WiMAX™ Implementation of MIMO
Mobile WiMAX™ is based on the IEEE 802.16e standard but is evolving in waves as it overcomes market limitations. Wave 2 products include MIMO (Multiple Input, Multiple Output) techniques. The techniques used with the smart antenna technology of MIMO makes it possible to put more data into a wireless connection and extend the range. It is expected that Mobile WiMAX with MIMO will be able to carry approximately 4x more traffic than today’s 3G networks. In this case, wireless video becomes more realistic. The unique aspect of the MIMO implementation is the use of OFDMA. In OFDMA user data bursts overlap in time. This maximizes data flow in a complex environment.
| Figure 1. OFDMA burst structure. | |
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At any one point in time, there is data from multiple bursts available on different subchannels, as shown on the Y axis of Figure 1. These subchannels are logical arrangements of subcarriers, not physical arrangements of subcarriers. Therefore, adjacent subcarriers may actually belong to different subchannel groupings and be different modulation formats. While each data burst may only use one modulation format, adjacent subcarriers may have different modulation formats. And because each burst is unique, the pilot locations will be at many different subcarrier locations. The end result is a complexity not found in OFDM.
The complexity drives more sophisticated testing. Agilent is on the forefront of this testing. Greater insight. Greater confidence. Accelerate next-generation wireless.
Sources: Agilent Webinars, Wikipedia, wi-fiplanet.com
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Fading WiMAX™ testing with Agilent's E6651A and an Elektrobit Propsim C8
This application note describes how to perform receiver testing in a faded environment with the E6651A Mobile WiMAX test set, the N6422C Wireless Test Manager software and a channel emulator
Notes d’application 2009-12-07 |
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788 KB
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MIMO Manufacturing Solution Application Note
Compares two of the most popular MIMO manufacturing test methodologies, including examples to illustrate the relative merits.
Notes d’application 2007-07-10 |
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628 KB
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MIMO Measurement Tips with Agilent P-Series Power Meters and U2000 Series USB Power Sensors.
This application note provides an overview of MIMO, and shows the steps of performing an accurate and repeatable MIMO power measurement by using USB sensors or P-series power meter and sensors.
Notes d’application 2009-01-20 |
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MIMO Wireless LAN PHY Layer (RF) Operation & Measurement Application Note 1509
This application note is intended to provide an understanding of MIMO radio operation as it applies to WLAN, and the test configurations for multi-channel radios.
Notes d’application 2008-04-30 |
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Mobile WiMAX™ PHY Layer (RF) Operation and Measurement
This application note describes the operation and physical layer measurements of 802.16e OFDMA Mobile WiMAX devices.
Notes d’application 2008-07-17 |
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7.84 MB
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Solutions for MIMO Receiver Test
This application note shows how engineers can quickly and accurately isolate issues early in the lifecycle to minimize design uncertainty and maximize receiver performance.
Notes d’application 2010-01-14 |
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Solutions for MIMO RF Test and Debug
Ensuring Quick and Accurate Four-Channel, Phase-Coherent MIMO Measurements
Notes d’application 2010-07-14 |
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300 KB
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WiMAX Signal Analysis Part 1: Making Frequency and Time Measurements Application Note
This application note is the first in a 3-part series that presents an approach to WiMAX (802.16-2004) signal analysis that yields the greatest level of understanding and reliability in measurements.
Notes d’application 2005-07-05 |
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714 KB
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