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Deck 5: Physical Layer Standards
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Deck 5: Physical Layer Standards
1
Which is true about the 802.11a,802.11b,802.11g,and 802.11n standards?
A) 802.11a and 802.11g use the 5 GHz band
B) 802.11b and 802.11g use the 2.4 GHz band
C) 802.11a and 802.11b operate at up to 11 Mbps
D) 802.11b and 802.11n operate at up to 54 Mbps
A) 802.11a and 802.11g use the 5 GHz band
B) 802.11b and 802.11g use the 2.4 GHz band
C) 802.11a and 802.11b operate at up to 11 Mbps
D) 802.11b and 802.11n operate at up to 54 Mbps
B
2
The Physical Layer Convergence Procedure (PLCP)standards for 802.11b are based on ____.
A) DSSS
B) FHSS
C) OFDM
D) PYS
A) DSSS
B) FHSS
C) OFDM
D) PYS
A
3
What is a disadvantage of narrowband transmissions?
A) requires a complicated algorithm
B) not well regulated
C) expensive to implement
D) interference from another radio signal
A) requires a complicated algorithm
B) not well regulated
C) expensive to implement
D) interference from another radio signal
D
4
DSSS uses a bit pattern called a ____ code to transmit bits.
A) hopping
B) setting
C) dwelling
D) chipping
A) hopping
B) setting
C) dwelling
D) chipping
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5
Which of the following is true about the frequencies 802.11b uses?
A) 28 total,22 used in Japan and China
B) 14 total,only 11 used in the U.S.
C) 22 total,only 14 used in Europe
D) 52 total,48 usable
A) 28 total,22 used in Japan and China
B) 14 total,only 11 used in the U.S.
C) 22 total,only 14 used in Europe
D) 52 total,48 usable
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6
A 1 Mbps transmission rate is achieved by sending a single symbol every microsecond.
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7
Which sublayer of the Physical layer reformats data received from the MAC layer when transmitting?
A) PMD
B) LLC
C) Data Link
D) PLCP
A) PMD
B) LLC
C) Data Link
D) PLCP
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8
In FHSS,the amount of time needed to move from one frequency to another is the ____ time.
A) dwell
B) switch
C) lift
D) hop
A) dwell
B) switch
C) lift
D) hop
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9
IEEE has divided the ____ layer into two sublayers: Logical Link Control (LLC)and Media Access Control (MAC).
A) Physical
B) Data Link
C) Transport
D) Session
A) Physical
B) Data Link
C) Transport
D) Session
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10
Which type of RF signal uses only a single frequency for transmission?
A) broadband
B) narrowband
C) spread-spectrum
D) orthogonal frequency
A) broadband
B) narrowband
C) spread-spectrum
D) orthogonal frequency
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11
Which layer of the OSI reference model permits the devices on the network to hold ongoing communications across the network?
A) presentation
B) session
C) transport
D) network
A) presentation
B) session
C) transport
D) network
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12
The 802.11a standard enables faster data rates than 802.11b due to which of the following?
A) lower frequencies and decreased power
B) lower frequencies and increased power
C) higher frequencies and increased power
D) decreased power but higher frequencies
A) lower frequencies and decreased power
B) lower frequencies and increased power
C) higher frequencies and increased power
D) decreased power but higher frequencies
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13
How does OFDM work?
A) signals are broken up and the parts are sent in parallel
B) the same signal is sent on multiple channels
C) one signal is sent twice on the same channel
D) a signal is sent over a wired network at the same time as the wireless network
A) signals are broken up and the parts are sent in parallel
B) the same signal is sent on multiple channels
C) one signal is sent twice on the same channel
D) a signal is sent over a wired network at the same time as the wireless network
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14
Because of the relatively high speeds achieved with FHSS,it is widely implemented in WLAN systems.
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15
Which OSI model layer picks the route packets take?
