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Next Generation Wireless Networking Technology. Improves Throughput, Range & Reliability of systems. Spatial OFDM, provides more efficient modulation techniques Wider 40 MHz channels provide twice the legacy transmission bandwidth. Multiple Input Multiple Output (MIMO) increases data rate. Frame Aggregation reduces transmission overhead. What is n

2.4 GHz 22 MHz Channel DSSS & CCK PSK Modulation b 2.4 GHz 22 MHz Channel OFDM Spreading QAM and PSK g 5.0 GHz 20 MHz Channel OFDM QAM Modulation a Multiple Input/Multiple Output System 2.4 and 5.0 GHz ( a, g and b compatible) 20 MHz or 40MHz Channel Max Data Rate: Based on Configuration n Introduction to n

Multiple Simultaneous Tx Multiple Simultaneous Rx Multiple Spatial Streams 20 MHz 20/40 MHz Channel Width Deliver multiple frames Reduce ACK overhead AMPDU Aggregation + Block Ack Optimize throughput Short Guard Single concatenated frame Improve overall throughput AMSDU Aggregation Minimum Idle time Reduce overhead when transmitting RIFS 11n clients must support at least 40MHz operation and AMPDU Aggregation to get best throughput Factors that affect 11n throughput

Mobile Terminal Access Point Multipath Reflected Signal 1 Reflected Signal 2 Reflected Signal 3 Original Signal

Maximal Ratio Combining (N Spatial Stream(s) Received Over N+1 Antennas) Receive Side Application Multiple Receive Antennas In Play When a N Spatial Stream(s) Received Over N+1 Antennas Increases Effective Receiver Sensitivity Even ABG Clients Benefit Radio DSPDSP Data TX RX Multiple Receiver - MRC

Multiple Transmit Multiple Receive Spatial Multiplexing Spatial Multiplexing (TxR: N) Transmit & Receive Side Participation Multiple Data Streams Multiplexed over Multiple Spatial Channels Receiver Demultiplexes Requires MIMO AP & MIMO Client Highest Performance TX Radio Data DSP Bit Split RX Radio Data DSP Bit Merge

Core Features Adaptive Mesh Spectrum Analysis Client Rate Limiting Router – WAN-LAN-WLAN Routing Function Stateful Packet Inspection Firewall, IP Filtering Integrated DHCP & AAA Dual Band a/b/g & a/b/g/n Radios Built-In Hotspot & Web Pages Adaptive Mode Operation Can be adopted/ managed from a Wireless Switch Management Over the Air F/W Upgrades Auto Install Web-Based Java UI CLI & SNMP v1/v2/v3 RF Management Suite Radio Features Dual radio 11n data rate operation with 802.3af AP-7131 Radio Fully DFS 2 Compliant IPSec VPN Dual Band IPS Sensor 802.1q Trunking – VLAN Support About AP-7131

Target Verticals Better coverage in tough multipath environments like warehouses, stores for abg handheld devices Store of the Future Applications like Smart Carts with Location based advt. streaming Multimedia Kiosks Wireless Digital Signage Video Surveillance Retail SOHOEducationHealthcareManufacturingPublic Safety Wireless enabled e- business applications Video conferencing in meeting rooms Fixed Mobile Convergence (FMC) Point-to-Point bridging between buildings Wired LAN Replacement Wireless access in high density areas like classrooms and libraries with fewer access points Video streaming of on-demand courses E-Text Books and other digital media downloads. Point-to-Point bridging between buildings Hotspots: Student Internet access Wireless access to medical imaging and patient records Coverage improvement in high multipath areas Point-to-Point bridging between buildings Fixed Mobile Convergence Hotspots: Internet access in high density areas like waiting rooms DVR downloads from Police Cars Video Surveillance Fixed Mobile Convergence Wireless sensor networks Coverage improvement in high multipath areas Point-to-Point bridging between buildings Fixed Mobile Convergence Video Surveillance

Agenda NEW 4.0 Releases –Tri-Radio product support –3 rd Radio Sensor support –Spectrum Analysis –IPSec for VPN –IP Filtering –WLAN Rate Limiting –Per Radio Client Limit –Power Management Outdoor Solution –AP-7131 NEMA Enclosure Update Product Pricing

Motorola AP-7131 Industrys First n Adaptive Services AP for Concurrent Services Radio 1 Client Access and Mesh in 2.4GHz ---- or Dual-band WIPS Radio 3 Dual Band WIPS Spectrum Analyzer 3G backhaul Faster ROI: $300 - $400 cost savings per Sensor AP Radio 2 Client access and Mesh in 5GHz ---- or ---- Dual-band WIPS

