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Deck 2: How Lan and Wan Communications Work

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Question
In a connectionless service, there is no acknowledgment that a frame has been received.
Use Space or
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Question
Class A nodes in FDDI networks are servers or workstations.
Question
Two-way alternate (TWA)mode for dialog control is used in ____ communications.

A)simplex
B)complex
C)half duplex
D)full duplex
Question
The token ring transport method uses a physical ____ topology along with the logic of a ring topology.

A)bus
B)star
C)mesh
D)grid
Question
The upstream and downstream frequencies used by cable modems may be the same.
Question
The OSI model consists of ____ distinct layers stacked on one another.

A)two
B)three
C)five
D)seven
Question
____ is a process that scrambles the data so that it cannot be read if intercepted by unauthorized users.

A)Encryption
B)Decryption
C)Deciphering
D)Decoding
Question
A Class ____ protocol within the Transport layer provides an option to recover lost packets in certain situations.

A)0
B)1
C)2
D)3
Question
Information from one layer is transferred to the next by means of commands called ____.

A)primitives
B)pointers
C)primaries
D)messages
Question
Analog signals are the basis of the most common signaling method used on LANs and high-speed WANs.
Question
The Ethernet protocol permits only one node to transmit at a time.
Question
Both standard 802.3 and Ethernet II can have ____ optional field(s)between the length or type field and the data field

A)one
B)two
C)three
D)four
Question
____ circuits are logical communication paths set up to send and receive data.

A)Electric
B)Physical
C)Closed
D)Virtual
Question
The task of the ____ layer in a LAN is to organize bits so that they are formatted into frames.

A)Network
B)Transport
C)Data Link
D)Physical
Question
The term ____ refers to wrapping the information in one layer inside the information within the next layer.

A)encase
B)enclose
C)encapsulate
D)envelope
Question
A(n)____ is a connection identification assigned by the Session layer.

A)MAC address
B)IP address
C)port
D)network id
Question
A(n)____ signal can vary continuously, as in a wave pattern with positive and negative voltage levels.

A)discrete
B)analog
C)digital
D)binary
Question
Computer programmers use the ____ layer to connect workstations to network services, such as linking an application into electronic mail.

A)Presentation
B)Application
C)Session
D)Transport
Question
The ____ field in an Ethernet frame synchronizes frame transmission and consists of an alternating pattern of zeroes and ones.

A)data and pad
B)frame check sequence (FCS)
C)start of frame delimiter (SOF)
D)preamble
Question
Ethernet transport (the IEEE 802.3 specification), takes advantage of the ____ and star topologies.

A)bus
B)torus
C)mesh
D)tree
Question
Describe the role of the headend in the star topology of a Cable TV WAN.
Question
The ________________________________________ switching technique divides channels into distinct time slots.
Question
Provide a high-level description of the bottom, middle, and top layers of the OSI model.
Question
____ switching establishes a dedicated circuit between the two transmitting nodes, but the circuit is a logical connection and not a physical one.

A)Packet
B)Frame
C)Circuit
D)Message
Question
Compare and contrast FDDI to the token ring access method.
Question
Describe the role of the active monitor in a token ring network.
Question
LAN and WAN communications have been generally guided by a network communications model called the ___________________________________ reference model.
Question
A(n)____ line is a dedicated telephone line that can be used for data communications to connect two different locations for continuous point-to-point communications.

A)DSL
B)LATA
C)T-carrier
D)IXC
Question
The ____ field of a token identifies the frame as a data frame or as a frame used for network management, such as reporting network errors.

A)access control
B)frame check sequence
C)frame status
D)frame control
Question
If no broadcasts are detected from the active monitor or any one of the standby monitors, a ring goes into a ____ condition.

A)signaling
B)beaconing
C)messaging
D)broadcasting
Question
What are electromagnetic interference (EMI)and radio frequency interference (RFI)?
Question
Explain how TWS (two-way simultaneous)dialog control and buffering enable full duplex communications.
Question
The Microsoft Windows ____________________ is a service that makes one computer visible to another for access through the network.
Question
In the ____ switching technique, the bandwidth of communications medium is dynamically allocated based on application need.

