Multiplex communications – Communication techniques for information carried in plural... – Combining or distributing information via time channels
Reexamination Certificate
2001-03-09
2003-03-25
Chin, Wellington (Department: 2665)
Multiplex communications
Communication techniques for information carried in plural...
Combining or distributing information via time channels
C370S331000, C370S335000, C370S342000, C375S354000, C455S502000
Reexamination Certificate
active
06539032
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to methods for synchronizing between a base station and a mobile station in a cell-based mobile communications system.
In cell based mobile communications systems, one area of concern is the amount of time and effort required for handover of a mobile station between cells.
In handover, a mobile station's transmission which acts with one cell is switched to another cell (hard handover) or a new cell is added to those servicing the mobile station (soft handover). Generally, the handover is accomplished through a multitude of steps. However, the first step in this multitude is to locate, e.g. to find timing and characteristics of a cell adjacent to a cell or a group of cells currently being used. For this, a procedure commonly known as a cell search is carried out by the mobile station.
A cell search involves the mobile station finding, acquiring, and synchronizing with the tuning and the characteristics and codes of the adjacent or target cell. To facilitate this search, all base stations, each of which services a specific cell, periodically transmit a primary synchronization code or PSC on a primary synchronization channel or P-SCH. All base stations in a communications system transmit the same PSC. Once a mobile station acquires the PSC from a target cell on that target cell's P-SCH, the mobile station uses the PSC to acquire slot synchronization to a cell. It should be noted that slot synchronization is required since, in the time domain, signals are structured into chips, slots, and frames, where one time slot lasts approximately 666 us, a frame lasts for 10 ms or 15 slots and each slot is subdivided into 2560 chips.
Once a mobile station acquires slot synchronization, further steps, such as frame synchronization and scrambling code identification, are carried out. However, these further steps are beyond the scope of this application.
What is of concern is the amount of time and processing power required for mobile stations to acquire a target cell's PSC and P-SCH.
Generally, mobile stations receive signals from possible or candidate target cells while keeping track of already known or active cells. These signals are received, filtered, and correlated with a local copy of the PSC by the mobile station. The mobile station correlates the received complex signal with a local replica of the PSC at all possible time positions over one slot length. The mobile station then sums up, generally non-coherently, a slot profile composed of correlation values for a set number of slots. This is done by summing up the squared amplitude values at specific time positions for every one of the set number of time slots. The mobile station then chooses the largest correlation peak in the slot profile as the time position of the P-SCH of a target cell. It should be noted that the slot profile contains the correlation values for signals which repeat every slot. These signals from the base stations are repeated at approximately the same time position for every slot.
Unfortunately, in most handover situations, the power levels of the signals from active cells and target cells which are received by the mobile station usually have an approximately constant magnitude. Thus, a mobile station may have a slot profile similar to that shown in
FIG. 1
where the correlation output of an active cell signal is approximately similar if not greater in magnitude to a correlation output of a target cell's signal. The mobile station which chooses the cell or the cells that correspond to the signals of correlation output in the slot profile that have one of the strongest magnitude can choose the signals of these active cells in its cell search. Since this is not what is desired, the cell search must be restarted, requiring more time and processing power from the mobile station.
However, in the Wide band Code-Division Multiple Access in Frequency Division Duplex standard, mobile stations continuously keep track of the chip, slot, frame timing, and channel profile of its active cells. What is therefore needed is a method and an apparatus which takes advantage of this data to avoid acquiring the P-SCH of active-cells, thereby facilitating target cell acquisition.
SUMMARY OF THE INVENTION
The invention relates to a method of suppressing the active cell signal contributions to a slot profile by subtracting it from the slot profile. Since the mobile station possesses the relevant characteristics of the active cell signal such as its timing and slot characteristics, a local copy of the active cell signal can be generated. This local copy of the active cell signal can thus be subtracted either from an incoming received signal or from slot profile. This minimizes the presence of the active cell signal, thereby isolating the target cell signal for faster target cell acquisition.
In a first embodiment, the invention provides a method of isolating target cell signals originating from a target cell from active cell signals originating from an active cell in a cell search, the method comprising:
a) receiving a signal, the received signal being either a target cell signal or an active cell signal;
b) generating a local copy of a known active cell signal;
c) subtracting the local copy of the known active cell signal from the received signal
wherein step c) is executed if a reception time of the received signal corresponds to an expected reception time of the known active cell signal.
In a second embodiment, the invention provides a method of isolating target cell signals originating from a target cell from active cell signals originating from an active cell in a cell search, the method comprising:
a) receiving a plurality of signals, each of the received signals being either a target cell signal or an active cell signal;
b) generating an actual slot profile based on the plurality of received signals;
c) generating a local copy of an expected active cell signal;
d) generating an expected slot profile from the local copy of the expected active cell signal;
e) subtracting the expected slot profile from the actual slot profile.
In a third embodiment, the invention provides a method of isolating target cell signals originating from a target cell from active cell signals originating from an active cell in a cell search, the method comprising:
a) receiving a signal, the received signal being either a target cell signal or an active cell signal;
b) filtering the received signal
c) correlating the received signal with a local copy of an expected synchronization code to obtain a correlated signal
d) generating a local copy of a known active cell signal with an expected correlation value; and
e) subtracting the local copy of the known active cell signal from the correlated signal
wherein step e) is executed if a reception time of the received signal corresponds to an expected reception time of the known active cell signal.
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Chin Wellington
Mitsubishi Denki & Kabushiki Kaisha
Phan M.
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