Plenum Rated Aluminum Alloy Casing 3 x 3 : 2 MIMO capability Detachable Plastic façade 6 LEDs AC Power Connector 2 Gig-Ethernet Ports. 1 Power over Ethernet RJ45 Console Cable (Optional Plastic façade with integrated antenna elements – Not shown here) 3 rd Radio Sensor Antenna AP-7131 Specs

Click on Quick Setup1 Provide a System Name2 Select Country Code3 Provide Time Server IP address4 Provide WIPS Server IP address5 Select Radio Configuration6 AP-7131 Tri-Radio Quick Setup Skip Step 5 if there is no WIPS server

AP-7131 Features Summary of Current Features Adaptive AP Mesh Hotspot Power Utilization Enhancements WIPS Stateful Firewall, WPA2 Support Integrated DHCP, AAA Server Hotspot 802.1q Trunking RFMS Support QoS WMM New Features in 4.0 Tri-Radio product support 3 rd Radio Sensor support Spectrum Analysis IPSec for VPN IP Filtering WLAN rate limiting Per Radio Client Limit New Features in 4.0 Tri-Radio product support 3 rd Radio Sensor support Spectrum Analysis IPSec for VPN IP Filtering WLAN rate limiting Per Radio Client Limit

Dual Radio AP Dual band a/b/g/n radios - 3 x 3: 2 MIMO Performance - Continuous full-band WIPS sensing - Tri Radio AP Dual band a/b/g/n radios - 3 x 3: 2 MIMO Performance - Integrated WIPS sensor - High Tx power of 27.7mW across 3 chains 3G AP Dual band a/b/g/n radios - 3 x 3: 2 MIMO Performance - Integrated 3G card support for WAN backhaul 3G cards and features will be supported in next release AP-7131 Product Skus

Scenario 3 AP-7131 with Integrated WIPS Sensor Continuous Scanning with integrated WIPS Scenario 2 AP-300 Access Point AP-300 Sensor AP-300 Access Point Continuous Scanning with additional hardware Scenario 1 AP with WIPS sensing feature Part-time Scanning solution WIPS Sensor coverage RF Coverage Motorola AirDefense WIPS Sensing on AP-7131

Spectrum Analysis FULL SCAN CLASSIFY INTERFERENCE SOURCES Physical Layer Troubleshooting -Detect non interference - Microwave, Bluetooth, Frequency Hoping Device, etc and 5.0 GHz Band Support - Remote Real-time Spectrograms Automated Interference Detection - Use Existing Sensors – No Special Hardware Needed - Remote Detection of Interference - Automatic Interference Alarms - Improve Wireless Performance

AP-7131 Client H.Q. Internet 11n AP VPN Appliance Client H.Q. Internet IPSec VPN Challenges -Secure access requires additional hardware - Low ROI due to multiple hardware support AP-7131 Benefits - Network-in-a-box integrated solution -Secure access to the H.Q.

IPSec VPN Select VPN1 Add VPN Tunnel2 Provide Tunnel Name3 Select Interface Name4 Provide Local WAN IP5 Provide Remote Subnet6 Provide Remote Subnet Mask7 Provide Remote IP Gateway8 Click Apply9

Server 1 IP: IP Filtering Challenges - Application based security at the edge of network - Provide controlled network environment for client access WLAN Coverage Switch Client A IP: Client B IP: Requesting access to server 2. Access to server granted IP Filtering: Disabled Client A and Client B are part of same WLAN

Server 1 IP: IP Filtering AP-7131 Benefits - Provides ability to manage client associations based on applications - Provides controlled wireless network environment for client access. IP Filtering: Enabled Client A and Client B are part of same WLAN WLAN Coverage Switch Client A IP: Client B IP: Requesting access to server 2. Access to server denied

IP Filtering Select IP Filter1 Add Filter2 Edit Filter Properties3 Click Apply4 Select Wireless5 Edit WLAN6 Enable IP Filtering4 Edit IP Filtering4 Edit Applied Filter properties4 Click Ok4

WLAN Rate Limiting AP-7131 Benefits - Provide fixed limit for each client in a given WLAN - Rate-limiting does not depend on priority or number of clients associated to the AP WLAN 2: Silver MembersWLAN 1: Gold Members Downstream: 3 Mbps Upstream: 1 Mbps Downstream: 1 Mbps Upstream: 0.5 Mbps Internet AP-7131

WLAN Rate Limiting Select Wireless1 Create a WLAN2 Select WLAN3 Edit WLAN4 Enable Rate Limiting5 Enter appropriate rates6 Click Apply7

