TheWi-Fi Alliance is a non-profit[1] organization that owns theWi-Fi trademark. Manufacturers may use the trademark to brand products certified for Wi-Fi interoperability. It is based inAustin, Texas.
In 1999, pioneers of a new, higher-speed variant endorsed theIEEE 802.11b specification to form the Wireless Ethernet Compatibility Alliance (WECA) and branded the new technology Wi-Fi.[2][3]
Most producers of 802.11 equipment became members, and as of 2012,[update] the Wi-Fi Alliance included over 550 member companies. The Wi-Fi Alliance extended Wi-Fi beyondwireless local area network applications into point-to-point and personal area networking and enabled specific applications such asMiracast.
The Wi-Fi Alliance owns and controls the "Wi-Fi Certified"logo, a registeredtrademark, which is permitted only on equipment which has passed testing. Purchasers relying on that trademark may have greater chances of interoperation than otherwise. Testing involves not only radio and data format interoperability, butsecurity protocols, as well as optional testing for quality of service and power management protocols.[7] Wi-Fi Certified products have to demonstrate that they can perform well in networks with other Wi-Fi Certified products, running common applications, in situations similar to those encountered in everyday use. Certification employs 3 principles:
Interoperability is the primary target of certification. Rigorous test cases are used to ensure that products from different equipment vendors can interoperate in a wide variety of configurations.
Backward compatibility has to be preserved to allow for new equipment to work with existing gear. Backward compatibility protects investments in legacy Wi-Fi products and enables users to gradually upgrade and expand their networks.
New certification programs allow newer technology and specifications come into the marketplace. These certification programs may be mandatory (e.g.,WPA2) or optional (e.g.,WMM).
The Wi-Fi Alliance definition of interoperability demands that products have to show satisfactory performance levels in typicalnetwork configurations and have to support both established and emerging applications. The Wi-Fi Alliance certification process includes three types of tests to ensure interoperability. Wi-Fi Certified products are tested for:
Compatibility: certified equipment has been tested for connectivity with other certified equipment. Compatibility testing has always been, and still is, the predominant component of interoperability testing, and it is the element that most people associate with "interoperability". It involves tests with multiple devices from different equipment vendors.
Conformance: the equipment conforms to specific critical elements of theIEEE802.11 standard.Conformance testing usually involves standalone analysis of individual products and establishes whether the equipment responds to inputs as expected and specified. For example, conformance testing is used to ensure that Wi-Fi equipment protects itself and the network when the equipment detects evidence of network attacks.
Performance: the equipment meets the performance levels required. Performance tests are not designed to measure and compare performance among products, but simply to verify that the product meets the minimum performance requirements. Specific performance tests results are not released by the Wi-Fi Alliance.
Wi-Fi Protected Access 2 (WPA2) security,[9] which aligns with IEEE 802.11i. WPA2 is available in two types: WPA2-Personal for consumer use, and WPA2 Enterprise, which adds EAP authentication.
Optional:
Tests corresponding to IEEE 802.11h and 802.11d.
WMM Quality of Service,[10] based upon a subset of IEEE 802.11e.
WMM Power Save,[11] based upon APSD within IEEE 802.11e
Wi-Fi Protected Setup,[12] a specification developed by the Alliance to ease the process of setting up and enabling security protections on small office and consumer Wi-Fi networks.
Application Specific Device (ASD), for wireless devices other than Access Point and Station which has specific application, such as DVD players, projectors, printers, etc.
Converged Wireless Group–Radio Frequency (CWG-RF, offered in conjunction with CTIA), to provide performance mapping of Wi-Fi and cellular radios in converged devices.
The 802.11 protocols are IEEE standards, identified as 802.11b, 11g, 11n, 11ac, etc. In 2018 The Wi-Fi Alliance created the simpler generation labels Wi-Fi 4 - 6 beginning with Wi-Fi 5, retroactively added Wi-Fi 4 and later added Wi-Fi 6 and Wi-Fi 6E.[18][19][20] Wi-Fi 5 had Wave 1 and Wave 2 phases. Wi-Fi 6E extends the 2.4/5 GHz range to 6 GHz, where licensed. Listed in historical and capacity order. See the individual 802.11 articles for version details or802.11 for a composite summary.
