Ranging method in a mobile communication system using orthogonal frequency division multiple access
First Claim
1. A method for controlling an operational state of at least one subscriber station in an Orthogonal Frequency Division Multiplexing/Orthogonal Frequency Division Multiple Access (OFDM/OFDMA) wireless communication system having ranging slots and ranging codes to be used for rangings, the method comprising the steps of:
- performing, by the subscriber station in a Null state, an initial ranging if an initial ranging request occurs, and transitioning from the Null state to an Idle state if the initial ranging is successful;
transitioning to an Access state if a bandwidth request ranging request occurs in the Idle state, and performing in the Access state the bandwidth request ranging based on a random access technique;
transitioning from the Access state to a Busy state if the random access-based bandwidth request ranging is successful, performing the bandwidth request ranging based on a scheduled access technique if the bandwidth request ranging request occurs in the Busy state, and transmitting data if the scheduled access-based bandwidth request ranging is successful; and
transitioning to a Hold state if the data transmission is ended in the Busy state, and performing the scheduled access-based bandwidth request ranging if the bandwidth request ranging request occurs in the Hold state.
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Abstract
Disclosed is a method for controlling an operational state of at least one subscriber stations in an OFDM/OFDMA communication system having ranging slots and ranging codes to be used for rangings. The subscriber station performing in a Null state, an initial ranging if an initial ranging request occurs, and transitioning from the Null state to an Idle state if the initial ranging is successful; transitioning to an Access state if a bandwidth request ranging request occurs in the Idle state, and performing in the Access state the bandwidth request ranging based on a random access technique; transitioning from the Access state to a Busy state if the random access-based bandwidth request ranging is successful, performing the bandwidth request ranging based on a scheduled access technique if the bandwidth request ranging request occurs in the Busy state, and transmitting data if the scheduled access-based bandwidth request ranging is successful; and transitioning to a Hold state if the data transmission is ended in the Busy state, and performing the scheduled access-based bandwidth request ranging if the bandwidth request ranging request occurs in the Hold state.
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Citations
15 Claims
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1. A method for controlling an operational state of at least one subscriber station in an Orthogonal Frequency Division Multiplexing/Orthogonal Frequency Division Multiple Access (OFDM/OFDMA) wireless communication system having ranging slots and ranging codes to be used for rangings, the method comprising the steps of:
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performing, by the subscriber station in a Null state, an initial ranging if an initial ranging request occurs, and transitioning from the Null state to an Idle state if the initial ranging is successful;
transitioning to an Access state if a bandwidth request ranging request occurs in the Idle state, and performing in the Access state the bandwidth request ranging based on a random access technique;
transitioning from the Access state to a Busy state if the random access-based bandwidth request ranging is successful, performing the bandwidth request ranging based on a scheduled access technique if the bandwidth request ranging request occurs in the Busy state, and transmitting data if the scheduled access-based bandwidth request ranging is successful; and
transitioning to a Hold state if the data transmission is ended in the Busy state, and performing the scheduled access-based bandwidth request ranging if the bandwidth request ranging request occurs in the Hold state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A ranging method for minimizing an access delay of subscriber stations and preventing a ranging code collision in a wireless communication system having ranging slots and ranging codes to be used for rangings, the rangings between a base station and a subscriber station being classified into an initial ranging, a bandwidth request ranging and a periodic ranging, the ranging method comprises the steps of:
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performing, by the subscriber station, an initial ranging with the base station;
performing, by the subscriber station, a bandwidth request ranging based on a random access technique with the base station if the initial ranging is successful; and
performing, by the subscriber station, the bandwidth request ranging based on a scheduled access technique with the base station if the random access-based bandwidth request ranging is successful. - View Dependent Claims (12, 13)
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11. The ranging method of clam 10, wherein the step of performing the bandwidth request ranging based on a scheduled access technique comprises the steps of:
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generating, by the base station, as many groups as the number of ranging slots allocated for the scheduled access-based bandwidth request ranging from among the ranging slots, and allocating the ranging codes such that ranging codes for the bandwidth request ranging are not duplicated in each of the groups;
selecting, by the base station, a random group from among the groups if the random access-based bandwidth request ranging by the subscriber station is successful, selecting a random ranging code from among ranging codes in the selected group, and transmitting a group identifier (ID) corresponding to the selected group and the selected ranging code to the subscriber station; and
performing, by the subscriber station, a bandwidth request ranging at a ranging slot corresponding to the group ID using the selected ranging code.
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14. A ranging method for minimizing an access delay of subscriber stations and preventing a ranging code collision in a wireless communication system having ranging slots and ranging codes to be used for rangings, the rangings between a base station and a subscriber station being classified into an initial ranging, a bandwidth request ranging and a periodic ranging, the ranging method comprises the steps of:
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generating, by the base station, a number of groups equal to the number of ranging slots allocated for a bandwidth request ranging based on a scheduled access technique from among the ranging slots for the bandwidth request ranging, and allocating the ranging codes such that ranging codes for the bandwidth request ranging are not duplicated in each of the groups;
performing, by the subscriber station, the initial ranging with the base station;
selecting, by the subscriber station, a random ranging slot from among the ranging slots allocated for the bandwidth request ranging based on a random access technique in the ranging slots for the bandwidth request ranging if the initial ranging is successful, and selecting a random ranging code from among the ranging codes for the bandwidth request ranging;
performing, by the subscriber station, the random access-based bandwidth request ranging at the selected ranging slot using the selected ranging code;
selecting, by the base station, a random group from among the groups if the random access-based bandwidth request ranging by the subscriber station is successful, selecting a random ranging code from among the ranging codes in the selected group, and transmitting a group identifier (ID) corresponding to the selected group and the selected ranging code to the subscriber station; and
performing, by the subscriber station, the scheduled access-based bandwidth request ranging at a ranging slot corresponding to the group ID using the selected ranging code. - View Dependent Claims (15)
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Specification