Term
What frequency band is used by 802.11b, 802.11g, and 802.11n?
A. 2.4 GHz
B. 11 GHz
C. 1.5 GHz
D. 5 GHz |
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Definition
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|
Term
_____ satellites are the type used by the most popular satellite data service providers.
A. Transponder
B. Medium earth orbiting
C. Low earth orbiting
D. Geosynchronous earth orbiting |
|
Definition
| D. Geosynchronous earth orbiting |
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Term
Your organization is expanding and plans to lease 3000 square feet of space in a nearby building. Your supervisor asks you to conduct a site survey of the space. If conducted properly, which of the following will your site survey reveal?
A. The optimal quantity and locations of access points for the WLAN
B. All potential sources of EMI
C. The distance between each workgroup area and telco room
D. All of the above |
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Definition
|
|
Term
_____ may use either the 2.4-GHz or 5-GHz range.
A. 802.11g
B. 802.11a
C. 802.11n
D. 802.11b |
|
Definition
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|
Term
Suppose you work for a telecommunications carrier who is looking into providing WiMAX in a suburb of a large city. A colleague suggests that your company reserve licensed frequencies from the FCC for your service. Why?
A. Licensed frequencies allow users to roam farther than unlicensed frequencies.
B. Licensed frequencies will suffer less interference than unlicensed frequencies.
C. Licensed frequencies can use multiple areas of the wireless spectrum at once, thus increasing potential throughput.
D. Licensed frequencies require less expensive equipment to transmit and receive than unlicensed frequencies. |
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Definition
| B. Licensed frequencies will suffer less interference than unlicensed frequencies. |
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Term
Which of the following are wireless broadcasting methods? (Select 3)
A. DSSS
B. BSSID
C. RFC
D. OFDM
E. FHSS |
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Definition
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|
Term
Most satellites circle the Earth ____ miles above the equator in a geosynchronous orbit.
A. 22300
B. 6000
C. 100
D. 1240 |
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Definition
|
|
Term
A unique characteristic of the 802.11 data frame is its _____ field.
A. Duration
B. Data
C. Sequence Control
D. Frame Control |
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Definition
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|
Term
_____ is a significant problem for wireless communications because the atmosphere is saturated with electromagnetic waves.
A. Attenuation
B. Interference
C. Fading
D. Diffraction |
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Definition
|
|
Term
_____ is an 802.11n feature that allows two adjacent 20-MHz channels to be combined to make a 40-MHz channel.
A. Channel aggregation
B. Channel bonding
C. Frame bonding
D. Frame aggregation |
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Definition
|
|
Term
If intermittent and difficult-to-diagnose wireless communication errors occur, _____ might be the culprit.
A. incorrect antenna placement
B. interference
C. SSID mismatch
D. incorrect encryption |
|
Definition
|
|
Term
A directional antenna issues wireless signals along a(n) _____ direction.
A. wide
B. open
C. single
D. narrow |
|
Definition
|
|
Term
Which wireless standards can operate at the 2.4 GHz frequency range? (Select 3)
A. b
B. g
C. n
D. a |
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Definition
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|
Term
What does the term multiple-input and multiple-output (MIMO) refer to?
A. channel bonding
B. use of multiple antennas for improved performance
C. link aggregation
D. wireless network topology |
|
Definition
| B. use of multiple antennas for improved performance |
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Term
To transmit and receive signals to and from multiple nodes in a three-story office building, what type of antenna should an access point use?
A. Bidirectional
B. Tridirectional
C. Omnidirectional
D. Unidirectional |
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Definition
|
|
Term
Clients are able to exchange signals with satellites as long as they have a _____ path.
A. proprietary
B. view
C. directional
D. line-of-sight |
|
Definition
|
|
Term
When a mobile WLAN user roams from access point A's range into access point B's range, what does it do automatically to maintain network connectivity?