Per-Radio Client Limit Internet WLAN Coverage AP-7131 Benefits - Enables the user to limit number of clients that can associate per radio - Maintain high quality of service with associated clients

Per-Radio Client Limit Select Radio Configuration1 Select desired Radio2 Enter number of MUs allowed3 Click Apply4

Power Management: AP-7131 Summary PowerAP TypeRadio 1Radio 2Radio 3LAN 1LAN 2 3AF Single-Radio Dual-Radio Dual-Radio Express Card Tri-Radio PowerAP TypeRadio 1Radio 2Radio 3LAN 1LAN 2 3AT to Full Power Single-Radio Dual-Radio Dual-Radio Express Card Tri-Radio

Power Management for Tri-Radio AP-7131: Tri-Radio Frequency 2.4 GHz & 5.0 GHz 2.4 GHz & 5.0 GHz 2.4 GHz & 5.0 GHz 2.4 GHz OR 5.0 GHz 2.4 GHz OR 5.0 GHz 2.4 GHz & 5.0 GHz 3AF 3AT Power Power-Mode Default Option Default Option 2.4 GHz = Power Increase

Power Management for Express Card AP-7131: Express Card Frequency 2.4 GHz & 5.0 GHz 2.4 GHz & 5.0 GHz 2.4 GHz & 5.0 GHz 3AF 3AT Power Power-Mode Default Option = Power Increase

Power Settings Select System Configuration1 Select Power Settings Option2 Select Power Mode3 Select Default or Option4 Select Options Radio 1 or Radio 2 5 Click Apply6 1. There are 3 types of power modes, auto, 3af, and 3at, that are provided as options based on APs Power Status. 2. Select Default or Option mode for selected power mode. Note, Option increases transmit power. 3. Select Default Radio to which the power settings need to be applied. Note, this is only applicable for Tri-Radio.

AP-7131 Product Pricings Part NumberDescriptionList Price AP-7131N-66S78-WW AP-7131: Tri Radio n Access Point, 6 element Facade antenna Module, with QIG.* $ 1,699 AP-7131N-66S70-WRAP-7131: Tri-Radio n Access Point, with QIG* $ 1,649 AP-7131N-66S78-US AP-7131: Tri Radio n Access Point, 6 element Facade antenna Module, with QIG (US Only) $ 1,699 AP-7131N-66S70-USAP-7131: Tri-Radio n Access Point, with QIG (US Only) $ 1,649 AP-7131N-66E48-WW AP-7131: Dual Radio n Access Point w/ Integrated ExpCard Slot, 6 element Facade antenna Module, with QIG.* $ 1,349 AP-7131N-66E40-WR AP-7131: Dual Radio n Access Point w/ Integrated ExpCard Slot, with QIG.* $ 1,299 AP-7131N-66E48-US AP-7131: Dual Radio n Access Point w/ Integrated ExpCard Slot, 6 element Facade antenna Module, with QIG (US Only) $ 1,349 AP-7131N-66E40-US AP-7131: Dual Radio n Access Point w/ Integrated ExpCard Slot, with QIG (US Only) $ 1,299 * AP-7131N-xxxxx-WR or AP-7131N-xxxxx-WW SKUs cannot be ordered in the US

New Antennas: Pricing & Availability Part NumberDescriptionList Price ML-2452-HPA5-036 Dual-Band Outdoor Omni antenna, Gain: GHz, GHz $ 249 ML-2452-PNL9M3-036 Dual-Band Outdoor Sector antenna, Gain: 8 2.4GHz, GHz $ 800 ML-5299-BYGA GHz Yagi Outdoor antenna, Gain: 14.5 dBi $ 285 Availability for ML-2452-PNL9M3-036 and ML-5299-BYGA Rev A (Release Date): Mid-Q3

CapabilitiesAP300AP5131AP5181AP a/b/g Centrally managed large scale deployments Built in management Mesh Adaptive AP w/ site survivability Voice optimized Harsh outdoor NEMA enclosure options Switch Managed Only a/b/g/n & Tri-radio Concurrent sensor & data Spectrum Analysis, AP Testing, VA Motorola AP Suite

REQUIREMENTMOT 7131 Aruba 124 C1140C1250 A/B/G/N AP Dual Radio Tri-Radio Dual-band Sensing on 2.4GHz and 5.2GHz 802.3af Compliance & Performance Network and Layer 3 Services Dual Gigabit Ethernet LAN/WAN Adaptive Site Survivability Performance Mesh Only Motorola Offers Full-Time Concurrent Infrastructure & Sensing, Mesh, Adaptive Site Survivability and Network Services Excellent Average Good Poor Non Existent Motorola n – Beats Competition

Thank You.

