TW200838193A

TW200838193A - Amble modulation series

Info

Publication number: TW200838193A
Application number: TW96134207A
Authority: TW
Inventors: Chang-Qin Huo
Original assignee: Fujitsu Ltd
Priority date: 2007-03-02
Filing date: 2007-09-13
Publication date: 2008-09-16
Also published as: TWI384786B; JP2010154558A; CN101764781A; TWI398113B; JP4888576B2; CN102202031B; CN102202031A; TW201018119A; CN101764781B

Abstract

An amble modulation series in a downlink relay zone in an IEEE 802.16 network, the amble modulation series being a reverse version of a preamble modulation series of the network. For example, the amble modulation series is related to a preamble modulation series PNi, i = 0,1,...,113 of the IEEE 802.16 network as follows: where J is dependent on a Fast Fourier Transform (FFT) size of the network, and is equal to 567, 283 and 142 for an FFT size of 2048, 1024 and 512, respectively.

Description

200838193 九、發明說明：【發明所屬之技術領域3 與相關申請案之交互參照本申請案基於，且主張美國臨時申請案Ν〇·60/892,704 5 之利益，該臨時申請案申請於2007年3月2曰，發明人為 Changqin HUO，代理人文件編號1974·1021ρ，且其全部在此以參照方式併入本文。發明背景 10 有許多不同類型的用於一基地台（BS)與一用戶站（SS) 進行通訊的無線網路。一用戶站（SS)可以是例如一行動台 (MS)。一電機電子工程師學會(IEEE)802.16網路即是用於一基地台（BS)與一用戶站（SS)在其中進行通訊的一種類型的 15 無線網路。IEEE802.16j是對該IEEE802.16標準套件的一新添加，且當前正在被定義。IEEE802.16j管理運作於一 IEEE802.16e行動網路中的一中繼台（RS)之行為。一 IEEE802.16e行動網路通常被稱為一 “wiMAX”行動網路。一 IEEE802· 16j網路通常被稱為一行動中繼系統(MRS)。 2〇在一IEEE802.16j網路中’可支援至少一個中繼台的一基地台被稱為一行動中繼基地台（MR-BS)。在該網路中使用中繼台的目的是擴展無線電覆蓋範圍或增加一行動中繼基地台（MR-BS)的通量。一中繼台（rs)可典型地是一行動中繼基地台（MR-BS)之一低成本替換物。 5 200838193 一中繼台（RS)在一行動中繼基地台（MR_BS)與用戶站 (SS)之間傳送主動服務流的資料，既於一上行鏈路方向也於一下行鏈路方向。該上行鏈路方向是指從該用戶站（ss) 到該中繼台（RS)，及從該中繼台（RS)到該行動中繼基地台 5 (MR-BS)的發送。該下行鏈路方向是指從該行動中繼基地台 (MR-BS)到一中繼台（RS)，及從一中繼台（RS)到一用戶站 (SS)的發送。中繼台（RS)可被連接到一起成一鏈形，形成一所謂的多中繼段(multi-hop)中繼台連接，或一多中繼段中繼台分 10支’其中一個中繼台（RS)傳遞資料至以及來自另一中繼台 (RS)〇在一 MRS中，一下行鏈路發送是由一存取區及一個或多個中繼區組成的。該存取區被一用戶站使用，以對該網路進行存取。在該存取區，一行動中繼基地台（MR-BS) 15 或中繼台（RS)直接發送資料給一用戶站（SS)。該等中繼區被一行動中繼基地台（MR-BS)或中繼台（RS)使用，以經由子中繼台（RS)發送給用戶站（SS)。例如，第1圖是一圖示，說明包括一行動中繼基地台 (MR-BS)20、一中繼台（RS)22及一用戶站（SS)24之一網路。 20用戶站（SS)可以是例如一行動台。現在參考第1圖，行動中繼基地台（MR-BS)20與中繼台 (RS)22在中繼區26中進行通訊。中繼台（RS)22與該用戶站 (SS)24在存取區28中直接進行通訊。第2圖是一圖示，說明包括一多中繼段中繼台連接之— 200838193 2路現在參考第2圖，行動中繼基地台（MR-BS)30與中繼口（RS)32在中繼區31中進行輕。中繼台_32與中繼台 (RS)34在中繼區33中進行通訊。中繼台⑽讲與用戶站 (SS)36在麵區35巾直接進行通訊。 5 ^著將中繼台引入到該網路中，就需要重新考慮網路没計及實施的各種層面。【發明内容】發明概要本發明之各種實施例針對一IEEE 802.16網路中的一下 1〇行鏈路中繼區中的一安布調變序列，該安布調變序列是該網路的一前文(preamble)調變序列之一反向版。例如’本發明之各種實施例針對一安布調變序列乃以’用於一IEEE 802.16網路中的一下行鏈路中繼區，該安布調變序列有關於該IEEE 802.16網路的一前文調變序列 15 ρΟ〇，1，···，113，關係如下： PNf(j) = PNi(J-jl / = 0,1,...,113, y = 其中J取決於該網路的一快速傅利葉變換(FFT)大小，且J等於567、283及142，分別對應於大小為2048、1024及 512 的一 FFT。 20 在本發明之各種實施例中，當被顯示於表格形式時，該安布調變序列容易被理解。本發明之以上所描述的實施例是以範例為目的的，且本發明之所有實施例並不局限於包括以上實施例的所描述的特徵。 7 200838193 圖式簡單說明第1圖是一圖示，說明包括一行動中繼基地台、一中繼台及一用戶站之一網路。第2圖是一圖示，說明包括一多中繼段中繼台連接之一 5 網路。第3圖是一圖示，說明使用依據本發明之一實施例的一安布調變序列。第4圖及第5圖是圖示，說明依據本發明之一實施例的一關聯安布調變序列之性能。 10 第6圖是一圖示，說明依據本發明之一實施例的使用一安布調變序列之一網路。第7圖是一圖示，說明依據本發明之另一實施例的使用一安布調變序列之一網路。【實施方式1 15 較佳實施例之詳細說明現在將對本發明實施例進行詳細的參考，其範例可被說明於附圖，其中相同參考數字始終代表相同元件。這裏所使用的許多術語，包括縮寫，都被定義於 IEEE802.16-2004、IEEE802.16e-2005、IEEE802.16-2005， 20 及IEEE802.16j-06/026r2中，其全部在此以參照方式被併入本文。在IEEE802.16e網路中，一下行鏈路發送的第一符號被稱為前文(preamble)。該前文被一用戶站（SS)使用，以執行量測及程序，諸如時間同步、載波頻率估計、通道回應估 200838193 計、細胞及區段(sector)識別等。根據該前文執行量測及程序是已知的。依據本發明之實施例，一相似的安布可被引入中繼區，以實現如該等前文的相似目的。 5 一組114前文調變序列被規定於IEEE802.16e，其全部在此以參照方式被併入本文。此已定義的前文調變序列組最初的目的是被使用於一存取區。更明確地，此已定義的前文調變序列組最初的目的是在不使用中繼台的網路中的一基地台（BS)及一用戶站（SS)之間被使用。在這樣的網路 10 中，不使用中繼台，該用戶站（SS)必須處於該基地台（BS) 的通訊範圍内。用於一中繼區安布調變序列的一選項是使用定義於 802.16e中的相同的前文調變序列，即，被使用於該行動中繼網路中的該存取區中的該前文調變序列。然而，由於相 15 同的前文調變序列既被使用於該存取區又被使用於該中繼區，此選項將導致問題，因為用戶站（SS)可能在一個訊框中偵測到相同的前文兩次。依據本發明之實施例，一新安布調變序列組i = 〇, 1，…，113，將被使用於一IEEE802.16網路的該下行鏈路(DL) 20 中繼區。該新安布調變序列有關於ΙΕΕΕ802·16·2005(其全部 .在此以參考方式被併入本文）中的8·4·6·1·1中所指定的該原始前文調變序列，關係如下面等式所指示：其中J取決於該系統中所使用的該快速傅利葉變換 9 200838193 (FFT)的大小。該網路的該FFT大小可容易得知。更明確地’一 IEEE802.16網路具有一關聯的FFT大小，該網路依據該關聯 FFT大小被設計。IEEE802.16目前指定網路使用一FFT大小 5 為，例如2048、1024或512。然而，本發明並不局限於具有一FFT大小為2048、1024或512的該等網路。而是可具有一不同FFT大小的一網路。上面的等式仍可應用於具有一不同 FFT大小的網路。然而，J的值將依據FFT大小不同而不同。 J=(該系統中定義的字元數Μ每字元的位元數)-η，其中 10 當FFT大小為2048或1024時η=1，當FFT大小為512時η=2。例如，在一具有一 FFT大小為1024的802.16e網路中，有71字元，每字元四位元。在此範例中，J=(71)x(4)-1=283。此外，對於具有FFT大小為2048、1024及512的一802.16 網路，J分別等於567、283及142。 15 該新安布組iW/是該原始前文組的反向版，可被稱為一“關聯安布調變序列”。因此，第3圖是一圖示，說明使用依據本發明之一實施例的一安布調變序列。現在參考第3圖，在操作40中，一安布調變序列办？被提供於一IEEE802.16網路中，該安布調變 20 序列依據下面等式有關於該IEEE802· 16網路之一前文調變序列/^，/ = 〇，1，···，113 : PNf(j)二 ΡΝ人J — j)，i = Q，\，…，\\\ j = 〇，\，…，j 其中J取決於該網路的該FFT大小，且J等於，例如567、 283及142，分別對應大小為2048、1024及512的一FFT。 10 200838193 在备作42中’該安布調變序列被使用於該網路之一下行鏈路中繼區。例如，一行動中繼基地台（MR_BS)可插入該安布調k:序列到在-下行鏈路中繼區由該行動中繼基地台 (MR-BS)發送的一訊框中。相似地，一中繼台（RS)可插入該 5安布調變序列到在一下行鏈路中繼區由該行動中繼台⑽）發达的一訊框中。該安布調變序列可接著被一次中繼台使用，以執行量測及程序，諸如例如時間同步、載波頻率估計、通道回應估計、細胞及區段識別等。當然’本發明並不局限於任何正在被執行的具體的量 10測或程序。依據該安布調變序列執行這種量測或程序相似於用該前文執行這種量測，且該領域具有通常知識者透過對此揭露的閱讀將很好的理解它。基於上面的等式，對於IEEE802·16-2005 中的8.4.6.1.1 中所指定的該原始前文調變序列PA^，i = 〇, 1，…，113,該安 15布調變序列尸可如在此揭露的表1、2及3中所表明的，表 1、2及3分別對應一FFT大小為2048、1024及512。這些表格可容易地從上面等式產生。此外，對於一不同的前文調變序列，該等式對應每一 FFT大小將產生一不同的安布調變序列。因此，本發明並不 20 局限於表1、2及/或3中所顯示的該指定的安布調變序列。為了使用該安布調變序列，一行動中繼基地台（MR-BS) 或一中繼台（RS)可設有該指定的安布調變序列。例如，該行動中繼基地台（MR-BS)或一中繼台（RS)可設有一表格，諸如表1、2或3，或設有相對應於表1、2或3中的資訊。或者， 11 200838193 該行動中繼基地台（MR-BS)或一中繼台（RS)可設有僅該相關的行動中繼基地台（MR_BS)或該相關的中繼台（RS)所需的指定安布調變序列。這樣的表格或指定值可貯存在該行動中繼基地台（MR-BS)或該相關的中繼台（RS)中，或可貯存 5在该網路中的任何地方，且在需要時被提供給該相關的行動中繼基地台（MR-BS)或相關的中繼台（RS)，或被該相關的行動中繼基地台（MR-BS)或相關的中繼台（RS)獲得。在另一實施例中，一行動中繼基地台（MR-BS)或中繼台（RS)可根據上面的等式產生該安布調變序列，或由該網路中的依據上 10面等式產生該安布調變序列的一不同裝置來提供該安布調變’且當需要時該裝置提供該已產生的安布調變序列給一行動中繼基地台（MR-BS)或中繼台（RS)。此外，本發明之實施例並不局限於產生或提供該安布調變序列給一行動中繼基地台（MR-BS)或中繼台（rs)的任 15 何特定方式。此新安布調變序列具有若干重要特性。例如，對於定義於IEEE802· 16-200 5中的每一前文有且僅有一個關聯安布；因此在該網路部署中，不需要額外努力為新安布制定計劃。 20 此外’該關聯安布調變序列具有與該原始前文調變序列相同的自動相關及交互相關性能。此特性使該關聯安布組產生同該原始前文組相同的作用。此外，該關聯安布組具有優於（或相同於)該相對應的前文組的峰值對均值功率比(PAPR)性質。 12 200838193 進一步，該關聯調變序列與該原始前文調變序列之間的該交互相關對於在中繼區中的該安布來說是足夠低的。此外，該等關聯安布序列與該相對應的前文序列具有一簡單關係，且容易被實施。 5 該等關聯安布調變序列的性能被說明於第4圖及第5 圖。更明確地，聚合(aggregate)安布組（即該前文組(編號從〇到113)及該關聯安布組（編號從114到283))的該自動相關及該交互相關被說明於第4圖，對於FFT大小為1024而言。 1〇該關聯調變序列與該相對應的原始前文調變序列之間的該正規化（藉由該自動相關，對於一FFT大小為1024來說，即284)交互相關被說明於第5圖，對於安布索引從0到 113。該新安布組的性能對於在該下行鏈路(Dl)中繼區中的該安布來說顯示為足夠好。 15 第6圖是一圖示，說明依據本發明之一實施例的使用一安布調變序列的一網路。現在參考第6圖，該網路包括一行動中繼基地台（MR-BS)50、一中繼台（RS)52及一用戶站 (SS)54。用戶站（SS)54可為例如一行動台。第6圖中的該網路是一兩中繼段結構的一範例，因為在行動中繼基地台 2〇 (MR-BS)50及用戶站（SS)54之間僅有一個中繼台（RS)52。當然，本發明並不局限於一兩中繼段結構，或第6圖中所顯示的指定結構。行動中繼基地台（MR-BS)50包括一編碼提供器56，提供該安布調變序列。編碼提供器56可包括記憶體，儲存所 13 200838193 需的安布調變序列。另外，編碼提供器56可以是基於上面所描述的等式產生該安布調變序列的一處理器。第6圖顯示編碼提供器56被包括在行動中繼基地台（MR_Bs)5〇中。然而，本發明並不局限於編碼提供器56處於任何特定位置。 5例如，編碼提供器％可被提供在網路中之一不同實體上，且具有所需的安布調變序列，當需要時被提供給行動中繼基地台（MR-BS)50。行動中繼基地台（MR-BS)50插入該安布調變序列到一下行鏈路訊框中，且發送該訊框給中繼台（RS)52。中繼台 1〇 (RS)52包括-安布解碼器57，該安布解碼器57解碼被插入到該下行鏈路訊框的該安布調變序列。中繼台（rs)52接著依據該已解碼安布調變序列執行量測及测試。第7圖是-圖示，說明依據本發明之另—實施例的使用 4布調㈣列的-網路Q現在參考第7圖，該網路包括行 15動中繼基地台（MR-BS)5〇、中繼台_6〇及62，及用戶站 (SS)54。第7圖中的該網路是一多中繼段結構之一範例，因為在行動中繼基地台（MR_BS)50及用戶站（38)54之間有兩個中繼台（RS)6G及62。在其他實關中，可以有額外的中尨口，在行動中繼基地台（MR_BS)50及用戶站（ss)54之間提 2〇供額外的中繼段。當然，本發明並不局限於一多中繼段結構’或第7圖中所顯示的指定結構。在第7圖的實施例中，行動中繼基地台（MR-BS)5〇包括編碼提供器56，提供該安布調變序列。另外，中繼台6〇也包括一編碼提供器64及安布解碼器65。中繼台62包括一安 200838193 布解碼器66。第7圖顯示編碼提供器6 4及5 6分別被包括在中繼台 (RS)60及50中。然而，本發明並不局限於編碼器提供器64 及56位於任何特定位置。例如，編碼提供器料及允可被提 5供在網路中之一不同實體上，且具有所需的安布調變序列，當需要時被提供給中繼台。行動中繼基地台（MR-BS)50插入該安布調變序列到一下行鏈路訊框中，且發送該訊框到中繼台（RS)6〇。中繼台 (RS)60的安布解碼器65解碼該被插入到該下行鏈路訊框的 1〇該安布調變序列。中繼台（RS)6〇接著依據該已解碼安布調變序列執行量測及測試。中繼台（RS)60同樣插入該安布調變序列到其下行鏈路讯框中，且發送該新訊框給中繼台（RS)62。中繼台62的安布解碼為66解碼該安布序列，且依據該已解碼安布調變序 15列執行量測及測試。 …第6圖及第7圖顯示一各自的編碼提供器用於每一需要 j文布_變相的行動巾繼基地台（MR_BS)U，在-些二，例中，可能有一單一編碼提供器提供該安布調變序列、口夕於—個行動中繼基地台（MR-BS)。因此，本發明並不局 2〇限於編碼提供器的任何特定數目或位置。方第7圖中的5亥網路顯示在行動中繼基地台（MR_BS)5〇站(SS)54之間僅有兩個中繼台。然而，在本發明之實^例中，在行動中繼基地台（MR-BS)50與用戶站 )之間可此有額外的中繼台（表明額外的中繼段）。在這 15 200838193 樣的實施例中，視配置而定，在一下行鏈路中繼區中，該等額外的中繼台可能需要該安布調變序列以發送一訊框。本發明之各種實施例可被應用於IEEE802.16網路，包括對IEEE802.16的修正及擴充。這樣的修正及擴充包括， 5但不局限於，IEEE802.16e及IEEE802.16j。此外，本發明並不局限於IEEE802· 16網路，且可被應用於其他類型網路。本發明之各種實施例關於具有用戶站的網路。一用戶站可為，例如，一固定台或行動台。然而，有許多不同類 i的用戶站，且本發明並不局限於任何特定類型的用戶站。 1〇具有特定數目的行動中繼基地台（MR-BS)及中繼台 (RS)的各種網路配置被顯示於此。然而，本發明並不局限於具有任何特定數目絲置的行動中繼基地台（MR-叫或任何特定數目或配置的中繼台（RS)的配置。這裏所描述的網路具有一FFT大小。然而，本發明並不局限於具有任何特定的附大小的網路，且本發明之實施例可被應用於具有不同於在此描述的實施例中的-FFT大小的網路。 20 16 200838193 表1——2048FFT模式的關聯安布調變序列每段及識別細胞200838193 IX. INSTRUCTIONS: [Technical field 3 of the invention belongs to the related application. The present application is based on the present application and claims the benefit of the US provisional application Ν〇60/892,704 5, which is filed in 2007. The inventor is Changqin HUO, attorney docket number 1974. 1021, the entire disclosure of which is incorporated herein by reference. BACKGROUND OF THE INVENTION 10 There are many different types of wireless networks for a base station (BS) to communicate with a subscriber station (SS). A subscriber station (SS) can be, for example, a mobile station (MS). An Institute of Electrical and Electronics Engineers (IEEE) 802.16 network is a type of 15 wireless network in which a base station (BS) communicates with a subscriber station (SS). IEEE 802.16j is a new addition to the IEEE 802.16 standard suite and is currently being defined. IEEE 802.16j manages the behavior of a relay station (RS) operating in an IEEE 802.16e mobile network. An IEEE 802.16e mobile network is often referred to as a "wiMAX" mobile network. An IEEE 802.16j network is commonly referred to as a mobile relay system (MRS). 2〇 In an IEEE 802.16j network, a base station that can support at least one relay station is called a mobile relay base station (MR-BS). The purpose of using a repeater in the network is to extend the radio coverage or increase the throughput of a mobile relay base station (MR-BS). A relay station (rs) can typically be a low cost alternative to a mobile relay base station (MR-BS). 5 200838193 A relay station (RS) transmits data of active service flows between a mobile relay base station (MR_BS) and a subscriber station (SS), both in an uplink direction and in a downlink direction. The uplink direction refers to transmission from the subscriber station (ss) to the relay station (RS) and from the relay station (RS) to the mobile relay base station 5 (MR-BS). The downlink direction refers to transmission from the mobile relay base station (MR-BS) to a relay station (RS), and from a relay station (RS) to a subscriber station (SS). Relay stations (RSs) can be connected together in a chain to form a so-called multi-hop repeater connection, or a multi-hop repeater station divided into 10 'one of the relays The station (RS) transmits data to and from another relay station (RS) in an MRS, and the downlink transmission is composed of an access area and one or more relay areas. The access area is used by a subscriber station to access the network. In the access zone, a mobile relay base station (MR-BS) 15 or a relay station (RS) directly transmits data to a subscriber station (SS). The relay zones are used by a Mobile Relay Base Station (MR-BS) or Relay Station (RS) for transmission to the Subscriber Station (SS) via the Sub Relay Station (RS). For example, FIG. 1 is a diagram illustrating a network including a mobile relay base station (MR-BS) 20, a relay station (RS) 22, and a subscriber station (SS) 24. The 20 subscriber station (SS) can be, for example, a mobile station. Referring now to Figure 1, a mobile relay base station (MR-BS) 20 and a relay station (RS) 22 communicate in a relay zone 26. The relay station (RS) 22 communicates directly with the subscriber station (SS) 24 in the access area 28. Figure 2 is a diagram illustrating the inclusion of a multi-hop relay station connection - 200838193 2 way now with reference to Figure 2, the mobile relay base station (MR-BS) 30 and the relay port (RS) 32 Light is performed in the relay area 31. The relay station_32 communicates with the relay station (RS) 34 in the relay area 33. The relay station (10) speaks directly with the subscriber station (SS) 36 in the area 35. 5 ^ Introducing the repeater into the network requires rethinking the various aspects of the network that are not taken into account. SUMMARY OF THE INVENTION Various embodiments of the present invention are directed to an amp modulation sequence in a downlink link relay region of an IEEE 802.16 network, the ambush modulation sequence being one of the networks A reverse version of one of the preamble modulation sequences. For example, 'the various embodiments of the present invention are directed to an ABB modulation sequence that is used in a downlink relay zone in an IEEE 802.16 network, the Amp modulation sequence having one for the IEEE 802.16 network. The previous modulation sequence 15 ρ Ο〇,1,···, 113, has the following relationship: PNf(j) = PNi(J-jl / = 0,1,...,113, y = where J depends on the network A fast Fourier transform (FFT) size, and J equals 567, 283, and 142, respectively, corresponding to an FFT of size 2048, 1024, and 512. 20 In various embodiments of the invention, when displayed in tabular form The Amble modulation sequence is readily understood. The above described embodiments of the invention are for illustrative purposes, and all embodiments of the invention are not limited to the features described above including the above embodiments. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a network including a mobile relay base station, a relay station, and a subscriber station. FIG. 2 is a diagram illustrating a multi-hop section. One of the 5 networks connected to the station. Figure 3 is a diagram illustrating the use of one of the implementations in accordance with the present invention. An Amble modulation sequence. Figures 4 and 5 are diagrams illustrating the performance of an associated Amble modulation sequence in accordance with an embodiment of the present invention. 10 Figure 6 is a diagram illustrating One embodiment of the invention uses a network of one of the modulating sequences. Figure 7 is a diagram illustrating a network using one of the modulating sequences in accordance with another embodiment of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings, in which It is defined in IEEE 802.16-2004, IEEE 802.16e-2005, IEEE 802.16-2005, 20 and IEEE 802.16j-06/026r2, all of which are incorporated herein by reference. The first symbol transmitted in the downlink is referred to as a preamble. The foregoing is used by a subscriber station (SS) to perform measurements and procedures, such as time synchronization, carrier frequency estimation, and channel response estimation 200838193. , cells and segments (sec Tor) identification, etc. It is known to perform measurements and procedures according to the foregoing. According to an embodiment of the invention, a similar Abu can be introduced into the relay zone to achieve similar purposes as the foregoing. The foregoing pre-modulation sequence is defined in IEEE 802.16e, which is hereby incorporated by reference in its entirety herein. The initial purpose of the defined preamble sequence group is to be used between a base station (BS) and a subscriber station (SS) in a network that does not use a repeater. In such a network 10, no repeater is used, and the subscriber station (SS) must be within the communication range of the base station (BS). An option for a relay zone Amble modulation sequence is to use the same preamble modulation sequence defined in 802.16e, ie, the preamble used in the access zone in the mobile relay network. Modulation sequence. However, since the same preamble sequence of phase 15 is used in both the access zone and the relay zone, this option will cause problems because the subscriber station (SS) may detect the same in one frame. The previous two times. In accordance with an embodiment of the present invention, a new Amp modulation sequence set i = 〇, 1, ..., 113, will be used for the downlink (DL) 20 relay zone of an IEEE 802.16 network. The new Ambiton modulation sequence has the original preamble modulation sequence specified in 8.4.16·1·1, which is incorporated herein by reference. As indicated by the following equation: where J depends on the size of the fast Fourier transform 9 200838193 (FFT) used in the system. The FFT size of the network is readily known. More specifically, an IEEE 802.16 network has an associated FFT size that is designed based on the associated FFT size. IEEE 802.16 currently specifies that the network uses an FFT size of 5, such as 2048, 1024 or 512. However, the invention is not limited to having such a network with an FFT size of 2048, 1024 or 512. Instead, it can have a network with a different FFT size. The above equation can still be applied to networks with a different FFT size. However, the value of J will vary depending on the FFT size. J = (the number of characters defined in the system 位 the number of bits per character) - η, where 10 η = 1 when the FFT size is 2048 or 1024, and η = 2 when the FFT size is 512. For example, in an 802.16e network with an FFT size of 1024, there are 71 characters, four bits per character. In this example, J = (71) x (4) - 1 = 283. In addition, for an 802.16 network with FFT sizes 2048, 1024, and 512, J is equal to 567, 283, and 142, respectively. 15 The new Anbu group iW/ is a reverse version of the original preamble group and can be referred to as an "associated Amp modulation sequence." Thus, Figure 3 is a diagram illustrating the use of an Amble modulation sequence in accordance with an embodiment of the present invention. Referring now to Figure 3, in operation 40, an installation sequence is performed. Provided in an IEEE 802.16 network, the Amp modulation 20 sequence is based on the following equation regarding one of the IEEE 802.16 networks. The preceding modulation sequence /^, / = 〇,1,···, 113 : PNf(j) 二ΡΝ人J — j),i = Q,\,...,\\\ j = 〇,\,...,j where J depends on the FFT size of the network, and J is equal to, for example 567, 283, and 142 correspond to an FFT of sizes 2048, 1024, and 512, respectively. 10 200838193 In preparation 42, the Amp modulation sequence is used in one of the downlink relay zones of the network. For example, a mobile relay base station (MR_BS) can insert the audible k: sequence into a frame transmitted by the mobile relay base station (MR-BS) in the downlink relay zone. Similarly, a relay station (RS) can insert the 5 amp modulation sequence into a frame developed by the mobile relay station (10) in a downlink relay zone. The Amp modulation sequence can then be used by a repeater to perform measurements and procedures such as, for example, time synchronization, carrier frequency estimation, channel response estimation, cell and segment identification, and the like. Of course, the invention is not limited to any particular measurement or procedure being performed. Performing such measurements or procedures in accordance with the Amble modulation sequence is similar to performing such measurements with the foregoing, and it will be well understood by those of ordinary skill in the art through this disclosure. Based on the above equation, the original preamble modulation sequence PA^, i = 〇, 1, ..., 113, as specified in 8.4.6.1.1 of IEEE802.16-2005, As indicated in Tables 1, 2, and 3 disclosed herein, Tables 1, 2, and 3 correspond to an FFT size of 2048, 1024, and 512, respectively. These tables can be easily generated from the above equation. Moreover, for a different preamble modulation sequence, the equation will produce a different Amble modulation sequence for each FFT size. Accordingly, the present invention is not limited to the specified Amble modulation sequence shown in Tables 1, 2, and/or 3. In order to use the Amp modulation sequence, a mobile relay base station (MR-BS) or a relay station (RS) may be provided with the designated Amble modulation sequence. For example, the mobile relay base station (MR-BS) or a relay station (RS) may be provided with a table, such as Table 1, 2 or 3, or with information corresponding to Table 1, 2 or 3. Or, 11 200838193 The mobile relay base station (MR-BS) or a relay station (RS) may be provided only for the associated mobile relay base station (MR_BS) or the associated relay station (RS) Specifies the order of the Anbu modulation. Such a table or designated value may be stored in the Mobile Relay Base Station (MR-BS) or the associated Relay Station (RS), or may be stored anywhere in the network and may be Provided to the associated mobile relay base station (MR-BS) or associated relay station (RS), or obtained by the associated mobile relay base station (MR-BS) or associated relay station (RS) . In another embodiment, a mobile relay base station (MR-BS) or a relay station (RS) may generate the Amble modulation sequence according to the above equation, or may be based on the top 10 of the network. The equation produces a different device of the Amp modulation sequence to provide the Amp modulation' and the device provides the generated Amp modulation sequence to a Mobile Relay Base Station (MR-BS) or Repeater station (RS). Moreover, embodiments of the present invention are not limited to any particular manner in which the Amp modulation sequence is generated or provided to a Mobile Relay Base Station (MR-BS) or Relay Station (rs). This new Ambon modulation sequence has several important features. For example, there is one and only one associated security for each of the foregoing definitions in IEEE 802.16-200 5; therefore, in this network deployment, no additional effort is required to plan for the new security. 20 In addition, the associated Amble modulation sequence has the same autocorrelation and cross-correlation properties as the original preamble modulation sequence. This feature causes the associated security group to produce the same effect as the original front group. In addition, the associated security group has a peak-to-average power ratio (PAPR) property that is better (or identical) to the corresponding preceding group. 12 200838193 Further, the interaction between the associated modulation sequence and the original prior modulation sequence is sufficiently low for the security in the relay zone. Moreover, the associated security sequences have a simple relationship with the corresponding prior text sequences and are easily implemented. 5 The performance of these associated Amble modulation sequences is illustrated in Figures 4 and 5. More specifically, the automatic association of the aggregated security group (ie, the preceding group (numbering from 〇 to 113) and the associated security group (numbering from 114 to 283)) and the interaction are described in the fourth Figure, for an FFT size of 1024. 1 该 the normalization between the associated modulation sequence and the corresponding original preamble modulation sequence (by the autocorrelation, for an FFT size of 1024, ie 284) cross-correlation is illustrated in Figure 5 For the Anb index from 0 to 113. The performance of the new Ambus group is shown to be good enough for the security in the downlink (Dl) relay zone. 15 Figure 6 is a diagram illustrating a network using an Amp modulation sequence in accordance with an embodiment of the present invention. Referring now to Figure 6, the network includes a line relay base station (MR-BS) 50, a relay station (RS) 52, and a subscriber station (SS) 54. The subscriber station (SS) 54 can be, for example, a mobile station. The network in Fig. 6 is an example of a one-two hop structure because there is only one repeater between the mobile relay base station 2 (MR-BS) 50 and the subscriber station (SS) 54 ( RS) 52. Of course, the invention is not limited to one or two hop structure, or the designated structure shown in Fig. 6. The Mobile Relay Base Station (MR-BS) 50 includes an encoder provider 56 that provides the Amp modulation sequence. The code provider 56 can include a memory that stores the Amp modulation sequence required by the 200838193. Additionally, code provider 56 may be a processor that generates the Amble modulation sequence based on the equations described above. Fig. 6 shows that the code provider 56 is included in the mobile relay base station (MR_Bs). However, the invention is not limited to the encoding provider 56 being in any particular location. 5 For example, the code provider % can be provided on one of the different entities in the network and have the required Amp modulation sequence, which is provided to the Mobile Relay Base Station (MR-BS) 50 when needed. A mobile relay base station (MR-BS) 50 inserts the Amp modulation sequence into a downlink frame and transmits the frame to the relay station (RS) 52. The relay station 1 (RS) 52 includes an -Amble decoder 57 that decodes the Amble modulation sequence inserted into the downlink frame. The repeater station (rs) 52 then performs measurements and tests based on the decoded Amp modulation sequence. Figure 7 is a diagram showing the use of a 4-layer (four) column-network Q in accordance with another embodiment of the present invention. Referring now to Figure 7, the network includes a line 15 relay base station (MR-BS). 5), repeater _6 〇 and 62, and subscriber station (SS) 54. The network in Figure 7 is an example of a multi-hop structure because there are two relay stations (RS) 6G between the mobile relay base station (MR_BS) 50 and the subscriber station (38) 54 and 62. In other implementations, there may be additional intermediate ports to provide additional hops between the mobile relay base station (MR_BS) 50 and the subscriber station (ss) 54. Of course, the invention is not limited to a multi-hop structure or the designated structure shown in Figure 7. In the embodiment of Figure 7, the Mobile Relay Base Station (MR-BS) 5A includes an encoder provider 56 that provides the Amp modulation sequence. In addition, the relay station 6A also includes an encoding provider 64 and an Amble decoder 65. The repeater station 62 includes an An 200838193 cloth decoder 66. Fig. 7 shows that the code providers 6 4 and 5 6 are included in the relay stations (RS) 60 and 50, respectively. However, the invention is not limited to encoder locations 64 and 56 being located at any particular location. For example, the code provider and the acknowledgment can be provided on one of the different entities in the network and have the required modulating sequence, which is provided to the repeater when needed. A mobile relay base station (MR-BS) 50 inserts the Amp modulation sequence into a downlink frame and transmits the frame to a relay station (RS). The Amble decoder 65 of the relay station (RS) 60 decodes the one-by-one modulation sequence inserted into the downlink frame. The relay station (RS) 6 then performs measurements and tests in accordance with the decoded Amp modulation sequence. The relay station (RS) 60 also inserts the Amble modulation sequence into its downlink frame and transmits the new frame to the relay station (RS) 62. The decoding of the relay station 62 decodes 66 the decoding sequence and performs the measurement and testing in accordance with the decoded decoding order. ... Figures 6 and 7 show a respective code provider for each of the required motion-receiving bases (MR_BS) U, in some cases, there may be a single code provider provided The Amble modulation sequence is in the form of a mobile relay base station (MR-BS). Thus, the present invention is not limited to any particular number or location of code providers. The 5H network in Figure 7 shows that there are only two repeaters between the mobile relay base station (MR_BS) 5〇 station (SS) 54. However, in the practice of the present invention, there may be additional repeaters (indicating additional hops) between the mobile relay base station (MR-BS) 50 and the subscriber station. In this embodiment of the 2008 2008 193 193, depending on the configuration, in a downlink relay zone, the additional relay stations may require the modulating sequence to transmit a frame. Various embodiments of the present invention can be applied to IEEE 802.16 networks, including modifications and extensions to IEEE 802.16. Such corrections and extensions include, but are not limited to, IEEE 802.16e and IEEE 802.16j. Moreover, the present invention is not limited to the IEEE 802.16 network and can be applied to other types of networks. Various embodiments of the invention pertain to networks having subscriber stations. A subscriber station can be, for example, a fixed station or a mobile station. However, there are many different types of subscriber stations, and the invention is not limited to any particular type of subscriber station. Various network configurations with a specific number of mobile relay base stations (MR-BS) and relay stations (RS) are shown here. However, the invention is not limited to configurations with any particular number of mobile relay base stations (MR-calls or any particular number or configuration of repeaters (RS). The network described herein has an FFT size However, the invention is not limited to networks having any particular size, and embodiments of the invention may be applied to networks having -FFT sizes different from those described herein. 20 16 200838193 Table 1 - 2048 FFT mode associated with the Amp modulation sequence for each segment and identifying cells