A. Nothing; the user must reestablish network connectivity manually
B. Reassociate with access point B
C. Associate with access point B in order to communicate with access point A
D. Reestablish its connection with access point A on another channel |
|
Definition
| B. Reassociate with access point B |
|
|
Term
What is the connection speed offered by the 802.11b standard?
A. 54 Mbps
B. 2 Mbps
C. 11 Mbps
D. 150 Mbps |
|
Definition
|
|
Term
In wireless communication, to exchange information, two antennas must be tuned to the same _____.
A. variance
B. attenuation speed
C. port
D. frequency |
|
Definition
|
|
Term
On your Linux workstation, you open a terminal window and type at the command prompt iwconfig eth0 key 5c00951b22. What have you done?
A. Established the SSID with which the wireless interface will attempt to associate
B. Established the wireless interface's mode of transmission
C. Established the strength with which the wireless interface will transmit data
D. Established the credentials the wireless interface will use to communicate securely with the access point |
|
Definition
| D. Established the credentials the wireless interface will use to communicate securely with the access point |
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|
Term
As the network manager for a small business, you have been asked to evaluate high-speed, packet-switched wireless data services that your company's users can use at their desks, in their cars, and at their homes within your metropolitan area. Which two of the following meet those criteria, and are therefore candidates for evaluation?
A. 802.11g
B. LTE
C. WiMAX2
D. 802.11n
E. HSPA+ |
|
Definition
|
|
Term
An 802.11g antenna has a geographic range of _____ meters.
A. 330
B. 20
C. 100
D. 300 |
|
Definition
|
|
Term
In _____ wireless systems, the transmitting antenna focuses its energy directly toward the receiving antenna which results in a point-to-point link.
A. mobile
B. variable
C. fixed
D. open |
|
Definition
|
|
Term
Which of the following types of satellites is used to provide satellite data services?
A. Geosynchronous orbit
B. Medium Earth orbit
C. High Earth orbit
D. Low Earth orbit |
|
Definition
|
|
Term
What part of a cellular network manages handoff?
A. The MSC
B. The base station
C. The client
D. The central office |
|
Definition
|
|
Term
In _____ scanning, the station transmits a special frame, known as a probe, on all available channels within its frequency range.
A. active
B. fixed
C. open
D. passive |
|
Definition
|
|
Term
Which of the following is a set of standards for wireless networks?
A. 802.1Q
B. 802.3
C. 802.11
D. 802.1X |
|
Definition
|
|
Term
Which of the following is not true about multipath signaling?
A. The more obstacles a wireless signal reflects or diffracts off, the better chance it has of reaching its destination.
B. Given that they follow multiple paths to their destination, signals will arrive at the same destination at slightly different times.
C. The more obstacles between a wireless transmitter and receiver, the more signal fading will occur.
D. Multipath signaling uses less energy and results in clearer reception than line-of-sight signaling. |
|
Definition
| D. Multipath signaling uses less energy and results in clearer reception than line-of-sight signaling. |
|
|
Term
_____ is the least popular WLAN standard.
A. 802.11a
B. 802.11g
C. 802.11b
D. 802.11n |
|
Definition
|
|
Term
Which of the following wireless technologies boasts the highest maximum theoretical throughput?
A. 802.11g
B. LTE
C. HSPA+
D. 802.11n |
|
Definition
|
|
Term
You are setting up a WLAN for an insurance agency. The network includes 32 clients, three printers, two servers, and a DSL modem for Internet connectivity. What type of WLAN architecture would best suit this office?
A. Ad hoc
B. Interstitial
C. Infrastructure
D. Round robin |
|
Definition
|
|
Term
Which of the following 802.11 transmission requirements contributes to its inefficiency?
A. Before it can associate, a station must listen for an access point's beacon on every channel within its frequency range.
B. A source node must regularly ping the access point to ensure it is still available for transmitting data to the rest of the stations.
C. A destination node must issue an acknowledgment for every packet that is received intact.
D. Before transmitting, a source node must check to ensure the access point has not changed its SSID. |
|
Definition
| C. A destination node must issue an acknowledgment for every packet that is received intact. |
|
|
Term
In the 802.11 standard, IEEE specifies what type of access method?
