The common network of bus topology is a network where clients are connected through cables called a bus. You can learn more about this at the Wikipedia. Once on the website, type "Bus network" into the search field at the top of the page and press enter to bring up the information.
Star
Ease of operation Reliability Low Cost
Yes, a bus topology connects all devices in a network to a single communication line, known as the backbone. Each device taps into this backbone to send and receive data, which allows for a straightforward and cost-effective network setup. However, if the backbone fails, the entire network goes down, making it less reliable than other topologies.
In a bus topology, the purpose of a terminator is to absorb signals at both ends of the bus cable, preventing them from bouncing back and causing network interference. Without terminators, signals could reflect back along the bus, leading to data collisions and communication errors. By ensuring proper signal termination, terminators help maintain the integrity of data transmission across the network.
Tree Topology allows for the expansion of an existing network
bus topology
Bus Topology.
Bus topology as many nodes are connected to single link
Without knowing a bit more about the context, probably "topology".Common network topologies are ring, star, bus and mesh.
Bus star ring mesh hybrid
There are two basic categories of network topologies Physical topologies Logical topologies The shape of the cabling layout used to link devices is called the physical topology of the network. Logical topology is the way the signals act in the network In BUS topology you have "THE LINEAR BUS" and "THE DISTRIBUTED BUS" IN the LINEAR bus all the nodes of the network are connected to a common transmission medium which has 2 end points where as in the DISTRIBUTED, all the nodes are connected to a common transmission medium which has more than 2 end points.
Bus Topology
bus topology and man
Ring Topology, Mesh Topology, Bus Topology, Star Topology
Bus
STAR-Bus
Start with your basic bus topology, where you have a beginning and an end of the network with however many nodes connected in series between. Now, add an identical bus network, except this time start from the other bus network's end and end at this other network's beginning. That's a dual bus topology. This simply provides a single, fail-safe mechanism to the normal bus topology.