索引識別細胞段調變序列（十六進位格式） 0 0 0 0xC121AlBB7304101BA89DF9CAE9B4226A120DEF3668F27BD06 3F03CAA21E1B91CD2CDD7303E348A8DDE8735E99AE0A23E96F 06CC57C682DC5ED0650AD72FD56D28DFF36CEFED483 1 1 0 0xBECAD0ADAEF6007C7D70EB0F608C6AF15B70FEE272406D91 61E02346EA951C9504C76E63559882B41CBA45B34040ECDB1F62 C44564FD24B4DC3389943B7CB296BD250BD835EF95 2 2 0 0x5E6489881725DDDF3CE7B5EBDFDE63121D0167C75B78E19DA 7CA210550BF14B6F5494698A467B6AEEA0FB1C8B A40DEF292A7 C2898F9DA2D9E11F0F5DCE446CF27CC0E1DDF8CA6A 3 3 0 0x3C9E672D1420C9309CEF14EA6FD4F5B97A910899F3FA795C309 E0142FBFE9B4E47F51E0C7A1AB8F0660626AD49AF9005C40BFC 5661CB6F6BB2E69AB0FBB9833E8E4D7B4AAFE9CD 4 4 0 0xl636078F624760F6197F171562F3DCD54920F31205FB3A38248D A1526F7AADD051D1066029A849FA7E94F3D62444B15962A5F328 471B68DC5C4471DE36FCA3BED6FB42D2132BD8 5 5 0 0x0664ABD924414FE4D2F5D0C6DlD37AE34FDBCE235402A7354 F596BEBA26915FE5423CCEE603C62270F6390E822E149AC1292A4 17C9C16CD11238A96F2DF791C90D44E6DE290072 6 6 0 0xD39DAF85B91E70D57739D7C4789C8C8B24CA95C9B914132E03 894918FCF6017ED37FB77DC6BB8033EF9B06E8CAC269BFD0E6E FB747AB0FA257921E99A1976BADB087AC96D53292 7 7 0 0xCEC94E54FDB6580F2BD068D3DA9E3EF57BB4FB9DDlCCE9F A053F40937447024908E7D1CC0D37CADD0460885DD73B7D9B044 54BC16D83C4A294E6A1FD61762CA10A36B26408FA32 8 8 0 0x744BC357950BElE7A2FB3DC88E80CE7E62C2826B9E354C6BB FF9671D92ED6559EE78A5D77437073E9ECA51BB08072E3374F57 AC17A907A140B4D923B30625AB043064D59BE9E9E 9 9 0 0x6C49998324893DC29F06017E1BB1FAB8B1005B509B7F6D2982F 56D19D4A8EA786B928458A1EFABB62BF2EE7BA04FF08E535996 1BE7D6E0E683C152793E60A755D9DABC34359D85 10 10 0 0x6C1B4CCFA8AACDE6EC6EB673A72C56C1C5DD345AE8C8D29 FDC5253C957B7F596F0A9C66221F05218F67BAFFDD1E261EC879 FF69C6C9B9D4289631F9006C064DC6B00B895FA7660 11 11 0 0x3CD47864D59C9524DDE0CFFABD77EDC79A82A33C50C277A8 3999FF6410DD607EC310CE85E52665E2B2F82A2930F435DA6CCC B5E9E837298B20A5BE3EA5EC8A545BC6EFDF97C22F 12 12 0 0x47B6EEEAC33BB91469EDDBD6AB5BCE357E70AB23C070E397 3B5954072CE82F02B5E2947C20679DEF368A432360362D42C95B5 4D07CE939749FD13E7A31106A03C121084B67D1CF 17 200838193 表1——2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 13 13 0 0xCFB3D90E7C191FD3B4DF2A83BABC4903C1310095CE3ED22E9 91FE44980AEFE107D08C19A29EA806BB21E54B4B6B059E53790D 3D2FC6BBC38D418A99A252A6425C68D0E72155208 14 14 0 0x37C5DC6072417F46018998E9D07BB9D50BCD435BFBA9DD6CD 91A7B661E9EB480040346E36C0143C1C61697B9563552403833C4E 813F8A9B1451A600D23F8AAE3557235E0A592D0 15 15 0 0xB25DD8189EA22D3B7417AB0A3947442FF3DEA63BB34B8C522 44E40F06940A4987E7AF367C69082175901347C9344FEC3708CF50 D31A77FEE3BDC38DF4D67C492E5A4ECBE328326 16 16 0 0x0B605B518205EC8B28B6ABDFF9F70F81A3BE0277AD43D6E0D 5444CF374F9722CEC9889C26F91EFAC94CE69DABB4F1389B8BD 91F4BCA5BD0CE2F087C6E7D819FCABD4067151B084 17 17 0 0xB405BA2CDF90D4106E01B553E0ADE6D6404D8F1972E04DEBD 95A354F1A329C9EEDD6BC28197EC6C972FE297875ACEE7B9D3F 8B27970B6CE50439E692DBA4ABA939EFC711506911 18 18 0 0xF93910D8600937D1CE7140592B1B48EB9078ABE69D7C7E25936 A2F5C3F94EDF8C642A00A02B409FA796A00B5B55989306B67CC8 AD510F5EE4F0B31C69B01837A53F57B313 AB4B8 19 19 0 0xD142B09554524A773A134AAC48D2302E874A66E916587749831 EBE81C0433ED84FF3AD37461B838A2A439E742CA559D8B18BAF D8A213CCCEF3D4A00E9F6A3FCFEC8367BC07C605 20 20 0 0x7FBAB81D84E3994F2A0DF770691EA0C38E41A381C82D23DE2 F1BA1905771FBBB267D419A898F3A13380DC3D366C88028850CC 250D35456D6D8E24566746495C9099A95648FE54B 21 21 0 0x4A526A123B7CAA3C8BE39404879EB98A7ADF92F70692D06688 0CEC43D7D04D4465FEE3133B0E00F74A3E25F23F1CDE19255BF BF3F6E176F49F0DBB7257E52713D6E38AC421416E 22 22 0 0x41BCF75850F7F507DE7BAF72440F81CCD6CBD39DF3F4C480B 63372EB304DF1EFBAFFCC46ABB23D7F576652F046E046574ABB 652A345BE940AB1B0C41D180E5A69323AE1FC286B5 23 23 0 0XD1589BE6E052BF2F6454CA3B6544E7EC40EA0C52F1F1FCD9E A0AC848426C7CFD68954903E58207EA978A6FBDE339C63612B5D 1129BA47830C548B8D852D015AA21BA0744ED2859 24 24 0 0xE51B8551B163C3AEE3ED428A02B241591438C4258A827FA1403 18DC6D0CFD972F7000B4E9A789CB77DB0CB8870668A525F8435 E1B909A151BEE848909D9BA3C7AEBA1777B22967 25 25 0 0x5C557F5FB89ED6CD24E3C47C02986488E0EC7541CBA57DCB8 6A43A26407B84A29E2E5F8508D657868710BF5E9F78A8D1FF0454 369527F5C6360F26C9ED855A409937FBF64CE499 18 200838193 表1 —一2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 26 26 0 0xCFCBB5D7ADBC3A2E4056468E5DF76AAlCA194D4367B95F4B5 40048756459D31032746FED90E16BA7F84A502745F0C701A6AF19A 646B470665C4452DF6A4FB5BDA75E881CF983C0 27 27 0 0x726271597B24271D3E80A6ABE9AA8E09D6128FC43E8F97AB4F6 C6032FF6958CBDC0E53B29EA89192464AF384C034883658913F51A 36A9FD3 AC91C709231205C513ED702DAC05D3 28 28 0 0x78BC5870B4A4B7ACBC933F3CDFDBC1381B48774E9956DF7B98 BB08DE15C8AF45D45539F1CDF354B7774AD1AF63DD9C0DE444E A385B462CB53F42C1FB3D226926C28A107DED84C9 29 29 0 0xlE19E6FECF103B31B820A7444E248362790113C863DBB251CDD F58CFDCB580F2BECD2B335227FB0EB7815FEADB3670438F6F2F1 58B4CBF2AFA56FD55A121412E3A9FE3E576FA84 30 30 0 0x21D6ElD51BB213B6B752A3926DCB36F5992EB2EF44BE4E2448 CFE526309BD119F59611E5988CE1AA177848F5541645F3C541098F9 DD4C237E8DAF3157BE9F8C000694C3F97D5AD 31 31 0 0xCBD095E152AF83C914490C2FFFFD0E1785046802775B7418288F B1F514CD7067B761A2A85D65A41D14C8D0E644B9BBA1298F3C4E 95CCE1DDCDA5DC51D040644B1CC2897E90B6A9 32 0 1 0xE6B9D7C3D84283265DD2BEB35CED572A764DAAFC6E256ADB 97F5290057397D886B8128D26837919B82BB4F890F867563C10D599 8334309A75045F6571D0BD1B205B7808299B8A4 33 1 1 0x8FEA67DB25D706BEE88FBAB3EFB735BA330BB88E275B5FC16 81264C9FF2A20ACB90C496043E1FADA19E528C42D1FBB5D3F596 DB39A61EE806A09411DF8D5393B5594A39DFA5C88 34 2 1 0x67A14BB44D27CFBD286045AF19275DF9371ElE0A82C9BF39372 C32CB0B56D222B01981680547621BB8355FCA508D1626D00780771 D61AEE07BA98C8B3BF34367BAD63F791810F9 35 3 1 0X7A14B769AE708C67B88E835BFCCAF1ADAA20E97BF939CA1D1 7642F7D41E0FE9469AD5CAF130218AF768918609F9B959452CC9B B504F06055A4AFCF68BF28206452059666E2B37C 36 4 1 0x021B17A5956EB3BFF884073626A5B61D6A40E81C9289F5602C07 A8831F006C4BAEB3865CA1AE6C578804FB21FAB4FF7CB4965E3E 10664B3844E138E721A3833379BDBC590BD6BC 37 5 1 0xl34B5888D3031F44C037B6A621579EEB9A6C20B70354DDA4451 64F06216A91B29A266051606B8820BE0EFF998EE1E968F49AEA715 940534D3A0E479A2B570F9CF8B52B895B0FE4 38 6 1 0xl4C4CF64E81ED3A4E85D013CDE78A62A9155F9E14ECC9811009 284A4F680E8A09CEA4D661E74F5EDA6934F531825A60CDE8A5F1 95701A215DD60376F3FC12D1935559E273DF686 19 200838193 表1 ——2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 39 7 1 0xC590AF461D0C9176524FE6D5D71259AFC5E1183048EFE3662243 7490E053246B66418456F1891AC61BFF9557FFFE2DD633FC18383F5 D0AC6F76B957601C697DEE2FA3C6128EEAC 40 8 1 0xl25BC0A5481A6BCBEF3491DAAD0FC66A93F44584836434952B E518F336F84F3877278A738B9F7DD9F01D22BD9AB185785949D268 195DB316E1AEC1BFCD0EBD602139D1F0B927D5 41 9 1 0x095634A7AE024A5561359DE32DF80520A391EC83C3882CFD1232 66C64016A831A57266AE03D7D8CCD1C6EE2C48936EBE157DADC 7226D09C4810E7B3DF01C21D0FB6C313F451916 42 10 1 0x8859ECD4F4B7441448748EAA5D72CE38E0310474082207C65AD8 0B4C9BAEA6D7DA43E853DCBABDADF11737944AED9C25794AC 113 AE703253F53FFA40DF7363D56B4B4B11990EE7 43 11 1 0xBElCFC64DE8699B8EA06E71FC8F4CCB682943B2F49CE12F00C 4B30448747A18A42B949B8D50C9998B32E7C324E3EA7D634C6E77 092D2A5AFD77C433B00A5F0C5D42AE46133B927 44 12 1 0x96A807FBB5C8DF0BDA41BB190E285F6FEB64CD06569B8555CA 7CC5C5FF5BE17AA59FF0C55BB95802AE679D45630F1B4BD95486 7BDE482ED109A7A045451E5B67BA6370D9BD3277 45 13 1 0xF98AA2BF925C7C063E41B29A77A4023A78E161DECEA259181C 97795E396EE543C0651B22E1054AC1D204D0EA66366DB74D19D20 3817896700B1A3BEA7EF33F5B7B4253D0B5BEB5 46 14 1 0xC2F0A0D16F8EECAB5BA57E873BlD09B2437CE5DE38D04CCB4 EE98126A5727ED0A1ECA79CC22E95D8B3E3FB489934D59C0BB1 A66053175AF2867C1C9734F5794AB45F4B05D94F1F 47 15 1 0x56750DClD43AA4AC8C3B7F7E3B31A682B087E28FADE45CF2C F18972E43688827D651C434C0FF8142D45094A77980C4A0F729C041 4F8459CBF3492F54CC8B7FB02917E793370339 48 16 1 0xB32AC0FB86942B7D0CE65887CF78DA2D5ADBCCFC72BA424E0 A51FC96E4BD3FB9B182C98ED07CBDF690B6731A48 A56C766A2B 855F05A3EAA79619086C1E222C66ADD32E5823973F 49 17 1 0xl4E6173B5C26974F7B06229D82B3D2D9594382A65872939554858 D04B0A13C53A0387D83721F936F82C912748A75946B6E27D66DC8 80665556C33FFEF7155D0F1DFAE4566D829E 50 18 1 0xl07FBD983B3CBC9E2C4C7F4AE4EF8F50B2F658EEED9C90D79B EF725C1DFE51C4782CD2ED8AA68CB78156B62A04957218EF4B1A D19A4D55A177423F985D4ECB74D93C8409CF8950 51 19 1 0x31076EE2C809D00514A761A35C71120C8563DBC12ED687BFFAl F730408F20E29243E87459F11FD92176274B283756060B1E5A886115 699DCEDDD4273997B175A1CA1EB33592969 20 200838193 表1 一一2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 52 20 1 0x74EB7E0A53D666C78287C3BCFACFF186785A8335D643DFB12 DB8F6854298E0FCB0BFA36A68A1A33E04FE6AC00A439906F24B 31E94493ACAFB4057271D0C3658BF256E6645DFFCA 53 21 1 0x69115CE97D4A82A88D8B201036E8B2A0B2FBC799CD12ACA10 53B223A2CBDDE67269F01284428DB37A5A8F502742B532F449872 4438E72E9873F03938F43F1B7DB91C87D5984CFE 54 22 1 0xEFlE8CE6731B59EF60099C73344E27C8F2F09A5C52587512E24 DA69F6EB7E79969DF97F4BBA5D88A281A437AD7AF9E54082324 B7407C693C2FCE1AC581FF8993625795334AAAB1 55 23 1 0xB39B55FlF4C0D5312C7613395EB73CFBF9ECC61CD02FF18942 BCF3784E3E045D91587C154372CA83809F7663365442C5E37B63E0 DDB73FC1BF0829FB569A47BB31641E25F72EDB 56 24 1 0xE2F3E274479133C076606948CB3D6A62EB304F76C810FA2A987 69687C134E2EB90D0902AC18B16933 81D7BB2AC498EE032A7BC CFD72A50902F33F765353ACF5CDE50249BB5881A 57 25 1 0xlDE9255ED07D57CFA62371E1979242A3DDDC435BC6E8C05B0 1553A8F6287DABFDA52DB6E081BA23ED4E04E7A46F7CDA6244 D2422EEAC60A4424A85461C8B06C9874BB7067378E1 58 26 1 0x642CC8276CAB5C693A88FA18950B09423820277A197DD2CB47 D236F3897BC501DA9CCD401A7C7FBEC557196781B3B3C15DAF3 724B9899058140395DB3833424C87CB91F5D9A41B 59 27 1 0x9A270A2147AA490A66120E2DC03D2930BBE5DDlCF5D39CC4 C273E6330A15954CF7CF193121F7FA23B6AC037E0299015966BDC 9C70F1793D42BAEC2B481C5E9B971DEFCBF85C048 60 28 1 0x17291F60DFFABBAB43DD04CC77E11A9E9C9B1E262FA696243 95A20329F36F52D0D58CCD4DE50C8E7249BBC37CC28BD8E28E5 83F8ABD45233D682AFEC301A20A5F27A3B0FC51E56 61 29 1 0xC068E2DEC9DD2C0F34CCF5E4459405BBD7B169A792D4C8B25 67001D4263A90AF3A4D0AFA61337857DE6FF1F0174482419AD58 EB079AB5277514BA7BDE050111CD5D0A0724F420C 62 30 1 0x9767D6CDEA30ECAED5D8FF07AF807D8CA840812D1745124A6 22DBD0B4B AB91818CBDD0C9579FD0801C73CA17B454A2D2956 698C36FE99B1CBA72621114A5A15C84DDFA62CA1413 63 31 1 0x489D41353CE869C8A433B22D3443B7EBAC93CE1895AC3EA53 37F63ECD00E069E4AEE90A90E79588321797A8430B88888E260F8 AF4C0CE1F04FCC044088745C5D5B4C6E2937E8D4 64 0 2 0xA2330410704314D85FFE9CE571B0ED4927E5CCC6C689CE9A34 516D7A9C7981430E069E8 A87E062484FE424EB58 A45CD97903161 2BDD822D29F789368760DA9D7419B7B6BA03FC1 21 200838193 表1 ——2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 65 1 2 0x496CBE4FA2A576B7DF6965574E760FA106BAC7774387C51215D DAE6B2653BCC8293D3D6CCC14E3CE753333AA453A06CE8C9A8 BDE2730C2C416817857DF1D9DBC19D9275DF181A2 66 2 2 0xB0916A739E8CDEllBAB56B22C6AB72240FCFDD3664C5F32EB0 0C051E170C1FC1054B683764B0D7B664B85A8F929AFC5C66F0FF3 5C93E62D2FDCA46F9523FBBD67354A27A2EA005 67 3 2 0xBA69F3694DC23AFBF407AB7C3591C370ED4B99268759EF64FFB 32B00EF234C7BD6D5C3D553DEB76D6E74167D637CD8CA445366E 21BCB89C10BA0B6A10407C1627A257E6C6AF4A7 68 4 2 0x7C3B1C1AB29DF2C6155CE650D06CCADE3E5B8FE364A69A839 B401680ABB5B06A45C049605CF37EA1190B094AC0550C932C950F 10D088EB7F61245B87E656FD14F058895C7463A3 69 5 2 0xB4944E76C2A4545AD3A783B7137C1AC2532C502C66F1A0CF01 C4F665B9D9213289FFE734C1301069A630DD5DA89E07D1C9F46D4 6F48BDF09B1D374CE8 ABFAB0E9FDEC1956E879F 70 6 2 0xCB416FB39A094C69EBAE4688DAFAA2F151D122798E9BlA86A D2A386198237F0C713CAD3DA8D8522821122D02F4DE8C2D235581 109D3B91EED818D1CD6B304DE98A7D9124DB643A 71 7 2 0xl7B29ADD8CEF49F4AB7F4EDA37C75C8F146770ADA2001CAC5 7F3678061E8545CA139E5B4E9C1EEEEDA1A4941BE44A5DD74491 C9D358CA588FDF386E5C6A9BD7836423AB424ACF7 72 8 2 0xAF86BBC0376541B0DF9D45923A6B791FClCFA03F659E575ED56 236F4A419C80DD44E1A5013 AC6E051CCD65 AE7B967B0B4B9EE8 F29991785FBFE59D3 AF73155385163C98CCDDFE8 73 9 2 0xF174AD8DB7897C8D0C63779D120EA7BDA6DFD2ClCC85196Bl C860CBC53ECFDC451F7BCA610D97351687BB4CF2B242A3F8B503 72AD45DECEF4A5891FE0C1C66CFB0E153B85836E0 74 10 2 0xC88AB3AlD2502EC9C5825D4926ED5A6FB544A64AC771DDC50 29C74AC7AA7E41600D434C83FB90D0FCD1D56B5D4EF5C6394A7 7C24F06FB6E7D5E9AEFD9F0F6E501730B796900165 75 11 2 0xFF949FA0695B1597F25D6D408C570C519CA2E345D791C68D31D 82E6233B67C5996F6CF7670D1C8BF9F234979D1F32D66BD298C8C 6063E61763B6A54192E0D554079CA7A12E8126 76 12 2 0x6C2B403A72832632653A9CABD85E32C687C7EA50775B40498BA 84BF9121108CE07F8314B41D6B1F8CAC7751FB78CA4134380A0497 77E7578F0B0A924349BB2F2312379D31C27C5 77 13 2 0x56EB0F1593B218BB43F806208D9CC7EAC2B0CD24DE802BCEA2 4F6D77C91707A8E5CBDA375E16A7B6EFA2872E45E28FBE381CB4 0D4BF9C86F54656EA1A19DB5ACBEC0602D9CC9F1 22 200838193Index identifying field modulation sequence cytokines (in hexadecimal format) 0 0 0 0xC121AlBB7304101BA89DF9CAE9B4226A120DEF3668F27BD06 3F03CAA21E1B91CD2CDD7303E348A8DDE8735E99AE0A23E96F 06CC57C682DC5ED0650AD72FD56D28DFF36CEFED483 1 1 0 0xBECAD0ADAEF6007C7D70EB0F608C6AF15B70FEE272406D91 61E02346EA951C9504C76E63559882B41CBA45B34040ECDB1F62 C44564FD24B4DC3389943B7CB296BD250BD835EF95 2 2 0 0x5E6489881725DDDF3CE7B5EBDFDE63121D0167C75B78E19DA 7CA210550BF14B6F5494698A467B6AEEA0FB1C8B A40DEF292A7 C2898F9DA2D9E11F0F5DCE446CF27CC0E1DDF8CA6A 3 3 0 0x3C9E672D1420C9309CEF14EA6FD4F5B97A910899F3FA795C309 E0142FBFE9B4E47F51E0C7A1AB8F0660626AD49AF9005C40BFC 5661CB6F6BB2E69AB0FBB9833E8E4D7B4AAFE9CD 4 4 0 0xl636078F624760F6197F171562F3DCD54920F31205FB3A38248D A1526F7AADD051D1066029A849FA7E94F3D62444B15962A5F328 471B68DC5C4471DE36FCA3BED6FB42D2132BD8 5 5 0 0x0664ABD924414FE4D2F5D0C6DlD37AE34FDBCE235402A7354 F596BEBA26915FE5423CCEE603C62270F6390E822E149AC1292A4 17C9C16CD11238A96F2DF791C90D44E6DE290072 6 6 0 0xD39D AF85B91E70D57739D7C4789C8C8B24CA95C9B914132E03 894918FCF6017ED37FB77DC6BB8033EF9B06E8CAC269BFD0E6E FB747AB0FA257921E99A1976BADB087AC96D53292 7 7 0 0xCEC94E54FDB6580F2BD068D3DA9E3EF57BB4FB9DDlCCE9F A053F40937447024908E7D1CC0D37CADD0460885DD73B7D9B044 54BC16D83C4A294E6A1FD61762CA10A36B26408FA32 8 8 0 0x744BC357950BElE7A2FB3DC88E80CE7E62C2826B9E354C6BB FF9671D92ED6559EE78A5D77437073E9ECA51BB08072E3374F57 AC17A907A140B4D923B30625AB043064D59BE9E9E 9 9 0 0x6C49998324893DC29F06017E1BB1FAB8B1005B509B7F6D2982F 56D19D4A8EA786B928458A1EFABB62BF2EE7BA04FF08E535996 1BE7D6E0E683C152793E60A755D9DABC34359D85 10 10 0 0x6C1B4CCFA8AACDE6EC6EB673A72C56C1C5DD345AE8C8D29 FDC5253C957B7F596F0A9C66221F05218F67BAFFDD1E261EC879 FF69C6C9B9D4289631F9006C064DC6B00B895FA7660 11 11 0 0x3CD47864D59C9524DDE0CFFABD77EDC79A82A33C50C277A8 3999FF6410DD607EC310CE85E52665E2B2F82A2930F435DA6CCC B5E9E837298B20A5BE3EA5EC8A545BC6EFDF97C22F 12 12 0 0x47B6EEEAC33BB91469EDDBD6AB5BCE357E70AB23C070E397 3B5954072CE82F02B5E2947C2 0679DEF368A432360362D42C95B5 4D07CE939749FD13E7A31106A03C121084B67D1CF 17 200838193 Massimo modulation sequence table associated with each segment and pattern recognition 1--2048FFT cells (Continued) Cell recognition index modulation period sequence (in hexadecimal format) 13 13 0 0xCFB3D90E7C191FD3B4DF2A83BABC4903C1310095CE3ED22E9 91FE44980AEFE107D08C19A29EA806BB21E54B4B6B059E53790D 3D2FC6BBC38D418A99A252A6425C68D0E72155208 14 14 0 0x37C5DC6072417F46018998E9D07BB9D50BCD435BFBA9DD6CD 91A7B661E9EB480040346E36C0143C1C61697B9563552403833C4E 813F8A9B1451A600D23F8AAE3557235E0A592D0 15 15 0 0xB25DD8189EA22D3B7417AB0A3947442FF3DEA63BB34B8C522 44E40F06940A4987E7AF367C69082175901347C9344FEC3708CF50 D31A77FEE3BDC38DF4D67C492E5A4ECBE328326 16 16 0 0x0B605B518205EC8B28B6ABDFF9F70F81A3BE0277AD43D6E0D 5444CF374F9722CEC9889C26F91EFAC94CE69DABB4F1389B8BD 91F4BCA5BD0CE2F087C6E7D819FCABD4067151B084 17 17 0 0xB405BA2CDF90D4106E01B553E0ADE6D6404D8F1972E04DEBD 95A354F1A329C9EEDD6BC28197EC6C972FE297875ACEE7B9D3F 8B27970B6CE50439E692DBA4ABA939EFC7115 06911 18 18 0 0xF93910D8600937D1CE7140592B1B48EB9078ABE69D7C7E25936 A2F5C3F94EDF8C642A00A02B409FA796A00B5B55989306B67CC8 AD510F5EE4F0B31C69B01837A53F57B313 AB4B8 19 19 0 0xD142B09554524A773A134AAC48D2302E874A66E916587749831 EBE81C0433ED84FF3AD37461B838A2A439E742CA559D8B18BAF D8A213CCCEF3D4A00E9F6A3FCFEC8367BC07C605 20 20 0 0x7FBAB81D84E3994F2A0DF770691EA0C38E41A381C82D23DE2 F1BA1905771FBBB267D419A898F3A13380DC3D366C88028850CC 250D35456D6D8E24566746495C9099A95648FE54B 21 21 0 0x4A526A123B7CAA3C8BE39404879EB98A7ADF92F70692D06688 0CEC43D7D04D4465FEE3133B0E00F74A3E25F23F1CDE19255BF BF3F6E176F49F0DBB7257E52713D6E38AC421416E 22 22 0 0x41BCF75850F7F507DE7BAF72440F81CCD6CBD39DF3F4C480B 63372EB304DF1EFBAFFCC46ABB23D7F576652F046E046574ABB 652A345BE940AB1B0C41D180E5A69323AE1FC286B5 23 23 0 0XD1589BE6E052BF2F6454CA3B6544E7EC40EA0C52F1F1FCD9E A0AC848426C7CFD68954903E58207EA978A6FBDE339C63612B5D 1129BA47830C548B8D852D015AA21BA0744ED2859 24 24 0 0xE51B8551B163C3AEE3ED428A02B241591438C4258A827F A1403 18DC6D0CFD972F7000B4E9A789CB77DB0CB8870668A525F8435 E1B909A151BEE848909D9BA3C7AEBA1777B22967 25 25 0 0x5C557F5FB89ED6CD24E3C47C02986488E0EC7541CBA57DCB8 6A43A26407B84A29E2E5F8508D657868710BF5E9F78A8D1FF0454 369527F5C6360F26C9ED855A409937FBF64CE499 18 200838193 Table 1 - a sequence associated Ambrosio modulation pattern of each segment and identifying 2048FFT cells (Continued) sequence index identifying field modulation cell (in hexadecimal format) 26 26 0 0xCFCBB5D7ADBC3A2E4056468E5DF76AAlCA194D4367B95F4B5 40048756459D31032746FED90E16BA7F84A502745F0C701A6AF19A 646B470665C4452DF6A4FB5BDA75E881CF983C0 27 27 0 0x726271597B24271D3E80A6ABE9AA8E09D6128FC43E8F97AB4F6 C6032FF6958CBDC0E53B29EA89192464AF384C034883658913F51A 36A9FD3 AC91C709231205C513ED702DAC05D3 28 28 0 0x78BC5870B4A4B7ACBC933F3CDFDBC1381B48774E9956DF7B98 BB08DE15C8AF45D45539F1CDF354B7774AD1AF63DD9C0DE444E A385B462CB53F42C1FB3D226926C28A107DED84C9 29 29 0 0xlE19E6FECF103B31B820A7444E248362790113C863DBB251CDD F58CFDCB580F2BECD2B335227FB0EB7815FEADB3670438F6F2F1 58B4 CBF2AFA56FD55A121412E3A9FE3E576FA84 30 30 0 0x21D6ElD51BB213B6B752A3926DCB36F5992EB2EF44BE4E2448 CFE526309BD119F59611E5988CE1AA177848F5541645F3C541098F9 DD4C237E8DAF3157BE9F8C000694C3F97D5AD 31 31 0 0xCBD095E152AF83C914490C2FFFFD0E1785046802775B7418288F B1F514CD7067B761A2A85D65A41D14C8D0E644B9BBA1298F3C4E 95CCE1DDCDA5DC51D040644B1CC2897E90B6A9 32 0 1 0xE6B9D7C3D84283265DD2BEB35CED572A764DAAFC6E256ADB 97F5290057397D886B8128D26837919B82BB4F890F867563C10D599 8334309A75045F6571D0BD1B205B7808299B8A4 33 1 1 0x8FEA67DB25D706BEE88FBAB3EFB735BA330BB88E275B5FC16 81264C9FF2A20ACB90C496043E1FADA19E528C42D1FBB5D3F596 DB39A61EE806A09411DF8D5393B5594A39DFA5C88 34 2 1 0x67A14BB44D27CFBD286045AF19275DF9371ElE0A82C9BF39372 C32CB0B56D222B01981680547621BB8355FCA508D1626D00780771 D61AEE07BA98C8B3BF34367BAD63F791810F9 35 3 1 0X7A14B769AE708C67B88E835BFCCAF1ADAA20E97BF939CA1D1 7642F7D41E0FE9469AD5CAF130218AF768918609F9B959452CC9B B504F06055A4AFCF68BF28206452059666E2B37C 36 4 1 0x021B17A5956EB3BFF88407 3626A5B61D6A40E81C9289F5602C07 A8831F006C4BAEB3865CA1AE6C578804FB21FAB4FF7CB4965E3E 10664B3844E138E721A3833379BDBC590BD6BC 37 5 1 0xl34B5888D3031F44C037B6A621579EEB9A6C20B70354DDA4451 64F06216A91B29A266051606B8820BE0EFF998EE1E968F49AEA715 940534D3A0E479A2B570F9CF8B52B895B0FE4 38 6 1 0xl4C4CF64E81ED3A4E85D013CDE78A62A9155F9E14ECC9811009 284A4F680E8A09CEA4D661E74F5EDA6934F531825A60CDE8A5F1 95701A215DD60376F3FC12D1935559E273DF686 19 200838193 association table 1 --2048FFT Ambrose modulation mode and cell recognition sequence of each segment (Continued) Cell recognition index modulation sequence segment (hexadecimal format) 39 7 1 0xC590AF461D0C9176524FE6D5D71259AFC5E1183048EFE3662243 7490E053246B66418456F1891AC61BFF9557FFFE2DD633FC18383F5 D0AC6F76B957601C697DEE2FA3C6128EEAC 40 8 1 0xl25BC0A5481A6BCBEF3491DAAD0FC66A93F44584836434952B E518F336F84F3877278A738B9F7DD9F01D22BD9AB185785949D268 195DB316E1AEC1BFCD0EBD602139D1F0B927D5 41 9 1 0x095634A7AE024A5561359DE32DF80520A391EC83C3882CFD1232 66C64016A831A57266AE03D7D8CCD1C6EE2C48 936EBE157DADC 7226D09C4810E7B3DF01C21D0FB6C313F451916 42 10 1 0x8859ECD4F4B7441448748EAA5D72CE38E0310474082207C65AD8 0B4C9BAEA6D7DA43E853DCBABDADF11737944AED9C25794AC 113 AE703253F53FFA40DF7363D56B4B4B11990EE7 43 11 1 0xBElCFC64DE8699B8EA06E71FC8F4CCB682943B2F49CE12F00C 4B30448747A18A42B949B8D50C9998B32E7C324E3EA7D634C6E77 092D2A5AFD77C433B00A5F0C5D42AE46133B927 44 12 1 0x96A807FBB5C8DF0BDA41BB190E285F6FEB64CD06569B8555CA 7CC5C5FF5BE17AA59FF0C55BB95802AE679D45630F1B4BD95486 7BDE482ED109A7A045451E5B67BA6370D9BD3277 45 13 1 0xF98AA2BF925C7C063E41B29A77A4023A78E161DECEA259181C 97795E396EE543C0651B22E1054AC1D204D0EA66366DB74D19D20 3817896700B1A3BEA7EF33F5B7B4253D0B5BEB5 46 14 1 0xC2F0A0D16F8EECAB5BA57E873BlD09B2437CE5DE38D04CCB4 EE98126A5727ED0A1ECA79CC22E95D8B3E3FB489934D59C0BB1 A66053175AF2867C1C9734F5794AB45F4B05D94F1F 47 15 1 0x56750DClD43AA4AC8C3B7F7E3B31A682B087E28FADE45CF2C F18972E43688827D651C434C0FF8142D45094A77980C4A0F729C041 4F8459CBF3492F54CC8B7FB02917E793370339 48 16 1 0xB32AC0FB86942B7D0CE65887CF78DA2D5ADBCCFC72BA424E0 A51FC96E4BD3FB9B182C98ED07CBDF690B6731A48 A56C766A2B 855F05A3EAA79619086C1E222C66ADD32E5823973F 49 17 1 0xl4E6173B5C26974F7B06229D82B3D2D9594382A65872939554858 D04B0A13C53A0387D83721F936F82C912748A75946B6E27D66DC8 80665556C33FFEF7155D0F1DFAE4566D829E 50 18 1 0xl07FBD983B3CBC9E2C4C7F4AE4EF8F50B2F658EEED9C90D79B EF725C1DFE51C4782CD2ED8AA68CB78156B62A04957218EF4B1A D19A4D55A177423F985D4ECB74D93C8409CF8950 51 19 1 0x31076EE2C809D00514A761A35C71120C8563DBC12ED687BFFAl F730408F20E29243E87459F11FD92176274B283756060B1E5A886115 699DCEDDD4273997B175A1CA1EB33592969 20 200838193 association table 1 eleven 2048FFT Ambrose modulation mode (Continued) sequence index identifying each segment and segment cells recognize cellular Modulation sequence (hexadecimal format) 52 20 1 0x74EB7E0A53D666C78287C3BCFACFF186785A8335D643DFB12 DB8F6854298E0FCB0BFA36A68A1A33E04FE6AC00A439906F24B 31E94493ACAFB4057271D0C3658BF256E6645DFFCA 53 21 1 0x69115CE97D4A82A88D8B201036E8B2A0B2FBC799CD12ACA10 53B223A2C BDDE67269F01284428DB37A5A8F502742B532F449872 4438E72E9873F03938F43F1B7DB91C87D5984CFE 54 22 1 0xEFlE8CE6731B59EF60099C73344E27C8F2F09A5C52587512E24 DA69F6EB7E79969DF97F4BBA5D88A281A437AD7AF9E54082324 B7407C693C2FCE1AC581FF8993625795334AAAB1 55 23 1 0xB39B55FlF4C0D5312C7613395EB73CFBF9ECC61CD02FF18942 BCF3784E3E045D91587C154372CA83809F7663365442C5E37B63E0 DDB73FC1BF0829FB569A47BB31641E25F72EDB 56 24 1 0xE2F3E274479133C076606948CB3D6A62EB304F76C810FA2A987 69687C134E2EB90D0902AC18B16933 81D7BB2AC498EE032A7BC CFD72A50902F33F765353ACF5CDE50249BB5881A 57 25 1 0xlDE9255ED07D57CFA62371E1979242A3DDDC435BC6E8C05B0 1553A8F6287DABFDA52DB6E081BA23ED4E04E7A46F7CDA6244 D2422EEAC60A4424A85461C8B06C9874BB7067378E1 58 26 1 0x642CC8276CAB5C693A88FA18950B09423820277A197DD2CB47 D236F3897BC501DA9CCD401A7C7FBEC557196781B3B3C15DAF3 724B9899058140395DB3833424C87CB91F5D9A41B 59 27 1 0x9A270A2147AA490A66120E2DC03D2930BBE5DDlCF5D39CC4 C273E6330A15954CF7CF193121F7FA23B6AC037E0299015966BDC 9C70F1793D42BAEC2B4 81C5E9B971DEFCBF85C048 60 28 1 0x17291F60DFFABBAB43DD04CC77E11A9E9C9B1E262FA696243 95A20329F36F52D0D58CCD4DE50C8E7249BBC37CC28BD8E28E5 83F8ABD45233D682AFEC301A20A5F27A3B0FC51E56 61 29 1 0xC068E2DEC9DD2C0F34CCF5E4459405BBD7B169A792D4C8B25 67001D4263A90AF3A4D0AFA61337857DE6FF1F0174482419AD58 EB079AB5277514BA7BDE050111CD5D0A0724F420C 62 30 1 0x9767D6CDEA30ECAED5D8FF07AF807D8CA840812D1745124A6 22DBD0B4B AB91818CBDD0C9579FD0801C73CA17B454A2D2956 698C36FE99B1CBA72621114A5A15C84DDFA62CA1413 63 31 1 0x489D41353CE869C8A433B22D3443B7EBAC93CE1895AC3EA53 37F63ECD00E069E4AEE90A90E79588321797A8430B88888E260F8 AF4C0CE1F04FCC044088745C5D5B4C6E2937E8D4 64 0 2 0xA2330410704314D85FFE9CE571B0ED4927E5CCC6C689CE9A34 516D7A9C7981430E069E8 A87E062484FE424EB58 A45CD97903161 2BDD822D29F789368760DA9D7419B7B6BA03FC1 21 200838193 Massimo associated Sequence Listing 1 --2048FFT modulation mode per Segment and recognition of cells (continued) Index identification of cell segment modulation sequences (hexadecimal format) 65 1 2 0x496CBE4FA2A576B7DF6965574E760 FA106BAC7774387C51215D DAE6B2653BCC8293D3D6CCC14E3CE753333AA453A06CE8C9A8 BDE2730C2C416817857DF1D9DBC19D9275DF181A2 66 2 2 0xB0916A739E8CDEllBAB56B22C6AB72240FCFDD3664C5F32EB0 0C051E170C1FC1054B683764B0D7B664B85A8F929AFC5C66F0FF3 5C93E62D2FDCA46F9523FBBD67354A27A2EA005 67 3 2 0xBA69F3694DC23AFBF407AB7C3591C370ED4B99268759EF64FFB 32B00EF234C7BD6D5C3D553DEB76D6E74167D637CD8CA445366E 21BCB89C10BA0B6A10407C1627A257E6C6AF4A7 68 4 2 0x7C3B1C1AB29DF2C6155CE650D06CCADE3E5B8FE364A69A839 B401680ABB5B06A45C049605CF37EA1190B094AC0550C932C950F 10D088EB7F61245B87E656FD14F058895C7463A3 69 5 2 0xB4944E76C2A4545AD3A783B7137C1AC2532C502C66F1A0CF01 C4F665B9D9213289FFE734C1301069A630DD5DA89E07D1C9F46D4 6F48BDF09B1D374CE8 ABFAB0E9FDEC1956E879F 70 6 2 0xCB416FB39A094C69EBAE4688DAFAA2F151D122798E9BlA86A D2A386198237F0C713CAD3DA8D8522821122D02F4DE8C2D235581 109D3B91EED818D1CD6B304DE98A7D9124DB643A 71 7 2 0xl7B29ADD8CEF49F4AB7F4EDA37C75C8F146770ADA2001CAC5 7F3678061E8545CA139E5B4E9C1EEEEDA1A4941BE44A5DD7 4491 C9D358CA588FDF386E5C6A9BD7836423AB424ACF7 72 8 2 0xAF86BBC0376541B0DF9D45923A6B791FClCFA03F659E575ED56 236F4A419C80DD44E1A5013 AC6E051CCD65 AE7B967B0B4B9EE8 F29991785FBFE59D3 AF73155385163C98CCDDFE8 73 9 2 0xF174AD8DB7897C8D0C63779D120EA7BDA6DFD2ClCC85196Bl C860CBC53ECFDC451F7BCA610D97351687BB4CF2B242A3F8B503 72AD45DECEF4A5891FE0C1C66CFB0E153B85836E0 74 10 2 0xC88AB3AlD2502EC9C5825D4926ED5A6FB544A64AC771DDC50 29C74AC7AA7E41600D434C83FB90D0FCD1D56B5D4EF5C6394A7 7C24F06FB6E7D5E9AEFD9F0F6E501730B796900165 75 11 2 0xFF949FA0695B1597F25D6D408C570C519CA2E345D791C68D31D 82E6233B67C5996F6CF7670D1C8BF9F234979D1F32D66BD298C8C 6063E61763B6A54192E0D554079CA7A12E8126 76 12 2 0x6C2B403A72832632653A9CABD85E32C687C7EA50775B40498BA 84BF9121108CE07F8314B41D6B1F8CAC7751FB78CA4134380A0497 77E7578F0B0A924349BB2F2312379D31C27C5 77 13 2 0x56EB0F1593B218BB43F806208D9CC7EAC2B0CD24DE802BCEA2 4F6D77C91707A8E5CBDA375E16A7B6EFA2872E45E28FBE381CB4 0D4BF9C86F54656EA1A19DB5ACBEC0602D9CC9F1 22 200838193

