Introduction
AGen ADMS Server-based push technology software enables seamless, real-time data synchronization between hundreds of time recording devices and a centralized server. By allowing terminals such as fingerprint scanners, facial recognition units, and card-based readers to actively transmit data, the system ensures attendance records are always current without manual intervention.
Designed to operate reliably across complex network environments, it supports WAN and LAN infrastructures, VPN connections, public internet access, GPRS, until 5G wireless communication, and even offline data collection via USB when network access is unavailable. This flexible and automated approach minimizes data delays, reduces administrative workload, and enhances system reliability, making it ideal for organizations with distributed locations, diverse network conditions, and high requirements for accuracy and operational efficiency.
Feature
Real-Time Data Push - Automatically synchronizes attendance data from devices to the central server instantly.
Multi-Device Support - Compatible with fingerprint, facial recognition, and card-based time attendance terminals.
Centralized Data Management - Consolidates records from hundreds of devices into a single, centralized database.
Multi-Network Connectivity - Supports WAN, LAN, VPN, public internet, and GPRS wireless connections.
Automatic Device Registration - New terminals can auto-register with the server once connected to the network.
Offline Data Collection & USB Import - Allows manual data transfer via USB when network connectivity is unavailable.
Data Reliability & Retry Mechanism - Automatically retries data transmission during temporary network failures to prevent data loss.
Secure Communication - Supports https data transmission to protect sensitive employee information.
Remote Device Monitoring - Enables centralized monitoring of device status, connectivity, and data flow.
Scalable Architecture - Designed to handle growing numbers of devices and users without performance degradation.