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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 availabi...
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...
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...
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...
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...
An internet company projects the following cash flows shown in the table below (in milions). Usin...
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...
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...
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, c...
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 r...
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...
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
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
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