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when you're designing building or
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troubleshooting a network you'll be
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using a network topology type that can
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vary depending on the technology you're
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using if you're looking to understand
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the way the data is flowing or you want
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to plan to create a new type of network
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then it's useful to understand what
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these topologies might be this is also
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useful during the troubleshooting
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process because you'll know exactly what
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flow the traffic takes to get between
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point a and point b one of the most
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popular types of topologies is the star
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topology you might also hear this
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referred to as a hub and spoke where the
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hub is in the middle and the spokes are
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along the outside this is a topology
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that you'll find on almost any network
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regardless of the size of the network
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and you'll also find that most devices
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are connecting back to the central hub
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of the star for example a switched
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ethernet network has the ethernet switch
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in the middle of this star and then all
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of the devices run directly back to this
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particular switch they're not connecting
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to each other they're instead connecting
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back to the central switch in this star
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topology
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although we don't often see a ring
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topology used on our local area networks
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it's still a topology type that's used
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quite often for wide area networks so
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although many people will remember the
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older token ring technologies that we
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used to run inside of our local area
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networks we don't generally find those
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ring networks any longer but if you're
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connecting over a metropolitan area
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network or a wide area network we use
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ring networks extensively it's not
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because a ring technology somehow lends
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itself to work better over a wide area
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network it's because we can create
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additional redundancy using the ring
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topology
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for example very common way to send
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traffic over a ring network is to have
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the traffic simply go in a circle now if
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we're on this wide area network and
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there's construction going on and
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someone happens to sever a fiber
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connection that's being used for this
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metropolitan area network then we're not
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going to be able to send that traffic
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through the rest of that ring but the
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devices that are on either side of that
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severed link recognize that traffic is
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no longer able to traverse that
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connection and instead will loop back
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the connection on those individual
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endpoints so instead of having data go
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around a ring the data will instead go
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to as far as it can around the ring and
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then loop back to get to the other side
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of the ring maintaining up time and
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availability even in the case where part
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of that ring may be severed
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early types of ethernet networks were
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not switched ethernet but were instead
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run over coax and this coax was quite
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simply a cable that was run down the
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middle of the room very similar to this
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cable this is a bus network and although
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it was commonly used on those early
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ethernet networks we can still find
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modern networks that use the same bus
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topology
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one problem with bus networks is that it
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is a single cable that is running either
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through the walls or down the center of
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the room and if we happen to have a
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break in this cable you can see
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immediately that it would suddenly
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segment the network into different
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pieces or in some cases cause no data to
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be transferred across the network that's
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one of the reasons we moved away from
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bus networks for our local area networks
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because one single disconnect could
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cause an outage for everybody else on
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the network
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in our modern automobiles we have bus
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networks that we use extensively these
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are controller area network buses or can
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bus connections and they're used to
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connect all of the different sensors and
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controllers inside of our automobiles to
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be able to make all of our cars much
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safer to drive on the roads
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another popular topology especially in
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larger networks is to create a mesh
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between devices or a mesh between sites
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we may have devices that are connected
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in different locations and we might want
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to connect them all together but instead
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of having a single connection to a
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particular site we may want to create
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multiple connections to mesh these
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together that way if we do lose any one
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of these network links we're able to
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work around that problem by simply using
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one of the redundant connections
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you'll commonly use this type of mesh
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design if you're creating redundancy or
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fault tolerance or perhaps you're
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designing a load balance network and you
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can use different parts of the network
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to share that load
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probably the most common place to find a
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wired mesh network is over a wide area
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network where you can create multiple
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links to other sites so that you can
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have a primary connection from one site
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to the other and then a backup or
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secondary connection that you can use if
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you run into problems
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when you start combining these different
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topologies together you create a hybrid
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network a hybrid network is more than
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one of these topology types all working
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together for example you might have
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three remote sites all connecting
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devices together using a switched
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ethernet or star network and then you
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may be connecting those together over a
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wide area network that uses a ring
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topology
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if you're using a wireless network you
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may be communicating in a number of
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different ways if you're using an access
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point you're probably communicating over
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an infrastructure connection this means
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that all of the devices on your network
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are communicating through an access
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point this is probably the most common
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way to use wireless connections but it's
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not the only way to communicate over a
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wireless link if you just have two
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devices and there's no access point that
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you can use you can connect directly
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from one device to another using ad hoc
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networking you don't need an access
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point or any other type of wireless
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infrastructure you simply have one
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device communicate directly to another
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device over this wireless connection
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and if you've added internet of things
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devices which are commonly wireless
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devices that control our lights our door
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locks or the air conditioning systems
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then you're probably using a mesh
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network where all of these devices can
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communicate to all the other devices
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simultaneously to create an
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interconnected mesh of communication
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between all of these iot devices
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one of the advantages of these mesh
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wireless networks is that it allows many
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devices to communicate to each other
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even if those devices are very far apart
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from each other this also allows the
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mesh network to self-heal so if you turn
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off one of those iot devices the
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remaining devices will self-heal and
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redesign themselves into a mesh network
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that will allow them to continue the
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communication
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you
