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17/08/2022 Module 12: WLAN Concepts Switching, Routing and Wireless Essentials v7.0 (SRWE) 1...

17/08/2022 Module 12: WLAN Concepts Switching, Routing and Wireless Essentials v7.0 (SRWE) 1 OFFICIAL Module Objectives Module Title: WLAN Concepts Module Objective: Explain how WLANs enable network connectivity. Topic Title Topic Objective Introduction to Wireless Describe WLAN technology and standards. Components of WLANs Describe the components of a WLAN infrastructure. WLAN Operation Explain how wireless technology enables WLAN operation. CAPWAP Operation Explain how a WLC uses CAPWAP to manage multiple APs. Channel Management Describe channel management in a WLAN. WLAN Threats Describe threats to WLANs. Secure WLANs Describe WLAN security mechanisms. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 2 OFFICIAL 2 1 17/08/2022 12.1 Introduction to Wireless © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 3 3 OFFICIAL Introduction to Wireless Benefits of Wireless A Wireless LAN (WLAN) is a type of wireless network that is commonly used in homes, offices, and campus environments. WLANs make mobility possible within the home and business environments. Wireless infrastructures adapt to rapidly changing needs and technologies. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 4 OFFICIAL 4 2 17/08/2022 OFFICIAL Introduction to Wireless Types of Wireless Networks Wireless Personal-Area Network (WPAN) – Low power and short-range (20-30ft or 6-9 meters). Based on IEEE 802.15 standard and 2.4 GHz frequency. Bluetooth and Zigbee are WPAN examples. Wireless LAN (WLAN) – Medium sized networks up to about 300 feet. Based on IEEE 802.11 standard and 2.4 or 5.0 GHz frequency. Wireless MAN (WMAN) – Large geographic area such as city or district. Uses specific licensed frequencies. Wireless WAN (WWAN) – Extensive geographic area for national or global communication. Uses specific licensed frequencies. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 5 OFFICIAL 5 OFFICIAL Introduction to Wireless Wireless Technologies Bluetooth – IEEE WPAN standard used for device pairing at up to 300ft (100m) distance. Bluetooth Low Energy (BLE) – Supports mesh topology to large scale network devices. Bluetooth Basic Rate/Enhanced Rate (BR/EDR) – Supports point-to-point topologies and is optimized for audio streaming. WiMAX (Worldwide Interoperability for Microwave Access) – Alternative broadband wired internet connections. IEEE 802.16 WLAN standard for up 30 miles (50 km). © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 6 OFFICIAL 6 3 17/08/2022 OFFICIAL Introduction to Wireless Wireless Technologies (Cont.) Cellular Broadband – Carry both voice and data. Used by phones, automobiles, tablets, and laptops. Global System of Mobile (GSM) – Internationally recognized Code Division Multiple Access (CDMA) – Primarily used on the US. Satellite Broadband – Uses directional satellite dish aligned with satellite in geostationary orbit. Needs clear line of site. Typically used in rural locations where cable and DSL are unavailable. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 7 OFFICIAL 7 OFFICIAL Introduction to Wireless 802.11 Standards 802.11 WLAN standards define how radio frequencies are used for wireless links. IEEE Standard Radio Frequency Description 802.11 2.4 GHz Data rates up to 2 Mb/s 802.11a 5 GHz Data rates up to 54 Mb/s Not interoperable with 802.11b or 802.11g 802.11b 2.4 GHz Data rates up to 11 Mb/s Longer range than 802.11a and better able to penetrate building structures 802.11g 2.4 GHz Data rates up to 54 Mb/s Backward compatible with 802.11b 802.11n 2.4 and 5 GHz Data rates 150 – 600 Mb/s Require multiple antennas with MIMO technology 802.11ac 5 GHz Data rates 450 Mb/s – 1.3 Gb/s Supports up to eight antennas 802.11ax 2.4 and 5 GHz High-Efficiency Wireless (HEW) Capable of using 1 GHz and 7 GHz frequencies © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 8 OFFICIAL 8 4 17/08/2022 OFFICIAL Introduction to Wireless Radio Frequencies All wireless devices operate in the range of the electromagnetic spectrum. WLAN networks operate in the 2.4 and 5 GHz frequency bands. 