A)Time Division Multiple Access
B)Frequency Division Multiple Access
C)circuit
D)Statistical multiple access
Question
____ communications in FDDI networks are used for time-sensitive transmissions requiring continuous transmission.

A)Synchronous
B)Asynchronous
C)Modulated
D)Amplified
Question
What is a Request for Comment (RFC)?
Question
Describe the relationship between the service data unit (SDU)and protocol data unit (PDU).
Question
The ____________________ layer of the OSI model controls the passage of packets along routes on the network.
Question
____________________ is the process of checking communication media for a specific voltage level indicating the presence of a data-carrying signal.
Question
What is the role of the media access control (MAC)sublayer of the Data Link layer?
Question
Match between columns
Premises:
Responses:
process by which Network layer constantly gathers metrics about the location of networks and nodes.
digital signal
process by which Network layer constantly gathers metrics about the location of networks and nodes.
frame
process by which Network layer constantly gathers metrics about the location of networks and nodes.
discovery
process by which Network layer constantly gathers metrics about the location of networks and nodes.
simplex communications
process by which Network layer constantly gathers metrics about the location of networks and nodes.
peer protocols
process by which Network layer constantly gathers metrics about the location of networks and nodes.
Service access point (SAP)
process by which Network layer constantly gathers metrics about the location of networks and nodes.
point of presence (POP)
process by which Network layer constantly gathers metrics about the location of networks and nodes.
packet radio
process by which Network layer constantly gathers metrics about the location of networks and nodes.
message switching
allows a signal to travel in only one direction on a medium.
digital signal
allows a signal to travel in only one direction on a medium.
frame
allows a signal to travel in only one direction on a medium.
discovery
allows a signal to travel in only one direction on a medium.
simplex communications
allows a signal to travel in only one direction on a medium.
peer protocols
allows a signal to travel in only one direction on a medium.
Service access point (SAP)
allows a signal to travel in only one direction on a medium.
point of presence (POP)
allows a signal to travel in only one direction on a medium.
packet radio
allows a signal to travel in only one direction on a medium.
message switching
enables Network layer to determine which network process at the destination should accept a frame.
digital signal
enables Network layer to determine which network process at the destination should accept a frame.
frame
enables Network layer to determine which network process at the destination should accept a frame.
discovery
enables Network layer to determine which network process at the destination should accept a frame.
simplex communications
enables Network layer to determine which network process at the destination should accept a frame.
peer protocols
enables Network layer to determine which network process at the destination should accept a frame.
Service access point (SAP)
enables Network layer to determine which network process at the destination should accept a frame.
point of presence (POP)
enables Network layer to determine which network process at the destination should accept a frame.
packet radio
enables Network layer to determine which network process at the destination should accept a frame.
message switching
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
digital signal
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
frame
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
discovery
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
simplex communications
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
peer protocols
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
Service access point (SAP)
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
point of presence (POP)
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
packet radio
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
message switching
a junction at which LATA lines are connected to IXC lines.
digital signal
a junction at which LATA lines are connected to IXC lines.
frame
a junction at which LATA lines are connected to IXC lines.
discovery
a junction at which LATA lines are connected to IXC lines.
simplex communications
a junction at which LATA lines are connected to IXC lines.
peer protocols
a junction at which LATA lines are connected to IXC lines.
Service access point (SAP)
a junction at which LATA lines are connected to IXC lines.
point of presence (POP)
a junction at which LATA lines are connected to IXC lines.
packet radio
a junction at which LATA lines are connected to IXC lines.
message switching
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
digital signal
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
frame
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
discovery
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
simplex communications
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
peer protocols
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
Service access point (SAP)
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
point of presence (POP)
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
packet radio
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
message switching
form of wireless WAN communication that takes place at very high radio frequencies.
digital signal
form of wireless WAN communication that takes place at very high radio frequencies.
frame
form of wireless WAN communication that takes place at very high radio frequencies.
discovery
form of wireless WAN communication that takes place at very high radio frequencies.
simplex communications
form of wireless WAN communication that takes place at very high radio frequencies.
peer protocols
form of wireless WAN communication that takes place at very high radio frequencies.
Service access point (SAP)
form of wireless WAN communication that takes place at very high radio frequencies.
point of presence (POP)
form of wireless WAN communication that takes place at very high radio frequencies.
packet radio
form of wireless WAN communication that takes place at very high radio frequencies.
message switching
uses a store-and-forward communication method to transmit data from sending to receiving node.
digital signal
uses a store-and-forward communication method to transmit data from sending to receiving node.
frame
uses a store-and-forward communication method to transmit data from sending to receiving node.
discovery
uses a store-and-forward communication method to transmit data from sending to receiving node.
simplex communications
uses a store-and-forward communication method to transmit data from sending to receiving node.
peer protocols
uses a store-and-forward communication method to transmit data from sending to receiving node.
Service access point (SAP)
uses a store-and-forward communication method to transmit data from sending to receiving node.
point of presence (POP)
uses a store-and-forward communication method to transmit data from sending to receiving node.
packet radio
uses a store-and-forward communication method to transmit data from sending to receiving node.
message switching
uses distinct voltages to generate binary ones or zeroes.
digital signal
uses distinct voltages to generate binary ones or zeroes.
frame
uses distinct voltages to generate binary ones or zeroes.
discovery
uses distinct voltages to generate binary ones or zeroes.
simplex communications
uses distinct voltages to generate binary ones or zeroes.
peer protocols
uses distinct voltages to generate binary ones or zeroes.
Service access point (SAP)
uses distinct voltages to generate binary ones or zeroes.
point of presence (POP)
uses distinct voltages to generate binary ones or zeroes.
packet radio
uses distinct voltages to generate binary ones or zeroes.
message switching
Question
Describe the topology of wireless WANs using radio communications.
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Deck 2: How Lan and Wan Communications Work
1
In a connectionless service, there is no acknowledgment that a frame has been received.
True
2
Class A nodes in FDDI networks are servers or workstations.
False
3
Two-way alternate (TWA)mode for dialog control is used in ____ communications.

