The TCP / IP protocol suite is the standard requirement for all applications that need to communicate over the Internet. Since TCP / IP applications can not specify the QoS parameters required for most Asynchronous Transfer Mode (ATM) services, we tend to use the GCRA algorithm. The purpose of cellular rate guarantees for traffic through the ATM network is to provide QoS. ATM is a connection-oriented switching technology, which uses statistical multiplexing of fixed-length packets, known as cells.
The purpose of traffic control is to minimize congestion. In an ATM network when the source machine continuously sends cells to the target machine through the router machine, there will be a possibility of congestion. When congestion occurs the routing machine can not accept more cells and therefore these cells will be discarded. This causes the regeneration and retransmission of the discarded ATM cells. The objective of this project is to simulate an overflow ATM network and establish a congestion control router based on the GCRA algorithm.
The safety of ATMs is the field of study that points to solutions that provide multiple points of protection against the physical and electronic theft of ATMs and the protection of their facilities. From anti-slip defense systems to silent systems, integrated ATM video surveillance cameras and ATM monitoring options, security specialists are poised to help people take advantage of ATM security and ATM loss prevention systems . Implementation is achieved through the use of machine-to-machine (M2M) communications technology. M2M communications is a topic that has recently attracted a lot of attention. It provides real-time monitoring and control without the need for human intervention. The M2M platform idea suggests a new system architecture for positioning and monitoring applications with greater coverage and greater communication efficiency. The objective of the proposed work is to implement a low cost autonomous Embedded Web Server (EWS) based on the ARM11 processor and the Linux operating system using Raspberry Pi. It offers a robust network solution with a wide range of application areas via the Internet. The Web server can run on an embedded system that has limited resources to serve the embedded web page to a web browser. The configuration is proposed for ATM security, which comprises modules namely shutter-block authentication, web-enabled control, sensors and camera control.