Wi-Fi
Wi-Fi (also spelled Wifi or WiFi) is a popular
technology that allows an electronic device to exchange data wirelessly (using radio
waves) over a computer network, including high-speed Internet connections. The Wi-Fi
Alliance defines Wi-Fi as any "wireless local area network (WLAN) products
that are based on the Institute of Electrical and Electronics Engineers' (IEEE)
802.11 standards". However, since most modern WLANs are based on these
standards, the term "Wi-Fi" is used in general English as a synonym
for "WLAN". Only Wi-Fi products that complete Wi-Fi Alliance interoperability
certification testing successfully may use the "Wi-Fi CERTIFIED"
trademark.
A device that can use Wi-Fi (such as a personal computer, video-game
console, smartphone, digital camera, tablet or digital audio player) can
connect to a network resource such as the Internet via a wireless network
access point. Such an access point (or hotspot) has a range of about 20 meters
(65 feet) indoors and a greater range outdoors. Hotspot coverage can
comprise an area as small as a single room with walls that block radio waves or
as large as many square miles — this is achieved by using multiple overlapping
access points.
Wi-Fi can be less secure than wired connections (such as Ethernet) because
an intruder does not need a physical connection. Web pages that use SSL are
secure but unencrypted internet access can easily be detected by intruders.
Because of this, Wi-Fi has adopted various encryption technologies. The early
encryption WEP, proved easy to break. Higher quality protocols (WPA, WPA2) were
added later. An optional feature added in 2007, called Wi-Fi Protected Setup
(WPS), had a serious flaw that allowed an attacker to recover the router's
password. The Wi-Fi Alliance has since updated its test plan and certification
program to ensure all newly certified devices resist attacks.
Wi-Fi
Wi-Fi (also spelled Wifi or WiFi) is a popular technology that allows an electronic device to exchange data wirelessly (using radio waves) over a computer network, including high-speed Internet connections. The Wi-Fi Alliance defines Wi-Fi as any "wireless local area network (WLAN) products that are based on the Institute of Electrical and Electronics Engineers' (IEEE) 802.11 standards". However, since most modern WLANs are based on these standards, the term "Wi-Fi" is used in general English as a synonym for "WLAN". Only Wi-Fi products that complete Wi-Fi Alliance interoperability certification testing successfully may use the "Wi-Fi CERTIFIED" trademark.
A device that can use Wi-Fi (such as a personal computer, video-game
console, smartphone, digital camera, tablet or digital audio player) can
connect to a network resource such as the Internet via a wireless network
access point. Such an access point (or hotspot) has a range of about 20 meters
(65 feet) indoors and a greater range outdoors. Hotspot coverage can
comprise an area as small as a single room with walls that block radio waves or
as large as many square miles — this is achieved by using multiple overlapping
access points.
Wi-Fi can be less secure than wired connections (such as Ethernet) because
an intruder does not need a physical connection. Web pages that use SSL are
secure but unencrypted internet access can easily be detected by intruders.
Because of this, Wi-Fi has adopted various encryption technologies. The early
encryption WEP, proved easy to break. Higher quality protocols (WPA, WPA2) were
added later. An optional feature added in 2007, called Wi-Fi Protected Setup
(WPS), had a serious flaw that allowed an attacker to recover the router's
password. The Wi-Fi Alliance has since updated its test plan and certification
program to ensure all newly certified devices resist attacks.
Internet access
A Wi-Fi-enabled device can connect to the Internet when within range of a wireless
network which is configured to permit this. The coverage of one or more
(interconnected) access points — called hotspots —
can extend from an area as small as a few rooms to as large as many square
miles. Coverage in the larger area may require a group of access points with
overlapping coverage. Outdoor public Wi-Fi technology has been used
successfully in wireless mesh networks in London,
UK.
Wi-Fi provides service in private homes, high street chains and independent
businesses, as well as in public spaces at Wi-Fi hotspots set up either
free-of-charge or commercially. Organizations and businesses, such
as airports, hotels, and restaurants, often provide free-use hotspots to
attract customers. Enthusiasts or authorities who wish to provide services or
even to promote business in selected areas sometimes provide free Wi-Fi access.
Routers that incorporate a digital subscriber line
modem or a cable modem and a Wi-Fi access point, often set up in
homes and other buildings, provide Internet access and internetworking
to all devices connected to them, wirelessly or via cable.
