1. Name – Kumar Gaurav SUBMITTED TO:-
Roll no - 01024818118 “Mamta Mam”
Department –B.voc (SD) Subject:- Cyber Security
5 th
sem & Cyber Law
2. INDEX
S.N
o
Experiments
Date
on
Page
No
Remar
k
1
Introduction to Cyber Security. Why we need
Cyber Security, importance of Cyber Security and
Advantages & Disadvantages of Cyber Security
27-
Aug-
2020
4
2
Introduction to CISCO Packet Tracer software and
Describe all the tools
3-
sept-
2020
6
3 Connect end devices using packet tracer
10-
sept-
2020
8
4
Connect devices using hub then connect devices
using switch and explain working of both the
networks
17-
sept-
2020
9
5
Implement Bus Topology and share data from one
node to another
24-
sept-
2020
11
6
. Implement StarTopology and share data from
one node to another
1-
oct-
2020
12
7
Implement Ring Topology and share data from
one node to another.
8-
oct-
2020
13
8
Implement Tree Topology and share data from
one node to another
15-
oct-
2020
14
9
Implement Hybrid Topology and share PDU
among one end device to another end device
22-
oct-
2020
15
10
Make Local Area Network using Packet Tracer and
send data securely from one network to another
network.
29-
oct-
2020
16
11
Connect three different networks with the help of
router and share packet among all connected
networks.
5-
Nov-
2020
18
12
There are multiple network Net A , Net B , Net C ,
Net D.All networks are interconnecting with each
other, try to send packet from one topology to
another topology devices.
12-
Nov-
2020
20
3. 13
Implement Wireless Network with WEP Key using
Packet Tracer and transmit data securely.
19-
Nov-
2020
22
14
Create such kind of network which having both
Wired and Wireless network and share data
packet securely from Wired to Wireless network
and vice versa
26-
Nov-
2020
25
15
Create two differentnetworks Wired and Wireless
and connecteach network with different router,
set RIP between them and share data packet
securely
03-
Dec-
2020
28
4. Experiment No – 1
Aim:- IntroductiontoCyber Security. Why we needCyber Security, importance of Cyber
Security andAdvantages & Disadvantages of Cyber Security.
Introduction to Cyber Security was designed to help learners develop a deeper understanding of modern
information and system protection technology and methods. The learning outcome is simple: We hope
learners will develop a lifelong passion and appreciation for cyber security, which we are certain will help
in future endeavors. Students, developers, managers, engineers, and even private citizens will benefit
from this learning experience. Special customized interviews with industry partners were included to help
connect the cyber security concepts to live business experiences
Why we need Cybersecurity?
It can be rightfully said that today’s generation lives on the internet, and we general users are almost
ignorant as to how those random bits of 1’s and 0’s reach securely to our computer. For a hacker, it’s a
golden age. With so many access points, public IP’s and constant traffic and tons of data to exploit, black
hat hackers are having one hell of a time exploiting vulnerabilities and creating malicious software for the
same. Above that, cyber attacks are evolving by the day. Hackers are becoming smarter and more
creative with their malware and how they bypass virus scans and firewalls still baffles many people.
Therefore there has to be some sort of protocol that protects us against all these cyber attacks and make
sure our data doesn’t fall into the wrong hands. This is exactly why we need cybersecurity.
Advantages of Cyber Security:
Improved security of cyberspace.
Increase in cyber defense.
Increase in cyber speed.
Protecting company data and information.
Protects systems and computers against virus, worms, Malware and Spyware etc.
Protects individual private information.
Protects networks and resources.
Fight against computer hackers and identity theft.
Disadvantages of Cyber Security:
5. It will be costly for average users.
Firewalls can be difficult to configure correctly
Need to keep updating the new software in order to keep security up to date.
Make system slower than before.
6. Experiment No – 2
Aim:- IntroductiontoCISCO Packet Tracer software and Describe all the tools
Cisco Packet Tracer as the name suggests, is a tool built by Cisco. This tool provides a network
simulation to practice simple and complex networks.
The main purpose of Cisco Packet Tracer is to help students learn the principles of networking with
hands-on experience as well as develop Cisco technology specific skills. Since the protocols are
implemented in software only method, this tool cannot replace the hardware Routers or Switches.
