Telecommunications – Receiver or analog modulated signal frequency converter – Signal selection based on frequency
Reexamination Certificate
1997-12-12
2001-05-08
Chang, Vivian (Department: 2682)
Telecommunications
Receiver or analog modulated signal frequency converter
Signal selection based on frequency
C455S161100
Reexamination Certificate
active
06229996
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to radiotelephones and, in particular, to radiotelephones or mobile stations such as those capable of operation with a public system and with an autonomous system, such as a Private or Residential network.
BACKGROUND OF THE INVENTION
In modern mobile telecommunications systems a mobile station may have a choice as to whether to operate with a public cellular system or with an autonomous system, such as a Residential system or a Private system. Typically it will be desirable to operate with a selected autonomous system, which may provide a more favorable rate structure than the public cellular system(s), or that may provide a desired service not offered by the public cellular system(s). A particular autonomous system may be a Residential system that serves the user's home, or a Private system that serves the user's workplace.
One such modern cellular system is referred to as IS-136, which is described in IS-136.1, Rev. A, February 1996, and subsequent updated releases. This system employs Digital Control Channels (DCCHs) that enable a mobile station to gain access to the system. When a mobile station scans for and subsequently monitors a DCCH, it is said to be “camped” on that particular DCCH. Page messages and other information are received from the DCCH.
In Section 6.3.19 of IS-136.1 there is described a non-public mode search procedure that is to be implemented by IS-136 compliant mobile stations. As defined, while camping on a DCCH a mobile station user may decide to initiate a Non-Public Mode Search Condition in order to search for service with an alternate system (System Identification (SID), Private System Identification (PSID), or Residential System Identification (RSID)) on the current DCCH and/or other DCCHs. Two possible procedures are defined for Non-Public Mode Search: New PSID/RSID Search and Manual System Search.
Discussing first the New PSID/RSID Search procedure, when the user invokes this procedure the mobile station proceeds as follows. First the mobile station collects one signal strength measurement on each frequency in the current frequency band. The band can be one of the following: 800 MHz A or B, or 1900 MHz A, B, C, D, E, or F. Next, the mobile station makes a list of up to 24 channels with the strongest signals, and then tunes to the strongest channel in the list. The mobile station then determines if this channel contains a DCCH. If the channel contains a DCCH, the mobile station reads the Fast Broadcast Control Channel (F-BCCH) and determines therefrom if the DCCH is marked with a non-public Network Type (Private and/or Residential) that is enabled in the mobile station. If this is the case, the mobile station marks the DCCH as DCCH
—
1. If the channel does not contain a DCCH, or if the DCCH is not marked with a non-public Network Type that is enabled in the mobile station, then a determination is made if this is the last channel in the channel list. If it is, the procedure ends, otherwise the mobile station reads the next strongest channel in the channel list and the process repeats.
After possibly performing a Test Registration procedure, and marking an appropriate PSID/RSID as SYS
—
1, the mobile station displays an indication of SYS
—
1 to the user. If the user selects SYS
—
1, and after other processing, a determination is made if DCCH
—
1 is the current DCCH. If it is not, the mobile station adds DCCH
—
1 to a list of channels identified as requiring measurements (see Section 6.3.3.1, Control Channel Locking). The mobile station then, after an appropriate delay required for channel measurement purposes (see Section 6.3.3.3), declares a Priority System Condition (see Section 6.2.3) using DCCH
—
1 as the only reselection candidate. The CELLTYPE for DCCH
—
1 defaults to PREFERRED until otherwise determined. In addition, the mobile station determines the MS_ACC_PWR, RSS_ACC_MIN, SS_SUFF and DELAY (see Section 6.3.3.4.2) for DCCH
—
1 prior to involving or while executing the Control Channel Reselection procedure (see Section 6.3.3).
In the Manual System Search procedure, the mobile station proceeds as follows. The mobile station first searches the current DCCH and neighboring DCCHs (including Private Operating Frequencies (POFs) if they exist) for all candidates that support one or more of the PSIDs, RSIDs, and preferred SID that the mobile station subscribes to. The mobile station then displays a PSID/RSID Alphanumeric Name of each PSID or RSID supported by the candidate control channels that match a PSID or RSID stored in the mobile station, and the Alphanumeric System ID of the preferred SID. The mobile station then marks as DCCH
—
1 the candidate control channel supporting the SID, PSID, or RSID matching the Alphanumeric System ID or PSID/RSID Alphanumeric Name selected by the user. If more than one candidate control channel supports the selected PSID, RSID, or SID, then the candidate with the highest signal strength is marked as DCCH
—
1. If no SID, PSID, or RSID is selected by the user, the procedure is simply terminated.
If DCCH
—
1 is not the current DCCH, then the mobile station performs the same steps as described above for the New PSID/RSID search procedure, i.e., adding DCCH
—
1 to the list of channels identified as requiring measurements, etc.
As was discussed above, when executing the New PSID/RSID Search procedure the mobile station collects one signal strength measurement on each frequency in the current frequency band. The current band can be one of the following: 800 MHz A or B, or 1900 MHz A, B, C, D, E, or F. Reference in this regard can be had to
FIGS. 4 and 5
, which illustrate the channel numbers and frequency bands specified for 800 MHz and 1900 MHz operation, respectively, in IS-136.2, Sections 2.1.1.1.1 and 2.1.1.1.2, respectively.
However, a problem is created by this search procedure as currently specified, in that a desired Private or Residential system may be located in a different band than the mobile station's current band. If only the mobile station's current band is searched then the desired Private or Residential system will most likely not be located and acquired.
OBJECTS AND ADVANTAGES OF THE INVENTION
It is thus a first object and advantage of this invention to provide an improved method for executing a system search procedure with a mobile station.
It is a further object and advantage of this invention to provide a method, and a mobile station constructed to operate in accordance with the method, for increasing a probability that a mobile station will acquire and register with a desired non-public or autonomous system.
SUMMARY OF THE INVENTION
The foregoing and other problems are overcome and the objects of the invention are realized by methods and apparatus in accordance with embodiments of this invention.
A method of this invention is disclosed for operating a mobile station, the method including a first step (a) of storing information in the mobile station. The stored information includes an ordered list of frequency bands, where each frequency band includes at least one channel. For example, at least one frequency band is an 800 MHz frequency band and at least one other frequency band is a 1900 MHz frequency band. The stored information further includes an identity of a band wherein an acceptable control channel was last located. In the preferred embodiment of this invention the control channel is a digital control channel (DCCH).
A next step (b) is executed in response to a user invoking a search procedure to locate a new non-public system. The non-public system may be one of a Residential system or a Private system. This step accesses the memory to determine the identity of the band wherein an acceptable control channel was last located, and marks the band wherein the acceptable control channel was last located as a band to be searched.
A next step (c) collects signal strength measurements on channels in the band to be searched and executes a channel search procedure to locate a control channel of a desired non-public system wi
Chang Vivian
Mehrpour N.
Nokia Mobile Phones Limited
Ohlandt Greeley Ruggiero & Perle LLP
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