Current Features Router – Wireless Router with 2 GigEthernet Ports Stateful Firewall, WPA2 Support (PCI Compliance) Integrated DHCP, AAA Radius Server, Hotspot Gateway 802.1q Trunking – VLAN Support Site-to-Site IPSec VPN – Secure Backhaul to Corporate Wireless MESH (for hard-to-wire areas) WMM QOS Dual Band DFS Compliant n Radios Multi BSSID, 16 WLANs Bandwidth Allocation per WLAN Adaptive AP Mode (can be managed from Wireless Switch)* Key Features from FW 3.2 * Motorola AirDefense Enterprise version or higher is required to support the AP-7131 as WIPS Sensor for monitoring and policy enforcement of n infrastructure. Supported features include: alarm detection, a/b/g/n protocol analysis, LiveView, forensic analysis, and location tracking. ** Supported only on Motorola wireless switches with Wi-NG version 4.0. For Adaptive AP support on AP-7131 version 3.2 is required. Wi-NG version 4.0 will also support Adaptive WIPS sensor configuration and management on AP-7131 version 3.2. New Features with 3.2 Air Defense Wireless Intrusion Prevention Sensor (WIPS) Adaptive AP Mesh Power Utilization Enhancements RFMS Support Hotspot AP-7131 supports dedicated full-band WIPS sensing.* AP-7131 Mesh architecture can be centrally managed by a switch.** AP-7131 enables high performance dual radio operations with 802.3af. Dependent mode AP-7131s can be managed using RFMS ver. 3.1or higher. AP-7131 enables guest access with authentication services provided by an external Radius/AAA server.

Scenario 3 AP-7131 with Integrated WIPS Sensor Continuous Scanning with integrated WIPS Scenario 2 AP-300 Access Point AP-300 Sensor AP-300 Access Point Continuous Scanning with additional hardware Scenario 1 AP with WIPS sensing feature Part-time Scanning solution Motorola AirDefense WIPS Sensing on AP-7131 WIPS Sensor coverage RF Coverage

One radio WIPS, one radio WLAN – simultaneous WIPS and WLAN support Motorola AirDefense WIPS Sensing on AP-7131 Both radios provide Dual-Band Sensing WIPS configuration is provided on a single new GUI page. Enable sensing with WIPS Server IP to initiate connection with WIPS server. WIPS Server 1 is primary, WIPS Server 2 is secondary appliance. Connection with primary is attempted first. If connection fails, connection with secondary is attempted. Air Defense Application Configuration

How to: Configure Radios for WIPS Sensing or WLAN Click on Wireless1 Select WIPS2 Select radio configuration as WLAN or WIPS 3 Enter the WIPS IP Server Address 4 Click Apply5

Branch Office(s) Adaptive AP Mesh AP-7131 RFS 7000 Cluster Adaptive Mesh Deployment NOC Internet/Intranet Application Server Current Adaptive Deployment

Adaptive AP Mesh Radio configuration for base bridge and client bridge are supported on both 20 MHz and 20/40 MHz Client backhaul and Radio configurations for adaptive 11n Mesh architecture also supported Wi-NG 4.0 version on RFS6000 and RFS-7000 will support Adaptive WIPS sensor configuration and management on AP-7131 ver. 3.2 AP-7131 Mesh architecture is supported on the switch

43 How to: Configure adaptive mode settings on AP-7131 Click on System Config.1 Select Adaptive AP Setup2 Enable Auto Discovery3 Provide Switch IP Addresses4 Set Keep-Alive Period5 Click Apply6

44 Click on Network Configuration1 Click on Wireless2 Select Radio Configuration3 Enable appropriate Radio4 Enable Base Bridge For Base Bridge AP 5 Enable Client Bridge For Client Bridge AP 6 Select Mesh Network7 Click Apply8 How to: Configure Mesh on AP-7131

45 How to: Configure Mesh on RFS 6000 or Click on Networks1 Select Access Port Radios2 Note the Aps being adopted3 Click on AP Mesh4 Select Base Bridge For Base Bridge AP 5 Click OK6 Repeat steps for B.B & C.B. AP Provide Mesh network name 7 Select Mesh Timeout8 Click OK9

