Question 1

Increasing the speed of the WLAN will cause shorter delays in waiting for reflections.

Accepted Answer

Increasing the speed of the WLAN (Wireless Local Area Network) primarily enhances data transfer rates. Delays caused by reflections, known as multipath propagation delays, are more related to the physical environment and the signal processing techniques used rather than the speed of the network itself.

Question 2

____ is not part of a frame.&#10;A) Length&#10;B) Parity&#10;C) Channel&#10;D) Data

Accepted Answer

Channel is not a component of a frame. Frames are data packets used in networking for communication, which include elements like length, parity for error checking, and the actual data being transmitted, but not the channel through which they are sent.

Question 3

When transmitting with FHSS, if interference is encountered on a particular frequency then that part of the signal will be retransmitted on the previous frequency of the hopping code.

Accepted Answer

In Frequency Hopping Spread Spectrum (FHSS), if interference is encountered on a particular frequency, the system does not retransmit that part of the signal on the previous frequency. Instead, it continues to hop to the next frequency in the predetermined sequence.

Question 4

What is a disadvantage of narrowband transmissions?&#10;A) requires a complicated algorithm&#10;B) not well regulated&#10;C) expensive to implement&#10;D) interference from another radio signal

Accepted Answer

Narrowband transmissions are more susceptible to interference from another radio signal because they operate on a smaller range of frequencies.

Question 5

Into which layers are WLAN features isolated by IEEE standards?&#10;A) PHY and PMD&#10;B) MAX and PLCP&#10;C) PHY and MAC&#10;D) PMD and PLCP

Accepted Answer

WLAN features are isolated into the PHY (physical layer) and MAC (media access control) layers by IEEE standards. PMD (physical media dependent) and PLCP (physical layer convergence protocol) are sublayers within the PHY layer. MAX (medium access control extension) is not a layer defined by IEEE standards.

Question 6

How does OFDM work?&#10;A) signals are broken up and the parts are sent in parallel&#10;B) the same signal is sent on multiple channels&#10;C) one signal is sent twice on the same channel&#10;D) a signal is sent over a wired network at the same time as the wireless network

Accepted Answer

OFDM works by breaking up a signal into smaller parts and sending them in parallel on different channels to increase data transfer rates and reduce interference.

Question 7

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.

Accepted Answer

The value of layers in the OSI reference model is indeed that it divides networking into a series of tasks and illustrates how those tasks relate to each other. This allows for easier troubleshooting and standardization in network communication.

Question 8

According to FCC regulations, all FHSS systems in the 900 MHz band must change frequencies through 50 channels and cannot spend more than ____ on one frequency each 20 seconds.&#10;A) 20 milliseconds&#10;B) 30 milliseconds&#10;C) 400 milliseconds&#10;D) 1 second

Accepted Answer

FCC regulations require FHSS systems in the 900 MHz band to change frequencies through 50 channels, but there is no requirement for the time spent on one frequency each 20 seconds. However, most FHSS systems limit this time to 400 milliseconds to comply with FCC regulations and to minimize interference with other devices in the same frequency band. Therefore, the best choice is C.

Question 9

Because wireless technology has advanced at such a rapid pace, the earliest WLANs are now essentially obsolete.

Accepted Answer

WLAN technology has advanced rapidly over the years, with newer and faster standards being introduced. The earliest WLANs using outdated standards such as 802.11b, which offered slower speeds and lower data rates compared to more recent standards such as 802.11ac and 802.11ax. Therefore, the earliest WLANs can be considered obsolete for practical purposes.

Question 10

____ signals by nature transmit on only one frequency or a very narrow portion of the frequencies.&#10;A) Broadband&#10;B) Computer&#10;C) Radio&#10;D) Heat

Accepted Answer

Radio signals typically transmit on only one frequency or a very narrow portion of the frequencies. Broadband signals, such as those used for internet, transmit on a wide range of frequencies. Computer signals can also transmit on a wide range of frequencies, depending on the specific application. Heat is not a type of signal.

Question 11

Because a device must wait to transmit until it receives the last reflected signal, this in effect puts a ceiling limit on the overall speed of the WLAN. What is the current ceiling for WLAN speed?&#10;A) under 10 Mbps&#10;B) between 10 and 20 Mbps&#10;C) between 20 and 30 Mbps&#10;D) over 50 Mbps

Accepted Answer

The answer of Because a device must wait to transmit...

Question 12

Which system is preferred for 802.11b WLANs?&#10;A) DSSS&#10;B) FHSS&#10;C) OFDM&#10;D) All are equally preferred

Accepted Answer

The answer of Which system is preferred for 802.11b WLANs?&#10;A)...

Question 13

In FHSS, the amount of time needed to move from one frequency to another is the ____ time.&#10;A) dwell&#10;B) switch&#10;C) lift&#10;D) hop

Accepted Answer

The answer of In FHSS, the amount of time needed...

Question 14

DSSS uses a bit pattern called a ____ code.&#10;A) hopping&#10;B) setting&#10;C) dwelling&#10;D) chipping

Accepted Answer

The answer of DSSS uses a bit pattern called a...

Question 15

Bluetooth divides the 2.4 GHz frequency into ____ different frequencies spaced 1 GHz apart.&#10;A) 52&#10;B) 68&#10;C) 79&#10;D) 93

Accepted Answer

The answer of Bluetooth divides the 2.4 GHz frequency into...

Question 16

Which layer of the OSI reference model permits the devices on the network to hold ongoing communications across the network?&#10;A) presentation&#10;B) session&#10;C) transport&#10;D) network

Accepted Answer

The answer of Which layer of the OSI reference model...

