JP2015008498A5 - - Google Patents

Description

The above description is provided to enable any person skilled in the art to practice the various aspects described herein. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects. Thus, the claims are not intended to be limited to the embodiments shown herein, but are to be accorded the full scope consistent with the language of the claims, and references to singular elements Unless otherwise specified, it is not intended to mean “one and only one”, but rather “one or more”. Unless specifically stated otherwise, the phrase “some” means one or more. All structural and functional equivalents of the elements of the various aspects described throughout this disclosure that are known to those skilled in the art or that will be known in the future are hereby expressly incorporated by reference and are claimed. It is intended to be covered by the terms. Moreover, nothing disclosed herein is intended to be provided to the public regardless of whether the disclosure is expressly recited in the claims. Any claim element is described using the phrase “steps for” unless the element is explicitly stated using the phrase “means for” or, in the case of a method claim, Unless otherwise, 35U. S. C. Should not be construed in accordance with the provisions of §112, sixth paragraph.
Hereinafter, the invention described in the scope of claims of the present application will be appended.
[C1]
Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal;
Detecting a residual signal in the processed signal.
[C2]
The method of C1, wherein the received signal comprises components from multiple cells.
[C3]
The estimation is
Detecting a primary synchronization signal in the received signal;
Generating a channel estimate using the primary synchronization signal; and the method of C1.
[C4]
The estimation is
Detecting a secondary synchronization signal in the received signal;
Generating a channel estimate using the secondary synchronization signal, further comprising the method of C1.
[C5]
The estimation is
Obtaining a reference signal;
Generating a channel estimate using the reference signal, the method of C1, further comprising:
[C6]
Obtaining said
Detecting a signal from a first cell, wherein the signal from the first cell includes the reference signal having the reference signal symbol;
Obtaining the estimated channel using the reference signal symbol; and the method of C5.
[C7]
The method of C6, wherein the reference signal symbol is included in the reference signal over a plurality of subframes.
[C8]
The method of C6, wherein the reference signal symbol is included in the reference signal in either a multimedia broadcast single frequency network (MBSFN) subframe or a blank subframe.
[C9]
Obtaining the estimated channel using the reference signal symbol comprises estimating the channel from the reference symbol in a single antenna system and at least one of channel estimates from a primary or secondary synchronization signal. The method of C6, further comprising combining with one.
[C10]
The obtaining of the estimated channel using the reference signal symbol comprises estimating the channel from the reference symbol in a multi-antenna system and channel estimation from a primary or secondary signal using precoding vector steering. The method of C6, further comprising combining with at least one of the values.
[C11]
The method of C10, further comprising linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number.
[C12]
One of the one or more channel estimation schemes is:
Decoding the first cell physical broadcast channel;
Applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal.
[C13]
The method of C12, wherein the applying further comprises multiplying the physical broadcast channel by a precoding vector to obtain a channel to apply to the primary synchronization signal and the secondary synchronization signal.
[C14]
The method of C12, further comprising linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number.
[C15]
The method of C1, wherein the detecting further comprises applying one or more false alarm reduction schemes.
[C16]
The method of C15, wherein one of the one or more false alarm reduction schemes comprises comparing the received power of the residual signal with a threshold value.
[C17]
The threshold value is
The defined threshold value,
The threshold generated from the most powerful cell detected, or
The method of C16, comprising at least one of a threshold generated from an average of a plurality of detected cells.
[C18]
The method of C15, wherein one of the one or more false alarm reduction schemes comprises performing a cyclic redundancy check on the detected signal.
[C19]
One of the one or more false alarm reduction schemes is:
Determining that a reference signal received power is higher than a threshold in the residual signal;
Decoding the physical broadcast channel from the residual signal.
[C20]
The method of C1, further comprising performing automatic gain control on the residual signal.
[C21]
The automatic gain control is
The estimated channel, or
The method of C20, further comprising applying a scaling factor to the residual signal based on at least one of an energy difference between the received signal and the residual signal.
[C22]
Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals;
Storing the information associated with the estimated channel and the detected timing; and the stored information further comprises a detected primary synchronization signal.
[C23]
Means for estimating a channel from a received signal using one or more channel estimation schemes;
Means for removing a component signal using the estimated channel from the received signal to generate a processed signal;
Means for detecting a residual signal in the processed signal.
[C24]
The apparatus of C23, wherein the received signal comprises components from a plurality of cells.
[C25]
The means for estimating is
Means for detecting a primary synchronization signal in the received signal;
The apparatus of C23, further comprising means for generating a channel estimate using the primary synchronization signal.
[C26]
The means for estimating is
Means for detecting a secondary synchronization signal in the received signal;
The apparatus according to C23, further comprising: means for generating a channel estimation value using the secondary synchronization signal.
