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`
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`
` CDMATRANSMISSIONAPPARATUSANDCDMATRANSMISSIONMETHOD
`
`
`Thisjjsacontinuationofapplicationno.10/522,980filed
`
`February2,2005,theentirecontentofwhichisexpressly
`
`incorporated by reference herein.
`
`Technical Field
`
`The present
`
`invention relates to a
`
`transmission
`
`apparatusandtransmissionmethodwhichtransmitssignals
`
`
`from a plurality of transmission antennas like an MZMO
`
`(Multi—Input/Multi—Output) communication and adopts a
`
`
` CDMA (Code Division Multiple Access)
`
`scheme.
`
`Background Art
`
`AnJMIMO (Multi-Input,/Multi~Output) communication
`
`is attracting attention as a
`
`technology for realizing
`
`communications of large~volume data such as images in
`
`recentyears.
`
`IntheMIMOcommunication,differentitems
`
`of transmission data (substreams) are transmitted from
`
`a plurality of antennas on a transmitting side and the
`
`plurality of
`
`items of transmission data mixed along a
`
`propagation path is separated into the original
`
`items
`
`of transmission data on a receiving side using a
`
`propagation_path estimated value (e.g., see FIG.4 in the
`
`Unexamined Japanese Patent Publication No.2002—44051).
`
`IntheMIMOcommunication,asignaltransmittedfrom
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`atransmissionapparatus isactuallyreceivedbyzfl:least
`
`the same number of antennas as transmission apparatuses
`
`and characteristics of propagation paths between the
`
`antennas are estimated based on pilot signals inserted
`
`inthesignalsreceivedbytherespectiveantennas. When,
`
`for example,
`
`there are two antennas on the transmitting
`
`side and two reception antennas,
`
`this estimated
`
`propagationpathcharacteristicfiisexpressedbyeamatrix
`
`with 2
`
`rows X 2 columns.
`
`In the MIMO communication,
`
`transmission signals transmitted from the respective
`
`transmission antennas are obtained based on an inverse
`
`matrix of this propagation path characteristic H and
`
`received signals obtained from.the respective reception
`
`antennas.
`
`Thus,
`
`in the MIMO communication, it is possible to
`
`separate signals sent from a plurality of transmission
`
`antennasatthesametimingandsamefrequencyinsubstream
`
`unitsonthereceivingside,andtherebytransmitanamount
`
`of data proportional
`
`to the number of
`
`transmission
`
`antennas and realize a high—speed, high—volume
`
`communication.
`
`However,
`
`a reception apparatus which carries out
`
`aconventionalMIMOcommunicationhaseaproblemthatwhen
`
`an interference compensation error occurs due to
`
`influences of noise, etc.,
`
`in a process of separating
`
`(compensating for interference) a plurality of items of
`
`transmission data,
`
`the error rate characteristic of
`
`reception data deteriorates. Deterioration_of an error
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`rate characteristic of data expected to have higher
`
`channel quality than that of other data such as data
`
`directed to users having poor channel quality, control
`
`information of a communication systenlor retransmission
`
`information in particular has a greater influence on the
`
`communication system.
`
`In order to prevent deterioration of the error rate
`
`characteristic of reception data due to the interference
`
`compensation error,
`
`a method of transmitting specific
`
`data assigned to only one antenna and a method of
`
`transmitting the same data assigned to a plurality of
`
`antennas are available. However, using such methods
`
`contrarily reduces the transmission rate of the
`
`communication system, causing a problem that the data
`
`transmission efficiency deteriorates.
`
`Disclosure of Invention
`
`It.is an object of the present invention.to improve
`
`reception performance of specific data on a receiving
`
`side while maintaining the transmission efficiency of
`
`a communication system.
`
`Thisobjectcxu1beattainedwith61CDMAtransmission
`
`apparatus which transmits different code division
`
`multiplexed signals from a plurality of transmission
`
`antennas by apportioning specific data to a plurality
`
`of antennas and spreading/modulating the specific data
`
`with different spreading codes assigned thereto before
`
`being transmitted.
