a.
Distance
In data network, the distance vector routing protocol determines the best route for data packets calculated based on the distance. The distance is measured by the number of routers a packet has to pass. The exchange of information with one another help to determine the best route across the network.
Given scenario:
The proposed solution in the section which is used to allow the mobile users to keep their IP addresses as they moved among the foreign networks. The foreign network advertise a highly particular route to the mobile user and use the current routing infrastructure to spread this information throughout the entire network. So this causes scalability. If the mobile user moves from one network to another network, the new foreign network gives particular route to the mobile user and old foreign network removes it route. The distance vector algorithm is used in this case to route the mobile user among the networks.
b.
Distance vector algorithm:
In data network, the distance vector routing protocol determines the best route for data packets calculated based on the distance. The distance is measured by the number of routers a packet has to pass. The exchange of information with one another helps to determine the best route across the network.
Given scenario:
The proposed solution in the section which is used to allow the mobile users to maintain their IP addresses as they moved among the foreign networks. The foreign network advertise a highly particular route to the mobile user and use the current routing infrastructure to spread this information throughout the entire network. So this causes scalability. If the mobile user moves from one network to another network, the new foreign network gives particular route to the mobile user and old foreign network removes it route. The distance vector algorithm is used in this case to route the mobile user among the networks.
c.
Distance vector algorithm:
In data network, the distance vector routing protocol determines the best route for data packets calculated based on the distance. The distance is measured by the number of routers a packet has to pass. The exchange of information with one another helps to determine the best route across the network.
Given scenario:
The proposed solution in the section which is used to allow the mobile users to keep their IP addresses as they moved among the foreign networks. The foreign network advertise a highly particular route to the mobile user and use the current routing infrastructure to spread this information throughout the entire network. So this causes scalability. If the mobile user moves from one network to another network, the new foreign network gives particular route to the mobile user and old foreign network removes it route. The distance vector algorithm is used in this case to route the mobile user among the networks.
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Chapter 7 Solutions
Computer Networking: A Top-Down Approach (7th Edition)
- Consider the following three machine instructions, which appear in memory starting at the address 0x0000000080001270. Address (in hex) Contents (in hex) 0x0000000080001270 0x94000018 0x00000000800012D0 0x94000A53 0x00000000800012D4 0xD61F03C0 "Disassemble” the instructions; that is, give an assembly language program segment that would be translated into the given machine language. Use numeric rather than symbolic register names. Handle branches and jumps specially; where you would normally have a label, provide instead a hexadecimal byte address.arrow_forward8.7 An ideal germanium pn junction diode has the following parameters: Na = 4 × 10¹5 cm³, Na = 2 × 10¹7 cm³, D₂ = 48 cm²/s, D₁ = 90 cm²/s, Tpo = T = 2 × 10-6 s, and A = 104 cm². Determine the diode current for (a) a forward-bias voltage of 0.25 V and (b) a reverse-biased voltage of 0.25 V.arrow_forward7.20 (a) The peak electric field in a reverse-biased silicon pn junction is |E|= 3 × 105 V/cm. The doping concentrations are N = 4 × 10¹5 cm³ and N. = 4 × 107 cm³. Find the magnitude of the reverse-biased voltage. (b) Repeat part (a) for N₁ = 4 × 10 16 cm³ and N₁ = 4 × 10¹7 cm³. (c) Repeat part (a) for Nd = N₁ = 4 × 10¹7 cm³.arrow_forward
- 7.16 An abrupt silicon pn junction at 7-300 K has impurity doping concentrations of N₁ = 5 x 10 cm³ and N = 10 cm³. Calculate (a) Vbi, (b) W at (i) VR = 0 and (ii) VR = 5 V, and (c) [Emax | at (i) VR = 0 and (ii) VR = 5.arrow_forwardCan you help me solve this in matlabarrow_forwardNeed help using this problem on matlabarrow_forward
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