstrated by the E1R, reflects a broader trend within the robotics industry towards integrating sophisticated digital solutions. This transition away from traditional systems to advanced digital architectures is critical for empowering robots to perceive their surroundings more effectively.

The 2025 WRC signals an evolution in the robotics domain, showcasing the importance of lidar technology in enhancing operational capabilities across various applications. The E1R exemplifies this shift, standing as a testament to what advanced lidar can achieve in robotics.

Through its innovative design and exceptional performance capabilities, the RoboSense E1R is set to redefine standards in robotic perception, driving the industry toward a future where reliable and accurate environmental awareness is the norm.