Question 17

When was the concept used by FHSS technology developed?&#10;A) during World War I&#10;B) during World War II&#10;C) in the 1960s&#10;D) in the 1980s

Accepted Answer

The answer of When was the concept used by FHSS...

Question 18

Of the 52 subchannels, 32 are used for standard transmissions and 20 are used for FEC transmissions.

Accepted Answer

The answer of Of the 52 subchannels, 32 are used...

Question 19

What is the top layer of the OSI reference model?&#10;A) application&#10;B) presentation&#10;C) physical&#10;D) transport

Accepted Answer

The answer of What is the top layer of the...

Question 20

IEEE has divided the ____ layer into two sublayers: Logical Link Control (LLC) and Media Access Control (MAC).&#10;A) Physical&#10;B) Data Link&#10;C) Transport&#10;D) Session

Accepted Answer

The answer of IEEE has divided the ____ layer into...

Question 21

The amount of time that a transmission occurs on a specific frequency is called the ____________________ time.

Accepted Answer

The answer of The amount of time that a transmission...

Question 22

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.

Accepted Answer

The answer of Narrowband transmissions require significant power for the...

Question 23

The ____ coding technique consists of a set of 64 8-bit code words.&#10;A) chipping&#10;B) fixed scramble&#10;C) Barker&#10;D) complementary code keying

Accepted Answer

The answer of The ____ coding technique consists of a...

Question 24

The Physical Layer Convergence Procedure (PLCP) standards for 802.11b are based on ____.&#10;A) DSSS&#10;B) FHSS&#10;C) OFDM&#10;D) PYS

Accepted Answer

The answer of The Physical Layer Convergence Procedure (PLCP) standards...

Question 25

What are the advantages to using DSSS with a chipping code?

Accepted Answer

The answer of What are the advantages to using DSSS...

Question 26

Users can upgrade from an 802.11b network to a faster 802.11g network simply by replacing the ____________________.

Accepted Answer

The answer of Users can upgrade from an 802.11b network...

Question 27

What is the Open Systems Interconnection (OSI) reference model?

Accepted Answer

The answer of What is the Open Systems Interconnection (OSI)...

Question 28

Although 54 Mbps is the &#34;official&#34; top speed of 802.11a, the IEEE specification also allows for higher speeds. These higher speeds are known as ____________________ mode or 2X mode.

Accepted Answer

The answer of Although 54 Mbps is the &#34;official&#34; top...

Question 29

The 802.11b standard specifies ____ frequencies that can be used, beginning at 2.412 GHz.&#10;A) 4&#10;B) 10&#10;C) 14&#10;D) 30

Accepted Answer

The answer of The 802.11b standard specifies ____ frequencies that...

Question 30

There are two disadvantages to using U-NII. What are they?

Accepted Answer

The answer of There are two disadvantages to using U-NII....

Question 31

What is a disadvantage of narrowband transmissions?

Accepted Answer

The answer of What is a disadvantage of narrowband transmissions?...

Question 32

What are the fields that make up a PLCP frame?

Accepted Answer

The answer of What are the fields that make up...

Question 33

The _________________________ Protocol defines a set of specifications for wireless data and voice communications around the home.

Accepted Answer

The answer of The _________________________ Protocol defines a set of...

Question 34

When using the Shared Wireless Access Protocol, devices can be as far as 45 meters (150 feet) apart and can send and receive data at rates up to ____ Mbps.&#10;A) 2&#10;B) 5&#10;C) 10&#10;D) 14

Accepted Answer

The answer of When using the Shared Wireless Access Protocol,...

Question 35

What techniques are used by vendors to achieve 2x mode for transmissions?&#10;A) combine two frequency channels&#10;B) use different coding rate schemes&#10;C) reallocating the individual carriers&#10;D) All of the above

Accepted Answer

The answer of What techniques are used by vendors to...

Question 36

How does OFDM avoid problems caused by multipath distortion?

Accepted Answer

The answer of How does OFDM avoid problems caused by...

Question 37

The modulation techniques used to encode the 802.11a data vary depending upon the speed. Describe the techniques used to transmit at 24 Mbps.

Accepted Answer

The answer of The modulation techniques used to encode the...

Question 38

The ____ field of an 802.11a frame consists of 10 repetitions of a short training sequence signal and two repetitions of a long training sequence signal.&#10;A) Rate&#10;B) Service&#10;C) Synchronization&#10;D) Parity

Accepted Answer

The answer of The ____ field of an 802.11a frame...

Question 39

Describe the FCC restrictions on FHSS.

Accepted Answer

The answer of Describe the FCC restrictions on FHSS....

Question 40

What are disadvantages of the 802.11g standard?

Accepted Answer

The answer of What are disadvantages of the 802.11g standard?...

Question 41

The 802.11g standard outlines two mandatory modes along with one optional mode. Describe each mode.

Accepted Answer

The answer of The 802.11g standard outlines two mandatory modes...

Question 42

Match between columns&#10;                        Premises: two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;two channels are combined (one for sending data and the other for receiving) to provide the necessary frequency for the higher speeds&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;transmits a secondary copy along with the primary information&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;sends signals to the network or receives signals from the network&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;uses an expanded redundant code to transmit each data bit&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;can double the amount of data encoded over PSK to 250 Kbps per channel, which produces a 12 Mbps (250 Kbps x 48) data rate&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;picks the route packets take and handles addressing of packets for delivery&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;uses a range of frequencies that change during the transmission&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;ensures that error-free data is given to the user&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time&#10;sending multiple signals at the same time

Accepted Answer

The Answer of direct sequence spread spectrum and frequency hopping is...

Deck 4: IEEE 80211 Physical Layer Standards