表1 一一 2〇48FFt模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 78 14 2 0x6F443AEFA2562FDCA7E62FC6DD089397E98D4AF0F951540E9D9 FA4F7D603E34EC19A77B7F034984DF7ABF880274D125AD31C2B09 171818140D137DBDE9ECADB7B44788A460A15B 79 15 2 0x6B09E912415EC4D976F3E4E120075FCB55B143F4D7FE6D754E5 D19EDB6A2466BAFD3862C6CE32410C14EEEE959E608A45AA0079 8744A794BC3A26B33572BBF47159C16C287B289 80 16 2 0x535045E6AlBE6C3871164C04917BAF3417717B7BA8CC6F108BA 3CDF93D140EF636FCD70C14CEF825700852993A6F481473D6D0A6 AF5E2FCA7DA7D8C528917480D71950F3907845 81 17 2 0xD6C4281E746D6994EA30ED6906D65F7EB3B99FDA7ECE3EE524 F354473C519DB0B3B5198509BA2FA64CFE2480503FEDF221E3A0E 8F5B43A92067B8BEEE889B2EB995A27594F8876 82 18 2 0xA10FB173C3159B2D26FEC4D9F1708E53A8AE682563C50ED3F45 1B2B1CD410B64555EB54A508C254CD5FAAB657DBFEDC793812C B6AD6FB186D095314F18F1BB3DB86CAFE83F1F97 83 19 2 0x43E2FCE6BC77FCEC0A1797265E24B5B9F3073EC91FD21D6F182 D7EEBB127C7A73D2F779FD4FD25107A53376C29A9E54432532BC1 685502907576AAEBB70BE8EB80848E2DC3BF88 84 20 2 0xDAAF7CC412910E3AC2F46BA03A2CB5C9C102CAAB280B5A9B 30CF518C8B452101D402C064FB582678EADC7FE8270DC729C86C2 F7BA7A27D7D4051D20E5BED0CECC48903CAA21E17 85 21 2 0x51AlB3581F09E6BDA9F6F488306C682FC48FF0340632D4BF25A6 82ECA503AEB4640B5A629F1F5F64E7D95917EEF0B292287F0C4063 06DD2331AED66675E78C8B5F4B9F4C976BB3 86 22 2 0xE8119205BC780C24AF954FB7D79FA19299AAD973CAA3B79498 BC84DA615AADBB13EC41D3DAAE9EA7BCCE320670E01FB662A 08FD3D86A22B82F8DC383A14155B5D3874427B40E45 87 23 2 0x79F1AB5149FBBCD517C5D05D9A75CE1B1E359B008FE87051F96 497BED050DA20AF85AC72036E606C5FC13B74A1EC67C78D619ED C64AF67E9B5A7EB19E4A4558DE1FB3BDEFE122A 88 24 2 0x93C52847F7CEFE85A2A83CFClD2E06E213BA213B16C6DE49157 B914E5F36904861F1A78D60FD6534E78356CDD8CFAD7DD0DCC4 D727FDF7A12875823962DAA9EF9507B7E455862C 89 25 2 0x2321F2A38ED77AA84F21A050F5D437F6828EFF9AD41C08EBAD 36CC8C6892D12CE28EA1897C09851E896F615E87F9C1E8BED6FE4 833E3C73B91DBE8B10F627800CCD741F2FDDBB4 90 26 2 0xBF12B94B7CE138579AlDA5E022ED498EC66F8157DD213349EE8 3449D9EDE3C9E019E2B0791BDEEB5FAE72A5ECAE4AF0F0852169 5F718D76EFBF303544C1ACAA266F8022A24746E 23 200838193 表1——2048FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 91 27 2 0xDA5395D54C16ABAlFA3CF32AA0A56000E075AC194D8C3D406 54C83E690D13FF18CBFDE29D8C311C1BA49BF39308BD1F25ACC6 C99BD9A9C5E65021E7FCF983D78E0E9D236DDD2EF 92 28 2 0xEE405CA07D5EC52856AD91BFB9E8ADDC0C0D21D94B4CC21F 1593C4767D0E1A1DE6159DB6402BA2BEB18FF25C3229A024D1F8 E7B02ABAD99BE9D11C9EA47534962A53CF4CFC9260 93 29 2 0x0517BFDADE441B914660DD5F8C50B938834848A55A94950B25D F20CA2E83791B441FCE4C6B2B44DA6CCBAB470842B3DA3F1566 C78066DE1850FEC90CD4BF86684588403C5C5113 94 30 2 0x3A12B27A39D5781CFE30EACF421535471B18A87B7F3E7FB933B BAB544EECD5BBD11801A573B26B830C64CA2F69EB0476BC0EDB 9258974CA50D8F6DCDFA7F21A3CA949563AC7815 95 31 2 0xF77D8F4485053CB978A8B944D8399DA3440A9F3D0B87D5BFC82 F97F3940429A953F429FE47CE62BE2A516B1412D4C2CE804D73CC 51391CEF47D7125C65F566C554A7CA38330310 96 0 0 OxDD 183EF9D8C8 ΑΕΙ 669D517F5293EB2287786BB2AC68126Α1D3 E7186EDF938054B2B0C0E34F71EA3B7A394420C1A798D6D26010A 25A9909302E12D7C0199A7B98D564C5F4F72EE9 97 1 1 0x705E5DF32647E7CB92E918187DD0DDF468ED96E4E5229EA2A30 FDB94620AC7244939175F8D6CAB017F83CADDE33493BB0BB030 AA0B45671AA7DA90799ECB6F13CF9FEDE29BDF9D 98 —-— 2 2 0x4C349512091531510C4985212760B795268272DFF3AAA7BA92916 F3D5A04231EDF8D443A2EBA216B2ACDDB5DC503B3000A70F339 AE384466D2C8F683375E81E174D02837A870BF 99 3 0 0x43CFB08B3DB7F763BD3BBAEC9AD5B6382E5D277AFA57B6134 AE9F4CE12EA233D01CC1DFD73E04CC0E91E1118975F1D31586210 886DBCEE8615AFD6E5AFC10E9D1127BC697EC414 100 4 1 0x60E316DE1632ElB10BFE584625F13019403A4C25AB82563957D5 3275B6A82259416F74452F81A655F95A4A75C3D9C740EFD04F3A31 AA172333266ED92E369E78B49539F2BEDC40 101 5 2 0x63CC58882733C9D36F9DFA47E84E7B53A33D4F312BAB66D8F0 C404B551F8113331B4FD592423F9DB434D15D7258A0625BAB9BC6 9EB4A37804D7E9052654720A3C49656967AFFED 102 6 0 0xB07DEDF62ECA8B2DF3E62B67D38C7306B31D6586AD23B3EEF A19B3F910A41AA240F3470F5BB89237D494E312F87610C94FE0270 087776D8458F715FD7E242320AFF07FE9550E16 103 7 1 0xl6466F71234B7FC9A64BlA82A8FAD35A686587DEE487F1314624 A39EBF8107002AA7E042DAE09C786668AB36F1DF6D58ED81EC22 89601E181D31D5032ADCC4AACF23CF08C66289 24 200838193 表1—2〇48FFT模式的關聯安布調變序列每段及識別細胞(續表)Table 1 sequence associated Ambrose eleven modulation mode 2〇48FFt each segment and identifying cells (Continued) sequence index identifying field modulation cell (in hexadecimal format) 78 14 2 0x6F443AEFA2562FDCA7E62FC6DD089397E98D4AF0F951540E9D9 FA4F7D603E34EC19A77B7F034984DF7ABF880274D125AD31C2B09 171818140D137DBDE9ECADB7B44788A460A15B 79 15 2 0x6B09E912415EC4D976F3E4E120075FCB55B143F4D7FE6D754E5 D19EDB6A2466BAFD3862C6CE32410C14EEEE959E608A45AA0079 8744A794BC3A26B33572BBF47159C16C287B289 80 16 2 0x535045E6AlBE6C3871164C04917BAF3417717B7BA8CC6F108BA 3CDF93D140EF636FCD70C14CEF825700852993A6F481473D6D0A6 AF5E2FCA7DA7D8C528917480D71950F3907845 81 17 2 0xD6C4281E746D6994EA30ED6906D65F7EB3B99FDA7ECE3EE524 F354473C519DB0B3B5198509BA2FA64CFE2480503FEDF221E3A0E 8F5B43A92067B8BEEE889B2EB995A27594F8876 82 18 2 0xA10FB173C3159B2D26FEC4D9F1708E53A8AE682563C50ED3F45 1B2B1CD410B64555EB54A508C254CD5FAAB657DBFEDC793812C B6AD6FB186D095314F18F1BB3DB86CAFE83F1F97 83 19 2 0x43E2FCE6BC77FCEC0A1797265E24B5B9F3073EC91FD21D6F182 D7EEBB127 C7A73D2F779FD4FD25107A53376C29A9E54432532BC1 685502907576AAEBB70BE8EB80848E2DC3BF88 84 20 2 0xDAAF7CC412910E3AC2F46BA03A2CB5C9C102CAAB280B5A9B 30CF518C8B452101D402C064FB582678EADC7FE8270DC729C86C2 F7BA7A27D7D4051D20E5BED0CECC48903CAA21E17 85 21 2 0x51AlB3581F09E6BDA9F6F488306C682FC48FF0340632D4BF25A6 82ECA503AEB4640B5A629F1F5F64E7D95917EEF0B292287F0C4063 06DD2331AED66675E78C8B5F4B9F4C976BB3 86 22 2 0xE8119205BC780C24AF954FB7D79FA19299AAD973CAA3B79498 BC84DA615AADBB13EC41D3DAAE9EA7BCCE320670E01FB662A 08FD3D86A22B82F8DC383A14155B5D3874427B40E45 87 23 2 0x79F1AB5149FBBCD517C5D05D9A75CE1B1E359B008FE87051F96 497BED050DA20AF85AC72036E606C5FC13B74A1EC67C78D619ED C64AF67E9B5A7EB19E4A4558DE1FB3BDEFE122A 88 24 2 0x93C52847F7CEFE85A2A83CFClD2E06E213BA213B16C6DE49157 B914E5F36904861F1A78D60FD6534E78356CDD8CFAD7DD0DCC4 D727FDF7A12875823962DAA9EF9507B7E455862C 89 25 2 0x2321F2A38ED77AA84F21A050F5D437F6828EFF9AD41C08EBAD 36CC8C6892D12CE28EA1897C09851E896F615E87F9C1E8BED6FE4 833E3C73B91DBE8B10F6 27800CCD741F2FDDBB4 90 26 2 0xBF12B94B7CE138579AlDA5E022ED498EC66F8157DD213349EE8 3449D9EDE3C9E019E2B0791BDEEB5FAE72A5ECAE4AF0F0852169 5F718D76EFBF303544C1ACAA266F8022A24746E 23 200838193 Massimo modulation sequence table associated with each segment and pattern recognition 1--2048FFT cells (Continued) Cell recognition index modulation period sequence (in hexadecimal format) 91 27 2 0xDA5395D54C16ABAlFA3CF32AA0A56000E075AC194D8C3D406 54C83E690D13FF18CBFDE29D8C311C1BA49BF39308BD1F25ACC6 C99BD9A9C5E65021E7FCF983D78E0E9D236DDD2EF 92 28 2 0xEE405CA07D5EC52856AD91BFB9E8ADDC0C0D21D94B4CC21F 1593C4767D0E1A1DE6159DB6402BA2BEB18FF25C3229A024D1F8 E7B02ABAD99BE9D11C9EA47534962A53CF4CFC9260 93 29 2 0x0517BFDADE441B914660DD5F8C50B938834848A55A94950B25D F20CA2E83791B441FCE4C6B2B44DA6CCBAB470842B3DA3F1566 C78066DE1850FEC90CD4BF86684588403C5C5113 94 30 2 0x3A12B27A39D5781CFE30EACF421535471B18A87B7F3E7FB933B BAB544EECD5BBD11801A573B26B830C64CA2F69EB0476BC0EDB 9258974CA50D8F6DCDFA7F21A3CA949563AC7815 95 31 2 0xF77D8F4485053CB978A8B944D8399DA344 0A9F3D0B87D5BFC82 F97F3940429A953F429FE47CE62BE2A516B1412D4C2CE804D73CC 51391CEF47D7125C65F566C554A7CA38330310 96 0 0 OxDD 183EF9D8C8 ΑΕΙ 669D517F5293EB2287786BB2AC68126Α1D3 E7186EDF938054B2B0C0E34F71EA3B7A394420C1A798D6D26010A 25A9909302E12D7C0199A7B98D564C5F4F72EE9 97 1 1 0x705E5DF32647E7CB92E918187DD0DDF468ED96E4E5229EA2A30 FDB94620AC7244939175F8D6CAB017F83CADDE33493BB0BB030 AA0B45671AA7DA90799ECB6F13CF9FEDE29BDF9D 98 --- 2 2 0x4C349512091531510C4985212760B795268272DFF3AAA7BA92916 F3D5A04231EDF8D443A2EBA216B2ACDDB5DC503B3000A70F339 AE384466D2C8F683375E81E174D02837A870BF 99 3 0 0x43CFB08B3DB7F763BD3BBAEC9AD5B6382E5D277AFA57B6134 AE9F4CE12EA233D01CC1DFD73E04CC0E91E1118975F1D31586210 886DBCEE8615AFD6E5AFC10E9D1127BC697EC414 100 4 1 0x60E316DE1632ElB10BFE584625F13019403A4C25AB82563957D5 3275B6A82259416F74452F81A655F95A4A75C3D9C740EFD04F3A31 AA172333266ED92E369E78B49539F2BEDC40 101 5 2 0x63CC58882733C9D36F9DFA47E84E7B53A33D4F312BAB66D8F0 C404B551F8113331B4FD592423F9DB434D15 D7258A0625BAB9BC6 9EB4A37804D7E9052654720A3C49656967AFFED 102 6 0 0xB07DEDF62ECA8B2DF3E62B67D38C7306B31D6586AD23B3EEF A19B3F910A41AA240F3470F5BB89237D494E312F87610C94FE0270 087776D8458F715FD7E242320AFF07FE9550E16 103 7 1 0xl6466F71234B7FC9A64BlA82A8FAD35A686587DEE487F1314624 A39EBF8107002AA7E042DAE09C786668AB36F1DF6D58ED81EC22 89601E181D31D5032ADCC4AACF23CF08C66289 24 200838193 association table 1-2〇48FFT Ambrose modulation mode and cell recognition sequence of each segment (Continued)