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`Brief Description of Drawings
`
`FIG.1 is a block diagram showing the main
`
`configurationofeaCDMAtransmissionapparatusaccording
`
`to Embodiment
`
`1 of the present
`
`invention;
`
`FIG.2 is a block diagram showing the main internal
`
`configuration of
`
`a control section according to
`
`Embodiment
`
`1 of the present
`
`invention;
`
`FIG.3 illustrates an example of the configuration
`
`of a
`
`transmission signal of the CDMA transmission
`
`apparatus according to Embodiment
`
`1 of
`
`the present
`
`invention;
`
`FIG.4 illustrates another example of the
`
`configuration of a
`
`transmission signal of
`
`the CDMA
`
`transmission apparatus according to Embodiment 1 of the
`
`present
`
`invention; and
`
`FIG.5 illustrates an example of the configuration
`
`of a signal
`
`transmitted by a conventional CDMA
`
`transmission apparatus.
`
`Best Mode for Carrying out
`
`the Invention
`
`With reference now to the attached drawings, an
`
`embodiment of the present invention will be explained
`
`in detail below.
`
`(Embodiment 1)
`
`FIG.1 is a block diagram showing the main
`
`configurationofeaCDMAtransmissionapparatusaccording
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`to Embodiment
`
`
`1 of the present invention. Here,
`
`a case
`
`where this CDMA transmission apparatus has two antennas
`
`
`willkxaexplainedemsanexample,buttflmanumber<x:antennas
`
`is not
`
`limited to 2 and the number of antennas can be
`
`3 or more.
`
`This CDMA transmission apparatus is provided with
`
`an S/P conversion section 101, spreading sections 102
`
`(102~1t0102~N),103(103—1t0103-N),additionsections
`
`104—1, 104-2,
`
`transmission sections 105—1, 105—2,
`
`antennas 106—1, 106—2,
`
`a spreading control section 107
`
`and a control section 110. Of these sections, suppose
`
`thesectionsfromthespreadingsections102totheantenna
`
`106—1 are collectively called a “first transmission
`
`system” while the sections from the spreading sections
`
`103toiflu3antenna106-2 arecollectivelycalledea“second
`
`transmission system.”
`
`In FIG.1,
`
`a transmission signal including data DM
`
`D2, U', DN, DR”, "', Dmxto be sent to users 1, 2,
`
`'-g
`
`N, N+1, -'-,
`
`2N (that is,
`
`the number of users is 2N)
`
`is
`
`input
`
`to the control section 110.
`
`The control section 110 recognizes the type ofcdata
`
`included in the transmission signal
`
`input, and then
`
`outputs the transmission signal
`
`to the S/P conversion
`
`section 101. Furthermore,
`
`the control section 110
`
`outputsaacontrolsignalCfl_tothe S/Pconversionsection
`
`101 and spreading control section 107 according to the
`
`type of data recognized. Furthermore,
`
`the control
`
`section 110 outputs a control signal C2
`
`to the 8/?
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`conversionsection11H.andspreadingcontrol section107
`
`according to a retransmission flag notified from a
`
`reception section (not shown) which has received a
`
`retransmission request from the receiving side.
`
`A more
`
`specific operation of the control section 110 will be
`
`explained later.
`
`The 8/? conversion section 101 converts the
`
`transmission signal output from_the control section 110
`
`to parallel data separated for each transmission system
`
`and outputs the parallel data to their corresponding
`
`spreading sectionleZ—l tolOZ—N’andspreading sections
`
`103—1 to 103—N.
`
`In the case of the spreading section 102,
`
`the
`
`spreading sections 102—1 to 102—N corresponding to the
`
`respective parallel data output from the S/P conversion
`
`section 101 carry out spreading processing on the
`
`respectivedataunderthecontrolofthespreadingcontrol
`
`section 107 and output the spread data to the addition
`
`section 104-1. Likewise,
`
`in the case of the spreading
`
`section 103,
`
`the spreading sections 103-1 to 103—N
`
`correspondimgtotherespectiveparalleldataoutputfrom
`
`the S/P conversion section 101 carry out spreading
`
`processing on the respective data under the control of
`
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`the spreading control section 107 and output the spread
`
`25
`
`data to the addition section 104—2.