WiGig refers to 60 GHz wireless local area network connection. It was initially announced in 2013 byWireless Gigabit Alliance, and was adopted by the Wi-Fi Alliance in 2013. They started certifying in 2016. The first version of WiGig isIEEE 802.11ad, and a newer versionIEEE 802.11ay was released in 2021.[21][22][23]
In October 2010, the Alliance began to certifyWi-Fi Direct, that allows Wi-Fi-enabled devices to communicate directly with each other by setting up ad-hoc networks, without going through awireless access point or hotspot.[24][25] Since 2009 when it was first announced, some suggested Wi-Fi Direct might replace the need forBluetooth on applications that do not rely on Bluetooth low energy.[26][27]
Wi-Fi Protected Access is a security mechanism based on IEEE 802.11i amendment to the standard that the Wi-Fi Alliance started to certify from the year of 2003.[28]
Miracast, introduced in 2012, is a standard for wireless display connections from devices such as laptops, tablets, or smartphones. Its goal is to replace cables connecting from the device to the display.[32]
Wi-Fi Aware is an interoperability certification program announced in January 2015 that enables device users, when in the range of a particular access point or another compatible device, to receive notifications of applications or services available in the proximity.[33][34] Later versions of this standard included new features such as the capability to establish a peer-to-peer data connection for file transfer.[35]
Fears were voiced immediately in media that it would be predominantly used forproximity marketing.[36]
TDLS, or Tunneled Direct Link Setup, is "a seamless way to stream media and other data faster between devices already on the same Wi-Fi network" based onIEEE 802.11z and added to Wi-Fi Alliance certification program in 2012. Devices using it communicate directly with one another, without involving the wireless network's router.[38]
The certification of Wi-Fi Agile Multiband indicate devices can automatically connect and maintain connection in the most suitable way. It covers theIEEE 802.11k standard about access point information report, theIEEE 802.11v standard that enable exchanging information about state of network,IEEE 802.11u standard about additional information of a Wi-Fi network,IEEE 802.11r about fast transition roaming between different access points, as well as other technologies specified by Wi-Fi alliance.
Wi-Fi EasyMesh is a certification program based on its Multi-Access Point specification for creating Wi-Fi meshes from products by different vendors,[39] based onIEEE 1905.1. It is intended to address the problem of Wi-Fi systems that need to cover large areas where several routers serve as multiple access points, working together to form a larger/extended and unified network.[40][41][42]
Formerly known as Carrier Wi-Fi, Wi-Fi Vantage is a certification program for operators to maintain and manage quality Wi-Fi connections in high usage environment.[43] It includes a number of certification, such as Wi-Fi certified ac (as in 802.11ac), Passpoint, Agile Multiband, and Optimized Connectivity.[44]
^802.11ac only specifies operation in the 5 GHz band. Operation in the 2.4 GHz band is specified by 802.11n.
^Wi-Fi 6E is the industry name that identifies Wi-Fi devices that operate in 6 GHz. Wi-Fi 6E offers the features and capabilities of Wi-Fi 6 extended into the 6 GHz band.
^TheWi-Fi Alliance began certifying Wi-Fi 7 devices in 2024, but as of January 2025[update] the IEEE standard 802.11be is yet to be ratified.
^Giordano, Lorenzo; Geraci, Giovanni; Carrascosa, Marc; Bellalta, Boris (November 21, 2023). "What Will Wi-Fi 8 Be? A Primer on IEEE 802.11bn Ultra High Reliability".arXiv:2303.10442.
^"Wi-Fi Certified 6".Wi-Fi.org. Wi-Fi Alliance.Archived from the original on April 15, 2019. RetrievedMay 2, 2019.
^"Status of Project IEEE 802.11ay". Institute of Electrical and Electronics Engineers. February 2, 2021.Archived from the original on January 19, 2022. RetrievedJanuary 9, 2022.