索引識別細胞段調變序列（十六進位格式） 104 8 2 0xA9B7EC62E60922C11A1AA3A94E3BFE7F2DC8B590D98434FD1 D782DC990807F9BCECCE95D0572A3AC64195528530ECF22158C96 7A69601DD777F591E96D8EEAEC3B6DAC49D71FA2 105 9 0 0xFB225E61BEC51FF3F7391ClED0D602BAA6680B23FC7602B65C0 237BCD13AEA392CD06BEA614E3D2AD5CBCC01FBEDF59E0B162 30D704489B0EF58E7A541E3AF22621118D2E9E55C 106 10 1 0x917BF984E97504B06C18A6A36463722F0936F759B34F8C947C421 79D3298B357EE963F5565405AD2E942B709772B2FAE10D1A8B166 E1DC5FDADDD1188783BD96E5318B202D0288 107 11 2 0xCC7B5A30AE497F10EA9B918197D9E6AB754AA36B8E179F3D8 DBF6DF1861BA81E401ADBC34CD119D75307EA941ADD6B4A367 F04FB2BD014A367C1FE1A6EEC5045CC3C7361EA7D6E 108 12 0 0x63CA535A600FDC5D15160C215EF273EABD052519045A06316776 66D6F8389EE3D0D7D9AA8F694ABC AF9B12BFBCF7D1698D9074A B4419D4004B66E3A9F415688D6E70A1B43E9ACC 109 13 1 0x0243EC00FC656AEA6BCFD70CB0BC6A761610D3F4099FE1369C F8BE663D99DCE034D54A6837ECBA2A1A1A95D1F25C63913B0B3 127FB6722BDCFC0815631EBFF9B2116DD4788D291 110 14 2 0xD95D3238896B05B21DBABC0503B251308C505EAF7E3CDBF892 8911B3E0B9CB91E3766C285C30E0B98F776BD065A56F9697DDDC6 D05650AFF036CD580117C224A179C90D1CA10BB 111 15 0 0xDDD2160D107CF8FA79E0A2EDC7215683F3209EC3B3A40A7966 CA8B84E57B343A868415C086062226A45A4DAB4766F2925362397E EA967EDB0C879CC13657A4420A6301CF725FFE 112 16 1 0x52A8B29EF02C788A0CBF33F90FEE131C85D4AA2CF058B1EB4C 64AD870A93C6DF7D0A63E44EDA8F7B7CDCF1EFCF6603439E899 2ED9D98459FD786DF9C54DF621BFA1B38B5310651 113 17 2 0x6F0C445BFC5B6037B49D6C20776018B247740079B9C3FDED22F4 2719408AA9B189E77E0950518DC5DD1614CCB1CE9360B46CCD1D 8F57B93DE3F89DF3CFFA7F1DBD03256A853AEE 25 200838193 表2 1024FFT模式的關聯安布調變序列每段扣职邮)及識別細胞 (IDcell) 索引識別細胞段調變序列（十六進位格式） 0 0 0 0xF57DB50BE77E3A60EE76D67CA7912007B418F8D33CAB27CC 8BEE622187A14DECA294F65 1 1 0 0x4DCF800E623CC52D526BEF35135AC796FAB629EFE345BDDl 7E054367462FE7DD384C166 2 2 0 0x76319FCB87AD5 AD97C07B5609356A2E03F86240A071F571BD 05E8893734EFB4D0CBAE38 3 3 0 0xBCB170FB690620E5CE525BFBD9D42A0B08DCF9014644338D F208E44A59633E53A7459FA 4 4 0 0xF4C0C87638974E6B9A86902AD795389E7FD13D81B42C36F244 61DD21B1C8189D5051F41 5 5 0 0x3FAC0F59F5FF630D04293EB7716C7B0E51779234B31E2B09F7 A6A8DDA8F3321D9A7E477 6 6 0 0xD3D4D13AllABF7C26DF4C80F48FC3C9F2238C9FC9BDCE72 F5B3DE89156538B1475AFB83 7 7 0 0xl245C650F191AA8423A4EA0F857DAEA95FBEA3129DB165A2 EFB69640607CFEF3336C53F 8 8 0 0xA5DB1A1F774254A34BA32EA7B0B33FF8BA8F19E248B758A8 D13105CE22E267B18E0D240 9 9 0 0xlC4FF0F128E91AA45D52D8628A49F92D32DD8BlDA1620D35 90CDA57D4CC05AFC33FD72B 10 10 0 0x7B5B62AF67A90684D18BC1F2A19497CF1CE2DE27B8BE6DD5 C037BD8B649D7942FC84577 11 11 0 0x8E25BC255860AE02153889BD9EB43C99D709F3F75DClD15911 036FBA20CA4F95F6C0C03 12 12 0 0x93BE3FD5823BAAFCB4AE7F9EEF3578CC0636CD2A4E9A0E3 3279450DFE2947A744371678 13 13 0 0x772C7DC4F03B241636BA3E9E8ED149EE308FE92B810A64D20 A2355AC0F2C205AE7EA5C6 14 14 0 0x8DF96F 103B64854FAB659F8C730D44A3DB54424F82BB97B1F6 BF1A38197B68148623EA3 15 15 0 0x4B2086A873E39C150597E16C0D7622A733DFD6CD88E324CBC CD91EE8B7E7218F56 A41E9 16 16 0 0x3F41BE94B4AEDF3E16F53E3AB8A1599A90789FlF850DBBED 730260A8CEBBEA8C4137880 17 17 0 0x3CE9A79F2302E457400675235B4020663DA63BF0EF13AlB6EC 5170489DEAFED7D417B63 18 18 0 0x3E43B35C0FC8E3B63D737601E9CF507A942416F6E071C064086 EDDA79D5F9F6B9492E32 19 19 0 0xB912FD155BD05114BAA6B95BF9A63D6C3189363087AC8FAC 5800182CF0B2C443A1787C8 26 200838193 表2——1024FFT模式的關聯安布調變序列每段及識別細胞(續表)Index identifying field modulation sequence cytokines (hexadecimal format) 104 8 2 0xA9B7EC62E60922C11A1AA3A94E3BFE7F2DC8B590D98434FD1 D782DC990807F9BCECCE95D0572A3AC64195528530ECF22158C96 7A69601DD777F591E96D8EEAEC3B6DAC49D71FA2 105 9 0 0xFB225E61BEC51FF3F7391ClED0D602BAA6680B23FC7602B65C0 237BCD13AEA392CD06BEA614E3D2AD5CBCC01FBEDF59E0B162 30D704489B0EF58E7A541E3AF22621118D2E9E55C 106 10 1 0x917BF984E97504B06C18A6A36463722F0936F759B34F8C947C421 79D3298B357EE963F5565405AD2E942B709772B2FAE10D1A8B166 E1DC5FDADDD1188783BD96E5318B202D0288 107 11 2 0xCC7B5A30AE497F10EA9B918197D9E6AB754AA36B8E179F3D8 DBF6DF1861BA81E401ADBC34CD119D75307EA941ADD6B4A367 F04FB2BD014A367C1FE1A6EEC5045CC3C7361EA7D6E 108 12 0 0x63CA535A600FDC5D15160C215EF273EABD052519045A06316776 66D6F8389EE3D0D7D9AA8F694ABC AF9B12BFBCF7D1698D9074A B4419D4004B66E3A9F415688D6E70A1B43E9ACC 109 13 1 0x0243EC00FC656AEA6BCFD70CB0BC6A761610D3F4099FE1369C F8BE663D99DCE034D54A6837ECBA2A1A1A95D1F25C63913B0B3 127FB6722BDCFC0815631EBFF9B2116DD4788D2 91 110 14 2 0xD95D3238896B05B21DBABC0503B251308C505EAF7E3CDBF892 8911B3E0B9CB91E3766C285C30E0B98F776BD065A56F9697DDDC6 D05650AFF036CD580117C224A179C90D1CA10BB 111 15 0 0xDDD2160D107CF8FA79E0A2EDC7215683F3209EC3B3A40A7966 CA8B84E57B343A868415C086062226A45A4DAB4766F2925362397E EA967EDB0C879CC13657A4420A6301CF725FFE 112 16 1 0x52A8B29EF02C788A0CBF33F90FEE131C85D4AA2CF058B1EB4C 64AD870A93C6DF7D0A63E44EDA8F7B7CDCF1EFCF6603439E899 2ED9D98459FD786DF9C54DF621BFA1B38B5310651 113 17 2 0x6F0C445BFC5B6037B49D6C20776018B247740079B9C3FDED22F4 2719408AA9B189E77E0950518DC5DD1614CCB1CE9360B46CCD1D 8F57B93DE3F89DF3CFFA7F1DBD03256A853AEE 25 200838193 association table 2 1024FFT Ambrose modulation mode button sequence each segment level Post) and cell identification (IDcell) Index identification cell segment modulation sequence (hexadecimal format) 0 0 0 0xF57DB50BE77E3A60EE76D67CA7912007B418F8D33CAB27CC 8BEE622187A14DECA294F65 1 1 0 0x4DCF800E623CC52D526BEF35135AC796FAB629EFE345BDDl 7E054367462FE7DD384C166 2 2 0 0x76319FCB87AD5 AD97C07B5609356A2E03F 86240A071F571BD 05E8893734EFB4D0CBAE38 3 3 0 0xBCB170FB690620E5CE525BFBD9D42A0B08DCF9014644338D F208E44A59633E53A7459FA 4 4 0 0xF4C0C87638974E6B9A86902AD795389E7FD13D81B42C36F244 61DD21B1C8189D5051F41 5 5 0 0x3FAC0F59F5FF630D04293EB7716C7B0E51779234B31E2B09F7 A6A8DDA8F3321D9A7E477 6 6 0 0xD3D4D13AllABF7C26DF4C80F48FC3C9F2238C9FC9BDCE72 F5B3DE89156538B1475AFB83 7 7 0 0xl245C650F191AA8423A4EA0F857DAEA95FBEA3129DB165A2 EFB69640607CFEF3336C53F 8 8 0 0xA5DB1A1F774254A34BA32EA7B0B33FF8BA8F19E248B758A8 D13105CE22E267B18E0D240 9 9 0 0xlC4FF0F128E91AA45D52D8628A49F92D32DD8BlDA1620D35 90CDA57D4CC05AFC33FD72B 10 10 0 0x7B5B62AF67A90684D18BC1F2A19497CF1CE2DE27B8BE6DD5 C037BD8B649D7942FC84577 11 11 0 0x8E25BC255860AE02153889BD9EB43C99D709F3F75DClD15911 036FBA20CA4F95F6C0C03 12 12 0 0x93BE3FD5823BAAFCB4AE7F9EEF3578CC0636CD2A4E9A0E3 3279450DFE2947A744371678 13 13 0 0x772C7DC4F03B241636BA3E9E8ED149EE308FE92B810A64D20 A2355AC0F2C205AE7EA5C6 14 14 0 0x8DF96F 103B64854FAB659F8C730D44A3DB54424 F82BB97B1F6 BF1A38197B68148623EA3 15 15 0 0x4B2086A873E39C150597E16C0D7622A733DFD6CD88E324CBC CD91EE8B7E7218F56 A41E9 16 16 0 0x3F41BE94B4AEDF3E16F53E3AB8A1599A90789FlF850DBBED 730260A8CEBBEA8C4137880 17 17 0 0x3CE9A79F2302E457400675235B4020663DA63BF0EF13AlB6EC 5170489DEAFED7D417B63 18 18 0 0x3E43B35C0FC8E3B63D737601E9CF507A942416F6E071C064086 EDDA79D5F9F6B9492E32 19 19 0 0xB912FD155BD05114BAA6B95BF9A63D6C3189363087AC8FAC 5800182CF0B2C443A1787C8 26 200838193 association table 2--1024FFT Ambrose modulation mode recognition sequence of each segment and cells (CONTINUED table)