Interestingly, this tool does not only include Cisco products but also many more networking devices.
Using this tool is widely encouraged as it is part of the curriculum like CCNA, CCENT where Faculties
use Packet Trace to demonstrate technical concepts and networking systems. Students complete
assignments using this tool, working on their own or in teams.
Engineers prefer to test any protocols on Cisco Packet Tracer before implementing them. Also,
Engineers who would like to deploy any change in the production network prefer to use Cisco Packet
Tracer to first test the required changes and proceed to deploy if and only if everything is working as
expected.
Packet Tracer is a medium fidelity, network-capable, simulation-based learning environment for
networking novices to design, configure, and troubleshoot computer networks at a CCNA-level of
complexity. Packet Tracer is an integrated simulation, visualization, collaboration, and assessment
environment. Packet Tracer supports student and instructor creation of simulations, visualizations, and
animations of networking phenomena. Like any simulation, Packet Tracer relies on a simplified model of
networking devices and protocols. Real computer networks, experienced both in-person/hands-on and
remotely, remain the benchmark for understanding network behavior and developing networking skills.
Packet Tracer Modes: Cisco Packet Tracer provides two operating modes to visualize the behavior of a
network—real-time mode and simulation mode. In real-time mode the network behaves as real devices
do, with immediate real-time response for all network activities. The real-time mode gives students a
viable alternative to real equipment and allows them to gain configuration practice before working with
real equipment. In simulation mode the user can see and control time intervals, the inner workings of
data transfer, and the propagation of data across a network. This helps students understand the
fundamental concepts behind network operations. A solid understanding of network
8. Experiment No – 3
Aim:- Connect end devices using packet tracer
Step-1 Open cisco packet tracer.
Step-2 Go to end devices and select any device minimum two devices are
required for network.
Step-3 Now select automatically choose connection type and join two end
devices.
Step-4 The next step is allocating IP address for individual pc.
Step-5 For this click on pc go to desktop > IP > type address and click on
subnet mask it automatically fills the address do the same for second pc.
Step-6 After this click on add simple PDU to share packets.
Step-7 Now click on simulation and click on auto capture/ play button to see
where your network is successfully sharing the packets.
NOTE - Always switch off the before connecting any wire
9. Experiment No – 4
Aim:- Connect devices using hub then connect devices using switchand explain
working of both the networks
Step1: open Cisco packet tracer
Step2:Drag 4 generic devices from end device section located at the left bottom corner
Step3.Then drag a generic Hub from hub section
Step 4.1:Connect all devices with hub using copper straight-through cable with fast Ethernet port
Step5. click on each pc and go to desktop tab under desktop tab click on IP configuration
Step6. now configure all the 4 pc as per the below configuration and keep default gateway and
Now go to simulation mode from real time
In Simulation panel under event list filter click show all/none and then click edit filter and the
choose ARP(Address Resolution Protocol) and ICMP(Internet Control Message Protocol)
suppose we want to send message from PC@ to PC2
Then click on Auto Capture/Play
Then the simulation starts and u can see how the message is transfered
A network hub is a central connection point for devices in a local area network, or LAN. But there's a limit
to the amount of bandwidth users can share on a hub-based network. The more devices are added to
the network hub, the longer it takes data to reach its destination. A switch avoids these and other
limitations of network hubs.
A large network may include multiple switches, which connect different groups of computer systems
10. together. These switches are typically connected to a router that allows connected devices to access
the Internet.
11. Experiment No – 5
Aim:- Implement Bus Topology and share data from one node toanother
Step 1 :open Cisco packet tracer
Step-2 Go to end devices and select any device minimum two or more devices are
required for network.
Step-3 The next step is allocating IP address for individual pc.
Step 4 - For bus topology we build network using three generic pc which are serially connected with
three switches using copper straight through cable and switches are interconnected using copper cross
over cable
Step-5 After this click on add simple PDU to share packets.
Step-6 Now click on simulation and click on auto capture/ play button to see
where your network is successfully sharing the packets.
12. Experiment No – 6
Aim:- . Implement StarTopology and share data from one node to another
step 1:- In the first step you simply need to open Cisco Packet Tracer. To configuring Star Topology you
will need a central device.