A. Beacon passing
B. Demand priority
C. CSMA/CD
D. CSMA/CA |
|
Definition
|
|
Term
Suppose a user on your office network has changed the channel on which his wireless NIC communicates. Assuming the wireless connection is his only access to the LAN, what will happen when he next tries to send an e-mail?
A. The e-mail program will take longer than usual to send his message.
B. The e-mail program will respond with a message indicating it could not connect to the mail server.
C. The e-mail program will send the message without problems.
D. The e-mail program will request the user to supply his logon credentials again before sending his message. |
|
Definition
| B. The e-mail program will respond with a message indicating it could not connect to the mail server. |
|
|
Term
Your office currently runs a mix of 802.11b and 802.11g clients. Rumor has it that your company is about to merge with another company that uses a different wireless technology. Which of the following would be compatible with what your WLAN currently runs?
A. 802.11a
B. 802.11n
C. Bluetooth
D. WiMAX |
|
Definition
|
|
Term
If your wireless stations are configured to perform passive scanning, what do they need from an access point to initiate association?
A. A request to send
B. An alert frame
C. A beacon frame
D. Nothing, they will find the access point on their own |
|
Definition
|
|
Term
You're working on a school district's 802.11n WLAN. Within each school, several access points serve students, teachers, and administrators. So that users can move about the school with their laptops and not lose network connectivity, each of the access points must share which of the following?
A. The same ESSID
B. The same make and model
C. The same average distance to the client
D. The same location |
|
Definition
|
|
Term
Which two of the following techniques help to reduce overhead in 802.11n wireless transmission?
A. CSMA/CA
B. Asynchronous communication
C. Frame aggregation
D. Spread-spectrum signaling
E. Channel bonding |
|
Definition
C. Frame aggregation
E. Channel bonding |
|
|
Term
Which of the following will help an access point's transmission reach farther?
A. Limiting the number of stations that may associate with the access point
B. Boosting its signal strength
C. Using the highest possible channel in the frequency band
D. Configuring it to use 802.11n only |
|
Definition
| D. Configuring it to use 802.11n only |
|
|
Term
|
Definition
| The first generation of mobile phone services, popular in the 1970s and 1980s, which were entirely analog. |
|
|
Term
|
Definition
| The range of radio frequencies from 2.4 to 2.4835 GHz. The 2.4-GHz band, which allows for 11 unlicensed channels, is used by WLANs that follow the popular 802.11b and 802.11g standards. However, it is also used for cordless telephone and other transmissions, making the 2.4-GHz band more susceptible to interference than the 5-GHz band. |
|
|
Term
|
Definition
| Second-generation mobile phone service, popular in the 1990s. 2G was the first standard to use digital transmission, and as such, it paved the way for texting and media downloads on mobile devices. |
|
|
Term
|
Definition
| Third-generation mobile phone service, released in the early 2000s, that specifies throughputs of 384 Kbps and packet switching for data (but not voice) communications. |
|
|
Term
|
Definition
| Fourth-generation mobile phone service that is characterized by an all-IP, packet-switched network for both data and voice transmission. 4G standards, released in 2008, also specify throughputs of 100 Mbps for fast-moving mobile clients, such as those in cars, and 1 Gbps for slow-moving mobile clients, such as pedestrians. |
|
|
Term
|
Definition
| A range of frequencies that comprises four frequency bands: 5.1 GHz, 5.3 GHz, 5.4 GHz, and 5.8 GHz. It consists of 24 unlicensed bands, each 20-MHz wide. The 5-GHz band is used by WLANs that follow the 802.11a and 802.11n standards. |
|
|
Term
|
Definition
| The IEEE standard for a wireless networking technique that uses multiple frequency bands in the 5-GHz range and provides a theoretical maximum throughput of 54 Mbps. 802.11a's high throughput, compared with 802.11b, is attributable to its use of higher frequencies, its unique method of encoding data, and more available bandwidth. |
|
|
Term
|
Definition