索引識別細胞段調變序列（十六進位格式） 20 20 0 0xA224AA7DD3F3FB16D7D076ECC81DF38C41D826FllE7759389 49AFBE58F10F2F1B4F52BF 21 21 0 0x6EA00D7273604A3 ABF93E128C5F64092F61C0AF80E0B17A77A 4F463463055C925EE3DD7 22 22 0 0xED755C6EC 155D54E99FA627B31BCC15C3FF46B63F4FE184953 B5E1A421AE179F6C9F2C8 23 23 0 0x5042051DF29A85D7A7808645D4CF37E0B6C6E556FF014B6652D 8BC6CCE3D0E60E5B8B3C 24 24 0 0xAE2B94E46A91E7445B41A392E9807CFBDB9638BC4ED815AlF 19F3CEF6D43EC94D694189 25 25 0 0xFC165FBF1778BA85310C2B929F4A91ACED44AllB86DCD8758 6B12FA610244D1D819C4C3 26 26 0 0XDA0F1AB3D1F1AE7CD322DEE221424D22522C36C06E6B89EF6 97313A30A4DDFA5F6528AE 27 27 0 0x4A8AE9AB1A5AB122872084B6A2CDD541F621F1BCE3E60B079 33E303785FEE97637FE321 28 28 0 0xC48A06BA315D19759ElF226C57FD66BBDFD35E1380AF44298C F5E6070561DEE43F58212 29 29 0 0xBF4A84AE6E8B0FC919AF9504C84B7205B46D0CF9BFAB596896 73451C89A2718CE157ACF 30 30 0 0x021A957B126CD6DA7722E0010D701AFClA1985E855E4BF9D4 BEBAA3BCB38E9A3ACFA305 31 31 0 0xFBE0BE26A6EC687FAD70876727BEE7D133308A0A8C56735C76 E0FDB4616AD9B5CCBCB65 32 0 1 0xl0EFB2BEDAE303304F2B4371B4BE5EEB2B518BFB46D176CFE 894C0C1A657040F1B9214A 33 1 1 0x099BD0769A5DE0A03E10A6A73C17FF5D875EF6E0CC65FC7A9 8605867E37B9044A85CA33 34 2 1 0xC67B78718F368DlC5E2D0023ADFFEAA5E55A4764EFD4DECD B4C7F428D95334C7E519BE8 35 3 1 0X217F1C616A21063829BF5227EF7EF95E592AA7BD66E499A42B DD721F93 A9E347E315DA5 36 4 1 0x5D7D60E9D3600CF86763A899BA9F1505C9279865B6C0E406C75 8653AA4696A51E7EA7CC 37 5 1 0x409F8ECF8A0232132ACF9E61756E95F902F2D8D5D70898A30EC 3949CFED9590CE786990 38 6 1 0x3B59394CB93E72AlC84E173D44DA313F70C85A2D905222F6D0 3F3F3907E3CF75D79510A 27 200838193 表2——1024FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 39 7 1 0xB021F589CA6B5C62A0DE895DF3A43EF68B8612ED3D5D3E0DA 18A4AB527413B3D9F77355 40 8 1 0xA7FEB67C8431AE5ED54B09B3CD745BBE8BD6621787772DE277 77E04D5BA485A335060C4 41 9 1 0xAA062F840EEE49958150CE164CE3D605797BA0305CD8A5804A0 4D8F6D15BDE6684AAA53 42 10 1 0XBB1D46DE51223584008E4CA3CC1F231C151232B2962BB85A158 B1FF63BE041F453FB5A0 43 11 1 0x9FF11B1DA431E3F4BAE2CBB4C4F0054FA3C000C1511CE84AD1 FI 93B48EDEBC448A93184 44 12 1 0x14542B2DE5628C0981E18A95A13EC1CFDD48E7B6664B1F6A8E D1E6F784884EB24B29D9E 45 13 1 0xC85F81AE4CA240963C58C9A7CEC6AlF01945A3F634D208A3Cl A35388027BD656F7D551A 46 14 1 0xF9F8D3F91164BD5F5EEA2955A664F120CAB2284541B6B52DC47 673F6871CC718B58BE42 47 15 1 0xA42734D4260EF4BA08AAC13ABElACEBC028747BE586889F6D6 F0758E2445A832707FECC 48 16 1 0xBF3DA6E16206FC62BFC5EA8207ED6BlA3818CD60A69972F9B7 F9CDB9356CAD88C553FC5 49 17 1 0x885CAB55BDDD9E89750DBBAE1198C9C873E66CA60B8D07128 61D92E525CAFEAF8BF212F 50 18 1 0x4C6CC4642A1BE02FB068936CF79A1F94B52B0FAA110E71686DB 913D46A120678F3797C5 51 19 1 0x95BClDC313D2B914D0DF070E480DE8341988243C50DC666B3D5 7291455FF8B6EC98A091 52 20 1 0xA07D52A689936B04C73051B3B9712E003FB5B9B5F110086B72Dl 4E6F6FADDE186DE2190 53 21 1 0x3AC8751ED340FC6EAFF6408B9FBF9B92BF88F04B86B29387DE C39A6C8C698BC5075A14C 54 22 1 0x7C5BA9A36893DB8563D16338FC45B095BD63AlEDCCC68EFBF 7FA2DF5AA2B0B2CFCB9600 55 23 1 0xFlBB4E916F70576E60DA403E36086BFD4610384206F23E33585A C3E781C9C53D15EE955 56 24 1 0x98BA49B9EF848DC0F5AC69A16D6967CAA0947DB98C00103092 076A7D5290E923A2E08CF 57 25 1 0xAFC405C2D91C7E2F63 86EF5B8B04AA5127C86B0F6E5C14C23E F6FE3BFBE39D0ACBFB269 28 200838193Index identifying field modulation sequence cytokines (hexadecimal format) 20 20 0 0xA224AA7DD3F3FB16D7D076ECC81DF38C41D826FllE7759389 49AFBE58F10F2F1B4F52BF 21 21 0 0x6EA00D7273604A3 ABF93E128C5F64092F61C0AF80E0B17A77A 4F463463055C925EE3DD7 22 22 0 0xED755C6EC 155D54E99FA627B31BCC15C3FF46B63F4FE184953 B5E1A421AE179F6C9F2C8 23 23 0 0x5042051DF29A85D7A7808645D4CF37E0B6C6E556FF014B6652D 8BC6CCE3D0E60E5B8B3C 24 24 0 0xAE2B94E46A91E7445B41A392E9807CFBDB9638BC4ED815AlF 19F3CEF6D43EC94D694189 25 25 0 0xFC165FBF1778BA85310C2B929F4A91ACED44AllB86DCD8758 6B12FA610244D1D819C4C3 26 26 0 0XDA0F1AB3D1F1AE7CD322DEE221424D22522C36C06E6B89EF6 97313A30A4DDFA5F6528AE 27 27 0 0x4A8AE9AB1A5AB122872084B6A2CDD541F621F1BCE3E60B079 33E303785FEE97637FE321 28 28 0 0xC48A06BA315D19759ElF226C57FD66BBDFD35E1380AF44298C F5E6070561DEE43F58212 29 29 0 0xBF4A84AE6E8B0FC919AF9504C84B7205B46D0CF9BFAB596896 73451C89A2718CE157ACF 30 30 0 0x021A957B126CD6DA7722E0010D701AFClA1985E855E4BF9D4 BEBAA3BCB38E9A3ACFA305 31 31 0 0xF BE0BE26A6EC687FAD70876727BEE7D133308A0A8C56735C76 E0FDB4616AD9B5CCBCB65 32 0 1 0xl0EFB2BEDAE303304F2B4371B4BE5EEB2B518BFB46D176CFE 894C0C1A657040F1B9214A 33 1 1 0x099BD0769A5DE0A03E10A6A73C17FF5D875EF6E0CC65FC7A9 8605867E37B9044A85CA33 34 2 1 0xC67B78718F368DlC5E2D0023ADFFEAA5E55A4764EFD4DECD B4C7F428D95334C7E519BE8 35 3 1 0X217F1C616A21063829BF5227EF7EF95E592AA7BD66E499A42B DD721F93 A9E347E315DA5 associated Massimo 36 4 1 0x5D7D60E9D3600CF86763A899BA9F1505C9279865B6C0E406C75 8653AA4696A51E7EA7CC 37 5 1 0x409F8ECF8A0232132ACF9E61756E95F902F2D8D5D70898A30EC 3949CFED9590CE786990 38 6 1 0x3B59394CB93E72AlC84E173D44DA313F70C85A2D905222F6D0 3F3F3907E3CF75D79510A 27 200838193 mode table 2--1024FFT Modulation sequence per segment and recognition of cells (continued) Index identification of cell segment modulation sequences (hexadecimal format) 39 7 1 0xB021F589CA6B5C62A0DE895DF3A43EF68B8612ED3D5D3E0DA 18A4AB527413B3D9F77355 40 8 1 0xA7FEB67C8431AE5ED54B09B3CD745BBE8BD6621787772DE277 77E04D5BA485A335060C4 41 9 1 0xAA062F840EEE499 58150CE164CE3D605797BA0305CD8A5804A0 4D8F6D15BDE6684AAA53 42 10 1 0XBB1D46DE51223584008E4CA3CC1F231C151232B2962BB85A158 B1FF63BE041F453FB5A0 43 11 1 0x9FF11B1DA431E3F4BAE2CBB4C4F0054FA3C000C1511CE84AD1 FI 93B48EDEBC448A93184 44 12 1 0x14542B2DE5628C0981E18A95A13EC1CFDD48E7B6664B1F6A8E D1E6F784884EB24B29D9E 45 13 1 0xC85F81AE4CA240963C58C9A7CEC6AlF01945A3F634D208A3Cl A35388027BD656F7D551A 46 14 1 0xF9F8D3F91164BD5F5EEA2955A664F120CAB2284541B6B52DC47 673F6871CC718B58BE42 47 15 1 0xA42734D4260EF4BA08AAC13ABElACEBC028747BE586889F6D6 F0758E2445A832707FECC 48 16 1 0xBF3DA6E16206FC62BFC5EA8207ED6BlA3818CD60A69972F9B7 F9CDB9356CAD88C553FC5 49 17 1 0x885CAB55BDDD9E89750DBBAE1198C9C873E66CA60B8D07128 61D92E525CAFEAF8BF212F 50 18 1 0x4C6CC4642A1BE02FB068936CF79A1F94B52B0FAA110E71686DB 913D46A120678F3797C5 51 19 1 0x95BClDC313D2B914D0DF070E480DE8341988243C50DC666B3D5 7291455FF8B6EC98A091 52 20 1 0xA07D52A689936B04C73051B3B9712E003FB5B9B5F110086B72Dl 4E6F6FADDE186DE2190 53 21 1 0x3AC875 1ED340FC6EAFF6408B9FBF9B92BF88F04B86B29387DE C39A6C8C698BC5075A14C 54 22 1 0x7C5BA9A36893DB8563D16338FC45B095BD63AlEDCCC68EFBF 7FA2DF5AA2B0B2CFCB9600 55 23 1 0xFlBB4E916F70576E60DA403E36086BFD4610384206F23E33585A C3E781C9C53D15EE955 56 24 1 0x98BA49B9EF848DC0F5AC69A16D6967CAA0947DB98C00103092 076A7D5290E923A2E08CF 57 25 1 0xAFC405C2D91C7E2F63 86EF5B8B04AA5127C86B0F6E5C14C23E F6FE3BFBE39D0ACBFB269 28 200838193

