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802.11n MAC MSDU integrity
提问者:cyaozeng   |  提问时间:2015-2-5 10:24
802.11n的MAC data plane architecture中,请问,MSDU integrity and protection指的是什么?和MPDU encryption and integrity的完整性有什么区别?
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If you don’t know where you’re going, you’ll end up someplace else.
Yogi Berra

Although most of the discussion in this book has been about speed, the real value of 802.11ac to the network administrator is that it increases the capacity of a wireless network. Whether the network needs to serve more clients with today’s level of throughput or today’s client load with higher throughput, the solution is 802.11ac.
Several intersecting trends are driving the need for increased capacity. Many new devices are built around the assumption that 802.11 coverage is ubiquitous and therefore do not have an alternative LAN technology for accessing networks. Of these new devices, most of them are battery-operated and portable, and do not even have the capability to connect to wired Ethernet networks. As traffic shifts onto the wireless LAN, it must support new demands for connectivity. Increased numbers of devices is only the first part of a one-two punch being delivered by users. After connecting so many devices to wireless LANs, users then change the type of applications in use. With improved computing power and display technology, the user experience is becoming significantly more media-heavy, with a special emphasis on streaming multimedia and especially video support. Combine an increase in the number of devices with increased demand for capacity from each device, and you have a recipe for congestion unless greater capacity is in the cards. As the improved performance of 802.11ac becomes readily available in client devices, there will be user demand to take advantage of that speed.
Adoption of 802.11ac will likely happen more quickly than that of its predecessors. Improving speed is always welcome in networking, and many networks are built with a three- to five-year time horizon of service. Part of the planning process in building an 802.11ac network is to assess not only the current load on your network, but also the expected growth in demand for service to determine whether the increased density justifies using the highest-performance technology available. A strong industry focus on interoperability has made the transition to 802.11ac straightforward for network administrators as well.

Getting Ready for 802.11ac




802.11ac is evolutionary as much as it is revolutionary. Many of the design principles that have been used with previous technologies are still applicable, with a few minor changes to take advantage of new protocol features. The drivers to use 802.11ac are the same drivers that have justified every other network upgrade you have ever done:

Peak speed and/or throughput
The most obvious driver for 802.11ac is the new higher speeds. Some applications require as much speed as the network can deliver, and these are obvious beneficiaries of the new technology. Increased use of video is a major driver of 802.11ac adoption, as is the increase in device density due to the widespread use of tablets and wireless LAN–equipped smartphones. Video is widely used throughout the spectrum of wireless LAN users, whether it is large and detailed images for patient care, instructional videos in the classroom, or wireless display technologies in corporate conference rooms. Higher speeds also enable additional point-to-point deployment scenarios and provide the capacity necessary to serve 802.11n clients with mesh backhaul connections.
Capacity
With so much raw capacity, especially with wider channels, 802.11ac provides a superior level of service. In addition to the general efficiencies that the IEEE 802.11 working group builds into new specifications, products often add clever features to further extract capacity increases from the new physical layer. One common method of doing so is to bias transmissions toward frames that require shorter times to transmit. Even though 802.11ac can transmit large numbers of bits, the extremely high data rates mean that even very large amounts of data are transmitted faster than small packets were in 802.11b.
Latency
Some applications benefit primarily from lower latency, especially real-time streaming applications such as voice, videoconferencing, or even video chat. Improving latency can be done by building a more efficient network, but often the best way to improve latency is to reduce the load on the network. 802.11 measures load by airtime utilization, so moving to faster physical layer standards improves latency by reducing the airtime load. Multi-user MIMO also has the potential to decrease network load by enabling parallel transmissions. Reducing latency means that even a few 802.11ac devices may benefit the entire network by decreasing airtime demand.

As part of the IEEE project authorization process, a task group in the formation process needs to discuss compatibility with previous technology standards. Early adopters of wireless LANs made significant investments in the technology, and the IEEE process is designed to protect that investment. Backward compatibility with prior 802.11 standards was a key consideration in the 802.11ac standardization process, and there was extensive work done in the protocol to ensure that 802.11ac would work with the many existing wireless LAN devices. In addition to physical-layer compatibility, 802.11ac has extensive MAC-layer compatibility, which enables newer 802.11ac devices to perform at their best even when surrounded by older devices. In fact, these functions were designed to enable a little bit of 802.11ac to speed up any network.

802.11ac was designed from the beginning to be compatible with prior standards (802.11n, 802.11a/g, and 802.11b). Don’t let compatibility worries slow you down—adding 802.11ac speeds up any network, even if it has only a few 802.11ac client devices.

Even though 802.11ac is the future physical layer in wireless LANs, it will not be the only physical layer. APs that are sold as “802.11ac APs” will have one 5 GHz radio running 802.11ac, and they will also have a second 2.4 GHz radio running 802.11n. Even as 802.11ac becomes established, the 2.4 GHz band will continue to depend on the same 802.11n technology that has been used for the past several years.

Catching the 802.11ac Technology Wave




Early in the development of wireless LAN technology, a new PHY was brought to market all at once. With 802.11n, however, the standards started to become much more complex, and different levels of capability came to the market in distinct “waves” or “phases.” Once the basic technical details are worked out, it can often be much easier to write a standard than to build a product. For example, the work required to add four-spatial-stream support into the 802.11n standard was relatively minimal after the basic ground rules were complete, but as of the 2013 publication date of this book, four-stream 802.11n devices have yet to be brought to market because of the engineering challenges involved in building the powerful DSP required to perform the spatial mapping while staying within the 15-watt 802.3af power limit.
802.11n came to the market in waves due to the overall complexity of the standard. 802.11ac will follow this well-worn path, with a rough estimate of the contents of the first two waves in Table 5-1. The first generation of 802.11ac delivers another jump in channel bandwidth, along with a new modulation. Taken together, these two features are enough to nearly double the speed of a typical three-stream client device. The second wave of 802.11ac will add even wider channels, four-stream support, and beamforming. Although there is a temptation to focus on the headline rates only, beamforming has the potential to deliver significant gains in network capacity by improving the data rates at which most clients transmit. Not all transmissions occur at the fastest rate, so the beamforming boost can be substantial if it increases the data rates used by clients.


回应该答案 (1)  |  回答者:guo.   |  2015-2-13 11:32
该答案得到 1 个回应   我要回应
cyaozeng  |  2015-3-4 15:10
you are erudite
看不懂呢,水平有限啊,兄弟
回应该答案 (0)  |  回答者:原汁原味   |  2015-2-15 11:45
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