industrial 5g router

industrial 5g router

The Routing Information Protocol (RIP) is the most widely used distance vector protocol developed by Xerox in the 1970s. The RIP protocol cluster is part of XNS (Xerox Network Service). The TCP/IP RIP version is an improved version of the Xerox protocol. RIP’s most significant feature is its simplicity of implementation and configuration. the RIP calculates the route based on the number of hops and sends periodic updates to the neighboring industrial LTE routers.

The OSPF protocol was developed in the late 1980s and became an industry-standard in the early 1990s, and is a typical link-state protocol. the main features of OSPF include support for VLSM (variable length subnet mask), fast convergence, and low bandwidth occupancy. the OSPF protocol exchanges link-state information between neighbors so that industrial 3G routers can build a link-state database (LSD). Subsequently, the industrial 3G router calculates an industrial network-wide routing table based on the information in the database, and its path selection is bandwidth-based.

IGRP is a private protocol for the entire industrial network of routers and is only implemented in 4G industrial routers. It also belongs to the distance vector class of protocols and therefore has many things in common with the dual router RIP, such as broadcast updates. The biggest differences from RIP are the measurement methods, load balancing, etc.

IGRP supports multi-path weighted load balancing, allowing for more rational use of network bandwidth. In addition, unlike RIP which uses only hop count as the basis for measurement, IGRP for dual SIM card routers uses a range of parameters including bandwidth, delay, load, reliability, MTU (maximum transmission unit) and many others.

EIGRP is an enhanced version of IGRP and a proprietary routing protocol for industrial routers across the network.EIGRP uses a diffusion update algorithm that is somewhat similar to the distance vector algorithm but with short convergence times and high operability.EIGRP, as an extension of IGRP, supports a variety of routing protocols such as IP, IPX, and ApleTalk. When operating in an IP environment, EIGRP can also be connected smoothly with IGRP, since their measurements are identical.