3. For the given five-link network and the O-D matrix provided in Table 1 compute link flows usin...
3. Given the network given below with the availability information given in the table: a. Draw the network availability as series and parallel components assuming the mobile node supports both a WLAN and Bluetooth interface b. Compute the overall service availability? Network Component Availability Info APs (Bluetooth, 802.11 WLAN) Routers A-0.99 A- 0.99 Wireless Links A-0.90 A- 0.9993 A- 0.998 Wired links HW Load Balancer Individual Server (Hardware +Software) A 0.96 HW Load Balancer ETHERNET1 Cwired ink Router 1 Wired...
For the network given in the following diagram, show how the link-state algorithm builds the routing table for node x. Construct and fill the table as given below: Page 2 of 4 Iteration Initial 1 2 3 4 5 6 8
Problem 2 A transportation network is shown in the attached figure. Perform traffic assignment for a demand of 3000 vehicles from zone 3 to zone 5 as follows: (1) Find the shortest path between these two zones using the minimum path algorithm discussed in class, and assign 50% of the traffic to the path. (2) Update the travel time for each links with a traffic load by a factor of 1.2 (ie, 20% increase) and assign another 50% of the...
A pipe network is given below (Figure 2). All pipes are 1 km long, and 500 mm in diameter, with friction factor of 0 018 Determine the following. a) The value of Q (3) b) The correct flows in each pipe (using the Hardy-cross method) after the (17) first iteration [Hint: Assume Qo for pipe AB 105 L/s] c) The pressure heads at each node if the pressure head at reservoir A is 80 m. The elevation of each node...
include cash flow diagram
An internet company projects the following cash flows shown in the table below (in milions). Using a Net Present Worth Balancing Equation and a manual iteration process compute the Rate of Return. Cash Flow (millions) 40 Year 0 1-3 4 -28 +15 +30 6-10
An internet company projects the following cash flows shown in the table below (in milions). Using a Net Present Worth Balancing Equation and a manual iteration process compute the Rate of Return....
Consider the following network.
a. (16 pt.)
With the indicated link costs, use Dijkstra’s shortest-path
algorithm to compute the shortest path from “w” to
all network nodes. Show how the algorithm works by computing the
table below. Note: If there exists any tie in each step, choose the
left-most column first.
Step
N’
D(s),
p(s)
D(t),
p(t)
D(u),
p(u)
D(v),
p(v)
D(x),
p(x)
D(y),
p(y)
D(z),
p(z)
0
1
2
3
4
5
6
7
b. (7 pt.)
Construct the...
Problem 4 Figure 1 presents a simple three-zone system, the link travel times in minutes (wj) for this system, and the observed zonal productions and attractions. Assuming a doubly constrained gravity model with friction factor F, (a) Compute P-A flows (production-attraction matrix) for this system for values of b of 1.0, and 1.5 (b) Table 1 below presents the observed P-A flows for this system. Which value of b provides the "best-fit" to the observed data? Note: Best-fit should be...
SECTION B QUESTION 1 a) Given the arm matrix and the kinematics parameters of Spherical ARM robot as in Table Q1, calculate the manipulator Jacobian matrix. 10 0 51 1 ,002 01r- 105101 -S2 0 C2 0 1 0 S1 0 01 -10 1 0 01,12 L0 0 01 Table Q1 From Link Var 01 82-90 90 52C2 1-2 2 2-n 3 0°
SECTION B QUESTION 1 a) Given the arm matrix and the kinematics parameters of Spherical ARM robot...
Given the project network and baseline information below, complete the form to develop a status report for the project at the end of period 4 and the end of period 8 LEGEND ES | ID | EF SL LS DUR LF SL 8 D 12 0 8412 0 0 0 2 6 8 12 F15 0 12 315 0 0 0 7 E 10 2 93 12 2 4 5 9 Time Period Task LF DUR ES SL Budget (PV)...
Question 1 In a given electrical network, the equations for the currents i,,iz, i, are given by 4+₂ +4i₂ = 0 2i, - iz + z = 5.4 i, +2i, - i = 9.2 Use Gaussian elimination method to evduate the three currents. (10 marks) Question 2 The matrix A of the system AX = AX is given by (10-1 A = 3 1 4 02 2