`
`The addition sections 104—1,
`
`104—2 add up
`
`(multiplex) the parallel data output from_the respective
`
`spreading sections 102, 103 and output
`
`the addition
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`results to the transmission sections 105—1,
`
`105—2.
`
`The transmission sections 105—1,
`
`105—2 carry out
`
`predetermined radio transmission processing such as
`
`up—conversion, etc., on the multiplexed signals output
`
`from the addition sections 104—1,
`
`104—2 and send this
`
`data through the antennas 106—1,
`
`106—2 by radio.
`
`FIG.2 is a block diagram showing the main internal
`
`configuration of the control section 110.
`
`The control
`
`section 110 includes a data recognition section 111,
`
`a
`
`10
`
`buffer 112 and a retransmission control section 113.
`
`Thedatarecognitionsection111recognizesthetype
`
`of data included in the transmission signal based on the
`
`channel quality and moving speed on the receiving side
`
`output
`
`from the channel quality measuring section and
`
`moving speed measuring section (both are not shown) and
`
`then writes the transmission signal
`
`in the buffer 112.
`
`Furthermore,
`
`the data recognition section 111 outputs
`
`the control signal C1 to the S/P conversion section 101
`
`and spreading control section 107 according to the
`
`recognized type of data.
`
`The retransmission control
`
`section 113 outputs the control signal C2
`
`to the S/P
`
`conversion section 101 and buffer 112 according to the
`
`retransmission flag notified from.the reception section
`
`(not shown) which has received a retransmission request
`
`from the receiving side.
`
`The buffer 112 outputs the
`
`buffered data to the 8/? conversion section 101 based
`
`on the control signal C2 output from.the retransmission
`
`control section 113.
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`Next,
`
`the operation of the CDMA transmission
`
`apparatus in the above described configuration will be
`
`explained.
`
`The recognition processing on the above described
`
`type of data carried out by the data recognition section
`
`
`111 refers to processing of recognizing and
`
`distinguishing data to which the CDMA transmission
`
`apparatus according to this embodiment gives higher
`
`priority in transmission (hereinafter referred to as
`
`10
`
`
`“specificdata”)fromotherdata. Here,thespecificdata
`
`more specifically refers to a control signal for
`
`controlling a communication with the receiving side or
`
`data to be transmitted now to the receiving side having
`
`poor channel quality (channel quality ofaipredetermined
`
`level or
`
`lower) or the receiving side having a higher
`
`moving speed (moving speed of a predetermined level or
`
`higher).
`
`The data recognition section 111 notifies the
`
`3/? conversion section 101 and spreading control section
`
`107 of specific data information indicating which data
`
`is specific data using the control signal C1.
`
`The specific data also includes data whose
`
`retransmission is requested by the receiving side
`
`(retransmission data) or data having a
`
`large
`
`retransmission count (retransmission count is equal to
`
`orhigherthanarmedeterminedcount). Thespecificdata
`
`is notified by the retransmission control section 113
`
`to the S/P conversion section 101 and spreading control
`
`section 107 using the control signal C2.
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`The S/P conversion section 101 apportions the
`
`transmission data output
`
`from the control section 110
`
`to the spreading sections 102—1 to 102—N, 103—1 to 103—N
`
`based on the specific data information notified by the
`
`control signals C1, C2. When the transmission data is
`
`notspecificdatakxn;dataindicatingsimpleinformation,
`
`the transmission data is apportioned substantially
`
`equally to the respective spreading sections to improve
`
`thetransmissionefficiency. Onthecfljmnfhand,whenthe
`
`transmission data is specific data,
`
`this data is read
`
`from the buffer 112 at least twice and this data is
`
`apportioned so as to be transmitted using both of the
`
`firsttransmissionsystemandsecondtransmissionsystem
`
`or more transmission systems (at least two transmission
`
`systems when there are three or more transmission
`
`systems).
`
`The spreading control section 107 controls the
`
`spreading sections 102,
`
`103 using a control signal C3
`
`so that the specific data apportioned to the first
`
`transmission system and second transmission system is
`
`spread/modulated using different spreading codes
`
`(differing between the first transmission system and
`
`second transmission system).