2.4 GHz (UHF) – 802.11b/g/n/ax 5 GHz (SHF) – 802.11a/n/ac/ax © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 9 OFFICIAL 9 OFFICIAL Introduction to Wireless Wireless Standards Organizations Standards ensure interoperability between devices that are made by different manufacturers. Internationally, the three organizations influencing WLAN standards: International Telecommunication Union (ITU) – Regulates the allocation of radio spectrum and satellite orbits. Institute of Electrical and Electronics Engineers (IEEE) – Specifies how a radio frequency is modulated to carry information. Maintains the standards for local and metropolitan area networks (MAN) with the IEEE 802 LAN/MAN family of standards. Wi-Fi Alliance – Promotes the growth and acceptance of WLANs. It is an association of vendors whose objective is to improve the interoperability of products that are based on the 802.11 standard © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 10 OFFICIAL 10 5 17/08/2022 12.2 WLAN Components © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 11 11 OFFICIAL WLAN Components Video – WLAN Components This video will cover the following: Antennas Wireless Router Internet Port Wireless Access Point Autonomous and controller-based access points © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 12 OFFICIAL 12 6 17/08/2022 OFFICIAL WLAN Components Wireless NICs To communicate wirelessly, laptops, tablets, smart phones, and even the latest automobiles include integrated wireless NICs that incorporate a radio transmitter/receiver. If a device does not have an integrated wireless NIC, then a USB wireless adapter can be used. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 13 OFFICIAL 13 OFFICIAL WLAN Components Wireless Home Router A home user typically interconnects wireless devices using a small, wireless router. Wireless routers serve as the following: Access point – To provide wires access Switch – To interconnect wired devices Router - To provide a default gateway to other networks and the Internet © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 14 OFFICIAL 14 7 17/08/2022 OFFICIAL WLAN Components Wireless Access Point Wireless clients use their wireless NIC to discover nearby access points (APs). Clients then attempt to associate and authenticate with an AP. After being authenticated, wireless users have access to network resources. Cisco Meraki Go access points © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 15 OFFICIAL 15 OFFICIAL WLAN Components AP Categories APs can be categorized as either autonomous APs or controller-based APs. Autonomous APs – Standalone devices configured through a command line interface or GUI. Each autonomous AP acts independently of the others and is configured and managed manually by an administrator. Controller-based APs – Also known as lightweight APs (LAPs). Use Lightweight Access Point Protocol (LWAPP) to communicate with a LWAN controller (WLC). Each LAP is automatically configured and managed by the WLC. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 16 OFFICIAL 16 8 17/08/2022 OFFICIAL WLAN Components Wireless Antennas Types of external antennas: Omnidirectional – Provide 360-degree coverage. Ideal in houses and office areas. Directional – Focus the radio signal in a specific direction. Examples are the Yagi and parabolic dish. Multiple Input Multiple Output (MIMO) – Uses multiple antennas (Up to eight) to increase bandwidth. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 17 OFFICIAL 17 12.3 WLAN Operation © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 18 18 9 17/08/2022 OFFICIAL WLAN Operation Video – WLAN Operation This video will cover the following: Infrastructure Mode Ad hoc Mode Tethering Basic Service Set (BSS) Extended Service Set (ESS) 802.11 Frame Structure Carrier Sense Multiple Access Collision Avoidance (CSMA/CA) Wireless Client AP Association Passive and Active Delivery Mode © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 19 OFFICIAL 19 OFFICIAL WLAN Operation 802.11 Wireless Topology Modes Ad hoc mode - Used to connect clients in peer-to-peer manner without an AP. Infrastructure mode - Used to connect clients to the network using an AP. Tethering - Variation of the ad hoc topology is when a smart phone or tablet with cellular data access is enabled to create a personal hotspot. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 20 OFFICIAL 20 10 17/08/2022 OFFICIAL WLAN Operation BSS and ESS Infrastructure mode defines two topology blocks: Basic Service Set (BSS) Uses single AP to interconnect all associated wireless clients. Clients in different BSSs cannot communicate. Extended Service Set (ESS) A union of two or more BSSs interconnected by a wired distribution system. Clients in each BSS can communication through the ESS. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 21 OFFICIAL 21 OFFICIAL WLAN Operation 802.11 Frame Structure The 802.11 frame format is similar to the Ethernet frame format, except that it contains more fields. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 22 OFFICIAL 22 11 17/08/2022 OFFICIAL WLAN Operation CSMA/CA WLANs are half-duplex and a client cannot “hear” while it is sending, making it impossible to detect a collision. WLANs use carrier sense multiple access with collision avoidance (CSMA/CA) to determine how and when to send data. A wireless client does the following: 1. Listens to the channel to see if it is idle, i.e. no other traffic currently on the channel. 2. Sends a ready to send (RTS) message the AP to request dedicated access to the network. 3. Receives a clear to send (CTS) message from the AP granting access to send. 4. Waits a random amount of time before restarting the process if no CTS message received. 5. Transmits the data. 6. Acknowledges all transmissions. If a wireless client does not receive an acknowledgment, it assumes a collision occurred and restarts the process © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 23 OFFICIAL 23 OFFICIAL WLAN Operation Wireless Client and AP Association For wireless devices to communicate over a network, they must first associate with an AP or wireless router. Wireless devices complete the following three stage process: Discover a wireless AP Authenticate with the AP Associate with the AP © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 24 OFFICIAL 24 12 17/08/2022 OFFICIAL WLAN Operation Wireless Client and AP Association (Cont.) To achieve successful association, a wireless client and an AP must agree on specific parameters: SSID – The client needs to know the name of the network to connect. Password – This is required for the client to authenticate to the AP. Network mode – The 802.11 standard in use. Security mode – The security parameter settings, i.e. WEP, WPA, or WPA2. Channel settings – The frequency bands in use. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 25 OFFICIAL 25 OFFICIAL WLAN Operation Passive and Active Discover Mode Wireless clients connect to the AP using a passive or active scanning (probing) process. Passive mode – AP openly advertises its service by periodically Passive mode sending broadcast beacon frames containing the SSID, supported standards, and security settings. Active mode – Wireless clients must know the name of the SSID. The wireless client initiates the process by broadcasting a probe request frame Active mode on multiple channels. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 26 OFFICIAL 26 13 17/08/2022 12.4 CAPWAP Operation © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 27 27 OFFICIAL CAPWAP Operation Video – CAPWAP This video will cover the following: Control and Provisioning of Wireless Access Points (CAPWAP) function Split Media Access Control (MAC) Architecture DTLS Encryption Flex Connect APs © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 28 OFFICIAL 28 14 17/08/2022 OFFICIAL CAPWAP Operation Introduction to CAPWAP CAPWAP is an IEEE standard protocol that enables a WLC to manage multiple APs and WLANs. Based on LWAPP but adds additional security with Datagram Transport Layer Security (DLTS). Encapsulates and forwards WLAN client traffic between an AP and a WLC over tunnels using UDP ports 5246 and 5247. Operates over both IPv4 and IPv6. IPv4 uses IP protocol 17 and IPv6 uses IP protocol 136. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 29 OFFICIAL 29 OFFICIAL CAPWAP Operation Split MAC Architecture The CAPWAP split MAC concept does all the functions normally performed by AP MAC Functions WLC MAC Functions individual APs and distributes them Beacons and probe Authentication between two functional components: responses AP MAC Functions Packet Association and re- acknowledgements association of roaming WLC MAC Functions and retransmissions clients Frame queueing and Frame translation to packet prioritization other protocols MAC layer data Termination of 802.11 encryption and traffic on a wired decryption interface © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 30 OFFICIAL 30 15 17/08/2022 OFFICIAL CAPWAP Operation DTLS Encryption DTLS provides security between the AP and the WLC. It is enabled by default to secure the CAPWAP control channel and encrypt all management and control traffic between AP and WLC. Data encryption is disabled by default and requires a DTLS license to be installed on the WLC before it can be enabled on the AP. