Anay
2c547e60f4
Inet framework
|
6 years ago | |
|---|---|---|
| .. | ||
| .gitignore | 6 years ago | |
| General.anf | 6 years ago | |
| README | 6 years ago | |
| VisualizationNetworks.ned | 6 years ago | |
| VisualizationTutorial.ned | 6 years ago | |
| boston.earth | 6 years ago | |
| boxman.osgb | 6 years ago | |
| car.osgb | 6 years ago | |
| configurationF.xml | 6 years ago | |
| configurationH.xml | 6 years ago | |
| index.html | 6 years ago | |
| obstacle.xml | 6 years ago | |
| oldomnetpp.ini | 6 years ago | |
| omnetpp.ini | 6 years ago | |
| run | 6 years ago | |
| vis_tut_text.txt | 6 years ago | |
| waypoint1.txt | 6 years ago | |
| waypoint2.txt | 6 years ago | |
README
INET Visualization Tutorial
1) without visualizer
2) add integrated visualizer
3) add map
4) add obstacles
5) add cars
6) add movement trail
7) add ranges
8) add transmissions/receptions
9) add links
10) add routes
11) add statistic
12) add signal
13) add obstacle loss
networks visualizationTutorialA
--------
A.
a) no network nodes
b) add 2 wireless adhoc nodes (pedestrians with mobiles) and 1 access point
c) add movement
d) add void application
e) add 1 wireless adhoc node (pedestrian with notebook) and add router, switch, server triplet and video stream application
f) add another access point, router and separate pedestrians with mobiles, connect routers
g) add houses and forest
h) add 2 cars and extra access points and routers
steps
-----
a)
1. Showing Boston downtown
2. Adding static 3D objects to the scene
kml file beolv
b)
3. Displaying communiation/interference range
4. Using 3D models for network nodes
c)
5. Displaying recent movement and orientation
6. Showing IP addresses
7. Showing wifi association
d)
8. Displaying transmissions & receptions
9. Showing propagating signals
10. Showing active physical links
11. Showing active data links
12. Displaying throughput statistic
e)
13. Showing configured routing tables
14. Displaying 802.11 channel access state
f)
15. Showing active network routes
g)
16. Displaying physical environment
17. Displaying obstacle loss
18. Showing packet drops
h)
19. Displaying transport connections
20. Showing link breaks
21. Visualizing handovers
22. Displaying changing routes
...
32. Styling visualizations
33. Recording a deterministic video of the simulation
34. Moving camera through a path during the simulation
35. Controlling animation speed from ns to real time
todo
----
add AODV to all nodes
minden host kulon subnet: 255.255.255.255
add switches between servers and routers
move server1 to router2
add extra unused servers to switches
increase communication range
add access point3 near origin
pedestrians don't handover
2d,3d paralell
simple-->complicated, mindig annyi kell, amin a visualizationt el lehet magyarázni es nem tul zajos
example
-------
non-trivial network topology for routing
wifi
obstacle
movement
earth
visualization features
----------------------
no visuaization
simple vs. integrated
multiple different visualization (canvases)
packet transmission on datarate channel
2d, 3d
sub-visualizations
filtering
styling
animation speed
controlling 3d camera
video recording
visualizable phenomenon
-----------------------
-handover
-movement trail
-orientation
-transmissions/receptions
-communication/interference ranges
-propagation
interference?
-3D model
-3D map
-physical objects
collision?
multipath?
tunneling?
visualizers
-----------
-data links
-ieee 802.11 association
-info
-interface table
-link break
-medium
-mobility
-network node
-network route
-packet drop
-physical environment
-physical links
-routing table
-scene
-earth
-statistic
-obstacle loss
-transport connection
transport route?
1) without visualizer
2) add integrated visualizer
3) add map
4) add obstacles
5) add cars
6) add movement trail
7) add ranges
8) add transmissions/receptions
9) add links
10) add routes
11) add statistic
12) add signal
13) add obstacle loss
networks visualizationTutorialA
--------
A.
a) no network nodes
b) add 2 wireless adhoc nodes (pedestrians with mobiles) and 1 access point
c) add movement
d) add void application
e) add 1 wireless adhoc node (pedestrian with notebook) and add router, switch, server triplet and video stream application
f) add another access point, router and separate pedestrians with mobiles, connect routers
g) add houses and forest
h) add 2 cars and extra access points and routers
steps
-----
a)
1. Showing Boston downtown
2. Adding static 3D objects to the scene
kml file beolv
b)
3. Displaying communiation/interference range
4. Using 3D models for network nodes
c)
5. Displaying recent movement and orientation
6. Showing IP addresses
7. Showing wifi association
d)
8. Displaying transmissions & receptions
9. Showing propagating signals
10. Showing active physical links
11. Showing active data links
12. Displaying throughput statistic
e)
13. Showing configured routing tables
14. Displaying 802.11 channel access state
f)
15. Showing active network routes
g)
16. Displaying physical environment
17. Displaying obstacle loss
18. Showing packet drops
h)
19. Displaying transport connections
20. Showing link breaks
21. Visualizing handovers
22. Displaying changing routes
...
32. Styling visualizations
33. Recording a deterministic video of the simulation
34. Moving camera through a path during the simulation
35. Controlling animation speed from ns to real time
todo
----
add AODV to all nodes
minden host kulon subnet: 255.255.255.255
add switches between servers and routers
move server1 to router2
add extra unused servers to switches
increase communication range
add access point3 near origin
pedestrians don't handover
2d,3d paralell
simple-->complicated, mindig annyi kell, amin a visualizationt el lehet magyarázni es nem tul zajos
example
-------
non-trivial network topology for routing
wifi
obstacle
movement
earth
visualization features
----------------------
no visuaization
simple vs. integrated
multiple different visualization (canvases)
packet transmission on datarate channel
2d, 3d
sub-visualizations
filtering
styling
animation speed
controlling 3d camera
video recording
visualizable phenomenon
-----------------------
-handover
-movement trail
-orientation
-transmissions/receptions
-communication/interference ranges
-propagation
interference?
-3D model
-3D map
-physical objects
collision?
multipath?
tunneling?
visualizers
-----------
-data links
-ieee 802.11 association
-info
-interface table
-link break
-medium
-mobility
-network node
-network route
-packet drop
-physical environment
-physical links
-routing table
-scene
-earth
-statistic
-obstacle loss
-transport connection
transport route?