police patrol robot
Overview:
Based on the AP base station and local privatization mode, the existing resources are fully utilized to further establish and improve the intelligent inspection and emergency collaboration mechanism and enhance the collaboration efficiency of inspection robots. This system integrates monitoring video, GIS business, face and license plate data transmission, infrared temperature measurement, autonomous navigation, autonomous obstacle avoidance and charging, two-way intercom, equipment status and basic information and other businesses.
The RXL-2C police patrol robot integrates multiple navigation methods and has excellent obstacle crossing and climbing performance, adapting to 24-hour fully autonomous security patrol in various complex environments.
The 360-degree high-definition panoramic mobile video surveillance enables all-day video collection without blind spots or dead zones and infrared temperature measurement.
The face and license plate cameras can identify and locate criminals and suspicious persons, assist security personnel in improving response efficiency, and help guide, evacuate and screen people in crowded areas. It can collect information on the environment, people, vehicles and unexpected events, and the two-way intercom enables real-time interaction between the mobile front end and the management platform center.
Features:
Through a combined approach of laser radar obstacle avoidance, visual obstacle avoidance, and ultrasonic radar obstacle avoidance, it can re-plan to stop and avoid dynamic obstacles, ensuring the safety of itself, the environment, and the staff. During the obstacle avoidance process, it maintains a distance of no less than the safety standard from the obstacles.
2. Autonomous Charging
When the robot’s battery level drops below a certain threshold, it will automatically navigate to the preset charging station location and communicate with the charging station to align and complete its own battery charging.
3. Video Perception
The video system consists of high-definition cameras, starlight cameras, infrared night vision/infrared thermal imaging.
The cameras can provide clear images in low-light conditions and offer dynamic image stabilization.
The camera’s infrared function will automatically activate at a certain distance.
4. Audio and Video Perception
Two-way communication: Full-duplex real-time high-definition communication with on-site calls, remote shouting, enabling remote command, warning, and deterrence.
Voice broadcasting: The command center can manually input text or issue audio, and the robot end will perform voice broadcasting, which can achieve policy publicity, police situation notification, etc.
Listening function: The command center can single-handedly listen to the audio information of the robot end.
5. Intelligent Anti-Collision and Fall PreventionA high-stability fall prevention system is adopted. When encountering downward steps, it will automatically stop and alarm to prevent collisions and damage to personnel and equipment.
Specification:
1. Beidou GPS positioning trajectory and playback:
Using GIS maps, real-time transmission of robot position information and video monitoring is provided, facilitating the acquisition of position information, trajectory routes, and operation status. Real-time local storage can be enabled, and videos from different time points can be searched based on different time nodes. The robot’s roaming scene can be re-created, enabling full real-time tracking throughout the process.
2. Online monitoring of robots:
Real-time transmission of gas monitoring, video monitoring, and status information from robots is sent to the visual display screen, enhancing controllability.
3. Statistical analysis:
Statistics on different types of data and percentages of the inspection robots, data monitoring statistics, trend display of equipment quantities.
4. Video data:
Real-time storage of infrared videos, face + license plate videos, and visible light videos on the local server. Playback operations can be performed on videos from different time periods.
5. Multi-task task management:
Set different tasks for different inspection robots and perform remote operations.
6. Platform robot classification management:
Classify robots to different locations for use. Collect data from multiple points to form unified management, and integrate data for use in big data analysis.
7. Full life cycle:
Comprehensively manage the robot’s status, differential GPS, gas parameters, video monitoring, robot information, alarm information, robot data records, trajectory, temperature, power, infrared thermal imaging, face + license plate data, smoke alarm, etc., covering the entire life cycle of the robot.
8. Data sharing:
Using base station network and 4G network technology, all information of the monitoring robots is transmitted, breaking away from the traditional limitation of accessing information and analyzing it at designated locations, truly achieving full local coverage and all-round deployment.