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 31 OFFICIAL 31 OFFICIAL CAPWAP Operation Flex Connect APs FlexConnect enables the configuration and control of Aps over a WAN link. There are two modes of option for the FlexConnect AP: Connected mode – The WLC is reachable. The FlexConnect AP has CAPWAP connectivity with the WLC through the CAPWAP tunnel. The WLC performs all CAPWAP functions. Standalone mode – The WLC is unreachable. The FlexConnect AP has lost CAPWAP connectivity with the WLC. The FlexConnect AP can assume some of the WLC functions such as switching client data traffic locally and performing client authentication locally. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 32 OFFICIAL 32 16 17/08/2022 12.5 Channel Management © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 33 33 OFFICIAL Channel Management Frequency Channel Saturation If the demand for a specific wireless channel is too high, the channel may become oversaturated, degrading the quality of the communication. Channel saturation can be mitigated using techniques that use the channels more efficiently. Direct-Sequence Spread Spectrum (DSSS) - A modulation technique designed to spread a signal over a larger frequency band. Used by 802.11b devices to avoid interference from other devices using the same 2.4 GHz frequency. Frequency-Hopping Spread Spectrum (FHSS) - Transmits radio signals by rapidly switching a carrier signal among many frequency channels. Sender and receiver must be synchronized to “know” which channel to jump to. Used by the original 802.11 standard. Orthogonal Frequency-Division Multiplexing (OFDM) - A subset of frequency division multiplexing in which a single channel uses multiple sub-channels on adjacent frequencies. OFDM is used by a number of communication systems including 802.11a/g/n/ac. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 34 OFFICIAL 34 17 17/08/2022 OFFICIAL Channel Management Channel Selection The 2.4 GHz band is subdivided into multiple channels each allotted 22 MHz bandwidth and separated from the next channel by 5 MHz. A best practice for 802.11b/g/n WLANs requiring multiple APs is to use non-overlapping channels such as 1, 6, and 11. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 35 OFFICIAL 35 OFFICIAL Channel Management Channel Selection (Cont.) For the 5GHz standards 802.11a/n/ac, there are 24 channels. Each channel is separated from the next channel by 20 MHz. Non-overlapping channels are 36, 48, and 60. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 36 OFFICIAL 36 18 17/08/2022 OFFICIAL Channel Management Plan a WLAN Deployment The number of users supported by a WLAN depends on the following: The geographical layout of the facility The number of bodies and devices that can fit in a space The data rates users expect The use of non-overlapping channels by multiple APs and transmit power settings When planning the location of APs, the approximate circular coverage area is important. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 37 OFFICIAL 37 12.6 WLAN Threats © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 38 38 19 17/08/2022 OFFICIAL WLAN Threats Video – WLAN Threats This video will cover the following: Interception of Data Wireless Intruders Denial of Service (DoS) Attacks Rogue APs © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 39 OFFICIAL 39 OFFICIAL WLAN Threats Wireless Security Overview A WLAN is open to anyone within range of an AP and the appropriate credentials to associate to it. Attacks can be generated by outsiders, disgruntled employees, and even unintentionally by employees. Wireless networks are specifically susceptible to several threats, including the following: Interception of data Wireless intruders Denial of Service (DoS) Attacks Rogue APs © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 40 OFFICIAL 40 20 17/08/2022 OFFICIAL WLAN Threats DoS Attacks Wireless DoS attacks can be the result of the following: Improperly configured devices A malicious user intentionally interfering with the wireless communication Accidental interference To minimize the risk of a DoS attack due to improperly configured devices and malicious attacks, harden all devices, keep passwords secure, create backups, and ensure that all configuration changes are incorporated off-hours. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 41 OFFICIAL 41 OFFICIAL WLAN Threats Rogue Access Points A rogue AP is an AP or wireless router that has been connected to a corporate network without explicit authorization and against corporate policy. Once connected, the rogue AP can be used by an attacker to capture MAC addresses, capture data packets, gain access to network resources, or launch a man-in-the-middle attack. A personal network hotspot could also be used as a rogue AP. For example, a user with secure network access enables their authorized Windows host to become a Wi-Fi AP. To prevent the installation of rogue APs, organizations must configure WLCs with rogue AP policies and use monitoring software to actively monitor the radio spectrum for unauthorized APs. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 42 OFFICIAL 42 21 17/08/2022 OFFICIAL WLAN Threats Man-in-the-Middle Attack In a man-in-the-middle (MITM) attack, the hacker is positioned in between two legitimate entities in order to read or modify the data that passes between the two parties. A popular wireless MITM attack is called the “evil twin AP” attack, where an attacker introduces a rogue AP and configures it with the same SSID as a legitimate AP. Defeating a MITM attack begins with identifying legitimate devices on the WLAN. To do this, users must be authenticated. After all of the legitimate devices are known, the network can be monitored for abnormal devices or traffic. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 43 OFFICIAL 43 12.7 Secure WLANs © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 44 44 22 17/08/2022 OFFICIAL Secure WLANs Video – Secure WLANs This video will cover the following: SSID Cloaking MAC Address Filtering Authentication and Encryption Systems (Open Authentication and Shared Key Authentication) © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 45 OFFICIAL 45 OFFICIAL Secure WLANs SSID Cloaking and MAC Address Filtering To address the threats of keeping wireless intruders out and protecting data, two early security features were used and are still available on most routers and APs: SSID Cloaking APs and some wireless routers allow the SSID beacon frame to be disabled. Wireless clients must be manually configured with the SSID to connect to the network. MAC Address Filtering An administrator can manually permit or deny clients wireless access based on their physical MAC hardware address. In the figure, the router is configured to permit two MAC addresses. Devices with different MAC addresses will not be able to join the 2.4GHz WLAN. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 46 OFFICIAL 46 23 17/08/2022 OFFICIAL Secure WLANs 802.11 Original Authentication Methods The best way to secure a wireless network is to use authentication and encryption systems. Two types of authentication were introduced with the original 802.11 standard: Open system authentication No password required. Typically used to provide free internet access in public areas like cafes, airports, and hotels. Client is responsible for providing security such as through a VPN. Shared key authentication Provides mechanisms, such as WEP, WPA, WPA2, and WPA3 to authenticate and encrypt data between a wireless client and AP. However, the password must be pre-shared between both parties to connect. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 47 OFFICIAL 47 OFFICIAL Secure WLANs Shared Key Authentication Methods There are currently four shared key authentication techniques available, as shown in the table. Authentication Method Description Wired Equivalent Privacy The original 802.11 specification designed to secure the data using (WEP) the Rivest Cipher 4 (RC4) encryption method with a static key. WEP is no longer recommended and should never be used. Wi-Fi Protected Access A Wi-Fi Alliance standard that uses WEP but secures the data with (WPA) the much stronger Temporal Key Integrity Protocol (TKIP) encryption algorithm. TKIP changes the key for each packet, making it much more difficult to hack. WPA2 It uses the Advanced Encryption Standard (AES) for encryption. AES is currently considered the strongest encryption protocol. WPA3 This is the next generation of Wi-Fi security. All WPA3-enabled devices use the latest security methods, disallow outdated legacy protocols, and require the use of Protected Management Frames (PMF). © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 48 OFFICIAL 48 24 17/08/2022 OFFICIAL Secure WLANs Authenticating a Home User Home routers typically have two choices for authentication: WPA and WPA2, with WPA 2 having two authentication methods. Personal – Intended for home or small office networks, users authenticate using a pre- shared key (PSK). Wireless clients authenticate with the wireless router using a pre-shared password. No special authentication server is required. Enterprise – Intended for enterprise networks. Requires a Remote Authentication Dial-In User Service (RADIUS) authentication server. The device must be authenticated by the RADIUS server and then users must authenticate using 802.1X standard, which uses the Extensible Authentication Protocol (EAP) for authentication. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 49 OFFICIAL 49 OFFICIAL Secure WLANs Encryption Methods WPA and WPA2 include two encryption protocols: Temporal Key Integrity Protocol (TKIP) – Used by WPA and provides support for legacy WLAN equipment. Makes use of WEP but encrypts the Layer 2 payload using TKIP. Advanced Encryption Standard (AES) – Used by WPA2 and uses the Counter Cipher Mode with Block Chaining Message Authentication Code Protocol (CCMP) that allows destination hosts to recognize if the encrypted and non- encrypted bits have been altered. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 50 OFFICIAL 50 25 17/08/2022 OFFICIAL Secure WLANs Authentication in the Enterprise Enterprise security mode choice requires an Authentication, Authorization, and Accounting (AAA) RADIUS server. There pieces of information are required: RADIUS server IP address – IP address of the server. UDP port numbers –UDP ports 1812 for RADIUS Authentication, and 1813 for RADIUS Accounting, but can also operate using UDP ports 1645 and 1646. Shared key – Used to authenticate Note: User authentication and authorization is the AP with the RADIUS server. handled by the 802.1X standard, which provides a centralized, server-based authentication of end users. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 51 OFFICIAL 51 OFFICIAL Secure WLANs WPA 3 Because WPA2 is no longer considered secure, WPA3 is recommended when available. WPA3 Includes four features: WPA3 – Personal : Thwarts brute force attacks by using Simultaneous Authentication of Equals (SAE). WPA3 – Enterprise : Uses 802.1X/EAP authentication. However, it requires the use of a 192-bit cryptographic suite and eliminates the mixing of security protocols for previous 802.11 standards. Open Networks : Does not use any authentication. However, uses Opportunistic Wireless Encryption (OWE) to encrypt all wireless traffic. IoT Onboarding : Uses Device Provisioning Protocol (DPP) to quickly onboard IoT devices. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 52 OFFICIAL 52 26 17/08/2022 12.8 Module Practice and Quiz © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 53 53 OFFICIAL Module Practice and Quiz What did I learn in this module? A Wireless LANs (WLANs) are based on IEEE standards and can be classified into four main types: WPAN, WLAN, WMAN, and WWAN. Wireless technology uses the unlicensed radio spectrum to send and receive data. Examples of this technology are Bluetooth, WiMAX, Cellular Broadband, and Satellite Broadband. WLAN networks operate in the 2.4 GHz frequency band and the 5 GHz band. The three organizations influencing WLAN standards are the ITU-R, the IEEE, and the Wi-Fi Alliance. CAPWAP is an IEEE standard protocol that enables a WLC to manage multiple APs and WLANs. DTLS is a protocol provides security between the AP and the WLC. Wireless LAN devices have transmitters and receivers tuned to specific frequencies of radio waves to communicate. Ranges are then split into smaller ranges called channels: DSSS, FHSS, and OFDM. The 802.11b/g/n standards operate in the 2.4 GHz to 2.5GHz spectrum. The 2.4 GHz band is subdivided into multiple channels. Each channel is allotted 22 MHz bandwidth and is separated from the next channel by 5 MHz. Wireless networks are susceptible to threats, including: data interception, wireless intruders, DoS attacks, and rogue APs. To keep wireless intruders out and protect data, two early security features are still available on most routers and APs: SSID cloaking and MAC address filtering. There are four shared key authentication techniques available: WEP, WPA, WPA2, and WPA3. © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 54 OFFICIAL 54 27 17/08/2022 Module 12: WLAN Concepts OFFICIAL New Terms and Commands WPAN Tethering WLAN Basic Service Set (BSS) WMAN Extended Service Set (ESS) WWAN Control and Provisioning of Wireless Access Points Bluetooth (CAPWAP) protocol 802.11 Datagram Transport Layer Security (DTLS) Electromagnetic spectrum FlexConnect ITU Direct-Sequence Spread Spectrum (DSSS) IEEE Frequency-Hopping Spread Spectrum (FHSS) Lightweight AP (LAP) Orthogonal Frequency-Division Multiplexing (OFDM) Lightweight Access Point Protocol (LWAPP) Wired Equivalent Privacy (WEP) Wireless LAN Controller (WLAC) Wi-Fi Protected Access (WPA) SSID WPA2 Autonomous AP WPA3 Controller-based AP Temporal Key Integrity Protocol (TKIP) Omni directional antenna Advanced Encryption Standard (AES) Directional antenna MIMO antenna Ad hoc mode Infrastructure mode © 2019 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 55 OFFICIAL 55 56 28

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