A)simplex
B)complex
C)half duplex
D)full duplex
C
4
The token ring transport method uses a physical ____ topology along with the logic of a ring topology.

A)bus
B)star
C)mesh
D)grid
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5
The upstream and downstream frequencies used by cable modems may be the same.
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6
The OSI model consists of ____ distinct layers stacked on one another.

A)two
B)three
C)five
D)seven
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k this deck
7
____ is a process that scrambles the data so that it cannot be read if intercepted by unauthorized users.

A)Encryption
B)Decryption
C)Deciphering
D)Decoding
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k this deck
8
A Class ____ protocol within the Transport layer provides an option to recover lost packets in certain situations.

A)0
B)1
C)2
D)3
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9
Information from one layer is transferred to the next by means of commands called ____.

A)primitives
B)pointers
C)primaries
D)messages
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10
Analog signals are the basis of the most common signaling method used on LANs and high-speed WANs.
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k this deck
11
The Ethernet protocol permits only one node to transmit at a time.
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k this deck
12
Both standard 802.3 and Ethernet II can have ____ optional field(s)between the length or type field and the data field

A)one
B)two
C)three
D)four
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k this deck
13
____ circuits are logical communication paths set up to send and receive data.

A)Electric
B)Physical
C)Closed
D)Virtual
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14
The task of the ____ layer in a LAN is to organize bits so that they are formatted into frames.

A)Network
B)Transport
C)Data Link
D)Physical
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15
The term ____ refers to wrapping the information in one layer inside the information within the next layer.

A)encase
B)enclose
C)encapsulate
D)envelope
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k this deck
16
A(n)____ is a connection identification assigned by the Session layer.

A)MAC address
B)IP address
C)port
D)network id
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k this deck
17
A(n)____ signal can vary continuously, as in a wave pattern with positive and negative voltage levels.

A)discrete
B)analog
C)digital
D)binary
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k this deck
18
Computer programmers use the ____ layer to connect workstations to network services, such as linking an application into electronic mail.