Similarly, there are battery-powered routers that include a cellular mobile
Internet radiomodem and Wi-Fi access point. When subscribed to a cellular phone
carrier, they allow nearby Wi-Fi stations to access the Internet over 2G, 3G,
or 4G networks. Many smartphones have a built-in capability of this sort,
including those based on Android, Bada, iOS
(iPhone), Windows Phone and Symbian,
though carriers often disable the feature, or charge a separate fee to enable
it, especially for customers with unlimited data plans. "Internet
packs" provide standalone facilities of this type as well, without use of
a smartphone; examples include the MiFi- and WiBro-branded
devices. Some laptops that have a cellular modem card can also act as mobile
Internet Wi-Fi access points.
Wi-Fi also connects places that normally don't have network access, such as
kitchens and garden sheds.
A Wi-Fi-enabled device can connect to the Internet when within range of a wireless
network which is configured to permit this. The coverage of one or more
(interconnected) access points — called hotspots —
can extend from an area as small as a few rooms to as large as many square
miles. Coverage in the larger area may require a group of access points with
overlapping coverage. Outdoor public Wi-Fi technology has been used
successfully in wireless mesh networks in London,
UK.
Wi-Fi provides service in private homes, high street chains and independent
businesses, as well as in public spaces at Wi-Fi hotspots set up either
free-of-charge or commercially. Organizations and businesses, such
as airports, hotels, and restaurants, often provide free-use hotspots to
attract customers. Enthusiasts or authorities who wish to provide services or
even to promote business in selected areas sometimes provide free Wi-Fi access.
Routers that incorporate a digital subscriber line
modem or a cable modem and a Wi-Fi access point, often set up in
homes and other buildings, provide Internet access and internetworking
to all devices connected to them, wirelessly or via cable.
Similarly, there are battery-powered routers that include a cellular mobile
Internet radiomodem and Wi-Fi access point. When subscribed to a cellular phone
carrier, they allow nearby Wi-Fi stations to access the Internet over 2G, 3G,
or 4G networks. Many smartphones have a built-in capability of this sort,
including those based on Android, Bada, iOS
(iPhone), Windows Phone and Symbian,
though carriers often disable the feature, or charge a separate fee to enable
it, especially for customers with unlimited data plans. "Internet
packs" provide standalone facilities of this type as well, without use of
a smartphone; examples include the MiFi- and WiBro-branded
devices. Some laptops that have a cellular modem card can also act as mobile
Internet Wi-Fi access points.
Wi-Fi also connects places that normally don't have network access, such as
kitchens and garden sheds.
Advantages
Wi-Fi allows cheaper deployment of local area networks
(LANs). Also spaces where cables cannot be run, such as outdoor areas and
historical buildings, can host wireless LANs.
Manufacturers are building wireless network adapters into most laptops. The
price of chipsets for Wi-Fi continues to drop, making it an
economical networking option included in even more devices.
Different competitive brands of access points and client network-interfaces
can inter-operate at a basic level of service. Products designated as
"Wi-Fi Certified" by the Wi-Fi Alliance are backwards compatible.
Unlike mobile phones, any standard Wi-Fi device will work
anywhere in the world.
Wi-Fi Protected Access encryption (WPA2) is considered
secure, provided a strong passphrase is used. New protocols
for quality-of-service (WMM) make Wi-Fi
more suitable for latency-sensitive applications (such as voice and video).
Power saving mechanisms (WMM Power Save) extend battery life.
Wi-Fi allows cheaper deployment of local area networks
(LANs). Also spaces where cables cannot be run, such as outdoor areas and
historical buildings, can host wireless LANs.
Manufacturers are building wireless network adapters into most laptops. The
price of chipsets for Wi-Fi continues to drop, making it an
economical networking option included in even more devices.
Different competitive brands of access points and client network-interfaces
can inter-operate at a basic level of service. Products designated as
"Wi-Fi Certified" by the Wi-Fi Alliance are backwards compatible.
Unlike mobile phones, any standard Wi-Fi device will work
anywhere in the world.
Wi-Fi Protected Access encryption (WPA2) is considered
secure, provided a strong passphrase is used. New protocols
for quality-of-service (WMM) make Wi-Fi
more suitable for latency-sensitive applications (such as voice and video).
