What systems can Pedestrian Turnstile connect to?
turnstile gate with card reader: Pedestrian Turnstile can connect to access control, attendance, visitor and other systems to achieve accurate personnel management. At the same time, it cooperates with card swiping, face recognition, fingerprint recognition and other systems to improve the level of intelligence and security and achieve efficient access management.
Card swiping system(turnstile gate with carder)
Turnstile Gate can connect to the card swiping system and supports multiple card swiping methods. Turnstile Gate is usually equipped with a card reader, which can perform identity authentication and access control by swiping the card. Common card swiping methods include magnetic cards, ID cards, IC cards and radio frequency cards (RFID). The cardholder only needs to bring the card close to the card reader on the Turnstile Gate, and the Turnstile Gate will read the card information and compare it with the data stored in the system. After the comparison is successful, the Turnstile Gate will automatically open.
In addition, Turnstile Gate can also be connected to a variety of systems to achieve more efficient and secure personnel access management. For example, Turnstile Gate can be connected with access control systems, attendance systems, visitor systems, etc. to control access rights to channels, manage employee attendance, and record visitor information. The coordinated use of these systems can greatly improve the intelligence level of Turnstile Gate and achieve safer and more efficient access management for personnel.
Types of Turnstile Gate include Tripod Turnstile, Swing Turnstile, Flap Turnstile, etc., each type is suitable for different scenarios.
For example, Tripod Turnstile is suitable for places with large traffic, Swing Turnstile is suitable for places with medium traffic, and Flap Turnstile is suitable for places with high security requirements.
These different types of Turnstile Gates are combined with different recognition technologies, such as card swiping, QR code scanning, face recognition, etc., to provide flexible and efficient access control management solutions according to different needs.
Face recognition system(turnstile gate with carder)
The face recognition Turnstile Gate(turnstile gate with card reader) is composed of two parts: the face recognition Turnstile Gate(turnstile gate with carder) head and the Turnstile Gate. The difference between the face recognition Turnstile Gate and the Turnstile Gate used alone is that in addition to swiping cards and QR codes to open the gate, the face recognition Turnstile Gate can also open the gate by face recognition (face swiping), which not only improves the experience of entering and exiting, but also improves security.
Face recognition is visual and conforms to people’s thinking habits. To a certain extent, it is more convenient, safe and reliable than passwords and keys. The dynamic face recognition Turnstile Gate(turnstile gate with carder) integrates on-site face collection, identity authentication, blacklist warning, and other functions. From reading ID card information to on-site face photo collection, comparison, and obtaining results, the whole process is automated without the need to increase peripheral hardware configuration. The operation process does not require manual intervention, and the collected information and comparison results can be uploaded to the big data collection platform in real time.
Fingerprint recognition system(turnstile gate with carder)
Turnstile Gate can be connected to the fingerprint recognition system, and this connection method has high security and convenience in access control management. Through the fingerprint recognition module, Turnstile Gate(turnstile gate with carder) can collect fingerprint information of personnel, compare it with the pre-stored fingerprint information, and control the opening and closing of Turnstile Gate after confirming the identity. This docking method not only improves the security of access control management, but also reduces manual intervention and improves management efficiency.
Docking principle of fingerprint recognition system(turnstile gate with carder)
Turnstile Gate collects fingerprint information of personnel through the fingerprint recognition module, and then compares the collected fingerprint with the pre-stored fingerprint information. If the comparison is successful, the control system will send a signal to Turnstile Gate,(turnstile gate with carder) Turnstile Gate opens, and personnel complete the entry and exit. This comparison process is usually controlled by a microprocessor to ensure the accuracy and security of identification.
Advantages of fingerprint recognition system
High security: Fingerprint recognition is unique and difficult to copy, which can effectively prevent illegal intrusion.
Convenience: Users only need to place their fingers on the fingerprint reader to complete identity authentication, which is simple and fast.
High accuracy: Modern fingerprint recognition technology has high recognition accuracy and can accurately verify identity.
Access control system
Turnstile Gate can be connected to the access control system to achieve precise management of personnel access rights. Access control system is the most commonly used docking module of Pedestrian Turnstile, which is mainly used to control access rights to channels. By docking with the access control system, precise management of personnel access rights can be achieved to prevent unauthorized personnel from entering specific areas1.
Docking method
Hardware connection: The +12V and GND terminals on the access control host are connected to the +12V and GND terminals of the access control power supply; the positive terminal of the electric control lock is connected to the NO or NC terminal of the access control power supply (depending on the normally open lock or normally closed lock), usually connected to the NC terminal (power on to open the lock, power off to close the lock); the negative terminal of the electric control lock is connected to the GND terminal of the access control power supply; the PUSH terminal on the access control host is connected to the PUSH terminal of the access control power supply; the card reader is connected to the corresponding signal terminal of the access control host (usually connected to 4 terminals: 12V, GND, DATA0, DATA1).
Functional testing and debugging: After completing the above steps, simulate the visitor’s entry and exit behavior to ensure the normal operation of the access control system.
Functions and application scenarios of Turnstile Gate and access control system
As an intelligent access control system, Turnstile Gate can be connected with a variety of systems to achieve more efficient and safe personnel entry and exit management. In addition to the access control system, Turnstile Gate can also be used in conjunction with the attendance system, visitor system, card swiping system, face recognition system and fingerprint recognition system, greatly improving the level of intelligence and management efficiency.
Palm vein recognition
Turnstile Gate can be connected to the palm vein payment function, but it is still in the pilot stage.
In Shanghai Metro, palm vein payment Turnstile Gate has been piloted and installed at Longyang Road Station and Xingzhong Road Station, but has not yet been put into use. These devices are mainly used for scientific research projects and are limited to project staff for testing and use, and are not open to the public.
In addition, in Foshan Metro, palm vein payment Turnstile Gate has been piloted and launched, and passengers can pass through through palm vein recognition technology. This technology uses infrared imaging technology to capture palm vein images to achieve fast and accurate biometric identification. It is unique, permanent and anti-counterfeiting, providing extremely high identification accuracy and security.
The use of Turnstile Gate for palmprint payment is relatively simple. Passengers only need to open their five fingers and suspend their palms 5-10cm from the center of the circle for identification. This technology is similar to face recognition and fingerprint recognition, and is a type of biometric technology.