A)Presentation
B)Application
C)Session
D)Transport
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k this deck
19
The ____ field in an Ethernet frame synchronizes frame transmission and consists of an alternating pattern of zeroes and ones.

A)data and pad
B)frame check sequence (FCS)
C)start of frame delimiter (SOF)
D)preamble
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k this deck
20
Ethernet transport (the IEEE 802.3 specification), takes advantage of the ____ and star topologies.

A)bus
B)torus
C)mesh
D)tree
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21
Describe the role of the headend in the star topology of a Cable TV WAN.
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22
The ________________________________________ switching technique divides channels into distinct time slots.
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23
Provide a high-level description of the bottom, middle, and top layers of the OSI model.
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24
____ switching establishes a dedicated circuit between the two transmitting nodes, but the circuit is a logical connection and not a physical one.

A)Packet
B)Frame
C)Circuit
D)Message
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25
Compare and contrast FDDI to the token ring access method.
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26
Describe the role of the active monitor in a token ring network.
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27
LAN and WAN communications have been generally guided by a network communications model called the ___________________________________ reference model.
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k this deck
28
A(n)____ line is a dedicated telephone line that can be used for data communications to connect two different locations for continuous point-to-point communications.

A)DSL
B)LATA
C)T-carrier
D)IXC
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29
The ____ field of a token identifies the frame as a data frame or as a frame used for network management, such as reporting network errors.

A)access control
B)frame check sequence
C)frame status
D)frame control
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30
If no broadcasts are detected from the active monitor or any one of the standby monitors, a ring goes into a ____ condition.

A)signaling
B)beaconing
C)messaging
D)broadcasting
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31
What are electromagnetic interference (EMI)and radio frequency interference (RFI)?
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32
Explain how TWS (two-way simultaneous)dialog control and buffering enable full duplex communications.
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33
The Microsoft Windows ____________________ is a service that makes one computer visible to another for access through the network.
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Unlock Deck
k this deck
34
In the ____ switching technique, the bandwidth of communications medium is dynamically allocated based on application need.

A)Time Division Multiple Access
B)Frequency Division Multiple Access
C)circuit
D)Statistical multiple access
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Unlock for access to all 42 flashcards in this deck.
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k this deck
35
____ communications in FDDI networks are used for time-sensitive transmissions requiring continuous transmission.