`
`The specific data and other data spread/modulated
`
`by the respective spreading sections are multiplexed by
`
`the addition sections 104—1, 104—2 for each transmission
`
`systeHLand transmittedkulradio through the transmission
`
`sections 105—1, 105~2 and antennas 106—1, 106-2.
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`10
`
`FIG.3 illustrates an example of the configuration
`
`of a transmission signal of the CDMA transmission
`
`apparatus according to this embodiment. Here,
`
`a case
`
`where the specific data is retransmission data will be
`
`explained as an example.
`
`As shown in this figure, data 1 transmitted at a
`
`first transmission timing is data directed to user 1 to
`
`user 2N and the data 1 directed to user 1
`
`to user N is
`
`transmitted from_the first transmission system (antenna
`
`1), while the data 1 directed to user (N+l)
`
`to user 2N
`
`is transmitted from the second transmission system
`
`(antenna 2).
`
`The above described data is not specific
`
`data.
`
`On the other hand,
`
`retransmission data is also
`
`transmitted accompanying the data 1. This
`
`retransmission datajjsspecific data, apportionedimathe
`
`firsttransmissionsystemandsecondtransmissionsystem
`
`based on the configuration of the CDMA transmission
`
`apparatus according to this embodiment and
`
`spread/modulatedlising different spreading codes. Data
`
`2 which is transmitted at the next transmission timing
`
`also has the same configuration as that of the data 1
`
`as shown in the figure.
`
`FIG.4 illustrates another example of the
`
`configuration of a
`
`transmission signal of the CDMA
`
`transmission apparatus according to this embodiment.
`
`Here,
`
`a case where the data 1 directed to user 1 to user
`
`N and the data 2
`
`likewise directed to user 1
`
`to user N
`
`are transmitted simultaneously at a first transmission
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`ll
`
`timing using the first transmission system (antenna 1)
`
`andsecondtransmissionsystem(antenna2). Aswiththe
`
`case described above, the data is not specific data.
`
`On
`
`the other hand, retransmission data is also transmitted
`
`accompanying the data]_and data 2. This retransmission
`
`data is specific data, apportioned to the first
`
`transmissionsystemandsecondtransmissionsystmnbased
`
`on the configuration_of the CDMA transmission apparatus
`
`according to this embodiment and spread/modulated using
`
`different spreading codes.
`
`The data transmitted at the
`
`next transmission timing is data directed to user (N+l)
`
`to user 2N as shown in the figure.
`
`FIG.5 illustrates an example of the configuration
`
`of a signal
`
`transmitted by a conventional CDMA
`
`transmissionapparatusundertimesameconditionsettings
`
`as those described above.
`
`For example, when an
`
`interference compensation error occurs in a signal
`
`transmitted from the antenna 1,
`
`retransmission data
`
`results in a reception error, and therefore the
`
`transmitting side further repeats retransmission, which
`
`deteriorates the transmission efficiency of the
`
`communication system.
`
`Asexplainedabove,theCDMAtransmissionapparatus
`
`according to this embodiment uses two transmission
`
`systems to transmit different items of data, and thus
`
`maintains high transmission efficiency which is an
`
`original feature ofeniMIMO communication.
`
`On the other
`
`hand,
`
`for data to be transmitted with higher priority,
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`12
`
`two transmission systems
`
`(at least two transmission
`
`systemswhentherearethreeormoretransmissionsystems)
`
`are always used and such data is spread/modulated using
`
`different spreading codes, and therefore it is possible
`
`to separate signals through despreading processing even
`
`when an interference compensation error increases due
`
`toinfluencesofanfixtureofnoise,etc.,onthereceiving
`
`side,
`
`that is, when sufficient separation performance
`
`using the MIMO technology cannot be obtained.
`
`Thus,
`
`this embodiment can improve the reception
`
`performancecnithe receiving side for specific¢data while
`
`maintaining the transmission efficiency of the
`
`communication system.
`
`When a turbo code is used as an error correcting
`
`code for the CDMA transmission apparatus according to
`
`this embodiment, systematic bits can also be used as the
`
`specific data. When turbo decoding is performed using
`
`systematicbitsandparitybits,thesystematicbitshave
`
`large influences on the error rate characteristic of the
`
`data after the turbo decoding. Therefore, using
`
`systematic bits as the specific data can improve the
`
`reception quality of the systematic bits and can improve
`
`the error rate characteristic of the data after the turbo
`
`decoding.
