Method and apparatus for reducing radio link supervision...

Telecommunications – Radiotelephone system – Zoned or cellular telephone system

Reexamination Certificate

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C455S452200

Reexamination Certificate

active

06564060

ABSTRACT:

BACKGROUND OF THE INVENTION
I. Field of the Invention
The current invention relates to wireless communication. More particularly, the present invention relates to a novel and improved method and apparatus for reducing call supervision time to allow faster reallocation of traffic channel resources in a wireless communication system.
II. Description of the Related Art
A modern day communication system is required to support a variety of applications. One such communication system is a code division multiple access (CDMA) system which conforms to the “TIA/EIA-95A Mobile Station-Base Station Compatibility Standard for Dual-Mode Wideband Spread Spectrum Cellular System”, hereinafter referred to as the IS-95 standard. A system operating in accordance with the IS-95 standard is referred to herein as an IS-95 system. The CDMA system allows for voice and data communications between users over a terrestrial link. The use of CDMA techniques in a multiple access communication system is disclosed in U.S. Pat. No. 4,901,307, entitled “SPREAD SPECTRUM MULTIPLE ACCESS COMMUNICATION SYSTEM USING SATELLITE OR TERRESTRIAL REPEATERS”, and U.S. Pat. No. 5,103,459, entitled “SYSTEM AND METHOD FOR GENERATING WAVEFORMS IN A CDMA CELLULAR TELEPHONE SYSTEM”, both assigned to the assignee of the present invention and incorporated by reference herein. Power control techniques in a CDMA multiple access communication system are disclosed in U.S. Pat. No. 5,056,109, entitled “METHOD AND APPARATUS FOR CONTROLLING TRANSMISSION POWER IN A CDMA CELLULAR TELEPHONE SYSTEM,” as well as in IS-95, and are well known in the art.
The term “base station” is used to refer to the hardware with which the subscriber stations communicate. The term “cell” refers to a geographic coverage area within which subscriber stations may communicate with a particular base station. Consequently, as a subscriber station moves from outside the coverage area of a base station towards the base station, the subscriber station eventually moves into the “base station's cell.” Each base station is typically located near the center of its cell. In a simple configuration, a base station transmits signals using a single carrier frequency to an entire cell. In order to increase call capacity, an additional base station may be installed at the same location to provide coverage within the same cell at a different carrier frequency. To increase capacity even further, a cell may be divided into radial regions much like pie slices. In this way, a cell may be “sectorized”, with each base station transmitting through directional antennas that cover only a portion of a cell. In the most common configuration, a cell is divided into three regions called sectors, with each sector covering a different 120-degree section of the cell. Each base station in a sectorized cell transmits at a single carrier within a single sector or within a single unsectorized cell.
In a CDMA system, a subscriber station communicates with a data network by transmitting data on the reverse link to a base station. The base station receives the data and can route the data to the data network. Data from the data network is transmitted on the forward link of the same base station to the subscriber station. The forward link refers to transmission from the base station to a subscriber station and the reverse link refers to transmission from the subscriber station to a base station. In IS-95 systems, separate frequencies are allocated for the forward link and the reverse link.
IS-95 systems utilize a plurality of different types of communication channels, including pilot, paging, and forward traffic channels. The availability of forward traffic channel resources determines how many different subscriber station calls can be supported by each base station. In order to maximize connection capacity, connection supervision techniques have been developed to free up traffic channel resources quickly and to prevent a subscriber station from acting as an in-band jammer should its traffic channel be lost unexpectedly. Such an unexpected call drop could result from movement of the subscriber station either out of coverage of a base station or through a tunnel that causes the loss of the traffic channel signal.
Traffic channel supervision in IS-95 includes two mechanisms, herein referred to as jammer prevention procedure and traffic channel recovery procedure. The jammer prevention procedure specifies the conditions under which a subscriber station must stop transmitting a reverse link signal. This procedure limits the length of time during which a subscriber station transmits a reverse link signal without being power-controlled by the base station. The traffic channel recovery procedure specifies the conditions under which a subscriber station will declare a loss of the traffic channel, ending the call. This second procedure allows the base station to reclaim and reuse a traffic channel when communication is suddenly lost to a subscriber station.
In IS-95, the jammer prevention procedure dictates that a subscriber station cease transmissions when it is not receiving a strong enough forward link signal to ensure good reverse link power control. If the subscriber station receives a specified number of consecutive erased frames (generally 12 frames), the subscriber turns off its transmitter. The transmitter may be turned back on after the subscriber station receives a specified number of good frames, such as 2 or3.
In IS-95 the traffic channel recovery procedure dictates that a subscriber station whose transmitter has been turned off in accordance with the jammer prevention procedure for a specified supervision time must declare its traffic channel lost. The supervision time for the traffic channel recovery procedure is typically around five seconds. Similarly, if the base station detects that a call with a subscriber station is no longer active, the base station will declare the traffic channel lost.
The above-described method allows recovery of traffic channel resources after a relatively short (five seconds) supervision time. One reason that this method works in an IS-95 system is that the base station continuously transmits new frames of information to each active subscriber station every 20 milliseconds, allowing the subscriber station to supervise on this continuous forward traffic stream. This approach is far less effective in a high data rate (HDR) system in which a base station transmits to a subscriber station only when the base station has data to send.
An exemplary HDR system for transmitting high rate digital data in a wireless communication system is disclosed in copending U.S. patent application Ser. No. 08/963,386, entitled “METHOD AND APPARATUS FOR HIGHER RATE PACKET DATA TRANSMISSION” (hereafter the '386 application), assigned to the assignee of the present application and incorporated by reference herein. As described in the '386 application, a base station transmits information to one subscriber station at a time, with the transmission rate depending on carrier-to-interference (C/I) measurements collected by the subscriber station. A subscriber station has only one connection with the base station, but that connection may comprise multiple traffic channels. The base station transmits information frames to a particular subscriber station only when the base station has data to send to that subscriber station. Thus, a subscriber station may maintain a connection with a base station on multiple traffic channels for a long period of time without receiving a frame of data from the base station.
In a system using such a transmit approach, a jammer prevention procedure could not rely on erasure rates, because the subscriber station cannot distinguish between receiving an erasure and not being sent a data frame. In addition, the supervision time necessary to reclaim traffic channel resources such a system would be less predictable and could far exceed five seconds. Methods of jammer prevention and of reducing supervision time in an HDR system are therefore highly desirable.
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