A)Synchronous
B)Asynchronous
C)Modulated
D)Amplified
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36
What is a Request for Comment (RFC)?
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37
Describe the relationship between the service data unit (SDU)and protocol data unit (PDU).
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38
The ____________________ layer of the OSI model controls the passage of packets along routes on the network.
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39
____________________ is the process of checking communication media for a specific voltage level indicating the presence of a data-carrying signal.
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40
What is the role of the media access control (MAC)sublayer of the Data Link layer?
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41
Match between columns
Premises:
Responses:
process by which Network layer constantly gathers metrics about the location of networks and nodes.
digital signal
process by which Network layer constantly gathers metrics about the location of networks and nodes.
frame
process by which Network layer constantly gathers metrics about the location of networks and nodes.
discovery
process by which Network layer constantly gathers metrics about the location of networks and nodes.
simplex communications
process by which Network layer constantly gathers metrics about the location of networks and nodes.
peer protocols
process by which Network layer constantly gathers metrics about the location of networks and nodes.
Service access point (SAP)
process by which Network layer constantly gathers metrics about the location of networks and nodes.
point of presence (POP)
process by which Network layer constantly gathers metrics about the location of networks and nodes.
packet radio
process by which Network layer constantly gathers metrics about the location of networks and nodes.
message switching
allows a signal to travel in only one direction on a medium.
digital signal
allows a signal to travel in only one direction on a medium.
frame
allows a signal to travel in only one direction on a medium.
discovery
allows a signal to travel in only one direction on a medium.
simplex communications
allows a signal to travel in only one direction on a medium.
peer protocols
allows a signal to travel in only one direction on a medium.
Service access point (SAP)
allows a signal to travel in only one direction on a medium.
point of presence (POP)
allows a signal to travel in only one direction on a medium.
packet radio
allows a signal to travel in only one direction on a medium.
message switching
enables Network layer to determine which network process at the destination should accept a frame.
digital signal
enables Network layer to determine which network process at the destination should accept a frame.
frame
enables Network layer to determine which network process at the destination should accept a frame.
discovery
enables Network layer to determine which network process at the destination should accept a frame.
simplex communications
enables Network layer to determine which network process at the destination should accept a frame.
peer protocols
enables Network layer to determine which network process at the destination should accept a frame.
Service access point (SAP)
enables Network layer to determine which network process at the destination should accept a frame.
point of presence (POP)
enables Network layer to determine which network process at the destination should accept a frame.
packet radio
enables Network layer to determine which network process at the destination should accept a frame.
message switching
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
digital signal
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
frame
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
discovery
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
simplex communications
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
peer protocols
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
Service access point (SAP)
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
point of presence (POP)
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
packet radio
enable an OSI layer on a sending node to communicate with the same layer on the receiving node.
message switching
a junction at which LATA lines are connected to IXC lines.
digital signal
a junction at which LATA lines are connected to IXC lines.
frame
a junction at which LATA lines are connected to IXC lines.
discovery
a junction at which LATA lines are connected to IXC lines.
simplex communications
a junction at which LATA lines are connected to IXC lines.
peer protocols
a junction at which LATA lines are connected to IXC lines.
Service access point (SAP)
a junction at which LATA lines are connected to IXC lines.
point of presence (POP)
a junction at which LATA lines are connected to IXC lines.
packet radio
a junction at which LATA lines are connected to IXC lines.
message switching
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
digital signal
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
frame
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
discovery
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
simplex communications
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
peer protocols
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
Service access point (SAP)
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
point of presence (POP)
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
packet radio
discrete unit of data containing control and address information corresponding to OSI Data Link layer.
message switching
form of wireless WAN communication that takes place at very high radio frequencies.
digital signal
form of wireless WAN communication that takes place at very high radio frequencies.
frame
form of wireless WAN communication that takes place at very high radio frequencies.
discovery
form of wireless WAN communication that takes place at very high radio frequencies.
simplex communications
form of wireless WAN communication that takes place at very high radio frequencies.
peer protocols
form of wireless WAN communication that takes place at very high radio frequencies.
Service access point (SAP)
form of wireless WAN communication that takes place at very high radio frequencies.
point of presence (POP)
form of wireless WAN communication that takes place at very high radio frequencies.
packet radio
form of wireless WAN communication that takes place at very high radio frequencies.
message switching
uses a store-and-forward communication method to transmit data from sending to receiving node.
digital signal
uses a store-and-forward communication method to transmit data from sending to receiving node.
frame
uses a store-and-forward communication method to transmit data from sending to receiving node.
discovery
uses a store-and-forward communication method to transmit data from sending to receiving node.
simplex communications
uses a store-and-forward communication method to transmit data from sending to receiving node.
peer protocols
uses a store-and-forward communication method to transmit data from sending to receiving node.
Service access point (SAP)
uses a store-and-forward communication method to transmit data from sending to receiving node.
point of presence (POP)
uses a store-and-forward communication method to transmit data from sending to receiving node.
packet radio
uses a store-and-forward communication method to transmit data from sending to receiving node.
message switching
uses distinct voltages to generate binary ones or zeroes.
digital signal
uses distinct voltages to generate binary ones or zeroes.
frame
uses distinct voltages to generate binary ones or zeroes.
discovery
uses distinct voltages to generate binary ones or zeroes.
simplex communications
uses distinct voltages to generate binary ones or zeroes.
peer protocols
uses distinct voltages to generate binary ones or zeroes.
Service access point (SAP)
uses distinct voltages to generate binary ones or zeroes.
point of presence (POP)
uses distinct voltages to generate binary ones or zeroes.
packet radio
uses distinct voltages to generate binary ones or zeroes.
message switching
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42
Describe the topology of wireless WANs using radio communications.
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k this deck
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  • x-footer
  • tiktok
  • Linktree