DSL/Cable Modem SME Network in a Box Dual radio n operation with 802.3af Branch Office Systems Server AP WAN Printer LAN Internet ES3000 WLAN 1 Inventory App b/g Terminals (TKIP Security) WLAN 2 Public Hotspot b/g Laptops (Open Security) WLAN n Multimedia Kiosk App. (AES Security) 802.3AF b/g/n (2.4GHz) a/n (5GHz) WLAN 3 Voice/ Video Conference n Laptops (WPA2)

Data RTS CTS Data 1. Hidden Node Problem 2. Data from two clients collides at AP 3. 11G client sends a short RTS packet 4. Receiver responds with CTS packet causing all neighboring clients to backoff 5. Sender sends its DATA to receiver RTS/CTS is used to solve the Hidden Node Problem What is RTS-CTS? 11G Client 11B Client

5 GHz AP-7131 Legacy Client 11n Client HT Protection causes throughput degradation similar to 11b + 11g co-existence Client Associates CTS-to-Self RTS-CTS HT Protection

Utilizes two adjacent channels (primary and secondary) for 20/40Mhz When in 20/40Mhz, AP can support legacy clients Similar to proprietary channel bonding techniques (Atheros turbo mode – 108Mbps) Snapshot of the beacon below displays the support for 20/40Mhz Channel Width

Configure Channel Width Click on Wireless1 Select Appropriate Radio Under Radio Configuration 2 Select 20/40 MHz3 Click on Apply4

Cont Window ACK Station 1 Station 2 Data MPDU-1 ACK SIFS/DIFS Data MPDU-1 SIFS Cont Window DIFS Cont Window Block ACK SIFS/DIFS Station 1 Station 2 Data MPDU-1 SIFS AMPDU Header Legacy Operation AMPDU-Aggregation AMPDU Aggregation

1. Every Data packet is transmitted at 300Mbps Packet Date Rate is 300Mbps Every Packet is Acknowledged In a period of 1.8 msecs only 9 Data packets were transmitted 2. Every Data packet is Acknowledge n Wireless Trace in 20/40Mhz with AMPDU Aggregation Disable 9 Data Packets Tx in 1.8 msecs AMPDU Aggregation Disabled

1. Every Data frame is transmitted at 300Mbps Frame Date Rate is 300Mbps Aggregated frames Block Acknowledged In a period of 1.8 msecs 38 Data packets were transmitted. Significant Improvement over non-Aggregated frames (9 Frames) 2. Aggregated Frames Block Acknowledged 38 Data Frames Tx in 1.8 msecs AMPDU Aggregation Enabled

How to: Configure AMPDU Click on Wireless1 Select Appropriate Radio Under Radio Configuration 2 Select 20/40 MHz3 Click on Apply4 Click OK5

Guard Interval is the used to avoid interference between two OFDM Signals Default Guard Interval in a and g is 800 nano secs n defines an optional Short Guard Interval of 400 nano secs boosting the performance a bit Short Guard Interval

How to: Configure Short Guard Click on Wireless1 Select Appropriate Radio Under Radio Configuration 2 Select Set Rates3 Enable Support Short Guard Interval 4 Click OK4 Click on Apply4

AMSDU aggregates multiple MSDUs into a single MPDU The entire AMSDU is transmitted when an error occurs in contrast to AMPDU aggregation where only the error AMPDU is transmitted RIFS can be used in place of SIFS to separate multiple transmissions from a single transmitter when no SIFS-separated response transmission is expected as a means of reducing overhead The AP sets the RIFS Mode field of the HT IE to 1 if supported AMSDU and RIFS

229 Mbps Channel Width: 20/40 Security None Packet Size:1518 Test Duration: 30secs Version: R Test Tool: Veriwave 229 Mbps 5 Ghz 124 Mbps 229 Mbps 5 Ghz 124 Mbps 2.4 Ghz 119 Mbps Mesh Performance

Veriwave is: An Integrated Packet Generator A Wired and Wireless Client Emulator Test Topology (Veriwave)

Access Point 11n Client MCS 0-7 MCS 8-15 SM Power Save Active 40 MHz intolerant Active Client: SM Power Save Client supports only one data Active Rx chain AP transmits only one spatial stream Client: 40 MHz Intolerant AP downgrades to 20 MHz mode of operation 20 MHz 11n Client Settings

5 GHz 2.4 GHz AP-7131 Legacy Client 11n Client Dedicated 5GHz spectrum for 11n HT clients ONLY Dedicated 2.4GHz spectrum for all legacy clients Best Deployment Model

T: # of Transmit Antennas R: # of Receive Antennas N: # of Spatial Streams DevicesTxRxN Motorola AP Cisco Aironet n Client 1 (common) n Client 2121 AP-7131 TxR:N More resilient then competition