`
`Furthermore, when transmit power control
`
`is
`
`performed,
`
`transmit power may also be used instead of
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`
`controlisperformed,inthecaseofpoorchannelquality,
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`13
`
`the transmit power must also have increased according
`
`to the channel quality.
`
`Furthermore,aretransmissioncountofdatacanalso
`
`be used instead of the channel quality. This is because
`
`in the case of poor channel quality,
`
`the retransmission
`
`count of data must also have increased.
`
`The CDMA transmission apparatus according to the
`
`present invention is also applicable to a transmission
`
`apparatus using a multicarrier scheme such as an OFDM
`
`(Orthogonal Frequency Division Multiplex), and can
`
`thereby provide a multicarrier transmission apparatus
`
`having operations and effects similairto those described
`
`above.
`
`A transmission scheme using multicarriers has a
`
`symbol rate set to a low level
`
`(long symbol length) and
`
`has the effect of reducing interference among codes due
`
`to multipaths inaimultipath environment. Furthermore,
`
`byinsertingguardintervals,itjjsalsopossibleTXDremove
`
`interference among codes due to multipaths.
`
`Here,
`
`the case where the components of the present
`
`invention are incorporated in one CDMA transmission
`
`apparatushasbeenexplainedasanexample,butthepresent
`
`invention is also applicable to a case where spreading
`
`sections 102 to antenna 106—1, spreading sections 103
`
`to antenna 106*2, spreading control section 107, and
`
`control section 110 are incorporated in different
`
`apparatuses, constituting one communication system as
`
`a whole.
`
`Furthermore, an MIMO communication has been
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`14
`
`explained as an example here, but the present invention
`
`is not
`
`limited to the MIMO communication and is also
`
`applicable to a case where different items of data are
`
`transmitted in parallel
`
`from a plurality of antennas
`
`(transmission systems).
`
`The CDMA transmission apparatus according to the
`
`present
`
`invention can be mounted on a communication
`
`terminal apparatus andloase station apparatus in aInobile
`
`communication system,
`
`and can thereby provide a
`
`communication terminal apparatus and base station
`
`apparatus having operations and effects similar to those
`
`described above.
`
`Here,
`
`the case where the present
`
`invention is
`
`constructedku/hardwareImusbeenexplained.aseu1example,
`
`but
`
`the present
`
`invention can also be implemented by
`
`software.
`
`As described above,
`
`the present
`
`invention can
`
`improve reception performance on the receiving side for
`
`specific data while maintaining the transmission
`
`efficiency of the communication system.
`
`This application is based on the Japanese Patent
`
`Application.No. 2003~132133 filed<n1May 9, 2003, entire
`
`content of which is expressly incorporated by reference
`
`herein.
`
`Industrial Applicability
`
`The present
`
`invention is applicable to a
`
`transmission apparatus and transmission method, etc.,
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`
`which transmits signals fromeaplurality of transmission
`
`antennas like an MIMO communication and adopts a CDMA
`
`scheme.
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`
`What
`
`is claimed is:
`
`16
`
`l.
`
`A transmitting apparatus employing a MIMO
`
`5
`
`10
`
`(multi—input/multi—output)
`
`
`scheme 0;
`: transmitting a
`
`
`
`plura-
`
`_ity of data items for a same receiving apparatus
`
`using a plurality of antennas in parallel,
`
`the
`
`transmitting apparatus comprising:
`
`a mapping section that maps the plurality of data
`
`items to one of the plurality of antennas; and
`
`atransmittingsectionthattransmitstheplurality
`
`
`of data items using the one or
`" the plurality of antennas
`
`to the receiving apparatus,
`
`
`fic data
`wherein the mapping section maps a speci:
`
`item of the plurality of data items such that a
`
`15
`
`communication_employing thelfllMO scheme is not executed.
`
`2. The transmitting apparatus according to claim
`
`1,
`
`wherein the specific data item comprises user data
`
`requiring aloetter communication quality than.other user
`
`20
`
`data.