| The IEEE standard for a wireless networking technique that uses DSSS (direct-sequence spread spectrum) signaling in the 2.4-2.4835-GHz frequency range (also called the 2.4-GHz band). 802.11b separates the 2.4-GHz band into 14 overlapping 22-MHz channels and provides a theoretical maximum of 11-Mbps throughput. |
|
|
Term
|
Definition
| The IEEE standard for a wireless networking technique designed to be compatible with 802.11b while using different encoding techniques that allow it to reach a theoretical maximum capacity of 54 Mbps. 802.11g, like 802.11b, uses the 2.4-GHz frequency band. |
|
|
Term
|
Definition
| The IEEE standard for a wireless networking technique that may issue signals in the 2.4- or 5-GHz band and can achieve actual data throughput between 65 and 600 Mbps. It accomplishes this through several means, including MIMO, channel bonding, and frame aggregation. 802.11n is backward compatible with 802.11a, b, and g. |
|
|
Term
|
Definition
| An IEEE standard for wireless MANs. 802.16 networks may use frequencies between 2 and 66 GHz. Their antennas may operate in a line-of-sight or non-line-of-sight manner and cover 50 kilometers (or approximately 30 miles). 802.16 connections can achieve a maximum throughput of 70 Mbps, though actual throughput diminishes as the distance between transceivers increases. Several 802.16 standards exist. Collectively, they are known as WiMAX. |
|
|
Term
|
Definition
| Currently, the most widely implemented version of WiMAX. With 802.16e, IEEE improved the mobility and QoS characteristics of the technology, making it better suited to VoIP and mobile phone users. 802.16e is capable of 70-Mbps throughput, but because bandwidth is shared and service providers cap data rates, most users actually experience 1-4 Mbps throughput. |
|
|
Term
|
Definition
| Also known as WiMAX2, the IEEE standard for a version of 802.16 that achieves theoretical throughputs of 330 Mbps with lower latency and better quality for VoIP applications than previous WiMAX versions. 802.16m has been approved as a true 4G technology. Manufacturers expect it to reach throughputs of 1 Gbps in the near future. |
|
|
Term
|
Definition
| A device used on wireless LANs that transmits and receives wireless signals to and from multiple nodes and retransmits them to the rest of the network segment. Access points can connect a group of nodes with a network or two networks with each others. They may use directional or omnidirectional antennas. |
|
|
Term
|
Definition
| A method used by wireless stations to detect the presence of an access point. In active scanning, the station issues a probe to each channel in its frequency range and waits for the access point to respond. |
|
|
Term
|
Definition
| A type of wireless LAN in which stations communicate directly with each other (rather than using an access point). |
|
|
Term
|
Definition
| In the context of wireless networking, the communication that occurs between a station and an access point to enable the station to connect to the network via that access point. |
|
|
Term
|
Definition
| An intermediate connection between subscriber networks and a telecommunications carrier's network. |
|
|
Term
|
Definition
| In the context of wireless networking, a frame issued by an access pint to alert other nodes of its existence. |
|
|
Term
|
Definition
| In IEEE terminology, a group of stations that share an access point. |
|
|
Term
| BSSID (basic service set identifier) |
|
Definition
| In IEEE terminology, the identifier for a BSS (basic service set). |
|
|
Term
|
Definition
| In a cellular network, an area of coverage serviced by an antenna and base station. |
|
|
Term
|
Definition
| In the context of 802.11n wireless technology, the combination of two 20-MHz frequency bands to create one 40-MHz frequency band that can carry more than twice the amount of data that a single 20-MHz hand could. It's recommended for use only in the 5-GHz range because this band has more available channels and suffers less interference than the 2.4-GHz band. |
|
|
Term
| CSMA/CA (Carrier Sense Multiple Access with Collision Avoidance) |
|
Definition
| A network access method used on 802.11 wireless networks. In CSMA/CA, before a node begins to send data it checks the medium. If it detects no transmission activity, it waits a brief, random amount of time, and then sends its transmission. If the node does detect activity, it waits a brief period of time before checking the channel again. CSMA/CA does not eliminate, but minimizes, the potential for collisions. |
|
|
Term
|
Definition