Step 2 :- From this list of switches you can use any one. But I personally recommend using model
2950-24 switch
Step 3:- End devices are another important aspect of a computer network. By end device we simply
mean any sort of device which is being used by user including computer, smartphone or printer. Type of
end devices that you will be using totally depends upon your needs. You can select devices of your
choice from toolbox menu titled as end devices.
Step 4:- Go to the ‘Connections Menu’ from the toolbox and select ‘Copper Straight Through Cable’ for
connecting all the end devices with the switch. This cable will serve as medium for transferring data from
one device to the other.
Step5:- For initiation of connections, first of all you will need to click ‘Copper Straight Through Cable’.
After clicking it you will see that your mouse pointer has changed its icon. Move the pointer to the end
device and click on it.
Step 6:- To complete connection of an end device, move mouse pointer to a switch and click on it. You
will be seeing a list of options. Each option represent a switch port. Click on any option for completing
connections
Step 7:- For properly configuring computer network in star topology you will have to repeat the
upcoming steps for each computer in your network. As I have only four computers, so I will need to
repeat upcoming steps four times only.
Step 8:- This is the last and most critical step in configuring star topology using cisco packet tracer.
Make sure Static option is checked.
Step 9:- Send message one device to another device.
13. Experiment No – 7
Aim:- Implement Ring Topology and share data from one node to another.
STEP-1 Open Cisco packet tracer.
STEP-2 Take seven pc from end devices.
Step-3 Take the seven switches from network devices.
STEP-4 then connect the all pc through the switch with the help of auto connect wire.
STEP-5 The next step is allocating IP address for individual PC.
STEP-6 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for others PCs.
STEP-7 After this click on add simple PDU to share packets.
STEP-8 Now click on simulation and click on auto capture /play button to see where your network is
successfully sharing the packets.
14. Experiment No – 8
Aim:-Implement Tree Topology and share data from one node to another
STEP-1 Open Cisco packet tracer.
STEP-2 Take six PCs from end devices.
Step-3 Take the six switches from network devices.
STEP-4 then connect the all pc through the switch with the help of auto connect wire.
STEP-5 The next step is allocating IP address for individual PC.
STEP-6 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for others PCs.
STEP-7 After this click on add simple PDU to share packets.
STEP-8 Now click on simulation and click on auto capture /play button to see where your network is
successfully sharing the packets.
15. Experiment No – 9
Aim:- Implement HybridTopology and share PDU among one enddevice toanother
end device
STEP-1 Open Cisco packet tracer.
STEP-2 Take five PCs from end devices.
Step-3 Take the eight switches from network devices.
STEP-4 then connect the all pc through the switch with the help of auto connect wire.
STEP-5 The next step is allocating IP address for individual PC.
STEP-6 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for others PCs.
STEP-7 After this click on add simple PDU to share packets.
STEP-8 Now click on simulation and click on auto capture /play button to see where your network is
successfully sharing the packets.
16. Experiment No – 10
Aim:-Make Local AreaNetwork using Packet Tracer andsend data securely fromone
network toanother network.
STEP-1 Open cisco packet tracer.
STEP-2 Go to end devices an select any device minimum two devices are required for network.
STEP-3 Now select network devices and drag the switch.
STEP-4 Now select automatically choose connection type and join two end devices with switch.
STEP-5 The next step is allocating IP address for individual PC.
STEP-6 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for second PC.
STEP-7 After this click on add simple PDU and select the devices where you want to send or share the
packets.
STEP-8 Now click on simulation and click on auto capture /play button to see where your network is
successfully sharing the packets.
STEP-9 If the packet is successfully sent you can see the last status (successfully) at the bottom right
corner in the event list.
This is your first network
STEP-10 Repeat these steps to create another network.
NOTE – Make sure you will allocate the different IP for another network.
STEP-11 Select the network device from where you can drag the router and connect the router with
automatically choose the connection type to the switches of the both network.
STEP-12 Click on the Router click on config > select the gigabit Ethernet 0/0.
17. STEP-13 A lot the address similar to the network one makes sure no devices contains that address.
STEP-14 Repeat the and a lot the address to gigabit Ethernet 0/1.
STEP-15 A lot the gateway to the network devices make sure the gateway same as the gigabit Ethernet
0/0 for network one and gigabit Ethernet 0/1 for network two.
STEP-16 Make sure the both ports gigabit Ethernet 0/0 gigabit ethernet 0/1 is on.
