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TCP/IP Network Design for M2M

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Added on  2020-02-24

TCP/IP Network Design for M2M

   Added on 2020-02-24

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Running header: M2M NETWORK ANALYSIS AND DESIGN1 TCP/IP NETWORK DESIGN FOR M2M
TCP/IP Network Design for M2M_1
2M2M NETWORK ANALYSIS AND DESIGNExecutive summaryM2M will be best suited by a Transmission Control Protocol /Internet Protocol (TCP/IP) networkdesign. The company will be interconnected by routers in every office, and one main router will be located in the Sydney Head Office. The M2M company needs a private network that can accommodate many hosts, and therefore the 10.0.0.0 network will be best private Internet Protocol to use[CITATION Dye07 \l 1033 ]. The network will be divided into subnets controlled by a router in each office then all the routers connected to the head office. All the subnets will also be using the 10.0.0.0 private Internet Protocol address. The subnets will each have the main distribution switch attached to the router from where all the other switches will be connected andshare information[CITATION Cer74 \l 1033 ]. The access point will be linked from the main distribution switch and all devices that can access wireless network will access it from there. In offices where users are centrally placed, the Access points will suit best the users and switches will be best used where the users are not centrally placed.
TCP/IP Network Design for M2M_2
3M2M NETWORK ANALYSIS AND DESIGNTask oneNetwork design and addressing of IPThe system needs us to subnet the network into individual networks which are unequal. The IT department requires a sizeable subnet to accommodate 520 workstations and allow room for expansion as the sales department requires a smaller subnet to handle the 40 workstations. Dividing the network into subnets will give classes of Subnet masks which will best suit each unit with considerations of the hosts each department will need and the available hosts in each subnet mask. The workstations will be interconnected by the Access points for all the devices that can access wireless internet and there will be the main switch from the primary router from where allthe other switches will be connected[CITATION Abb00 \l 1033 ]. All the other workstations will be linked via Ethernet cables because they are more reliable than the wireless network and less prone to errors and hitches. From the main distribution, switch will be connected all the other switches that lead to different offices of the department so that every office will have its switch and if need be, an Access point.For more efficiency in the implementation of the addressing space, using Variable LengthSubnet Masking (VLSM) is recommended to allow the use of different masks for every subnet[ CITATION Mor10 \l 1033 ]. The Variable Length Subnet Masking will assist in the creation of subnets large enough and with more than 255 addresses for the host. Use of the Variable Length Subnet Masking will enable us to assign IP addresses with a minimal number of Internet Protocol addresses wastage thereby leaving a surplus.
TCP/IP Network Design for M2M_3
4M2M NETWORK ANALYSIS AND DESIGNAll units will consist of a setup like the one shown below. The primary router will interconnect each unit to the head office. The router will connect to the main switch which will be connected to other switches that will connect to the end devices[CITATION Com00 \l 1033 ]. The access point will be linked to the primary router, and some devices will connect to the network via the access point. The switch shown is the main distribution switch which connects directly to the router. All other switches will connect to the main switch unless the office spans a
TCP/IP Network Design for M2M_4

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