| In the context of wireless signal propagation, the phenomenon that occurs when an electromagnetic wave encounters an obstruction and splits into secondary waves. The secondary waves continue to propagate in the direction in which they were split. If you could see wireless signals being diffracted, they would appear to be bending around the obstacle. Objects with sharp edges - including the corners of walls and desks - cause diffraction. |
|
|
Term
|
Definition
| A type of antenna that issues wireless signals along a single direction, or path. |
|
|
Term
|
Definition
| In the context of wireless transmission, the connection between a carrier's antenna and a client's transceiver - for example, a smartphone. |
|
|
Term
| DSSS (direct-sequence spread spectrum) |
|
Definition
| A transmission technique in which a signal's bits are distributed over an entire frequency band at once. Each bit is coded so that the receiver can reassemble the original signal upon receiving the bits. |
|
|
Term
| ESS (extended service set) |
|
Definition
| A group of access points and associated stations (or basic service sets) connected to the same LAN. |
|
|
Term
| ESSID (extended service set identifier) |
|
Definition
| A special identifier shared by BSSs that belong to the same ESS. |
|
|
Term
|
Definition
| A variation in a wireless signal's strength as a result of some of the electromagnetic energy being scattered, reflected, or diffracted after being issued by the transmitter. |
|
|
Term
| FHSS (frequency hopping spread spectrum) |
|
Definition
| A wireless signaling technique in which a signal jumps between several different frequencies within a band in a synchronization pattern known to the channel's receiver and transmitter. |
|
|
Term
|
Definition
| A type of wireless system in which the locations of the transmitter and receiver are static. In a fixed connection, the transmitting antenna focuses its energy directly toward the receiving antenna. This results in a point-to-point link. |
|
|
Term
| GEO (geosynchronous earth orbit) |
|
Definition
| The term used to refer to a satellite that maintains a constant distance from a point on the equator at every point in its orbit. Geosynchronous orbit satellites are the type used to provide satellite Internet access. |
|
|
Term
|
Definition
| The transition that occurs when a cellular network client moves from one antenna's coverage area to another. |
|
|
Term
| HSPA+ (High Speed Packet Access Plus) |
|
Definition
| A 3G mobile wireless technology released in 2008 that uses MIMO and sophisticated encoding techniques to achieve a maximum 84-Mbps downlink throughput and 11-Mbps uplink throughput in its current release. Advances in more efficiently using limited channels and incorporating more antennas in MIMO promise to push the maximum downlink data rate to 336 Mbps. |
|
|
Term
|
Definition
| A type of WLAN in which stations communicate with an access point and not directly with each other. |
|
|
Term
|
Definition
| A command-line utility for viewing and setting wireless interface parameters on Linux and Unix workstations. |
|
|
Term
|
Definition
| A wireless signal or path that travels directly in a straight line from its transmitter to its intended receiver. This type of propagation uses the least amount of energy and results in the reception of the clearest possible signal. |
|
|
Term
| LTE (Long Term Evolution) |
|
Definition
| A 4G cellular network technology that achieves downlink data rates of up to 1 Gbps and uplink rates up to 500 Mbps. AT&T and Verizon have adopted LTE for their high-speed wireless data networks. |
|
|
Term
| MIMO (multiple input-multiple output) |
|
Definition
| In the context of 802.11n wireless networking, the ability for access points to issue multiple signals to stations, thereby multiplying the signal's strength and increasing their range and data-carrying capacity. Because the signals follow multipath propagation, they must be phase-adjusted when they reach their destination. |
|
|
Term
|
Definition
| A type of wireless system in which the receiver can be located anywhere within the transmitter's range. This allows the receiver to roam from one place to another while continuing to pick up its signal. |
|
|
Term
| MSC (mobile switching center) |
|
Definition
| A carrier's facility to which multiple cellular base stations connect. An MSC might be located inside a telephone company's central office or it might stand alone and connect to the central office via fiber-optic cabling or a microwave link. Equipment at an MSC manages mobile clients, monitoring their location and usage patterns, and switches cellular calls. It also assigns each mobile client an IP address. |