A) network
B) presentation
C) physical
D) transport
A) network
B) presentation
C) physical
D) transport
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16
Which system is preferred for 802.11 WLANs that operate at speeds in excess of 11 Mbps?
A) DSSS
B) FHSS
C) OFDM
D) All are equally preferred
A) DSSS
B) FHSS
C) OFDM
D) All are equally preferred
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17
The purpose of the 802.11 PHY layer is to format packets to be received by the corresponding network protocol on the receiving device.
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18
The value of layers in the OSI reference model is that it divides networking into a series of tasks,and then illustrates how those tasks relate to each other.
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19
DSSS makes it possible to share the frequency with similar devices by assigning each device a unique chipping code,a function known as what?
A) chipping variation
B) colocation
C) multiplexing
D) intersymbol assignment
A) chipping variation
B) colocation
C) multiplexing
D) intersymbol assignment
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20
OFDM sends the transmission in parallel across several channels.
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21
At which layers of the OSI model do 802.11 wireless LANs function? (Choose all that apply.)
A) Physical
B) Data Link
C) Network
D) Transport
A) Physical
B) Data Link
C) Network
D) Transport
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22
A numeric value called a ____________ is assigned to a frequency range since using frequency range values can become tedious.
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23
What are the two sublayers that the OSI Physical layer is broken into with the IEEE model?
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24
Which of the following are advantages of spread-spectrum versus narrowband transmissions? (Choose all that apply.)
A) resistance to outside interference
B) efficiency due to limited spectrum use
C) lower power requirements
D) increased security
A) resistance to outside interference
B) efficiency due to limited spectrum use
C) lower power requirements
D) increased security
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25
From top to bottom,list the 7 layers of the OSI model.
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26
Narrowband transmissions require significant power for the signal to be transmitted because the signal must exceed the ____________________,or the total amount of outside interference,by a substantial margin.
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27
With FHSS,the sequence of changing frequencies is called the ___________ code.
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28
A frame is made up of which parts? (Choose all that apply.)
A) segment
B) preamble
C) data
D) header
A) segment
B) preamble
C) data
D) header
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29
What are the two basic concepts involved with OFDM?
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30
What is the modulation type and DSSS coding technique used by 802.11b transmitting at 11 Mbps?
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31
What is a disadvantage of narrowband transmissions?
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32
What are two safeguards used by 802.11n that can protect against interference caused by channel bonding? (Choose two.)
A) convolutional coding rate
B) Dynamic Frequency Selection
C) Phased Coexistence Operation
D) variable guard interval
A) convolutional coding rate
B) Dynamic Frequency Selection
C) Phased Coexistence Operation
D) variable guard interval
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33
The amount of time that a transmission occurs on a specific frequency is called the ____________________ time.
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34
List four advantages to using DSSS?
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35
Name and describe the fields that make up a PLCP frame?
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36
Which of the following are enhancements of the 802.11n standard?
A) 40 MHz channels and variable guard interval
B) 20 MHz channels and fixed guard interval
C) bonding of two 10 MHz channels
D) operation in the 40 GHz frequency range
A) 40 MHz channels and variable guard interval
B) 20 MHz channels and fixed guard interval
C) bonding of two 10 MHz channels
D) operation in the 40 GHz frequency range
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37
What techniques are used by vendors to achieve 2x mode for transmissions?
A) combining frequency channels
B) using different coding rate schemes
C) increasing and reallocating the individual carriers
D) All of the above
A) combining frequency channels
B) using different coding rate schemes
C) increasing and reallocating the individual carriers
D) All of the above
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38
The 40 MHz channels in an 802.11n WLAN are actually two 20 MHz channels that are __________ together.
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39
List three advantages of spread-spectrum transmissions over narrowband transmissions.
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40
Describe how 802.11n uses the primary and secondary channel.
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41
The 802.11g standard outlines two mandatory modes along with one optional mode.Describe each mode.
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42
Match between columns
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