表2--1024FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 58 26 1 0x0860019913383C35595C0746867F4434BF0A5A6271BF5D42936 ADC33 AA2514B11DE6EB6 59 27 1 0x2AE39A73970FD2CFF7ED59006335416D681C743ED2EDA81F4 12837609199BC5363892A3 60 28 1 0x013EEBB7D1091D37815A85A3BFE676F3E85D3F6F3975D6441 B5A705C9B9870CB4C771B6 61 29 1 0xBF02968EDF90ADC62BDCB887387B27B3890F4D5676BC4E2F F671829245E32EEFBFD1F19 62 30 1 0x84B3900D7D3EAF6E46B2CF9AE8650E479333962F95E95F9EF8 343BE3D845FF1B5D00CA6 63 31 1 0x06C7985575C7686968633D4F8E423F3C9D236BB617B0FF8979C 204EDF23BE5AB6DD6CF6 64 0 2 0x6ABCB0B37CE1A318129EE58BF1DE143B7FC6CD6EC5E20B9 972BB56C03455150E300DE4B 65 1 2 0x2BACF5C40ED7E3461C7438552E43181F3C8E582457D497B6E9 B4AE034D8CB1B773BBFE7 66 2 2 0xACC0EC8C3A8DC8CC11424F46330621ClDA6AC35E9D357EE 212CEFB92A0CB4402A92FDE1 67 3 2 0x62E292288C30DA44ABB4EC6D42E5000D3BBD0F906427AF759 F3276E3C8F27B7D0C1BB41 68 4 2 0xA29F1D5F6DF92FDD2DB669E9BD21CAEE684A159EF1B9E802 FEB 1C9896AF8762F3276072 69 5 2 0x6E3B15CEE3C2B7F5262EBB7EE3B53440D6856BB40120390B0 9CDBF0E67A596A2CA26826 70 6 2 0x898AC72500F925C02841A5D699C39393B3EA0ClF802129A956 528FE06DB95581596E1DF 71 7 2 0x70E0018C8AED264C6BFB5BA82F13674134FB95F1837C38AAl E6FC6339EF2D02F6B08EEE 72 8 2 0xCFDC022326523C0C8AFCAA749DC32F47AF2675B074A75A7A CE7ABFD1C43C9FDD698FC0A 73 9 2 0x34E9743863160970282902E55D45C0D7FA2099E66CA7BB9A5A B9DA931E666A291652BFA 74 10 2 0xAB05BC5503E7FF47828EE648DB849BE9A32D5D8678DA673Fl 2BC6B57B AD 13023B21ADA9 75 11 2 0xBBF9AED7FA76505E27C6858A56B479F831A9C5F8B8F5E51CE 7D051DB2C91336D5C6EA19 76 12 2 0xB17EA958C03B6EDEA9B011DCE838756D90C51FDB62E6386B CACBD619B5C29B00FA2B1BF 29 200838193 表2--1024FFT模式的關聯安布調變序列每段及識別細胞(續表)Ambrose modulation sequence table associated with each segment and pattern recognition 2--1024FFT cells (Continued) sequence index identifying field modulation cell (in hexadecimal format) 58 26 1 0x0860019913383C35595C0746867F4434BF0A5A6271BF5D42936 ADC33 AA2514B11DE6EB6 59 27 1 0x2AE39A73970FD2CFF7ED59006335416D681C743ED2EDA81F4 12837609199BC5363892A3 60 28 1 0x013EEBB7D1091D37815A85A3BFE676F3E85D3F6F3975D6441 B5A705C9B9870CB4C771B6 61 29 1 0xBF02968EDF90ADC62BDCB887387B27B3890F4D5676BC4E2F F671829245E32EEFBFD1F19 62 30 1 0x84B3900D7D3EAF6E46B2CF9AE8650E479333962F95E95F9EF8 343BE3D845FF1B5D00CA6 63 31 1 0x06C7985575C7686968633D4F8E423F3C9D236BB617B0FF8979C 204EDF23BE5AB6DD6CF6 64 0 2 0x6ABCB0B37CE1A318129EE58BF1DE143B7FC6CD6EC5E20B9 972BB56C03455150E300DE4B 65 1 2 0x2BACF5C40ED7E3461C7438552E43181F3C8E582457D497B6E9 B4AE034D8CB1B773BBFE7 66 2 2 0xACC0EC8C3A8DC8CC11424F46330621ClDA6AC35E9D357EE 212CEFB92A0CB4402A92FDE1 67 3 2 0x62E292288C30DA44ABB4EC6D42E5000D3BBD0F906427AF759 F3276E3C8F27B7D0C1BB41 68 4 2 0xA29F1D5F6DF92 FDD2DB669E9BD21CAEE684A159EF1B9E802 FEB 1C9896AF8762F3276072 69 5 2 0x6E3B15CEE3C2B7F5262EBB7EE3B53440D6856BB40120390B0 9CDBF0E67A596A2CA26826 70 6 2 0x898AC72500F925C02841A5D699C39393B3EA0ClF802129A956 528FE06DB95581596E1DF 71 7 2 0x70E0018C8AED264C6BFB5BA82F13674134FB95F1837C38AAl E6FC6339EF2D02F6B08EEE 72 8 2 0xCFDC022326523C0C8AFCAA749DC32F47AF2675B074A75A7A CE7ABFD1C43C9FDD698FC0A 73 9 2 0x34E9743863160970282902E55D45C0D7FA2099E66CA7BB9A5A B9DA931E666A291652BFA 74 10 2 0xAB05BC5503E7FF47828EE648DB849BE9A32D5D8678DA673Fl 2BC6B57B AD 13023B21ADA9 75 11 2 0xBBF9AED7FA76505E27C6858A56B479F831A9C5F8B8F5E51CE 7D051DB2C91336D5C6EA19 76 12 2 0xB17EA958C03B6EDEA9B011DCE838756D90C51FDB62E6386B CACBD619B5C29B00FA2B1BF 29 200838193 Table 2 - -1024 FFT mode associated with each of the modulating sequences and identifying cells (continued)

索引識別細胞段調變序列（十六進位格式） 77 13 2 0xF9C5192E52732F6025A7E064395F91C0445F20CF7AllE8214C96 80458DF76F2CAC4C275 78 14 2 0x2C7901BD86AB137D27F57D3984D07A76DE2B996F559F4714312 99D32187DC919EAA04A7 79 15 2 0X53BDFC1CC1BA48D75066CEC7FCA7C109C54484C783B0E0C81 73A96AB6CB1E28296B88D5 80 16 2 0xB570272C736EF260A9A50A6CBEC77A12FD2364F4B36FADF3A 8F9FF60488F8F623905118 81 17 2 0xB47BD0817141FD280E0B4A9C36F161758DF2FAA8F31C32AFE7 FA23B736A59CAA47B38D2 82 18 2 0x3D9BE5016D23924068525DE6ACEDDB321727C5F56AB91C3578 86C7A6179E15631F15368 83 19 2 0X1AB1EC934DD376A781B495CCBFB55800ED1C19B1F4EB582D E406E281E174705510D4B9C 84 20 2 0xF28BA38C44B2F7CEBC3BA741F620B13A3607C625979FB78A8 A5ACCFA48B52B013D1A431 85 21 2 0x9C9B322697713B5FB83CB323B14359CA440435C5E0FB712CA39 E8A1AA4136AC63940582 86 22 2 0x44ED5C4AElDD7952DD73799FCB5DD4606F01ACB3A3E89FDF 237DFDC8920197D3EE50EB0 87 23 2 0xAED321C43F2A8D9CF2CB69227DC8CF98A94DC29D3D0722B7 378F2D227BF9F8090C50056 88 24 2 0x76E6F62939F70CE294B95531E88174F20BFD3EE67F0587F49483 243FD567D15E088ACA9 89 25 2 0xEDF18994DD4D35B5E7B96ECDC7745D86BEE4326EA8548203E F4D63CD078D9BF0E284F80 90 26 2 0x9CF78DD61DB73E67C6BB08067FD6A70501D96269A533EAEFB 2BC5F02296C AA87FD51EA5 91 27 2 0xA56652AF76593EDBB 1D602D7A02603332E32EA9AA362495168 BA7BEEE6C18C0D5FF3878 92 28 2 0xE7A04246C139FE36CB52BF629F8A9DlE9D90A6737174492F520 B39FACE59853439282AC 93 29 2 0x41820D977E5A1D8F37DF2DA4C1CDC714E8A35E69514F998C05 E9182B0BE2 A57B067E45 A 94 30 2 0xF45CB6737A83AAlD8CA788CBC85991136FEA29B9BE4BDEB5 0608A1DC7F081D68DC5B21E 95 31 2 0x95F5187D25AD22ED14DEC296B9EADC606C81CC4A912B81E37 7CBC8315CC6E9EA63DFBEB 30 200838193 表2--1024FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列（十六進位格式） 96 0 0 0XF3E1DC03AF64DD7F3672AEBEC1B6295FCEC5A1C9945B5207 A466414AFFF959CBD64F586 97 1 1 0xBE18E3D2C24CF06B72683BA4CE070AEF229017AD4EB02F6285 F53A6557DBC9DB3E9BEEB 98 2 2 0xDBB35C45282D66FB0D62BEA28FF12503F5B27FC07ElD5F3183 BD9C38392F5A6539B94A2 99 3 0 0xC6457FBB3BlE32FA313D8917250C09217C7DA77F50AB0CE385 D7886B83EA55B864035CC 100 4 1 0x932EF9D473225A9F6921F17A451F051FB78EDEF6A5B989B994B 3DC0F21540F20E312B7D 101 5 2 0x7B9E74C5EE4A27A3B488CB5087CA8AB4DED21E44660EC5280 60A9432D2FD740907D3370 102 6 0 0x6C5A3D66BEA2103E9C46F4A6539CDA8ABAF2BCBC99F607A C4ECB4559BFBE3911EC92D3E 103 7 1 0x88B7F6AC76BB9EE6FE8F3F0F122699547AE334742BD38700FD B7CD691C2363536FC4FC2 104 8 2 0x5C7C77ED3522C680859D472A72D01EC690DEE9F9A9B0D87F3 DC0F7D16A523DF9045134E 105 9 0 0xC2FB6923D745E871A0C669D1011A51BD50AF591A9DADB3FF DF295921E4EC3B0A79D75EE 106 10 1 0X734BEDF2FBE961C5AD6E584EDE3FF1E2B416881636E97AC63 A8F755527FEE0913C48E66 107 11 2 0xD9D63B97EBF821DD019E22D0149ED8CDBC606159D5151749C C0B56E7D0DAA7D93A36BD3 108 12 0 OxC 132576511970E9C4530BAA95B8E53E13 A2296FF8B5B2DC60A 6B1BE661393CD1F7BEBE3 109 13 1 0x7190B71BlCAA6F2FEDCFAF097405798BDCB5447393204E8C43 7D4D306A79F49BD5624DF 110 14 2 0xB0F05108B75D27A5EF0AD1053E5C90CA81BB9199263CCFD4D 00E43FF1BBF4E29EA2E794 111 15 0 0xl3C5310837C749B9AC20CllDC0B71DABFD19DB401A9797C3C 0C7DD2D7EB336B1B94FE45 112 16 1 0x6E31118A654962412D16BB6283444BE8390F11AF280ABA3D67D 4DC7FE4C005F6470E7FC 113 17 2 0x9AD96CD25DCBA2C9976AA272B4E3757D475F8168ED7DF7F39 7E34FF38011A37E0C89782 31 200838193 表3——512FFT模式的關聯安布調變序列每段(segment)及識別細胞 (IDcell)Index identifying field modulation sequence cytokines (hexadecimal format) 77 13 2 0xF9C5192E52732F6025A7E064395F91C0445F20CF7AllE8214C96 80458DF76F2CAC4C275 78 14 2 0x2C7901BD86AB137D27F57D3984D07A76DE2B996F559F4714312 99D32187DC919EAA04A7 79 15 2 0X53BDFC1CC1BA48D75066CEC7FCA7C109C54484C783B0E0C81 73A96AB6CB1E28296B88D5 80 16 2 0xB570272C736EF260A9A50A6CBEC77A12FD2364F4B36FADF3A 8F9FF60488F8F623905118 81 17 2 0xB47BD0817141FD280E0B4A9C36F161758DF2FAA8F31C32AFE7 FA23B736A59CAA47B38D2 82 18 2 0x3D9BE5016D23924068525DE6ACEDDB321727C5F56AB91C3578 86C7A6179E15631F15368 83 19 2 0X1AB1EC934DD376A781B495CCBFB55800ED1C19B1F4EB582D E406E281E174705510D4B9C 84 20 2 0xF28BA38C44B2F7CEBC3BA741F620B13A3607C625979FB78A8 A5ACCFA48B52B013D1A431 85 21 2 0x9C9B322697713B5FB83CB323B14359CA440435C5E0FB712CA39 E8A1AA4136AC63940582 86 22 2 0x44ED5C4AElDD7952DD73799FCB5DD4606F01ACB3A3E89FDF 237DFDC8920197D3EE50EB0 87 23 2 0xAED321C43F2A8D9CF2CB69227DC8CF98A94DC29D3D0722B7 378F2D227BF9F8090C50056 88 24 2 0x76E 6F62939F70CE294B95531E88174F20BFD3EE67F0587F49483 243FD567D15E088ACA9 89 25 2 0xEDF18994DD4D35B5E7B96ECDC7745D86BEE4326EA8548203E F4D63CD078D9BF0E284F80 90 26 2 0x9CF78DD61DB73E67C6BB08067FD6A70501D96269A533EAEFB 2BC5F02296C AA87FD51EA5 91 27 2 0xA56652AF76593EDBB 1D602D7A02603332E32EA9AA362495168 BA7BEEE6C18C0D5FF3878 92 28 2 0xE7A04246C139FE36CB52BF629F8A9DlE9D90A6737174492F520 B39FACE59853439282AC 93 29 2 0x41820D977E5A1D8F37DF2DA4C1CDC714E8A35E69514F998C05 E9182B0BE2 A57B067E45 A 94 30 2 0xF45CB6737A83AAlD8CA788CBC85991136FEA29B9BE4BDEB5 0608A1DC7F081D68DC5B21E 95 31 2 0x95F5187D25AD22ED14DEC296B9EADC606C81CC4A912B81E37 7CBC8315CC6E9EA63DFBEB 30 200838193 mode table 2--1024FFT Associated with Ambi Modulation Sequences and Identifying Cells (Continued Table) Index Recognition Cell Segment Modulation Sequence (Hexadecimal Format) 96 0 0 0F3E1DC03AF64DD7F3672AEBEC1B6295FCEC5A1C9945B5207 A466414AFFF959CBD64F586 97 1 1 0xBE18E3D2C24CF06B72683BA4CE070AEF229017AD4EB02F6285 F53A6557DBC9DB3E9BEEB 98 2 2 0xDBB35C452 82D66FB0D62BEA28FF12503F5B27FC07ElD5F3183 BD9C38392F5A6539B94A2 99 3 0 0xC6457FBB3BlE32FA313D8917250C09217C7DA77F50AB0CE385 D7886B83EA55B864035CC 100 4 1 0x932EF9D473225A9F6921F17A451F051FB78EDEF6A5B989B994B 3DC0F21540F20E312B7D 101 5 2 0x7B9E74C5EE4A27A3B488CB5087CA8AB4DED21E44660EC5280 60A9432D2FD740907D3370 102 6 0 0x6C5A3D66BEA2103E9C46F4A6539CDA8ABAF2BCBC99F607A C4ECB4559BFBE3911EC92D3E 103 7 1 0x88B7F6AC76BB9EE6FE8F3F0F122699547AE334742BD38700FD B7CD691C2363536FC4FC2 104 8 2 0x5C7C77ED3522C680859D472A72D01EC690DEE9F9A9B0D87F3 DC0F7D16A523DF9045134E 105 9 0 0xC2FB6923D745E871A0C669D1011A51BD50AF591A9DADB3FF DF295921E4EC3B0A79D75EE 106 10 1 0X734BEDF2FBE961C5AD6E584EDE3FF1E2B416881636E97AC63 A8F755527FEE0913C48E66 107 11 2 0xD9D63B97EBF821DD019E22D0149ED8CDBC606159D5151749C C0B56E7D0DAA7D93A36BD3 108 12 0 OxC 132576511970E9C4530BAA95B8E53E13 A2296FF8B5B2DC60A 6B1BE661393CD1F7BEBE3 109 13 1 0x7190B71BlCAA6F2FEDCFAF097405798BDCB5447393204E8C43 7D4D306A79F49BD5624DF 110 14 2 0xB0F05108B75D27A5EF0AD1053E5C90CA81BB9199263CCFD4D 00E43FF1BBF4E29EA2E794 111 15 0 0xl3C5310837C749B9AC20CllDC0B71DABFD19DB401A9797C3C 0C7DD2D7EB336B1B94FE45 112 16 1 0x6E31118A654962412D16BB6283444BE8390F11AF280ABA3D67D 4DC7FE4C005F6470E7FC 113 17 2 0x9AD96CD25DCBA2C9976AA272B4E3757D475F8168ED7DF7F39 7E34FF38011A37E0C89782 31 200838193 association table 3--512FFT modulation mode Ambrose sequence each segment (segment) and the cell identification (IDcell)

