GCSE Computer Science Past Paper Presentation Notes PDF

Summary

These notes provide an animated presentation on Computer Networks, specifically focused on transmission media for Edexcel GCSE. The presentation includes diagrams and descriptions of different network types and technologies, including wired and wireless networks.

Full Transcript

for Edexcel

Ul t i m a t e G C S E
The
p u t e r S c i e n c e
Co m
An i m a t e d
e s e n t a t i o n s
i a
Pr4-2 – Transm i ssi o n M e d

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 Transmission Media

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 Wired ne t w o rk s

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 YO
Textbook reading
UR
TUR
N!
Read page 17 of Chapter 4 – Networks about wired networks
from The Ultimate GCSE Computer Science Textbook

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 http://tiny.cc/transmissionmedia - how transmission media work
5
 Wired networks

Use cables to connect devices together

Usually managed by a switch

6
 Types of cable
Unshielded Twisted Pair (UTP) cables
copper cable
4 twisted pairs of wires
known as Ethernet cable

Fibre optic cables
thin glass tube
light is reflected along the tube

7
 Copper vs fibre optic
Copper Fibre optic
Cheaper per metre No electromagnetic interference
Already exists in telephone Data can travel longer distances
networks (>100m)
Data travels faster at speed of light
Higher bandwidths

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 eless n etw orks
Wir
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 10

Wireless
networks
SE is on:
Focus for Edexcel GC
Wi-Fi
es
Wi-Fi uses radio wav
Bluetooth
Zigbee
RFID
NF C

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 YO
Textbook reading
UR
TUR
N!
Read pages 18-19 of Chapter 4 – Networks about Wi-Fi
from The Ultimate GCSE Computer Science Textbook

Stop before you get to the benefits and risks

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 Typical home Wi-Fi
setup
Wi-Fi access point often part
of a wireless router
Data travels using radio
waves
Wireless router includes:
network switch
router (to connect to ISP)
wireless access point

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 Wi-Fi hotspot
Found in public buildings
Enables any Wi-Fi device to connect to Internet
Some places charge for access
Usually unencrypted
data can be read by anybody on the network
better to use an encrypted network
scrambles data so it can’t be understood
or use a VPN (virtual private network)
creates a private connection
Can be setup on a mobile phone for personal use
known as tethering

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 Wireless access
points

Several wireless access points used
on a large network
Usually connected by cable to a switch
Provide coverage across a large area

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 YO
Textbook reading
UR
TUR
N!
Read pages 19-20 of Chapter 4 – Networks about benefits, risks and
disadvantages of Wi-Fi networks from The Ultimate GCSE Computer Science
Textbook

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 Benefits of wireless
networks
Devices can connect without a cable
Devices not restricted to specific location
Mobile phone Wi-Fi saves on data costs
Bandwidth is big enough for Internet connectivity
Any Wi-Fi device can connect if it
conforms to Wi-Fi standard
has permission to connect
Relatively easy to setup in homes
no technical experience required
Relatively low cost
very little cabling required
BYOD – bring your own device
employees can use their own devices at work

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 17

Risks of a
wireless network
Hackers can see data on the
network
if encryption is not used

Hackers do not need physical
access to a network
they just need wireless
access
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 Other disadvantages of
wireless networks
Bandwidth usually lower than wired networks
but not usually an issue if Internet bandwidth is lower than wireless
Obstacles interrupt wireless signals
lost data packets = reduced bandwidth
Range is limited
additional access points needed for large area
Interference from electrical signals and microwaves
lost data packets = reduced bandwidth
Bandwidth is shared with other devices

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 YO
Textbook reading
UR
TUR
N!
Read pages 20-21 of Chapter 4 – Networks about Bluetooth
from The Ultimate GCSE Computer Science Textbook

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 Bluetooth

Protocol for wireless communication
Range approximately 10 metres
No line of sight required
Used for portable devices on a personal area network

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 Bluetooth – typical
applications
Examples:
Using a mobile phone in a car via Bluetooth
Using a Bluetooth speaker to play music
Tethering a mobile phone’s Internet connection
mobile hotspot
Reading a text message on an Apple watch connected by Bluetooth

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 Advantages of Bluetooth

widely available on many portable devices
no radio frequency licence required
no line of sight required
passkey can be used
to prevent non-authorised devices from connecting
lower power consumption than Wi-Fi

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 Limitations of Bluetooth

current data transfer rates are slow
maximum range of 10 metres
can only connect one device to one other device at a time
e.g. a Bluetooth headset cannot be used at the same time as a Bluetooth speaker
connected to the same mobile phone

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 YO
Textbook reading
UR
TUR
N!
Read pages 21-22 of Chapter 4 – Networks about Zigbee
from The Ultimate GCSE Computer Science Textbook