Power saving mechanisms (WMM Power Save) extend battery life.
Limitations
Spectrum assignments and operational limitations are not consistent
worldwide: most of Europe allows for an additional two channels beyond those
permitted in the US for the 2.4 GHz band (1–13 vs. 1–11), while Japan has
one more on top of that (1–14). As of 2007, Europe is essentially homogeneous
in this respect.
A Wi-Fi signal occupies five channels in the 2.4 GHz band. Any two
channel numbers that differ by five or more, such as 2 and 7, do not overlap.
The oft-repeated adage that channels 1, 6, and 11 are the only
non-overlapping channels is, therefore, not accurate. Channels 1, 6, and 11 are
the only group of three non-overlapping channels in the U.S. In Europe
and Japan using Channels 1, 5, 9, and 13 for 802.11g and 802.11n
is recommended.
Equivalent iso-tropically radiated power (EIRP) in the EU
is limited to 20 dBm (100 mW).
The current 'fastest' norm, 802.11n, uses double the radio
spectrum/bandwidth (40 MHz) compared to 802.11a or
802.11g (20 MHz). This means there can be only one 802.11n network on the
2.4 GHz band at a given location, without interference to/from other WLAN
traffic. 802.11n can also be set to use 20 MHz bandwidth only to prevent
interference in dense community.
Spectrum assignments and operational limitations are not consistent
worldwide: most of Europe allows for an additional two channels beyond those
permitted in the US for the 2.4 GHz band (1–13 vs. 1–11), while Japan has
one more on top of that (1–14). As of 2007, Europe is essentially homogeneous
in this respect.
A Wi-Fi signal occupies five channels in the 2.4 GHz band. Any two
channel numbers that differ by five or more, such as 2 and 7, do not overlap.
The oft-repeated adage that channels 1, 6, and 11 are the only
non-overlapping channels is, therefore, not accurate. Channels 1, 6, and 11 are
the only group of three non-overlapping channels in the U.S. In Europe
and Japan using Channels 1, 5, 9, and 13 for 802.11g and 802.11n
is recommended.
Equivalent iso-tropically radiated power (EIRP) in the EU
is limited to 20 dBm (100 mW).
The current 'fastest' norm, 802.11n, uses double the radio
spectrum/bandwidth (40 MHz) compared to 802.11a or
802.11g (20 MHz). This means there can be only one 802.11n network on the
2.4 GHz band at a given location, without interference to/from other WLAN
traffic. 802.11n can also be set to use 20 MHz bandwidth only to prevent
interference in dense community.
Safety
The World Health Organization (WHO) says "there is no risk from low
level, long-term exposure to wi-fi networks" and the United Kingdom's Health
Protection Agency reports that exposure to Wi-Fi for a year results in the
"same amount of radiation from a 20-minute mobile phone call."
A small percentage of Wi-Fi users have reported adverse health issues after
repeat exposure and use of Wi-Fi, though
there has been no publication of any effects being observable in double-blind
studies. A review of studies involving 725 people that claimed electromagnetic
hypersensitivity found no evidence for their claims.
One study claims, in preliminary results, that "laptops (Wi-Fi mode) on
the lap near the testicles may result in decreased male fertility".
Another small sample study (15 males and 15 females) found a decrease in the P300
event-related potential (ERP) for male but not female subjects while engaging
in a working memory oriented linguistic task during Wi-Fi exposure.
The World Health Organization (WHO) says "there is no risk from low
level, long-term exposure to wi-fi networks" and the United Kingdom's Health
Protection Agency reports that exposure to Wi-Fi for a year results in the
"same amount of radiation from a 20-minute mobile phone call."
A small percentage of Wi-Fi users have reported adverse health issues after
repeat exposure and use of Wi-Fi, though
there has been no publication of any effects being observable in double-blind
studies. A review of studies involving 725 people that claimed electromagnetic
hypersensitivity found no evidence for their claims.
One study claims, in preliminary results, that "laptops (Wi-Fi mode) on
the lap near the testicles may result in decreased male fertility".
Another small sample study (15 males and 15 females) found a decrease in the P300
event-related potential (ERP) for male but not female subjects while engaging
in a working memory oriented linguistic task during Wi-Fi exposure.
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