Satellite Radio Project Updates

We all have our favorite radio stations that we preset into our car radios, flipping between them as we drive to and from work, on errands and around town. But when travel too far away from the source station, the signal breaks up and fades into static. Most radio signals can only travel about 30 or 40 miles from their source. On long trips that find you passing through different cities, you might have to change radio stations every hour or so as the signals fade in and out.

Now, imagine a radio station that can broadcast its signal from more than 22,000 miles (35,000 kill) away and then come through on your car radio with complete clarity without ever having to change the radio station. Satellite Radio or Digital Audio Radio Service (DARS) is a subscriber based radio service that is broadcast directly from satellites.

Subscribers will be able to receive up to100 radio channels featuring Compact Disk digital quality music, news, weather, sports. talk radio and other entertainment channels. Satellite radio is an idea nearly 10 years in the making. In 1992, the U.S. Federal Communications Commission (FCC) allocated a spectrum in the "S" band (2.3 GHz) for nationwide broadcasting of satellite-based Digital Audio Radio Service (DARS).. In 1997. the FCC awarded 8-year radio broadcast licenses to two companies, Sirius Satellite Radio former (CD Radio) and XM Satellite Radio (former American Mobile Radio). Both companies have been working aggressively to be prepared to offer their radio services to the public by the end of 2000. It is expected that automotive radios would be the largest application of Satellite Radio.

Integrated Technologies That Address Human Needs

An E21 might control an array of microphones, which Oxygen's perceptual resources use to improve communication with speakers by filtering out background noise. Similarly, it might control an array of antennas to permit improved communication with nearby H21s that, as a result of a better signal-to-noise ratio, use less power. Multiple antennas mounted on the roof of a building, as well as incoming terrestrial lines, connect through E21s to high-bandwidth, local-area N21 networks. Through the N21 network, an E21 can connect unobtrusively to H21s in the hands or pockets of people in an intelligent space. It can display information on an H21 display in a person's hand or on a nearby wall-mounted display; it may even suggest that the person step a few feet down the hall.

Secure Internet Live Conferencing

Chat protocols are very popular on the Internet. They have actually been very popular since the very first chat protocols appeared on the net. The Internet Relay Chat (IRC) was one of the first chat protocols, and quickly gained the status of being the most popular chat on the net. Today, IRC has several competitors from various other so called Instant Messaging (IM) protocols, such as ICQ. However, all of these different chat protocols have something in common; they are all insecure. The security is important feature in applications and protocols in contemporary network environment. The older chat protocols, however have failed to meet the growing security requirements on the Internet. It is not anymore enough to just provide services, like for example chat services. Now, they need to be secure services.

SILC provides security services that any other conferencing protocol does not offer today. The most popular conferencing service, IRC, is entirely insecure. If you need secure place to talk to some person or to group of people over the Internet, IRC or any other conferencing service, for that matter, cannot be used. Anyone can see the messages and their contents in the IRC network. And the most worse case, some is able to change the contents of the messages. Also, all the authentication data, such as, passwords are sent plaintext in IRC.