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 Zigbee

Personal Area Network based on:
low-energy
low data rate
close proximity
Used for smart home devices
Internet of Things (IoT)
Devices added in ad-hoc manner

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 Smart home devices
Devices that may use Zigbee include:
house alarms
light bulbs
light switches
smart plugs
central heating
electronic blinds
Many are battery powered
Zigbee battery life can be a few years

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 Zigbee vs other
wireless methods
Zigbee has larger range than Bluetooth
also forms its own mesh network
smart devices can act as repeaters
Zigbee bandwidth is maximum 250 kbps
much lower than Wi-Fi
BUT sufficient for most smart devices
Zigbee not reliant on cloud servers
connect directly to a controller

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 Zigbee standards
Zigbee is a protocol
BUT there is no standard way of implementing it
Different manufacturers use it in different ways
separate controller needed for each manufacturer
some are compatible with common controllers:
Amazon Echo Show
Samsung Smart Things
Apple Home Kit
Project Connected Home Over IP (CHIP)
alliance of manufacturers
trying to standardise smart device communication

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 Example of standards
problem
Red manufacturer devices
can only communicate
with red controller
other red devices
cannot communicate with
blue or pink devices
blue or pink controller
3 separate mesh networks
CHIP aim is for
one single mesh network
across all manufacturers

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 http://tiny.cc/zigbeevs - Zigbee vs Z-Wave vs Wi-Fi
3
0
 YO
Textbook reading
UR
TUR
N!
Read page 23 of Chapter 4 – Networks about RFID and NFC
from The Ultimate GCSE Computer Science Textbook

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 RFID
Radio Frequency Identification
Identifies tiny RFID chips
e.g. sticker
e.g. embedded into product
Can be passive (no power required) or active (power required)
Contains very small amount of data
e.g.
monitoring location of parcels
each parcel has unique RFID tag
tag may be active or passive
passive requires individual scanning
active can be scanned from a distance

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 http://tiny.cc/RFIDvsNFC - What is RFID and How RFID Works
33
 http://tiny.cc/RFID2 - RFID as Fast as Possible – STOP at 4:06
3
4
 NFC
Near Field Communication
Secure method of RFID
Can be both a reader and a tag
Used in most smart phones
Examples:
unlocking doors
transport passes
credit and debit card payments

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 http://tiny.cc/RFIDvsNFC - RFID vs NFC
36
 Activity –
comparing wireless
YO
communication methods UR
TUR
N!
Complete the comparing wireless communication methods activity
from The Ultimate GCSE Computer Science Textbook

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 C o m bi n in g
wired and
wireless
n e t w o r k s

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 YO
Textbook reading
UR
TUR
N!
Read pages 24-25 of Chapter 4 – Networks about combining wired and wireless
networks from The Ultimate GCSE Computer Science Textbook

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 Combining wireless
and wired
Most networks are a mixture of wired and wireless
e.g.
copper cables or fibre optic
Wi-Fi
Bluetooth
Zigbee
Controllers are connected to the network:
Wi-Fi access points
Zigbee controllers
RFID scanners
NFC enabled devices

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 Activity – mixed YO
networks UR
1. Discuss what devices are connected to your school network and what type TUR
of connections they use. N!
2. Discuss what devices might be connected to a supermarket network and
what type of connections they use.

You may want to do this exercise by starting off in pairs and listing as many different devices and connections
that you can for each scenario. Then join up with another pair and compare notes. See if you agree and discuss
any that you disagree with. Now you are in a group of 4, send out a spy to find out if there are any devices and
connections that other groups have got that you have not got on your list.

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 Extension: http://tiny.cc/wirescableswifi - wires, cables and Wi-Fi
4
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 Extension activity – YO
Packet Tracer UR
If you have access to the free CISCO Packet Tracer software from TUR
http://tiny.cc/packettracer then setup a single wireless access point (use a wireless
router) with a couple of devices connected to it:
1. Set up the SSID for the wireless router
N!
2. Give the wireless router an IP address of 192.168.0.1 and subnet mask of
255.255.255.0
3. Set the wireless router to be a DHCP server
4. Add a laptop
5. Set the same SSID for the laptop as the wireless router
6. Set the laptop to use DHCP for IP addresses
7. Add encryption to the wireless router
8. Setup the encryption on the laptop

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 r k per f or m an ce
Netwo
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 YO
Textbook reading
UR
TUR
N!
Read page 26 of Chapter 4 – Networks about network performance
from The Ultimate GCSE Computer Science Textbook

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 Bandwidth
How much data can be transferred
more frequencies = more data transferable
at once
Measured in bits per second (bps)
8 Mbps = 8 megabits per second
8 bits = 1 byte
8 Mbps = 1 megabyte per second
Higher bandwidth = more data per second
increases overall speed of data transfer
Analogy:
number of lanes on a motorway
maximum speed is still 70mph
but more cars can travel at once