STEP-17 After this click on add simple PDU and select the device where you want to send or share the
packets.
STEP-18 Now click on simulation and click on auto capture/play button to see where your network is
successfully sharing the packets.
STEP-19 If the packet is successfully sent you can see the last status (successfully) at the bottom right
corner in the event list.
18. Experiment No – 11
Aim:- Connect three different networks withthe helpof router and share packet among
all connectednetworks.
STEP-1 Open cisco packet tracer.
STEP-2 Go to end devices an select six devices are required for network.
STEP-3 Now select network devices and drag the switch.
STEP-4 Now select automatically choose connection type and join two end devices with switch as
shown in figure
STEP-5 The next step is allocating IP address for individual PC.
STEP-6 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for second PC.
STEP-7 After this click on add simple PDU and select the devices where you want to send or share the
packets.
STEP-8 Now click on simulation and click on auto capture /play button to see where your network is
successfully sharing the packets.
STEP-9 If the packet is successfully sent you can see the last status (successfully) at the bottom right
corner in the event list.
This is your first network
STEP-10 Repeat these steps to create another network.
NOTE – Make sure you will allocate the different IP for another network.
19. STEP-11 Select the network device from where you can drag the router and connect the router with
automatically choose the connection type to the switches of the three network.
STEP-12 Click on the Router click on config > select the gigabit Ethernet 0/0.
STEP-13 A lot the address similar to the network one makes sure no devices contains that address.
STEP-14 Repeat the and a lot the address to gigabit Ethernet 0/1.
STEP-15 A lot the gateway to the network devices make sure the gateway same as the gigabit Ethernet
0/0 for network one and gigabit Ethernet 0/1 for network two.
STEP-16 Make sure the both ports gigabit Ethernet 0/0 gigabit ethernet 0/1 is on.
STEP-17 After this click on add simple PDU and select the device where you want to send or share the
packets.
STEP-18 Now click on simulation and click on auto capture/play button to see where your network is
successfully sharing the packets.
STEP-19 If the packet is successfully sent you can see the last status (successfully) at the bottom right
corner in the event list.
20. Experiment No – 12
Aim: There are multiple network Net A , Net B , Net C , Net D
Net A is working as a Bus topology.
Net B is working as a Star topology.
Net C is working as a Ring topology.
Net D is working as a Meshtopology.
All networks are interconnecting witheachother, try tosendpacket fromone topology
to another topology devices.
Step-1 Open cisco packet tracer.
Step-2 Go to end devices and select any device minimum four devices are required for network.
Step-3 Now select network devices and drag the switch.
Step-4 Now select the auto connection cable.
Step-5 Create a topology (as we have done in above experiments) in a particular network.
Step-6 The next step is allocating IP address for individual pc.
Step-7 For this click on pc go to desktop > IP > type address and click on subnet mask it automatically
fills the address do the same for second pc.
Step-8 Repeat these steps to create another network.
NOTE- Make sure you will allocate the different IP for another network.
Step-9 Select the network device from where you can drag the router and connect the router with auto
connecting type cable to the switches of the both network.
21. Step-10 Click on the Router click on config > select the gigabit ethernet 0/0
Step-11 A lot the address similar to the network one makes sure no device contains that address.
Step-12 A lot the gateway to the network devices make sure the gateway same as the gigabit ethernet
0/0 for network one and gigabit ethernet 0/1 for network two.
Step-13 Make sure the both ports gigabit ethernet 0/0 gigabit ethernet on is on.
Step-14 Repeat the above steps again and make three LAN network with different type of topologies.
A. Bus Topology,
B. Star Topology,
C. Ring Topology,
D. Mesh Topology.
Step-15 Connect the router using Optic fiber. Select the same ports for both the router.
Step-16 Assign the IP address to the connected ports. Click on router. > Click on Config. > Select the
port from which router is connected eg: Fast Ethernet 0/0 or Fast Ethernet 0/1. Provide the IP address
eg: "192.168.20.1" > Provide the default Subnet Mask "255.255.255.0". > Turn the router on
Step-17 Assign the RIP. Click on router > Click on Config > Click on RIP tab > Write the network ID of
the present router eg: "172.16.0.0" > Click on Add > Write the Default Gateway of the present network
eg: "192.168.20.0" > Click on Add
Step-18 Repeat every steps for the same routers.