`
`3. The transmitting apparatus according to claim
`
`1,
`
`wherein the transmitting section transmits the
`
`specific data item using the one of the plurality of
`
`25
`
`antennas repeatedly.
`
`4. A communication terminal apparatus, comprising
`
`the transmitting apparatus according to claim 1.
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 16
`
`IPR2018-01476
`Apple Inc. EX1002 Page 16
`
`
`
`l7
`
`5. A base station apparatus, comprising the
`
`transmitting apparatus according to claim 1.
`
`6. A transmitting method employing a MIMO
`
`(multi—input/multi—output)
`
`scheme of transmitting a
`
`
`
`plurality of data items for a same receiving apparatus
`
`using a plurality of antennas in parallel,
`
`the
`
`transmitting method comprising:
`
`10
`
`
`
`amappingstepofnmppingthepluralityofdataitems
`
`
`to one of
`
`the plurality of antennas; and
`
`
`a transmitting step of transmitting the plurality
`
`
`of data items using the one o: the plurality of antennas
`
`to the receiving apparatus,
`
`l5
`
`wherein,
`
`in the mapping step, a specific data item
`
`of the plurality of data items is mapped such that a
`
`communicationemployingtfluaMlMOschemeis notexecuted.
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 17
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`IPR2018-01476
`Apple Inc. EX1002 Page 17
`
`
`
`18
`
`ABSTRACT
`
`A control section (110) recognizes the type of data
`
`included in a transmission signal and outputs a control
`
`signal
`
`(C1)
`
`to an 8/? conversion section (101)
`
`and a
`
`spreading control section (107).
`
`The 8/? conversion
`
`section (101) apportions a specific type of data output
`
`fron1the control section (110)1x3different transmission
`
`systems. Spreading sections (102, 103) carry out
`
`10
`
`15
`
`spreading processing on the specific type of data output
`
`from the 8/? conversion section (101) with different
`
`spreading codes assigned thereto under the control of
`
`thespreadingcontrolsection(107). Thedataoutputfrom
`
`thespreadingsections(102,103)istransmittedbylmdio
`
`through addition sections (104—1, 104~2),
`
`transmission
`
`sections (105—1, 105—2) and antennas (106-1, 106—2).
`
`In
`
`this way,
`
`it is possible to improve the reception
`
`performanceonthereceivingsideforspecificdatawhile
`
`maintaining the transmission efficiency of an MIMO
`
`20
`
`communication system.
`
`|PR2018—O1476
`
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`IPR2018-01476
`Apple Inc. EX1002 Page 18
`
`
`
`19
`
`[FI
`
`G.1]
`
`107
`
`SPREADING CONTROL SECTION
`
`TRANSMISSION SIGNAL
`
`RETRANSMISSION FLAG
`
`110
`
`CONTROL SECTION
`
`SPREADING SECTION
`
`SPREADING SECTION
`
`SPREADING SECTION
`
`SPREADING SECTION
`
`SPREADING SECTION
`
`
`
`
`
`
`
`102
`
`~1
`
`102
`
`—2
`
`102
`
`*N
`
`103
`
`—1
`
`10
`
`103
`
`—2
`
`
`
`-N SPREADING SECTION
`
`103
`
`104
`
`104
`
`
`
`—1 ADDITION SECTION
`
`-2 ADDITION SECTION
`
`
`TRANSMISSION SECTION
`
`
`
`ON
`
`
`TRANSM SS ON SECTI
`
`
`
`
`
`105
`
`—1
`
`15
`
`105
`
`—2
`
`[FI
`
`G.2]
`
`20
`
`25
`
`CHANNEL QUALITY
`
`MOVING SPEED
`
`TRANSMISSION SIGNAL
`
`RETRANSMISSION FLAG
`
`111
`
`DATA RECOGNITION SECTION
`
`RETRANSMISSION CONTROL SECTION
`
`
`
`113
`
`112
`
`TO TO
`
`TO
`
`TO
`
`BUFFER
`
`SPREADING CONTROL SECTION 107
`
`S/P CONVERSION SECTION 101
`
`S/P CONVERSION SECTION 101
`
`S/P CONVERSION SECTION 101
`
`
`
`|PR2018—O1476
`
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`IPR2018-01476
`Apple Inc. EX1002 Page 19
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`
`
`TO SPREADING CONTROL SECTION 107