[C27]
The means for estimating is
Means for obtaining a reference signal;
And the means for generating a channel estimate using the reference signal.
[C28]
Said means for obtaining is:
Means for detecting a signal from a first cell, wherein the signal from the first cell includes the reference signal having the reference signal symbol;
Means for obtaining the estimated channel using the reference signal symbols.
[C29]
The apparatus of C28, wherein the reference signal symbol is included in the reference signal over a plurality of subframes.
[C30]
The apparatus of C28, wherein the reference signal symbol is included in the reference signal in either a multimedia broadcast single frequency network (MBSFN) subframe or a blank subframe.
[C31]
The means for obtaining the estimated channel using the reference signal symbol comprises means for estimating the channel from the reference symbol in a single antenna system, and a channel estimate from a primary or secondary synchronization signal The apparatus of C28, further comprising means for coupling with at least one of the apparatus.
[C32]
The means for obtaining the estimated channel using the reference signal symbol comprises: means for estimating the channel from the reference symbol in a multi-antenna system; and primary or secondary signal using precoding vector steering And the means for combining with at least one of the channel estimates from.
[C33]
The apparatus of C32, further comprising means for linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number.
[C34]
The means for estimating a channel from the received signal using one or more channel estimation schemes comprises:
Means for decoding the first cell physical broadcast channel;
The apparatus of C23, comprising: means for applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal.
[C35]
The apparatus of C34, wherein the means for applying further comprises means for multiplying the physical broadcast channel by a precoding vector to obtain a channel to apply to the primary synchronization signal and the secondary synchronization signal.
[C36]
The apparatus of C34, further comprising means for linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number.
[C37]
The apparatus of C23, wherein the means for detecting further comprises means for applying one or more false alarm reduction schemes.
[C38]
The apparatus of C37, wherein the means for applying one of the one or more false alarm reduction schemes comprises means for comparing the received power of the residual signal with a threshold value.
[C39]
The threshold value is
The defined threshold value,
The threshold generated from the most powerful cell detected, or
The apparatus of C38, comprising at least one of a threshold generated from an average of a plurality of detected cells.
[C40]
The apparatus of C37, wherein the means for applying one of the one or more false alarm reduction schemes comprises means for performing a cyclic redundancy check on the detected signal.
[C41]
The means for applying one of the one or more false alarm reduction schemes is:
Means for determining that a reference signal received power is higher than a threshold in the residual signal;
Means for decoding a physical broadcast channel from the residual signal.
[C42]
The apparatus of C23, further comprising means for performing automatic gain control on the residual signal.
[C43]
The means for performing automatic gain control comprises:
The estimated channel, or
The apparatus of C42, further comprising means for applying a scaling factor to the residual signal based on at least one of an energy difference between the received signal and the residual signal.
[C44]
Means for determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals;
The apparatus of C23, further comprising means for storing information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal.
[C45]
Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal; and
A computer program product comprising a computer readable medium comprising a code for detecting a residual signal in the processed signal.
[C46]
The computer program product according to C45, wherein the received signal comprises components from a plurality of cells.
[C47]
The code to estimate is
Detecting at least one of a primary synchronization signal or a secondary synchronization signal in the received signal; and
The computer program product according to C45, further comprising a code for generating a channel estimation value using either the primary synchronization signal or the secondary synchronization signal.
[C48]
One of the one or more channel estimation schemes is:
Decoding a first cell physical broadcast channel; and
The computer program product according to C45, comprising a code for applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal.
[C49]
The computer program product according to C45, wherein the code for detecting further comprises a code for applying one or more false alarm reduction schemes.
[C50]
The computer program product of C49, wherein one of the one or more false alarm reduction schemes comprises a sign for comparing the received power of the residual signal with a threshold value.
[C51]
The computer program product according to C45, wherein the computer readable medium further comprises a code for performing automatic gain control on the residual signal.
[C52]
The computer-readable medium is
Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals; and
The computer program product of C45, further comprising a code for storing information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal.
[C53]
At least one processor;
A memory coupled to the at least one processor, the at least one processor comprising:
Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal; and
An apparatus for wireless communication configured to detect a residual signal in the processed signal.
[C54]
The apparatus of C53, wherein the received signal comprises components from a plurality of cells.
[C55]
In order to estimate a channel from the received signal using one or more channel estimation schemes, the at least one processor comprises:
Detecting at least one of a primary synchronization signal or a secondary synchronization signal in the received signal; and
The apparatus of C53, further configured to generate a channel estimate using either the primary synchronization signal or the secondary synchronization signal.
[C56]
In order to estimate a channel from the received signal using one or more channel estimation schemes, the at least one processor comprises:
Decoding a first cell physical broadcast channel; and
The apparatus of C53, further configured to apply the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal.