|
|
Term
|
Definition
| The characteristic of wireless signals that follow a number of different paths to their destination (for example, because of reflection, diffraction, and scattering). |
|
|
Term
|
Definition
| A type of wireless transmission in which signals travel over a single frequency or within a specified frequency range. |
|
|
Term
|
Definition
| A type of antenna that issues and receives wireless signals with equal strength and clarity in all directions. This type of antenna is used when many different receivers must be able to pick up the signal, or when the receiver's location is highly mobile. |
|
|
Term
|
Definition
| In the context of wireless networking, the process in which a station listens to several channels within a frequency range for a beacon issued by an access point. |
|
|
Term
|
Definition
| In 802.11 wireless networking, a type of frame issued by a station during active scanning to find nearby access points. |
|
|
Term
|
Definition
| The relative strength over a three-dimensional area of all the electromagnetic energy an antenna sends or receives. |
|
|
Term
|
Definition
| The geographical area in which signals issued from an antenna or wireless system can be consistently and accurately received. |
|
|
Term
|
Definition
| In the context of wireless networking, the process of a station establishing a connection (or associating) with a different access point. |
|
|
Term
|
Definition
| In the context of wireless, the phenomenon that occurs when an electromagnetic wave encounters an obstacle and bounces back toward its source. A wireless signal will bounce off objects whose dimensions are large compared with the signal's average wavelength. |
|
|
Term
|
Definition
| In wireless networking, the process that describes a station moving between BSSs without losing connectivity. |
|
|
Term
| RTS/CTS (Request to send/Clear to send) |
|
Definition
| An exchange in which a wireless station requests the exclusive right to communicate with an access point and the access point confirms that it has granted that request. |
|
|
Term
|
Definition
| The process a wireless station undergoes to find an access point. |
|
|
Term
|
Definition
| The diffusion of a wireless signal that results from hitting an object that has smaller dimensions compared with the signal's wavelength. Scattering is also related to the roughness of the surface a wireless signal encounters. The rougher the surface, the more likely a signal is to scatter when it hits that surface. |
|
|
Term
|
Definition
| In the context of wireless networking, an assessment of client requirements, facility characteristics, and coverage areas to determine an access point arrangement that will ensure reliable wireless connectivity within a given area. |
|
|
Term
|
Definition
| A type of wireless transmission in which lower-level signals are distributed over several frequencies simultaneously. Spread-spectrum transmission is more secure than narrowband. |
|
|
Term
| SSID (service set identifier) |
|
Definition
| A unique character string used to identify an access point on an 802.11 network. |
|
|
Term
|
Definition
| An end node on a network; used most often in the context of wireless networks. |
|
|
Term
|
Definition
| The equipment on a satellite that receives an uplinked signal from Earth, amplifies the signal, modifies its frequency, then retransmits it (in a downlink) to an antenna on Earth. |
|
|
Term
|
Definition
| In the context of wireless transmission, the connection between a client's transceiver and a carrier's antenna. |
|
|
Term
|
Definition
| A type of signal made of electromagnetic energy that travels through the air. |
|
|
Term
|
Definition
| An access point that provides routing functions and is used as a gateway. |
|
|
Term
|
Definition
| An access point that provides routing functions. |
|
|
Term
|
Definition
| A continuum of electromagnetic waves used for data and voice communication. The wireless spectrum (as defined by the FCC, which controls its use) spans frequencies between 9 KHz and 300 GHz. Each type of wireless service can be associated with one area of the wireless spectrum. |
|
|
Term
|
Definition
| A LAN that uses wireless connections for some or all of its transmissions. |
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