索引識別細胞段調變序列（十六進位格式） 0 0 0 0x4FADFFE80EEC23 53D5E0D719E27165A726CC 1 1 0 0x689540E03A9813D746D411D6F5A34B618636 2 2 0 0x7EAB49F0D40012E30F6889469B8E4CC8DAE2 3 3 0 0x20ElBD2D774AA4FCC71967D487C2132899B8 4 4 0 0x3B75A75918A6046E6CEFlC045B7461A0FC06 5 5 0 0x70EF 1EF0E5EBC113 5B7D5C6A2B3296621B22 6 6 0 0x631CB45B105A839120141FAABE6E062E9DB0 7 7 0 0x3D140B4B808275866786FD39818CB56F99B4 8 8 0 0x4D3EAC3F93F3183890313FA5490C479D116A 9 9 0 0x71C9D4DA13243705C67A34272CBBB4008F14 10 10 0 0x58A42AD7B2A9B35C7A61C9ED377C0DB80B08 11 11 0 0x7C7805023CA85B2536A49744D6BC646E3144 12 12 0 0x570826242964A3D970197519D8B53461DA3E 13 13 0 0x49AD9B551D5D6328C67468383F40083485FE 14 14 0 0xlD40D60A5254D9453EA19B9BA7C1005EF334 15 15 0 0x39C144E4DA882F6897AA3442361FC2FAD6C6 16 16 0 0x753A6EC9E4F3650158AllAD89F282D23840E 17 17 0 0x292FA6D9EEB93 80C51C64207E10CA9C5C588 18 18 0 0xlDCC7A97488252B60C39A076D147602365F4 19 19 0 0x21FF46D567A04D2F235361EBF18D32AEFEF2 20 20 0 0x07A545581C96FBC44CA579B589B83EE93CFE 21 21 0 0xlD702FE4A54DB0D04CB5544709062C3BlB9A 22 22 0 0x1138EB1890A2F937C44976A1143C045687DA 23 23 0 0x64B6A4BCB858AA2000BEE1670671DE372AD0 24 24 0 0x4BD9245280AA3DCCBDE04FCECD0D2F7F239C 25 25 0 0x3B5BElF4D4217A63774C59A33DC120A3340A 26 26 0 0xlBE2B98347E2034F48A552742029079B5CE0 27 27 0 0x028D1838CF58DE02EFA96565B4C88D8B67BA 28 28 0 0x5F68B1B2A7B73CC1F2ACEBF5B0AC1BC400CC 29 29 0 0x665C532EAE0EFDEFCD6802FC3 A7310EA5348 30 30 0 0xl07D32AC3D373195BA843EBE6968C4BF9BE2 31 31 0 0x3FEAB859E5262F941B654C60720DB330F334 32 0 1 0xlEED6EE8F4A3C06B60DF5B116089237C300E 33 1 1 0xl9822C4632EC86450C6FE10A51E5C0FD5F2C 34 2 1 0x2DDE838BlD072B0CFBB04AA294991CC04696 35 3 1 0xlC357F566732B055A01C0139653483A7C81A 36 4 1 0x03B5252046ED369F0B98CC6F9DF0C74D5B2E 37 5 1 0x32D21CF781A89AB9891534683411128FD7AE 32 200838193 表3——512FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(十六進位格式） 38 6 1 0x30E0EBF1A21A99E492755A1A85B0B712A660 39 7 1 0x63855C3358BA6EC7E5C7C8ED5B43BFF9084A 40 8 1 0x662AB8C7A8E37FA564F4FE6C2D23493FD8B0 41 9 1 0x5E9F2165C7ED09BE6B3 5FA315DE9BC719518 42 10 1 0x458D1A911535B85F1B0E5DBA01F6910C80E6 43 11 1 0x491E3B003C66376EB823538EA540F6525814 44 12 1 0x79B4D5E3A846DB6BF3BE70EE0B2A748FC442 45 13 1 0x7E6B673849A5284811CEDBE051E2B7447D5C 46 14 1 0x5F6022FB7C7C75B2F44F414E715A98B34A9E 47 15 1 0x69A2AC9A97DC0F394ACC4F127B3C521FBF62 48 16 1 0x0D4EE6A642CCD0924F0BFE83B6DD7C3BEC70 49 17 1 0x0EA5F06FE05E70ACE66571F7FD90435E698A 50 18 1 0x2020682A263ClDDC29E2C4BED90946B9646E 51 19 1 0x0547A6A4F4DD8D0A5025DC6D726209B AA618 52 20 1 0x50B482EDE4B8A9D9D75163EDEDlCC62458A6 53 21 1 0x2422623BCF0619F22DA083E114A5EC9517AA 54 22 1 0x0F35DE05FB486550A17D7FC4E468EA8E4E52 55 23 1 0x429894A78B0FAlCC14C8D0FB436CD57FFB84 56 24 1 0x0F80B04278E8484316B16B6F4E8B5C444DD6 57 25 1 0x4F0018149EE6A47C4C35851716D04BB770CA 58 26 1 0x20E2DB0462772C48347CA565714C2BC413F0 59 27 1 0x634CEF7A72CClDEFA56D9F8C95D36806AE0E 60 28 1 0x45DF81B8828935A7C6971FE3A97A599CEBF6 61 29 1 0x7BE67E4C06E4C7B738B0AEFlE84356A9A456 62 30 1 0x6F9CDC4866B608E80F0817ABD1626D296A20 63 31 1 0x5DD3AF691E70FF5639763F9AC036182CCFE8 64 0 2 0x4CF8379D3B7C64525122A257BD3485F498C6 65 1 2 0x546FFlE0695D08CB4DDF965845492E33A40E 66 2 2 0x6E2C2032E63B500EA3BlAD51A664360DA5CA 67 3 2 0xlA3E0B25A53D9A54ECB67F70B7E77405CE3C 68 4 2 0x4033DD1490A4F16870FEC5CE550B0A65E99E 69 5 2 0x71CF2239AFC076A0226444C175E70B4128B4 70 6 2 0x00FA9A986CE47DB2D5283AF64CC70CC1285C 71 7 2 0x73CC56FE96E5DC0690CBC367375F04995BAE 72 8 2 0x4D08929C05DEB983A35560816E4BAB23B98E 73 9 2 0x23764A50366D33CAA31C188F283EEF697DB8 74 10 2 0x5EE35010AC4ACB6DEDD0E887F9322F0C39D8 75 11 2 0x6171A046B512839766EC9670F74DB298AFA8 33 200838193 表3——512FFT模式的關聯安布調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(十六進位格式） 76 12 2 0x584B3703769C4B78001861C91757B191A2BC 77 13 2 0x7C5B3E3F31D6B30FA1973C5D40053D88AD72 78 14 2 0x308CB4842EA2650B93DF2F259B103873BF06 79 15 2 0x5B2A19992C807971A5AC58BDlC63780F7FF6 80 16 2 0x450EE0B668F2C0322109D6782D23EF6548DC 81 17 2 0x53F4D7C502823850AD0768E4699072DB3B20 82 18 2 0x6AC083142D01D27A73412EC49F7C560E671A 83 19 2 0xl6BA9E844F2C64923D85AB9E133D72CDD010 84 20 2 0x785286976B2768A26855704BF4731BC049DC 85 21 2 0x2A317C996909B5C6F89F93611AF2228638BC 86 22 2 0x384A3CC0FA28866F5F195EDFB3237530B496 87 23 2 0x5801186BD928C1A2E0B4AA6C65F98717F82A 88 24 2 0x044El 8CCA7AF3F2FB50DF25F6B40B1776CAA 89 25 2 0x3C3F9CC61AFE90BlD7AEF8DDD925D413251A 90 26 2 0x0D70AA48F655A98B08DBBF4F77A5D7901F76 91 27 2 0x5419A8C1924A7C0613F98EE97C3975285036 92 28 2 0x7D81685FEAC6EBAA5D786C3CB188C4193B22 93 29 2 0x3CE08517717CAD65B042F33130BA312E02D4 94 30 2 0xl5024AD06B0A07D035D3E999B9D90826738C 95 31 2 0x532FDDF76524FDA34B68363D237A3D711CC0 96 0 0 0x04C3904B2AAE4B72390AD3C7897B63768226 97 1 1 0x06BCDF3326FlA4047AA7AD255221D6C20380 98 2 2 0xl5ADD035357ClE8A61BD4F3B7598B9C18082 99 3 0 0x0588AD5EE583EA824A4B2C4CEE38D9671FF8 100 4 1 0x1 ED5FAB7C07990C6013F321573511C3CAF2C 101 5 2 0x652F573841E61C07B6F939543FFDlBAA2364 102 6 0 0x3D36EFBD347A29CADD8E01A8D9C27857EF00 103 7 1 0x2F6667F0EDF7E315905C53EC679ED1608EBC 104 8 2 0x5CB8F719B12545FCDB A0C8F61A12B3E943B A 105 9 0 0x58D2EE908B41EC3E46B071D3F7A455C8C220 106 10 1 0x7428CACE5AD1072E90307973A87D8A20A260 107 11 2 0x429225DD0707FCFE2036961F7776A75DC5CE 108 12 0 0x413FFFCF6BA9A2B255B2E5299386AC66F02E 109 13 1 0x3FB212E044A58A5EA791668BCE6A62EBF470 110 14 2 0x05265C8334CA703B3C7466B7A928A84FCEEC 111 15 0 0x762E49C1325E100F76B2F370D2607BC55C04 112 16 1 0x21B4EBFB8F3F87DACE14D3E52366AC8CE6C4 113 17 2 0x24E5A63AA02815CD025E45E1D1FBE523B346 34 200838193 以下是 IEEE802.16-2005 中的 8.4.6.1.1 的表 309、309a 及 309b中所指定的該前文調變序列/W〆i = 0, 1，…，113，其在此以參照方式併入本文。 5 表309——2k(2048)FFT模式的前文調變序列每段(segment)及識別細胞(IDcell)Index identifying field modulation sequence cytokines (in hexadecimal format) 0 0 0 0x4FADFFE80EEC23 53D5E0D719E27165A726CC 1 1 0 0x689540E03A9813D746D411D6F5A34B618636 2 2 0 0x7EAB49F0D40012E30F6889469B8E4CC8DAE2 3 3 0 0x20ElBD2D774AA4FCC71967D487C2132899B8 4 4 0 0x3B75A75918A6046E6CEFlC045B7461A0FC06 5 5 0 0x70EF 1EF0E5EBC113 5B7D5C6A2B3296621B22 6 6 0 0x631CB45B105A839120141FAABE6E062E9DB0 7 7 0 0x3D140B4B808275866786FD39818CB56F99B4 8 8 0 0x4D3EAC3F93F3183890313FA5490C479D116A 9 9 0 0x71C9D4DA13243705C67A34272CBBB4008F14 10 10 0 0x58A42AD7B2A9B35C7A61C9ED377C0DB80B08 11 11 0 0x7C7805023CA85B2536A49744D6BC646E3144 12 12 0 0x570826242964A3D970197519D8B53461DA3E 13 13 0 0x49AD9B551D5D6328C67468383F40083485FE 14 14 0 0xlD40D60A5254D9453EA19B9BA7C1005EF334 15 15 0 0x39C144E4DA882F6897AA3442361FC2FAD6C6 16 16 0 0x753A6EC9E4F3650158AllAD89F282D23840E 17 17 0 0x292FA6D9EEB93 80C51C64207E10CA9C5C588 18 18 0 0xlDCC7A97488252B60C39A076D147602365F4 19 19 0 0x21FF46D567A04D2F235361EBF18D32A EFEF2 20 20 0 0x07A545581C96FBC44CA579B589B83EE93CFE 21 21 0 0xlD702FE4A54DB0D04CB5544709062C3BlB9A 22 22 0 0x1138EB1890A2F937C44976A1143C045687DA 23 23 0 0x64B6A4BCB858AA2000BEE1670671DE372AD0 24 24 0 0x4BD9245280AA3DCCBDE04FCECD0D2F7F239C 25 25 0 0x3B5BElF4D4217A63774C59A33DC120A3340A 26 26 0 0xlBE2B98347E2034F48A552742029079B5CE0 27 27 0 0x028D1838CF58DE02EFA96565B4C88D8B67BA 28 28 0 0x5F68B1B2A7B73CC1F2ACEBF5B0AC1BC400CC 29 29 0 0x665C532EAE0EFDEFCD6802FC3 A7310EA5348 30 30 0 0xl07D32AC3D373195BA843EBE6968C4BF9BE2 31 31 0 0x3FEAB859E5262F941B654C60720DB330F334 associated with each segment and Ambrose modulation sequence identified cell 32 0 1 0xlEED6EE8F4A3C06B60DF5B116089237C300E 33 1 1 0xl9822C4632EC86450C6FE10A51E5C0FD5F2C 34 2 1 0x2DDE838BlD072B0CFBB04AA294991CC04696 35 3 1 0xlC357F566732B055A01C0139653483A7C81A 36 4 1 0x03B5252046ED369F0B98CC6F9DF0C74D5B2E 37 5 1 0x32D21CF781A89AB9891534683411128FD7AE 32 200838193 3--512FFT mode table (continued) index identifies Cell segment modulation sequence Carry format) 38 6 1 0x30E0EBF1A21A99E492755A1A85B0B712A660 39 7 1 0x63855C3358BA6EC7E5C7C8ED5B43BFF9084A 40 8 1 0x662AB8C7A8E37FA564F4FE6C2D23493FD8B0 41 9 1 0x5E9F2165C7ED09BE6B3 5FA315DE9BC719518 42 10 1 0x458D1A911535B85F1B0E5DBA01F6910C80E6 43 11 1 0x491E3B003C66376EB823538EA540F6525814 44 12 1 0x79B4D5E3A846DB6BF3BE70EE0B2A748FC442 45 13 1 0x7E6B673849A5284811CEDBE051E2B7447D5C 46 14 1 0x5F6022FB7C7C75B2F44F414E715A98B34A9E 47 15 1 0x69A2AC9A97DC0F394ACC4F127B3C521FBF62 48 16 1 0x0D4EE6A642CCD0924F0BFE83B6DD7C3BEC70 49 17 1 0x0EA5F06FE05E70ACE66571F7FD90435E698A 50 18 1 0x2020682A263ClDDC29E2C4BED90946B9646E 51 19 1 0x0547A6A4F4DD8D0A5025DC6D726209B AA618 52 20 1 0x50B482EDE4B8A9D9D75163EDEDlCC62458A6 53 21 1 0x2422623BCF0619F22DA083E114A5EC9517AA 54 22 1 0x0F35DE05FB486550A17D7FC4E468EA8E4E52 55 23 1 0x429894A78B0FAlCC14C8D0FB436CD57FFB84 56 24 1 0x0F80B04278E8484316B16B6F4E8B5C444DD6 57 25 1 0x4F0018149EE6A47C4C35851716D04BB770CA 58 26 1 0x20E2DB0462772C 48347CA565714C2BC413F0 59 27 1 0x634CEF7A72CClDEFA56D9F8C95D36806AE0E 60 28 1 0x45DF81B8828935A7C6971FE3A97A599CEBF6 61 29 1 0x7BE67E4C06E4C7B738B0AEFlE84356A9A456 62 30 1 0x6F9CDC4866B608E80F0817ABD1626D296A20 63 31 1 0x5DD3AF691E70FF5639763F9AC036182CCFE8 64 0 2 0x4CF8379D3B7C64525122A257BD3485F498C6 65 1 2 0x546FFlE0695D08CB4DDF965845492E33A40E 66 2 2 0x6E2C2032E63B500EA3BlAD51A664360DA5CA 67 3 2 0xlA3E0B25A53D9A54ECB67F70B7E77405CE3C 68 4 2 0x4033DD1490A4F16870FEC5CE550B0A65E99E 69 5 2 0x71CF2239AFC076A0226444C175E70B4128B4 70 6 2 0x00FA9A986CE47DB2D5283AF64CC70CC1285C 71 associated with each segment and Ambrose modulation sequence identified cell 7 2 0x73CC56FE96E5DC0690CBC367375F04995BAE 72 8 2 0x4D08929C05DEB983A35560816E4BAB23B98E 73 9 2 0x23764A50366D33CAA31C188F283EEF697DB8 74 10 2 0x5EE35010AC4ACB6DEDD0E887F9322F0C39D8 75 11 2 0x6171A046B512839766EC9670F74DB298AFA8 33 200838193 3--512FFT mode table (continued) cell recognition index modulation sequence segment (hexadecimal format) 76 12 2 0x584B3703 769C4B78001861C91757B191A2BC 77 13 2 0x7C5B3E3F31D6B30FA1973C5D40053D88AD72 78 14 2 0x308CB4842EA2650B93DF2F259B103873BF06 79 15 2 0x5B2A19992C807971A5AC58BDlC63780F7FF6 80 16 2 0x450EE0B668F2C0322109D6782D23EF6548DC 81 17 2 0x53F4D7C502823850AD0768E4699072DB3B20 82 18 2 0x6AC083142D01D27A73412EC49F7C560E671A 83 19 2 0xl6BA9E844F2C64923D85AB9E133D72CDD010 84 20 2 0x785286976B2768A26855704BF4731BC049DC 85 21 2 0x2A317C996909B5C6F89F93611AF2228638BC 86 22 2 0x384A3CC0FA28866F5F195EDFB3237530B496 87 23 2 0x5801186BD928C1A2E0B4AA6C65F98717F82A 88 24 2 0x044El 8CCA7AF3F2FB50DF25F6B40B1776CAA 89 25 2 0x3C3F9CC61AFE90BlD7AEF8DDD925D413251A 90 26 2 0x0D70AA48F655A98B08DBBF4F77A5D7901F76 91 27 2 0x5419A8C1924A7C0613F98EE97C3975285036 92 28 2 0x7D81685FEAC6EBAA5D786C3CB188C4193B22 93 29 2 0x3CE08517717CAD65B042F33130BA312E02D4 94 30 2 0xl5024AD06B0A07D035D3E999B9D90826738C 95 31 2 0x532FDDF76524FDA34B68363D237A3D711CC0 96 0 0 0x04C3904B2AAE4B72390AD3C7897B63768226 97 1 1 0x0 6BCDF3326FlA4047AA7AD255221D6C20380 98 2 2 0xl5ADD035357ClE8A61BD4F3B7598B9C18082 99 3 0 0x0588AD5EE583EA824A4B2C4CEE38D9671FF8 100 4 1 0x1 ED5FAB7C07990C6013F321573511C3CAF2C 101 5 2 0x652F573841E61C07B6F939543FFDlBAA2364 102 6 0 0x3D36EFBD347A29CADD8E01A8D9C27857EF00 103 7 1 0x2F6667F0EDF7E315905C53EC679ED1608EBC 104 8 2 0x5CB8F719B12545FCDB A0C8F61A12B3E943B A 105 9 0 0x58D2EE908B41EC3E46B071D3F7A455C8C220 106 10 1 0x7428CACE5AD1072E90307973A87D8A20A260 107 11 2 0x429225DD0707FCFE2036961F7776A75DC5CE 108 12 0 0x413FFFCF6BA9A2B255B2E5299386AC66F02E 109 13 1 0x3FB212E044A58A5EA791668BCE6A62EBF470 110 14 2 0x05265C8334CA703B3C7466B7A928A84FCEEC 111 15 0 0x762E49C1325E100F76B2F370D2607BC55C04 112 16 1 0x21B4EBFB8F3F87DACE14D3E52366AC8CE6C4 113 17 2 0x24E5A63AA02815CD025E45E1D1FBE523B346 34 200838193 the following is a table of 309,309a and 309b IEEE802.16-2005 8.4.6.1.1 of the hereinbefore specified modulation sequence /W〆i = 0, 1, ..., 113, which is incorporated herein by reference. 5 Table 309 - 2k (2048) FFT mode of the previous modulation sequence segment and identification cell (IDcell)

索引識別細胞段調變序列(wk) 0 0 0 0xC12B7F736CFFB14B6ABF4EB50A60B7A3B4163EA3360F697C 45075997ACE17BB1512C7C0CEBB34B3 89D8784553C0FC60BDE 4F166CF7B04856442D97539FB915D80820CEDD858483 1 1 0 0xA9F7AC 1BD0A4BD694D3EDC2991CC3B2D24BF26A22346F8D B370202CDA25D382D4119AAC676E320A938A95762C4078689B6 024E477F0EDA8F563106F0D70EBE3E006F75B50B53 7D 2 2 0 0x56531FBB87033E4F362273BAF0F8879B45B9F19143E5494F7B0 25D138DF057756DE625196292AF6D28FD0AA08453E5B9871EDA E3E680B848C67BFBD7ADE73CFBBBA4E81191267A 3 3 0 0xB397F552DEB2717CC19DDF0D59674DD6F6D3866A3FD023A0 09F592B56460660F1D585E3078AFE272D97FDF4280790C3A9E5F CF9910895E9DAF2BF65728F7390C930428B4E6793C 4 4 0 0xlBD4C84B42DF6B7DC53F6C7B8E223A3B16D8E214CFA5469A 8D22246BCF297E5F92159406608B8A0BB55EF64A85B1241C5CD FA048CF0492AB3BCF46A8E8FE986F06E246F1E06C68 5 5 0 0x4E00947B6722B09389EFB4F6951C488B368393E8254948359287 441709C6F0E4463C067733C42A7FA89645D7D69AF2ACE5402AC 473DBF2C75ECB8B630BAF4B27F282249BD52660 6 6 0 0x494CAB6935E10DB5D6E985997849EA45F0D5E2EDF7670BFD9 643531760D9F7CC01DD63BEEDFECB7E806F3F189291C074C828 9D93A95324D131391E23EB9CEEAB0E789DA1F5B9CB 7 7 0 0x4C5F10264D6C5085346E86BF8567294523ClB683D2A220D9BE DCEBBA110620BB53ECB0338BE7109240E22EC902FCA05F97338 BB9DF2DDEAF7C795BCB160BD4F01A6DBF2A729373 8 8 0 0x79797D9AB260C20D5A460CDC49B2D0285E095E835EAF2ECC 74E010DD8 A53797CE0EC2EEBA51E779AA6B749B8E69FFDD63 2AC79D64143467E73017113BCDF45E787D0A9EAC3D22E 9 9 0 0xAlB9AC2C3D5B9BAAE5067C9E4A83C167076BE7D8699ACA7 10FF205DE774FD46DD5F7851A2149D61E57152B98B6AF4194B6 FED90ADA008D1D5F8DD87E8060F943BC9124C1999236 10 10 0 0x066E5FA91D00D63B26036009F8C69142B9D936396FF9E137864 78BBFF5DE6F184A0F844663950F69AFEDEA93CA4A3BF94B131 75 A2CBBA3 836A34E5CE6D763767B35515F332D836 11 11 0 0xF443E9FBF763DA2A5137A57C7DA504D194EC1797AD33365B AC2F0C94541F4D47A664A7A17308C37E06BB0826FF999C15EE4 30A3CC54159E3B7EEBD5FF307BB24A939AB261E2B3C 35 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表)Index identifying field modulation sequences cells (wk) 0 0 0 0xC12B7F736CFFB14B6ABF4EB50A60B7A3B4163EA3360F697C 45075997ACE17BB1512C7C0CEBB34B3 89D8784553C0FC60BDE 4F166CF7B04856442D97539FB915D80820CEDD858483 1 1 0 0xA9F7AC 1BD0A4BD694D3EDC2991CC3B2D24BF26A22346F8D B370202CDA25D382D4119AAC676E320A938A95762C4078689B6 024E477F0EDA8F563106F0D70EBE3E006F75B50B53 7D 2 2 0 0x56531FBB87033E4F362273BAF0F8879B45B9F19143E5494F7B0 25D138DF057756DE625196292AF6D28FD0AA08453E5B9871EDA E3E680B848C67BFBD7ADE73CFBBBA4E81191267A 3 3 0 0xB397F552DEB2717CC19DDF0D59674DD6F6D3866A3FD023A0 09F592B56460660F1D585E3078AFE272D97FDF4280790C3A9E5F CF9910895E9DAF2BF65728F7390C930428B4E6793C 4 4 0 0xlBD4C84B42DF6B7DC53F6C7B8E223A3B16D8E214CFA5469A 8D22246BCF297E5F92159406608B8A0BB55EF64A85B1241C5CD FA048CF0492AB3BCF46A8E8FE986F06E246F1E06C68 5 5 0 0x4E00947B6722B09389EFB4F6951C488B368393E8254948359287 441709C6F0E4463C067733C42A7FA89645D7D69AF2ACE5402AC 473DBF2C75ECB8B630BAF4B27F282249BD52660 6 6 0 0x494CAB6935E10DB5D6E985 997849EA45F0D5E2EDF7670BFD9 643531760D9F7CC01DD63BEEDFECB7E806F3F189291C074C828 9D93A95324D131391E23EB9CEEAB0E789DA1F5B9CB 7 7 0 0x4C5F10264D6C5085346E86BF8567294523ClB683D2A220D9BE DCEBBA110620BB53ECB0338BE7109240E22EC902FCA05F97338 BB9DF2DDEAF7C795BCB160BD4F01A6DBF2A729373 8 8 0 0x79797D9AB260C20D5A460CDC49B2D0285E095E835EAF2ECC 74E010DD8 A53797CE0EC2EEBA51E779AA6B749B8E69FFDD63 2AC79D64143467E73017113BCDF45E787D0A9EAC3D22E 9 9 0 0xAlB9AC2C3D5B9BAAE5067C9E4A83C167076BE7D8699ACA7 10FF205DE774FD46DD5F7851A2149D61E57152B98B6AF4194B6 FED90ADA008D1D5F8DD87E8060F943BC9124C1999236 10 10 0 0x066E5FA91D00D63B26036009F8C69142B9D936396FF9E137864 78BBFF5DE6F184A0F844663950F69AFEDEA93CA4A3BF94B131 75 A2CBBA3 836A34E5CE6D763767B35515F332D836 11 11 0 0xF443E9FBF763DA2A5137A57C7DA504D194EC1797AD33365B AC2F0C94541F4D47A664A7A17308C37E06BB0826FF999C15EE4 30A3CC54159E3B7EEBD5FF307BB24A939AB261E2B3C 35 200838193 Table 309--2k FFT mode of the foregoing modulation sequence Each segment and identify cells (continued)