Note: The first 3 bits of particular router should be same. eg: "192.168.1.1" -- "192.168.1.2" etc.
Step-19 After this click on add simple PDU and select the device where you want to send or share the
packets.
Step-20 Now click on simulation and click on auto capture/ play button to see where your network is
successfully sharing the packets.
Step-21 If the packet is successfully sent you can see the last status (successful) at the bottom right
comer in the event list
22. Experiment- 13
Aim:- Implement WirelessNetwork withWEP Key using Packet Tracer and transmit
data securely.
Step 1: In the first step you simply need to open Cisco Packet Tracer. To configuring
wireless connection, you can select Access point PT from wireless devices from toolbox and
drag on screen.
Step2: You can select devices like tablet, printer ,laptop, smartphone and PCs from toolbox
present at the bottom of Cisco Packet Tracer in networking devices.. From toolbox, you can
select the devices, drag and drop on screen.
Step 3: Then, you can make wireless connections between them, Firstly you can configure
the Access point PT Default.
Simply click on it open configuration >>go to the port 1
Then it will show port status
Fill SSID as -jyoti>>WEP KEY-1234567890
Then remember you should ‘ON’ the port. As
shown in below figure:
23. Step 4- After this you can configure the all the devices like printer. tablet,
smartphone and Pc’s and laptop that you connected :
FOR TABLET-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR PRINTER-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR SMARTPHONE-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR LAPTOP-
In this firstly you go to the physical then remove present module from the Laptop and
add module WPC300Non the Laptop.
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEPKEY-1234567890]
FOR PC-
In this firstly you go to the physical then remove present module from the PCand add
module WMP300N on the PC.
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
Step 5: After completing above steps you can see your devices will be
connected wirelessly to Access point PT default.
24. Step 6: Select Sample PDU to Initiate Testing
Step 7: Choose Message Sender Tablet and Drop Message PDU on Receiver to PC1.
Step 8: Now click on simulation and click on auto capture /play button to see where your
network is successfully sharing the packets.
25. Experiment-14
Aim:- Create suchkind of network whichhaving both Wiredand Wireless
network and share data packet securely fromWiredtoWireless network
and vice versa.
Step 1: In the first step you simply need to open Cisco Packet Tracer. To configuring
wireless connection, you can select Access point PT from wireless devices from toolbox
and drag on screen.
Step2: You can select devices like tablet, printer ,laptop, smartphone and PCs; router ,
switch from toolbox present at the bottom of Cisco Packet Tracer in networking devices..
From toolbox, you can select the devices, drag and drop on screen.
FOR WIRELESS CONNECTION
Step 3: Then, you can make wireless connections between them, Firstly you can configure the
Access point PT Default.
Simply click on it open configuration >>go to the port 1
Then it will show port status
Fill SSID as -jyoti>>WEP KEY-1234567890
Then remember you should ‘ON’ the port.
26. Step 4- After this you can configure the all the devices like printer. tablet,
smartphone and Pc’s and laptop that you connected :
FOR TABLET-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR PRINTER-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR SMARTPHONE-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR LAPTOP-
In this firstly you go to the physical then remove present module from the Laptop and
add module WPC300Non the Laptop.
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR PC-
In this firstly you go to the physical then remove present module from the PCand add
module WMP300N on the PC.
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
Step5: After this you can set IP address and default gateway to all the devices Ip
address>>192.168.20.2, default gateway>>192.168.20.1 for tablet
Ip address>>192.168.20.3, default gateway>>192.168.20.1 for PC1 Ip
address>>192.168.20.4, default gateway>>192.168.20.1 for laptop
Ip address>>192.168.20.5, default gateway>>192.168.20.1 for smartphone Ip
address>>192.168.20.6, default gateway>>192.168.20.1 for printer
27. FOR WIRED CONNECTION-
Step 6: For this connection you can select switch from devices and take 3 PCs
Connected them with automatically connected wired.
Step7: Then you can configure the IP addresses and gatways all the PCs. Ip
address>>192.168.10.2, default gateway>>192.168.10.1 for PC0.
Ip address>>192.168.10.3, default gateway>>192.168.10.1 for PC1. Ip
address>>192.168.10.4, default gateway>>192.168.10.1 for PC2.