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 Activity – YO
bandwidth UR
TUR
N!
Complete the bandwidth activity from The Ultimate GCSE Computer Science
Textbook

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 Effect of transmission
media on bandwidth

Copper
suitable up to 100m
bandwidth governed by frequencies copper can accommodate
Wireless
less frequencies available = less bandwidth
obstacles reduce strength of signal = less bandwidth
distance reduces strength of signal = less bandwidth

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 YO
Textbook reading
UR
TUR
N!
Read page 27 of Chapter 4 – Networks about bandwidth vs network speed
from The Ultimate GCSE Computer Science Textbook

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 Bandwidth vs network
speed
Bandwidth = maximum amount of data that can be transmitted per second
Network speed = how much data is actually transmitted per second

Network speed can be affected by:
interference
latency
range
network traffic
bottle necks

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 Interference
Wi-Fi suffers interference from:
overlapping Wi-Fi channels
baby monitors
microwave ovens
Copper cables suffer electrical interference from:
electrical cables
nearby electrical devices
Fibre optic cables
no interference
Interference = loss of data packets
packets must be re-transmitted
increases time taken

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 Latency
Time difference between
receiving a data packet Latency (ms)
and when it was sent
Measured in seconds
Noticeable during live events
video conferencing
36
LAN gaming km ,0
00
Satellites ,0
00
km
6
high latency 3
signals travel thousands of miles

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 Only
Network traffic 100 Mbps
left
Max
1 Gbps

Using
More devices communicating at once 400 Mbps
= less bandwidth available to each device Using
500 Mbps
Particularly noticeable with public Wi-F

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 Range

As range is extended
signals become weaker
network speed reduces 50 Mbps

Applies to both 200
copper Mbps

wireless 400
No Mbps
signal

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 Extension activity – YO
contention ratios UR
TUR
N!
Find out what a contention ratio is

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 YO
Textbook reading
UR
TUR
N!
Read pages 28-29 of Chapter 4 – Networks about network speed expressions
from The Ultimate GCSE Computer Science Textbook

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 Network speed
expressions
Network speeds measured in bits per second
(bps)

These multiples of bits are used:
kilobits per second (Kbps)
1,000 bits per second
megabits per second (Mbps)
1,000,000 bits per second
gigabits per second (Gbps)
1,000,000,000 bits per second
one byte = 8 bits

Measured in bits
8 bits per second = one byte per second
NOT bytes 16 Mbps = 2 MB per second

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 Base-10 vs base-2
Network speeds use base-10 units:
One Kbps = 1,000 bits per second (103) or (10001)
One Mbps = 1,000,000 bits per second (106) or (10002)
One Gbps = 1,000,000,000 bits per second (109) or (10003)

File sizes use base-2 units
One KiB (kibibyte) = 1,024 bytes (210)
One MiB (mebibyte) = 1024 x 1024 bytes (220)
One GiB (gibibyte) = 1024 x 1024 x 1024 bytes (230)

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 File size in bits
One byte (B) = 8 bits

One KiB (kibibyte) = 1,024 bytes (210)
= 1024 x 8 bits

One MiB (mebibyte) = 1024 x 1024 bytes (220)
= 1024 x1024 x 8 bits

One GiB (gibibyte) = 1024 x 1024 x 1024 bytes (230)
= 1024 x1024 x 1024 x 8 bits

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 Expression for time
taken
Time taken to transfer a file (seconds)
=

=

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 Time taken expression -
example
Time taken to transfer a file
File size = 15 MiB
(seconds)
File size in bytes = 15 x 1024 x 1024
=
File size in bits = 15 x 1024 x 1024 x 8
=
Network speed = 1 Gbps
Network speed = 1 x 1000 x 1000 x 1000 bps

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 Expression for number of bytes
per second
Number of bytes per second

=

Number of MB (megabytes) per second

=

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 Bytes per second expression -
example
Network speed = 2 Mbps Number of KiB (kibibytes)
Network speed = 2 x 1000 x 1000 bps transferred per second

=
One KiB = 1,024 bytes
=
One KiB in bits = 1024 x 8

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 Expression for number of files
per second

Number of files/packets per second

=

=

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 Files per second expression -
example
Network speed = 18 Mbps
Number of files transferred per
Network speed = 18 x 1000 x 1000 bps
second

=
File size = 250 KiB
250 KiB = 250 x 1,024 bytes =
250 KiB in bits = 250 x 1024 x 8

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 Activity – network speed YO
expressions UR
TUR
N!
Complete the network speed expressions activity
from The Ultimate GCSE Computer Science Textbook

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 YO
Questions
UR
TUR
N!
Answer the questions on page 31 of
The Ultimate GCSE Computer Science Textbook

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