`
`20
`
`[FIG.3]
`
`SPACE
`
`ANTENNA 1
`
`ANTENNA 2
`
`DATA 1
`
`(USER 1 TO N)
`
`+ RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 2)
`
`DATA 1
`
`(USER.N+1 TO 2N) + RETRANSMISSION DATA (SPREADING
`
`10
`
`CODE DIFFERENT FROM THAT OF ANTENNA 1)
`
`DATA 2
`
`(USER 1 TO N)
`
`+ RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 2)
`
` DATA 2
`
`(USER N+1 TO 2N) + RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 1)
`
`15
`
`TIME
`
`[FIG.4]
`
`SPACE
`
`ANTENNA 1
`
`20
`
`ANTENNA 2
`
`DATA 1
`
`(USER 1 TO N)
`
`+ RETRANSMISSION DATA (SPREADING
`
`
`
`CODE DIFFERENT FROM THAT OF ANTENNA 2)
`
`DATA 2
`
`(USER 1 TO N)
`
`+ RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 1)
`
`25
`
`DATA 1
`
`(USER N+1 TO 2N) + RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 2)
`
`DATA 2
`
`(USER N+1TM32N) + RETRANSMISSION DATA (SPREADING
`
`CODE DIFFERENT FROM THAT OF ANTENNA 1)
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 20
`
`IPR2018-01476
`Apple Inc. EX1002 Page 20
`
`
`
`21
`
`TIME
`
`[FIG.5]
`
`SPACE
`
`5
`
`ANTENNA l
`
`ANTENNA 2
`
`DATA 1
`
`(USER
`
`1 TO N)
`
`+ RETRANSMISSION DATA
`
`DATA 1
`
`(USER
`
`N+1 TO 2N)
`
`DATA 2
`
`(USER
`
`1 TO N)
`
`+ RETRANSMISSION DATA
`
`10
`
`DATA 2
`
`(USER
`
`N+1 TO 2N)
`
`TIME
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 21
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`IPR2018-01476
`Apple Inc. EX1002 Page 21
`
`
`
`?TE:2
`
`NE.
`
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`295mm927’"czaEEm“35zommimzémm
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 22
`
`IPR2018-01476
`Apple Inc. EX1002 Page 22
`
`
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`|PR2018—O1476
`
`Apple Inc. EX1002 Page 23
`
`IPR2018-01476
`Apple Inc. EX1002 Page 23
`
`
`
`
` C<zzmhz<noH<_._.r
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`AZNOH:2ammoN<.r<n_
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`
`mo<n_m
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`
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`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 24
`
`IPR2018-01476
`Apple Inc. EX1002 Page 24
`
`
`
`
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`
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`
`mo<n_m
`
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`
`«.9;
`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 25
`
`IPR2018-01476
`Apple Inc. EX1002 Page 25
`
`
`
`
`
`5/5
`
`E2:
`
`ENOH:2”ampN<H<o
`
`AzNOH_.+z”Em:_.<.r<n_
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`
`|PR2018—O1476
`
`Apple Inc. EX1002 Page 26
`
`IPR2018-01476
`Apple Inc. EX1002 Page 26
`
`
`
`APPLICATION FOR UNITED STATES PATENT
`i.
`"
`Declaration for Patent Application
`
`As a below named inventor, I hereby declare that:
`My residence, post office address and citizenship are as stated below next to my name.
`I believe I am the original, first and sole inventor (if only one name is listed below) or an original, first and joint inventor (if
`plural names are listed below) of the subject matter which is claimed and for which a patent is sought on
`
`the invention entitled: CDMA TRANSMISSION APPARATUS AND CDMA TRANSMISSION METHOD
`
`
`2 (file no
`
`)
`
`the specification of which
`(check at least one)
`
`3 [
`4 [
`6 [
`
`]
`]
`]
`
`is attached hereto
`was filed on
`and was amended
`
`as (5) U.S.'Application Serial No.
`'
`
`.
`
`(if applicable)
`
`W 7
`
`[x]
`
`-
`
`
`
`was filed as PCT international application
`Number PCT/JP2004/006154
`8
`Use 'his
`portion W
`
`are entering
`28/April/2004
`only ”Y?"