Step 8: After that you can select the router from devices and drop it between the wired and
wireless networks and connect the router with them with the help of automatically connected wire.
Configure the IP address in router
In router configure fast Ethernet0/0 >>192.168.10.1.>>router 0
Fast Ethernet0/1 >>192.168.20.1.>>router. ON the router as shown below
Step 5: Insert all the IP in router >>configuration >>RIP in this you can add all the Ips
addresses. After this you can see all devices will be connected together.
Step 6: Select Sample PDU to Initiate Testing
Step 7: Choose Message Sender from wired n/w PC0 and Drop Message PDU on
Receiver to wireless n/w device smartphone.
Step 8: Now click on simulation and click on auto capture /play button to see where your
network is successfully sharing the packets.
28. Experiment-15
Aim:- Create two different networks Wired and Wireless and connect
each network with different router, set RIP between them and share
data packet securely.
Step 1: In the first step you simply need to open Cisco Packet Tracer. To configuring
routers, you will need 2 routers. you can select the router from toolbox and drag on
screen.
Step 2: You can select switch and PCs from toolbox present at the bottom
of Cisco Packet Tracer in networking devices. For n/w A. From toolbox, select the option
containing wireless devices select Access point PTand choose 5 end devices from
networking devices like laptop, printer etc. drag on screen. For n/w B.
Step 3: Then, you can make connections between them with auto connect cable for
switches to PCs and fibre optic cable use for router to router connection.
FOR N/W A (Wired connection):
Step 4: configure the Ip addresses and default gateways of end devices
respectively:
FOR PC0>>192.168.10.2>>192.168.10.1 FOR
PC1>>192.168.10.2>>192.168.10.1 FOR
PC2>>192.168.10.2>>192.168.10.1
29. Step5: Configure the IP addresses on your routers and default gateway After
configuring the IP addresses, you will need to configure the default gateway
>>192.168.10.1 for router 0.
FOR ROUTER 0: you can assign IP in fast ethernet0/0>>192.168.10.1 and
fast ethernet 4/0>>172.16.10.1 as shown below:
After this Insert all the IP in router >>configuration >>RIP in this you can add
all the Ips addresses. As shown in figure:
FOR N/W A (Wireless connection):
Step 6: configure the Ip addresses and default gateways of end devices
respectively:
FOR tablet>>192.168.20.2>>192.168.20.1 FOR
PC0>>192.168.20.2>>192.168.20.1 FOR
laptop>>192.168.20.2>>192.168.20.1
30. FOR smartphone>>192.168.20.2>>192.168.20.1 FOR
printer>>192.168.20.2>>192.168.20.1
Step 7: Then, you can make wireless connections between them, Firstly you can configure the
Access point PT Default.
Simply click on it open configuration >>go to the port 1
Then it will show port status
Fill SSID as -jyoti>>WEP KEY-1234567890
Then remember you should ‘ON’ the port. As
shown in below figure:
Step 8- After this you can configure the all the devices like printer. tablet,
smartphone and Pc’s and laptop that you connected :
FOR TABLET-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR PRINTER-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR SMARTPHONE-
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
FOR LAPTOP-
In this firstly you go to the physical then remove present module from the Laptop and
add module WPC300Non the Laptop.
31. Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEPKEY-1234567890]
FOR PC-
In this firstly you go to the physical then remove present module from the PCand add
module WMP300N on the PC.
Go to the config,then click on wireless 0 set SSID and WEP KEY same as Access
point PT Default [SSID-jyoti and WEP KEY-1234567890]
Step9: Configure the IP addresses on your routers and default gateway After
configuring the IP addresses, you will need to configure the default gateway
>>192.168.20.1 for router 0.
FOR ROUTER 1: you can assign IP in fast ethernet0/0>>192.168.10.1 and fast
ethernet 4/0>>172.16.10.2 as shown below:
After this Insert all the IP in router >>configuration >>RIP in this you can add all the Ips
addresses.as shown below:
32. Step 10:After configuring all the routers will be activated.
Step 11: Select Sample PDU to Initiate Testing
Step 12: Choose Message Sender PC0 and Drop Message PDU on Receiver to
laptop.
Step 13: Now click on simulation and click on auto capture /play button to see where
your network is successfully sharing the packtes.