Ethernet switch in a terminal for a wireless metropolitan...

Multiplex communications – Communication over free space – Having a plurality of contiguous regions served by...

Reexamination Certificate

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Details

C370S400000, C370S389000, C370S413000

Reexamination Certificate

active

06665285

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to a terminal for a wireless network for a metropolitan area. More particularly, the invention relates to a terminal for a wireless network including an Ethernet switch.
BACKGROUND OF THE INVENTION
Computers utilized in modern office environments are typically coupled to a local area network (LAN). The LAN allows users of the computers to share common resources, such as a common printer included in the network, and allows the users to share information files, such as by including one or more file servers in the network. In addition, the users are typically able to communicate information with each other through electronic messaging. A commonly utilized type of LAN is Ethernet. Currently, a variety of products which support Ethernet are commercially available from a variety of sources. Other types of LANs are also utilized, such as token ring, fiber distributed data interface (FDDI) or asynchronous transfer mode (ATM).
LANs are often connected to a wide area network (WAN) via a telephone modem. Thus, information is communicated over the WAN via a communication link provided by a telephone service provider. These telephone links, however, are generally designed to have a bandwidth that is sufficient for voice communication. As such, the rate at which information can be communicated over these telephone links is limited. As computers and computer applications become more sophisticated, however, they tend to generate and process increasingly large amounts of data to be communicated. For example, the communication of computer graphics generally requires a large amount of bandwidth relative to voice communication. Thus, the telephone link can become a data communication bottleneck.
Business organizations and their affiliates are often spread over several sites in a metropolitan or geographical area. For example, a business organization can have a headquarters, one or more branch offices, and various other facilities. For such business organizations, LANs located at the various sites will generally need to communicate information with each other. Wireless communication links for connecting local area networks are known. For example, U.S. Pat. No. 4,876,742, entitled “Apparatus and Method for Providing a Wireless Link Between Two Area Network Systems,” and U.S. Pat. No. 5,436,902, entitled “Ethernet Extender,” each disclose a wireless communication link for connecting LANs.
Availability is a measure of the average number of errors which occur in digitally transmitted data. An availability of 99.99 percent is commonly required for radio communications. For an availability of 99.99 percent, the average error rate for digitally communicated data must be maintained below 1×10
−6
errors per bit, 99.99 percent of the time. The integrity of a wireless communication link, however, is largely dependent upon transient environmental conditions, Such as precipitation. Environmental precipitation causes a severe attenuation of the transmitted signal. For example, to maintain an availability of 99.99 in the presence of environmental precipitation, the signal must be transmitted at a level that is 24 dB/km higher than otherwise. Therefore, to ensure an acceptable data error rate under all expected conditions, data is typically communicated over a wireless communication link at a relatively high power and at a relatively low rate. The amount of data required to be communicated over the wireless link, however, can vary widely over time and can vary independently of environmental conditions. In addition, wireless links, especially those operated at high power levels, can cause interference with other wireless links operating in the same geographical area. Thus, the wireless link can become a data communication bottleneck.
Therefore, a technique is needed for efficiently and cost effectively communicating data over a wireless link between Ethernet local area networks.
SUMMARY OF THE INVENTION
The invention is a method and apparatus for an Ethernet switch in a terminal for a wireless metropolitan area network. In accordance with an aspect of the present invention, a terminal for a wireless link in a metropolitan area network includes a broadcast device having: a network switch having a first port for receiving data packets from a computer network and a second port for forwarding the data packets; rate buffers coupled to the network switch for receiving the data packets from the second port; and a wireless transceiver coupled to the rate buffers for receiving the data packets from the rate buffers and for communicating the data packets over the wireless link. The data packets can be Fast Ethernet data packets and the network switch can include a 100 mega-bits-per-second port for receiving the Fast Ethernet packets. The terminal can include packet buffers coupled to the network switch wherein the network switch selectively stores the data packets in the packet buffers prior to storing the data packets in the rate buffers. The network switch can be a layer-two switch. The layer-two switch can store the data packets in the packet buffers in response to a level of space available in the rate buffers. The layer-two switch can store the data packets in the packet buffers in response to rain fade in the wireless link. The layer-two switch can store the data packets in the packet buffers in response to interference in the wireless link. The layer-two switch can store the data packets in the packet buffers in response to a detected bit error rate for communication via the wireless link. The terminal can include an extender device coupled to the broadcast device for receiving the data packets from the computer network and for providing the data packets to the broadcast device.
In accordance with another aspect of the present invention, a terminal for a wireless link in a metropolitan area network includes a broadcast device having: a network switch having a first port for receiving a first portion of data packets from a computer network, a second port for receiving a second portion of the data packets from the computer network and a third port for forwarding the data packets; rate buffers coupled to the network switch for receiving the data packets from the third port; and a wireless transceiver coupled to the rate buffers for receiving the data packets from the rate buffers and for communicating the data packets over the wireless link. The terminal can include packet buffers coupled to the network switch wherein the network switch selectively stores the first portion of data packets in the packet buffers prior to storing the first portion of data packets in the rate buffers. The network switch can store the second portion of the data packets in the rate buffers while the network switch stores the first portion of the data packets in the packet buffers. The first port can be a 100BASE-T port and the second port can be a 10BASE-T port. The network switch can be a layer-two switch.
In accordance with a further aspect of the present invention, a terminal for a wireless link in a metropolitan area network includes: an extender device for receiving data packets from a computer network coupled to the extender device and for forwarding the data packets; and a broadcast device coupled to the extender device and having a network switch for receiving the data packets from the extender device and a wireless transceiver coupled to the network switch for communicating the data packets over the wireless link. The terminal can include packet buffers coupled to the network switch wherein the network switch selectively stores the data packets in the packet buffers. The terminal can include rate buffers coupled to the network switch wherein the network switch stores the data packets in the rate buffers during periods when the network switch does not store data packets in the packet buffers. The terminal can include a packet formatting apparatus for formatting the data packets into radio frames wherein the packet formatting apparatus receives the data packets from the rate bu

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