[C57]
The apparatus of C53, wherein the at least one processor is further configured to apply one or more false alarm reduction schemes.
[C58]
The apparatus of C57, wherein the at least one processor is further configured to compare the received power of the residual signal with a threshold value to apply one or more false alarm reduction schemes.
[C59]
The apparatus of C53, wherein the at least one processor is further configured to perform automatic gain control on the residual signal.
[C60]
The at least one processor comprises:
Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals; and
The apparatus of C53, further configured to store information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal.

Claims (48)

Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal;
Detecting a residual signal in the processed signal , wherein the detecting includes applying one or more false alarm reduction schemes, of the one or more false alarm reduction schemes One of the
Determining that a reference signal received power is higher than a threshold in the residual signal;
Decoding a physical broadcast channel from the residual signal in response to determining that the reference signal received power is higher than the threshold in the residual signal .   The method of claim 1, wherein the received signal comprises components from multiple cells. The estimation is
Detecting a primary synchronization signal in the received signal;
The method of claim 1, further comprising generating a channel estimate using the primary synchronization signal. The estimation is
Obtaining a reference signal;
The method of claim 1, further comprising generating a channel estimate using the reference signal. Obtaining said
Detecting a signal from a first cell, wherein the signal from the first cell includes the reference signal having a reference signal symbol;
The method of claim 4, further comprising: obtaining the estimated channel using the reference signal symbol.   The method of claim 5, wherein the reference signal symbol is included in the reference signal over a plurality of subframes.   6. The method of claim 5, wherein the reference signal symbol is included in the reference signal in either a multimedia broadcast single frequency network (MBSFN) subframe or a blank subframe.   Obtaining the estimated channel using the reference signal symbol comprises estimating the channel from the reference symbol in a single antenna system and at least one of channel estimates from a primary or secondary synchronization signal. 6. The method of claim 5, further comprising combining with one.   The obtaining of the estimated channel using the reference signal symbol comprises estimating the channel from the reference symbol in a multi-antenna system and channel estimation from a primary or secondary signal using precoding vector steering. 6. The method of claim 5, further comprising combining with at least one of the values.   The method of claim 9, further comprising linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number. One of the one or more channel estimation schemes is:
Decoding the first cell physical broadcast channel;
2. The method of claim 1, comprising applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal.   The method of claim 11, wherein the applying further comprises multiplying the physical broadcast channel by a precoding vector to obtain a channel to apply to the primary synchronization signal and the secondary synchronization signal.   The method of claim 11, further comprising linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number. One of the one or more false alarm reduction method The method of claim 1 which comprises comparing the received power of the residual signal with a threshold value. The threshold value is
The defined threshold value,
15. The method of claim 14 , comprising at least one of a threshold generated from the strongest detected cell or a threshold generated from an average of a plurality of detected cells. The method of claim 1 , wherein one of the one or more false alarm reduction schemes comprises performing a cyclic redundancy check on the detected signal. Means for performing automatic gain control on the residual signal;
The automatic gain control is
The method of claim 1, further comprising applying a scaling factor to the residual signal based on at least one of the estimated channel or an energy difference between the received signal and the residual signal. the method of. Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals;
The method of claim 1, further comprising storing information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal. Means for estimating a channel from a received signal using one or more channel estimation schemes;
Means for removing a component signal using the estimated channel from the received signal to generate a processed signal;
Means for detecting a residual signal in the processed signal ,
Said means for detecting comprises means for applying one or more false alarm reduction schemes;
One of the one or more false alarm reduction schemes is:
Determining that a reference signal received power is higher than a threshold in the residual signal;
Deciding a physical broadcast channel from the residual signal in response to determining that the reference signal received power is higher than the threshold in the residual signal;
The provided, apparatus for wireless communication. The apparatus of claim 19 , wherein the received signal comprises components from multiple cells. The means for estimating is
Means for detecting a primary synchronization signal in the received signal;
20. The apparatus of claim 19 , further comprising means for generating a channel estimate using the primary synchronization signal. The means for estimating is
Means for obtaining a reference signal;
20. The apparatus of claim 19 , further comprising means for generating a channel estimate using the reference signal. Said means for obtaining is:
Means for detecting a signal from a first cell, wherein the signal from the first cell includes the reference signal having a reference signal symbol;
