For most of us, we cannot imagine a daily existence that lacked basic necessities such as electricity, hot water, indoor plumbing, natural gas, and so on. However, people living 100 years ago would have considered these modern conveniences to be a luxury. Nowadays, we take these things for granted. Can you imagine living in a world without them? That sensation—a bizarre and barbaric “how could you live like that” feeling—is the way that people will view our lives 100 years from now. Bandwidth is quickly becoming a “fourth utility,” comparable to electricity, water, and gas. In the future, people will just expect it to be there… anything less will simply be “uncivilized.”
Many decades ago, computers were thought of as stand-alone tools. While first used as business devices, they eventually filtered into home life for utility and recreational purposes. As computing evolved, the idea that computers could interact and “network” together grew in popularity. Before the advent of the Internet, computers were networked to share files and devices, such as printers. Early networking attempts were focused on lowering hardware peripheral costs. For example, by networking an entire business you could
Showing posts with label Business. Show all posts
Showing posts with label Business. Show all posts
Friday, December 11, 2009
Saturday, November 28, 2009
Ad-Hoc and Infrastructure Modes
In Infrastructure mode, an AP is connected to a wired infrastructure (such as Ethernet) and all of the wireless devices communicate with the AP. Even if two wireless devices are located right next to each other, all communication between the devices occurs through an AP. When using Infrastructure mode, a collection of wireless devices connected to an AP is referred to as a Basic Service Set (BSS).
If two or more BSSs are connected together using a “Distribution System” (such as wired Ethernet), the collection of BSSs is referred to as an Extended Service Set (ESS).
AT&T's 3G MicroCell
We know, we know -- AT&T's 3G MicroCell isn't even out nationwide yet, but for those select markets that have access, we're hoping you'll chime in on the pros and cons as to enlighten the other folks before their time comes. By and large, the GSM femotocell works exactly like the Airave for Sprint, though this one does fully support 3G data as well as simultaneous voice and data usage. For those that have taken the plunge: are you satisfied with the value proposition? Is reception really any better? Have you ditched your landline yet? What would you change about the service or billing? Voice your opinion on the matter below, and remember, life doesn't present you with many chances such as this. Wouldn't want to waste it, now would we? (Engadget)
Thursday, November 26, 2009
802.11a
Although 802.11a was released around the same time as 802.11b, it never achieved the same critical mass or wide scale acceptance.This was despite 802.11a’s superior 54-Mbps speed. (Before 802.11g was released, 802.11a was the fastest Wi-Fi protocol available.) 802.11a operates in the 5 GHz spectrum and has 12 non-overlapping channels. As a result of this higher frequency, 802.11a has a much harder time penetrating through obstacles, such as walls and other objects.This results in a range much lower than 802.11b.
One major advantage of 802.11a is that it is less prone to interference from other 5 GHz devices simply because there are fewer 802.11a and 5 GHz cordless devices deployed in the real world to compete with. Unlike 2.4 GHz (which is flooded with competing devices), 5 GHz remains relatively unused.This trend, however, is changing as more and more cordless phones and other gadgets are migrating to the less crowded 5 GHz spectrum. However, for the time being, 802.11a makes an excellent choice for building-to-building and backhaul solutions where line of sight is available. Also, 802.11 offers 11 non-overlapping channels. See Table 1.2 for a list of 802.11a channels.The pros and cons of 802.11a are as follows:
One major advantage of 802.11a is that it is less prone to interference from other 5 GHz devices simply because there are fewer 802.11a and 5 GHz cordless devices deployed in the real world to compete with. Unlike 2.4 GHz (which is flooded with competing devices), 5 GHz remains relatively unused.This trend, however, is changing as more and more cordless phones and other gadgets are migrating to the less crowded 5 GHz spectrum. However, for the time being, 802.11a makes an excellent choice for building-to-building and backhaul solutions where line of sight is available. Also, 802.11 offers 11 non-overlapping channels. See Table 1.2 for a list of 802.11a channels.The pros and cons of 802.11a are as follows:
- Upside: Relatively fast speed; more non-overlapping channels than 802.11b/g; 5 GHz spectrum is less crowded
- Downside: More expensive; shorter range
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