`a 0"
`and was amended under PCT Anicle(s) 19 and/or 34
`S'EfiU-Sa'l
`
`on
`10
`"2:5: 335;“
`-
`-
`-
`.
`.
`.
`:
`International
`priority date claimed in PCT lntemational Application
`11
`Application
`
`"’21???“ ML“ W own/2003
`
`9
`
`on
`
`(if applicable).
`.
`
`(Country)
`
`(Number)
`
`(Country)
`
`(Number)
`
`(Day/Month/Year Filed)
`
`
`(Day/Month/Year Filed)
`
`
`(Country)
`
`(Number)
`
`(Day/Month/Year Filed)
`
`
`
`I hereby declare that I have reviewed and understand the contents ofthe above—identified specification, including the claims, as amended,
`by any amendment referred to above.
`I acknowledge the duty to disclose to the United States Patent and Trademark Office all information known to me which is material to
`patentabiiity in accordance with Title 37, Code of Federal Regulations, § 1.56.
`I hereby claim foreign priority benefits under Title 35, United States Code, §1 19 of any foreign application (5) for patent or inventor’s
`certificate listed below and have also identified below any foreign application(s) for patent or inventor’s certificate or any PCT international
`application(s) designating at least one country other than the United States of America filed by me on the same subject matter having a filing date
`earlier than that ofthe application(s) on which priority is claimed.
`
`Prior (Foreign Application( 5) any Priority Claims Under 35 U.S.C. 119
`_
`
`Priority Claimed
`
`12a
`
`
`l
`————~.-~_ M [
`(Country)
`(Number)
`(Day/Month/Year Filed)
`Yes
`
`—————_—..._._ W l
`l
`
`l
`
`l
`
`]
`No
`l
`
`No ,
`Yes
`(Day/Month/Year Filed)
`(Number)
`(Country)
`Priority Claim(s) from U.S. Provisional Application(s)—~I hereby claim the benefit under Title 35, United States Code, {)1 19(e) ofany
`United States provisional application(s) listed below:
`
`
`12b
`
`Day/Month/Year Filed
`
`Application No.
`
`Day/Month/Year Filed
`
`Application No.
`
`Do not use this
`
`
`
`l hereby claim the benefit under Title 35, United States Code, 120 of any United States applieation(s) or
`portiun to identify a
`
`
`
`PCT international application(s) designating the United States of America. that is/are listed below and, insofar as
`Pcrapplicmiuu if the
`
`
`
`the subject matter of each of the claims of this application is not disclosed in that/those prior application(s) in the
`parent application is
`
`the [1.5. National
`manner provided by the first paragraph of Title 35, United States Code §112, I acknowledge the duty to disclose
`
`to the United States Patent and Trademark Office ail information known to me to be material to patentabiiity as
`phase with: PCP
`
`
`defined in Title 37, Code ofFederai Regulations, §I.56 which became availabie between filing date ofthe prior
`npplicntinn
`
`
`application and the national or PCT international filing date ofthis application.
`
`l3
`
`
`
`
`
`
`
`U.S. A lication Number)
`(U.S. Filin Date
`Status ( atented,
`, abandoned)
`
`I hereby appoint the following attorneys of the firm of Stevens, Davis, Miller & Mosher, L.l_..P. as my attorneys of record with full
`power of substitution and revocation to prosecute this application and to transact all business in the Patent and Trademark Office:
`James E. Ledbetter, Reg. No. 28732; Thomas P. Pavelko, Reg. No. 31689; and Anthony P. Venturino, Reg. No. 31674.
`ALL CORRESPONDENCE IN CONNECTION WITH THIS APPLICATION SHOULD BE SENT TO
`STEVENS, DAVIS, MILLER & MOSHER, L.L.P., 1615 L Street, N.W., Suite 850, Washington, D.C.
`TELEPHONE (202) 408—5100, FACSIMILE (202) 408-5200.
`,
`See page 2 for signature lines
`
`20036,
`
`“998 Stevens, Davis, Miller & Moslier, L.L.P.
`
`other side for instructions for completing this form
`
`|PR2018—O1476
`
`Apple Inc. EX100