23. The apparatus of claim 22 , further comprising means for obtaining the estimated channel using the reference signal symbol. 24. The apparatus of claim 23 , wherein the reference signal symbol is included in the reference signal over a plurality of subframes. 24. The apparatus of claim 23 , wherein the reference signal symbol is included in the reference signal in either a multimedia broadcast single frequency network (MBSFN) subframe or a blank subframe. The means for obtaining the estimated channel using the reference signal symbol comprises means for estimating the channel from the reference symbol in a single antenna system, and a channel estimate from a primary or secondary synchronization signal 24. The apparatus of claim 23 , further comprising means for coupling with at least one of the apparatus. The means for obtaining the estimated channel using the reference signal symbol comprises: means for estimating the channel from the reference symbol in a multi-antenna system; and primary or secondary signal using precoding vector steering 24. The apparatus of claim 23 , further comprising means for combining with at least one of the channel estimates from. 28. The apparatus of claim 27 , further comprising means for linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number. The means for estimating a channel from the received signal using one or more channel estimation schemes comprises:
Means for decoding the first cell physical broadcast channel;
20. The apparatus of claim 19 , comprising means for applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal. 30. The apparatus of claim 29 , wherein the means for applying further comprises means for multiplying the physical broadcast channel by a precoding vector to obtain a channel to apply to the primary synchronization signal and the secondary synchronization signal. 30. The apparatus of claim 29 , further comprising means for linking a precoding vector used in the primary and secondary synchronization signals with a cell ID and a system frame number. Said means for applying one of the one or more false alarm reduction method, according to claim 19, further comprising means for comparing the received power of the residual signal with a threshold value . The threshold value is
The defined threshold value,
35. The apparatus of claim 32 , comprising at least one of a threshold generated from the most powerful cell detected, or a threshold generated from an average of a plurality of detected cells. It said means for applying one of the one or more false alarm reduction method, according to claim 19, further comprising means for performing a cyclic redundancy check for the detected signal. Means for performing automatic gain control on the residual signal;
The means for performing automatic gain control comprises:
Claim 19, further comprising means for applying a scaling factor to the residual signal based on energy difference, at least one of between the estimated channel, or the received signal and the residual signal The device described in 1. Means for determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals;
20. The apparatus of claim 19 , further comprising means for storing information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal. . Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal;
A code for detecting a residual signal in the processed signal, wherein the detecting includes applying one or more false alarm reduction schemes, of the one or more false alarm reduction schemes; One of the
Determining that a reference signal received power is higher than a threshold in the residual signal;
Decoding a physical broadcast channel from the residual signal in response to determining that the reference signal received power is higher than the threshold in the residual signal;
A computer program readable by a computer. 38. The computer program product of claim 37 , wherein the received signal comprises components from a plurality of cells. The code to estimate is
38. The computer program of claim 37 , further comprising a code for detecting a primary synchronization signal in the received signal and generating a channel estimate using the primary synchronization signal. One of the one or more channel estimation schemes is:
A code for decoding a first cell physical broadcast channel and applying the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal. 37. The computer program according to 37 . 38. The computer program product of claim 37 , wherein one of the one or more false alarm reduction schemes comprises a code for comparing the received power of the residual signal with a threshold value. The computer program readable by the computer is:
Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals, and storing information associated with the estimated channel and detected timing 38. The computer program product of claim 37 , further comprising: At least one processor;
A memory coupled to the at least one processor, the at least one processor comprising:
Estimating a channel from a received signal using one or more channel estimation schemes;
Removing a component signal using the estimated channel from the received signal to generate a processed signal;
Detecting a residual signal in the processed signal; and
Configured to apply one or more false alarm reduction schemes;
In order to apply one of the one or more false alarm reduction schemes, the at least one processor comprises:
Determining that the reference signal received power is higher than the threshold in the residual signal;
Further configured to decode a physical broadcast channel from the residual signal in response to determining that the reference signal received power is higher than the threshold in the residual signal;
A device for wireless communication. 44. The apparatus of claim 43 , wherein the received signal comprises components from multiple cells. In order to estimate the channel from the received signal using the one or more channel estimation schemes, the at least one processor comprises:
44. The apparatus of claim 43 , further configured to detect a primary synchronization signal in the received signal and generate a channel estimate using the primary synchronization signal. In order to estimate the channel from the received signal using the one or more channel estimation schemes, the at least one processor comprises:
Claims further configured to decode a first cell physical broadcast channel and apply the decoded first cell physical broadcast channel to a primary synchronization signal and a secondary synchronization signal associated with the received signal. Item 44. The apparatus according to Item 43 . 44. The apparatus of claim 43 , wherein the at least one processor is further configured to compare the received power of the residual signal with a threshold value to apply one or more false alarm reduction schemes. The at least one processor comprises:
Determining that the residual signal and the signal associated with the estimated channel have similar transmitted primary synchronization signals; and
44. The apparatus of claim 43 , further configured to store information associated with the estimated channel and detected timing, wherein the stored information further comprises a detected primary synchronization signal.