索引識別細胞段調變序列(Wk) 12 12 0 0xF38BE6D2108483C056088C5E7C8BF92E9C973E0B2ADA9342 B46C06C4C2516CF7B9E6043E2947AD40F41734E02A9ADCE9C7 0E03C4D50E7EAC73DAD56BDBB796289DDCC357776DE2 13 13 0 Ox 104AA84E70B163 A42654A45995182B1C3DD63F4BCB09ECA7 9A0D6D2D2A784DD6015794598310BE087F75019227F899744B7 C73A9008C83C0923D5DC154FB2DCBF8983E709BCDF3 14 14 0 0x0B49A507AC4EAAC7551FC4B00658A28D951FC81723CC1 CO 24AAC6A9DE9686383C28036C762C020012D797866DE589B36B B95DFDAC2B3D0AB9DDE0B9719918062FE824E063BA3EC 15 15 0 0x64C14C7D3725A74923E6B2FBlC3BDC77FEE58CB0AF310EC 37F22C93E2C809AE8410963E6CF5E7E192502960F0272244A31D 2CDDC657BCFF422E29C50D5E82EDCB44579181BBA4D 16 16 0 0x210D8A8E602BD53F981BE763E10F4730BDA53D2F89BDlD91 C8F2DD5B96732935F789F643911937344E9F2ECF3222AB076BC 2B5EE407DC581F0EF9FFBD56D14D137A0418ADA06D0 17 17 0 0x88960A88E3F79C95D525DB49679C20A736D0E9E4DlFCB9DE 7735AE1E947F4E93637E98143D6BB779394C58F2AC5A9BD7B2 074E98F1B2026B67B507CAAD8076082B09FB345DA02D 18 18 0 0xlD2D5C8CDEAFCA5EC180D9638CD0F277AF08AB5133E6D6 0C919AADAD00569E5F902D40500542631FB729FC3AF456C9A4 7E3EB967D51E09D712D8D49A028E738BEC90061B089C9F 19 19 0 0xA063E03DE6C137F3FC56F970052BCF7333C8451BF5D18DlB 9AA5342E79C25451C1D862ECB5CFF21B7CC203817D78C192EE 1A68976652E1740C4B123552C85CEE524A2AA90D428B 20 20 0 0xD2A7F126A9599093A9262E66A2471B6B6A2ACB0A4330A114 011366CBC3B01CC85CF1915982BE64DDDF8EEA0985D8F47BC 4B41381C58271C30578960EEFB054F299C721B81D5DFE 21 21 0 0x7682842351C76BC8E4A7EA4EDDB0F92F6E876FCFDFDAA49 87B38FC4FA47C52EF0070DCC8C77FA622B20BEBC2373011660 B4960EF49FB5E519D79E12029C7D13C553EDC48564A52 22 22 0 0xAD6143F875C4C965A7018B8230D8D50297DA2C54A6DD52E A6207620F4A66EAFEBC4DD56233FF5DF78FB20CD74ECC6D01 232FCFB9CBD36B3381F0224EF5DE7BE0AFEF0A1AEF3D82 23 23 0 0x9A14B722E05D8455A80B4A1B1D12A30C1E25D9488BAD486 C639CC7BDF651E957E041A7C092A916BF3E3642121350579B3F 8F8F4A30570237E722A6DC532A26F4FD4A0767D91A8B 36 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表)Index identifying field modulation sequence cytokines (Wk) 12 12 0 0xF38BE6D2108483C056088C5E7C8BF92E9C973E0B2ADA9342 B46C06C4C2516CF7B9E6043E2947AD40F41734E02A9ADCE9C7 0E03C4D50E7EAC73DAD56BDBB796289DDCC357776DE2 13 13 0 Ox 104AA84E70B163 A42654A45995182B1C3DD63F4BCB09ECA7 9A0D6D2D2A784DD6015794598310BE087F75019227F899744B7 C73A9008C83C0923D5DC154FB2DCBF8983E709BCDF3 14 14 0 0x0B49A507AC4EAAC7551FC4B00658A28D951FC81723CC1 CO 24AAC6A9DE9686383C28036C762C020012D797866DE589B36B B95DFDAC2B3D0AB9DDE0B9719918062FE824E063BA3EC 15 15 0 0x64C14C7D3725A74923E6B2FBlC3BDC77FEE58CB0AF310EC 37F22C93E2C809AE8410963E6CF5E7E192502960F0272244A31D 2CDDC657BCFF422E29C50D5E82EDCB44579181BBA4D 16 16 0 0x210D8A8E602BD53F981BE763E10F4730BDA53D2F89BDlD91 C8F2DD5B96732935F789F643911937344E9F2ECF3222AB076BC 2B5EE407DC581F0EF9FFBD56D14D137A0418ADA06D0 17 17 0 0x88960A88E3F79C95D525DB49679C20A736D0E9E4DlFCB9DE 7735AE1E947F4E93637E98143D6BB779394C58F2AC5A9BD7B2 074E98F1B2026B67B507CAAD8076082B09FB345DA02D 18 18 0 0xlD2D5C8C The foregoing modulation sequence DEAFCA5EC180D9638CD0F277AF08AB5133E6D6 0C919AADAD00569E5F902D40500542631FB729FC3AF456C9A4 7E3EB967D51E09D712D8D49A028E738BEC90061B089C9F 19 19 0 0xA063E03DE6C137F3FC56F970052BCF7333C8451BF5D18DlB 9AA5342E79C25451C1D862ECB5CFF21B7CC203817D78C192EE 1A68976652E1740C4B123552C85CEE524A2AA90D428B 20 20 0 0xD2A7F126A9599093A9262E66A2471B6B6A2ACB0A4330A114 011366CBC3B01CC85CF1915982BE64DDDF8EEA0985D8F47BC 4B41381C58271C30578960EEFB054F299C721B81D5DFE 21 21 0 0x7682842351C76BC8E4A7EA4EDDB0F92F6E876FCFDFDAA49 87B38FC4FA47C52EF0070DCC8C77FA622B20BEBC2373011660 B4960EF49FB5E519D79E12029C7D13C553EDC48564A52 22 22 0 0xAD6143F875C4C965A7018B8230D8D50297DA2C54A6DD52E A6207620F4A66EAFEBC4DD56233FF5DF78FB20CD74ECC6D01 232FCFB9CBD36B3381F0224EF5DE7BE0AFEF0A1AEF3D82 23 23 0 0x9A14B722E05D8455A80B4A1B1D12A30C1E25D9488BAD486 C639CC7BDF651E957E041A7C092A916BF3E3642121350579B3F 8F8F4A30570237E722A6DC532A26F4FD4A0767D91A8B 36 200838193 309--2k FFT mode table and each segment Identifying cells (continued table)

索引識別細胞段調變序列(Wk) 24 24 0 0xE6944DEEE85D75E3C5D9B90912177D8A85909D87AC21FA4 A51660E11D30DBEED391E5972D000EF4E9BF30B63B18C0285F E4151A4231C289A824D405142B7C775C3C68D8AA1D8A7 25 25 0 0x9927326FDFEC99025AAlB79364F06C63AFE4A96C2A20FF8B 151EF97AFD08E161EA6B10A1FA74794521DE02645C2561D3BE A5D382AE3707112619403E23C724B36B791DFAFEAA3A 26 26 0 0x03C19F38117AE5BDADF256FB4A223A660E2D626598F56580 E30FA2E40A521FE5D68709B7F62E4C08CB9A26AE12002AD2F A9DE6C2B298538556EFBA71626A02745C3DB5EBADD3F3 27 27 0 0xCBA035B40EB7C8A3A048C490E38935CBF956C58AFC891A6 C112C0321CF5262498915794DCA703BD31A96FF4C0636F2D5E9 F17C23F1486B90715597D565017CB8E424DE9A8E464E 28 28 0 0x9321B7BE085143649644BCDF8342FCAD3462DAlC572227B0 39BBC6F58B52EEED2ACFB3 8F9CAA2BA2F513 A87B1 ODD 19D EFB6A9972EE12D81C83DBFB3CFCC93D35ED252D0E1A3D1E 29 29 0 0x215F6EA7C7F95C74828485AABF6A5F54FD32D1A8F4F6F1C2 0E6CDB57FA81ED70DFE44ACCD4B37D4F01AD3BF31AFBB38 A4DDBC613C8809E46C1247222E5041D8CDC08F37F679878 30 30 0 0xB5 ABE9FC329600031F97DEA8CF5B17EC432BB9F19082A3CF A2682AAF121EE855873119A78869AF988BD90C64A7F31224727 D22F74D7499AF6CD3B649C54AED6DC84DD8AB876B84 31 31 0 0x956D097E914338D226020B8A3BA5B3BB8733A9723CF19485 DD9D22670B1328B825A6BA154586EDE60EB328AF8DF114182 EDAEE401620A1E870BFFFF430922893C1F54A87A90BD3 32 0 1 0x251D994101EDA04D8BD0B8EA6FA20AE590C2CC199AB083 C6AE61F091F2DD41D989EC164B1481D611BE9CEA0094AFE9D B56A4763F55B26E54EAB73ACD7D4BBA64C1421BC3EB9D67 33 1 1 0xll3A5FB9C529AADC9CABlFB882905601778659CDB69AFCB ADDF8B42314A7985B5F87C20692309D350454FF9326481683FA DAE4711DD0CC5DACEDF7CD5DF1177D60EBA4DBE657F1 34 2 1 0x9F08189EFC6B5DE6C2CFDCD13195DE077586B8EE01E00B64 68B10A53FAAC1DD846E2A01681980D444B6AD0D34C34EC9C FD9341507878EC9FBAE498F5A20614BDF3E4B22DD285E6 35 3 1 0x3ECD476669A04A260414FD16F3F525AA060F20ADD9334A29 A9D9F90618916EF51840C8F53AB596297F0782BEF426E8B8539 C9FDE970455B58F533FDAC1711DE6310E7596ED285E 37 200838193 表309-2k FFT模式的前文調變序列每段及識別細胞(續表)Index identifying field modulation sequence cytokines (Wk) 24 24 0 0xE6944DEEE85D75E3C5D9B90912177D8A85909D87AC21FA4 A51660E11D30DBEED391E5972D000EF4E9BF30B63B18C0285F E4151A4231C289A824D405142B7C775C3C68D8AA1D8A7 25 25 0 0x9927326FDFEC99025AAlB79364F06C63AFE4A96C2A20FF8B 151EF97AFD08E161EA6B10A1FA74794521DE02645C2561D3BE A5D382AE3707112619403E23C724B36B791DFAFEAA3A 26 26 0 0x03C19F38117AE5BDADF256FB4A223A660E2D626598F56580 E30FA2E40A521FE5D68709B7F62E4C08CB9A26AE12002AD2F A9DE6C2B298538556EFBA71626A02745C3DB5EBADD3F3 27 27 0 0xCBA035B40EB7C8A3A048C490E38935CBF956C58AFC891A6 C112C0321CF5262498915794DCA703BD31A96FF4C0636F2D5E9 F17C23F1486B90715597D565017CB8E424DE9A8E464E 28 28 0 0x9321B7BE085143649644BCDF8342FCAD3462DAlC572227B0 39BBC6F58B52EEED2ACFB3 8F9CAA2BA2F513 A87B1 ODD 19D EFB6A9972EE12D81C83DBFB3CFCC93D35ED252D0E1A3D1E 29 29 0 0x215F6EA7C7F95C74828485AABF6A5F54FD32D1A8F4F6F1C2 0E6CDB57FA81ED70DFE44ACCD4B37D4F01AD3BF31AFBB38 A4DDBC613C8809E46C1247222E5041D8CDC08F37F679878 30 30 0 0xB5 ABE9 The foregoing sequence of each section and identified modulation FC329600031F97DEA8CF5B17EC432BB9F19082A3CF A2682AAF121EE855873119A78869AF988BD90C64A7F31224727 D22F74D7499AF6CD3B649C54AED6DC84DD8AB876B84 31 31 0 0x956D097E914338D226020B8A3BA5B3BB8733A9723CF19485 DD9D22670B1328B825A6BA154586EDE60EB328AF8DF114182 EDAEE401620A1E870BFFFF430922893C1F54A87A90BD3 32 0 1 0x251D994101EDA04D8BD0B8EA6FA20AE590C2CC199AB083 C6AE61F091F2DD41D989EC164B1481D611BE9CEA0094AFE9D B56A4763F55B26E54EAB73ACD7D4BBA64C1421BC3EB9D67 33 1 1 0xll3A5FB9C529AADC9CABlFB882905601778659CDB69AFCB ADDF8B42314A7985B5F87C20692309D350454FF9326481683FA DAE4711DD0CC5DACEDF7CD5DF1177D60EBA4DBE657F1 34 2 1 0x9F08189EFC6B5DE6C2CFDCD13195DE077586B8EE01E00B64 68B10A53FAAC1DD846E2A01681980D444B6AD0D34C34EC9C FD9341507878EC9FBAE498F5A20614BDF3E4B22DD285E6 35 3 1 0x3ECD476669A04A260414FD16F3F525AA060F20ADD9334A29 A9D9F90618916EF51840C8F53AB596297F0782BEF426E8B8539 C9FDE970455B58F533FDAC1711DE6310E7596ED285E 37 200838193 Table 309-2k FFT mode Cell (continued)

索引識別細胞段調變序列(Wk) 36 4 1 0x3D6BD09A3DBD9ECCClC584E71C87221CD266087C7A692 D3EFF2D5F84DF2011EA3675853A61CD75D23600F8C115E034 06AF914938170256B86DA5646CE0211FFDCD76A9A5E8D840 37 5 1 0x27F0DA91D4ADlF39F0EAD459E2705CB2CA029A8E57592F 1697877199FF707D0411D6068A0664594D89568460F268A225B B2AC0ED043659D779EA84656DEC0322F8C0CB111AD2C8 38 6 1 0x616FBCE479AAAC98B483FCF6EC06BBA84580EA98FA517B 3065A418CAF2C965B7AF2E7866B257390517016F25214900881 93372879FAA8954651E7B3C80BA1725CB781726F32328 39 7 1 0x357714863C5F477BE963806EA9D6EF6350BAFClC183FCC6 BB47FFFEAA9FFD863 58918F6 A218266D624C A07092EC24466 C7F7120C1887A3F59A48EBAB67F24A6E8930B862F509A3 40 8 1 0xABE49D0F8B9C8406BD70B3FD83758768CDBA98164B929A 1EA18D59BD44B 80F9BBEF9D1CE51E4EE1CF21F6CCF18 A7D 4A92C26C121A22FC95663F0B55B892CF7D3D65812A503DA48 41 9 1 0x6898A2FC8C36DF0B84380FBCDE70812390B644E3B5BEA87 D76C9123477638B331BEBC075664EA58C15680263664C48BF3 411C3C13789C504A01FB4C7B9AC86AA524075E52C6A90 42 10 1 0xE7709988D2D2D6ABC6CEFB025FFCAFCA4C0E75C883529 EA439B75229ECE88FB5BD5D3BCA17C25BEB6575D932D01B 5A63E044102E208C071C734EBA55712E122822ED2F2B379A11 43 11 1 0xE49DCC8627542BA30FA500DCC23EEBF5A54B490EE7632C 6BE57C724C3E74CD199930AB1D929D425185E2E1220CD2300 F487392F4DC29416D332F13F8E760571D99617B263F387D 44 12 1 0xEE4CBD9B0EC65DE6DA78 A2 A205E5908B74127BDE612 A9 BD2D8F0C6A2B9E675401A9DDAA30FF9A55E87DAFFA3A33 E53AAA1D96A60B326D7F6FA147098DD825BD0FB13ADDFE0 1569 45 13 1 0xAD7DAD0BCA42DEDAFCCF7E57DC58D00E691E81C04B98 B2EDB66C66570B204B8352A08744D8A603C2A7769C7A9EE9 38189A45737B86871E5C4025EE594D827C603E3A49FD45519F 46 14 1 0xF8F29BA0D2FA2D529EAF2CE9383E614F5AE8CA06658DD0 39AB2C9912DFC7CD1BA9744339E537850B7E4EA564819772D 3320B1C7BA73EC24D90B8DCE17EA5DAD53771F68B050F43 47 15 1 0x9CC0ECC9E7E8940DFED1332AF492CFD39A21F2820394EF0 523 019EE5290A2B4281FF032C23 8A6BE41116C274E918F34F3 A27B5F147E10D41658CDC7EFEDC3135255C2B83B0AE6A 38 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(Wk) 48 16 1 0xFCE9C41A74CBB56634447836109869E557C5A0FAAlD4566E3 6A51258CE6D096FBD3E0B7193418D9DFCBD27693F8A5072425 D4E3F33DB5AB45B1EF3E11A6730BED42961DF0354CD 49 17 1 0x7941B66A275FB8F0B AA8EF7FFCC36AAA660113B66BE476D 629AE512E489341F6C9F84EC1BE1C05CA3C850D20B1A12AA9 C94E1A6541C29A9B4BCD41B94460DEF2E9643ADCE86728 50 18 1 0x0A91F390213C9B2ED372BA19FC42EE85AAB2598B58D2F718 4EA920546D6A81ED316551B74B341E23 8A7FB83 A4EF7D9EB09 39B7771A6F4D0AF1F72752FE3234793D3CDC19BDFE08 51 19 1 0x96949ACCD785385AE8DE99CE42BBB73B996A886115A78D06 06AEC14D2E46E849BF88F9A2E17C2494704F1020CEF85FFDE16 B7483DBC6A130488E3AC586E528A00B90134776E08C 52 20 1 0x53FFBA26676A4FDlA6C30B8E4EA02DF535C922978CD24F60 99C25003567F207CC5851656C5FD0D3F071942A16F1DB48DFBC 26BACC15A1E618FF35F3DC3E141E3666BCA507ED72E 53 21 1 0x7F3219ABE1389DBED8FC2FlC9C0FCE1974E71C224E1922F4 CAD42E40AF15A5ECDB14221480F964E67BBD345C44DCA0853 548B399E3DF4D054D176C0804D1B1154152BE973A8896 54 22 1 0x8D5552CCA9EA46C991FF81A35873F43C963E02ED24C4102A7 9F5EB5EC25814511BA5DD2FE9FB9699E7ED76F965B24748AE1 A4A3 A590F4F13E4722CCE399006F79AD8CE673178F7 55 23 1 0xDB74EFA478268CDDE2596ADF9410FD83FCEDBB07C6DEC7 A3422A6CC66EF901C1534EC2A83E1A89BA207C721ECF3D4291 8FF40B3863379FDF3CED7A9CC86E348CAB032F8FAAD9CD 56 24 1 0x5811ADD9240A7B3 AF35CACA6EFCCF4090A54EBF33DE54C 077192354DDEB81CC968D18354090B09D7472C83E1696E19545F 08136EF20CD74656BCD31296066E03CC89E22E47CF47 57 25 1 0x871ECE60EDD2E19360D13862A15242250635774424B22465B3 EF625E72072B7C45D81076DB4A5BFD5BE146F15CAA80DA031 763DAC23BBBC54249E9878EC465F3EABE0B7AA497B8 58 26 1 0xD8259BAF89D3E13242CClCDBA9C0281A09919D24ECF5BA8 3CDCD81E698EAA37DFE3E5802B3395B80A3DE91CF6C4BE2D 34BBE985EE4041C4290D0A9185F115C963AD536E4133426 59 27 1 0xl203AlFD3F7B8E9D97A3812D4375D42BC9E8F0E393BD669A 8099407EC0356DC45FEF848C98F3EF32A9A850CC67CE432339C BAF38BBA7DD0C94BC03B4704866509255E28450E459 39 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 60 28 1 0x6 A78 A3 F0DC5E4FA504580C3 7F5416BCC4A2BD51FC1A714 71BD1433EC3DD924E713 0A7B2B3 31AB0B4 AF6CF94C045A9 C246965F46478D939795887EE3320BBC2D5DD5FFB06F894E8 61 29 1 0x3042F24E050BAB38880A07BDE5D28AEE4AD59E0D71AB59 824122E80F8FF67BEA1ECC865F50B25CF5095C642B800E6A4 D132B49E5968DEBDDA029A227AF332CF034BB937B471603 62 30 1 0xC82853465FBB213A85A52888464E5D38D997F6C31966A94B 452A2DE853CE38010BF9EA930BBD318189D5D2D0BDB44652 48 A2E8B481021531BEO1F5E0FF1 BAB753 70C57B3 6BE6E9 63 31 1 0x2B17EC947632DABA3A2E11022033F20F873032F51F0647111 11D0C215E9E84C11A9E70950977527960700B3 7C6FECC A57C3 5A91873C935D7EDC22CB44DCC251396173CAC82B912 64 0 2 0x83FC05D6DED982EB95B06E 16C91EF94B441BBD4868C09E 9B3 A251AD72427F2124607E151796070C2819E395EB68 A2C59 7391636333A7E492B70D8EA7397FFA1B28C20E0820CC45 65 1 2 0x45818FB AE49B983DB9B8FBEA1E816823430CE47BD159317 3605CA255CCCCAE73C7283336BCBC94133DCA64D675BBA8 48A3E1C2EEE35D6085F06E72EAA696FBED6EA545F27D3692 66 2 2 0xA005745E452ACE6BDDFC4A9F6253BF4B467C93ACFF0F66 3A3F5949F15A1D266DEB0D26EC16D2A083F830E878A0300D7 4CFA3266CBBF3F0244ED56344D6AD5D887B3179CE56890D 67 3 2 0xE52F56367EA45E4683E020856D05D08391D3D84766CA2253 1B3EC6BE682E76B6ED7BCAABC3AB6BDE32C4F700D4CDFF 26F79AE16499D2B70EC389AC3ED5E02FDF5C43B296CF965D 68 4 2 0xC5C62E3 A911A0F28BF6 A67E1D A2486FED7110B08F0A934 C930AA035290D098857ECF3A069203A2560DADD5016802D9 C1596526C7F1DA7C7B53360B0A673AA8634FB94D5838DC3E 69 5 2 0xF9E176A9837BF970D5FD51732ECB8D90FBD12F62B62F938 BE07915BABB0C6596080C832CE7FF914C849B9DA66F2380F3 058F66340A34CA43583EC8EDC1E5CB5A2A25436E72292D 70 6 2 0x5C26DB2489BE5197B20CD6B3 8B181B7789DCB90881AAC4 B4317B2F40B44884144A1B15BCB53C8E30FEC419861C54B56 158D9719E448B8 A8F455F5B116275D796329059CDF682D3 71 7 2 0xEF3 5242D5C426C1EBD9563A761CFBF11A531ACB93 8922E BBA5227D8292585B777783972DA79C853A2A178601E6CFEA3 5380045B50EE628F13AE3EC5B72FED52F92F731BB594DE8 40 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 72 8 2 0x17FBB33193C68A1CAA8CEF5CB9A7FDFA1E89994F1779D2D0 DE69DE75A6B338A07635C80A58722BB01398252F6C46AB7AEA 79A6FC05F383F89ED65C49A2B9FB0D82A6EC03DD61F5 73 9 2 0x076C1A1DCA870DF36638307F891A52F737BA2B54EC0AD1FC 5424D4F32DDE168ACE9B08653DEF8A23BF37CA3D306138D698 A133834BFB65BDE57048B9EEC630B13E91EDB1B52E8F 74 10 2 0xA6800969ED0CE80A76F0F9BF7597ABE76DF60F243EE529C63 AF72BAD6AB8B3F0B09DFC132C2B006827E55E352E3940A3BB8 EE3526522ADF65AB76492BA41A393740A4B85CD5113 75 11 2 0x64817485E539E02AAB074982A56DC6E867C606313194BD66B4 CF8B9E92C4F9FD138B0E6EF36F699A3E6DCC46741B8CB16389 EB A2C745398A30EA3102B6B A4FE9A8DA9605F929FF 76 12 2 0xA3E438CB9EC48C4F4DD92C24950D0FlEAE7EEE920501C2C8 2531EDF8AEE3531F8D6B82D28C1FE0731088489FD215D19202D AEE0A57E3E1634C7A1BD5395CA64C64C14E5C02D436 77 13 2 0x8F9339B406037D35ADB9858576A62AF6139FD2B02D381C7DF 147A274E145F76DE5687AEC5BD3A715E0E893EEB6F24573D401 7B24B30D4357E339B104601FC2DD184DC9A8F0D76A 78 14 2 0xDA85062511E22DEDB53797BDBEC8B0281818E890D438CB5A 48B2E4011FD5EFB2192C0FEDEE598372C7C06BEF25F9B9702A8 A9F0F52B197E9C910BB63F467E53BF46A45F75C22F6 79 15 2 0x914DE1436839A8E2FDD4EACCD645C3D29E522E19E0055A25 10679A977772830824C7363461CBF5D662456DB798BA72AEB67F EB2FC28DAAD3FAE0048727CF6E9B237A82489790D6 80 16 2 0xA21E09CF0A98EB012E8914A31BE5BE53F47AF5650B6BCE281 2F65C994A100EA41F732830EB3F6C6F7028BC9FB3C5D108F6331 5DEDE8EE82CF5DE892032688E1C367D8567A20ACA 81 17 2 0x6E11F29AE45A99D74D911777D1DE60495C2DAF1705C7844FB 7FC0A01247F3265F45D90A198ADCD0DB98A3CE22ACF24A77C 737E5BF99DCD7EFA6B6096B70C572996B62E7814236B 82 18 2 0xE9F8FC 17F5361DBCDD8F18F28CA90B618DF6B56D3481C9E3 B7FDBEA6D55FAB32A4310A52AD7AAA26D082B38D4D8A2FC B70A3C6A4167515CA710E8F9B237F64B4D9A8C3CE8DF085 83 19 2 0xllFDC3B4712101D717D0EDD7556EAE0940AA1683D4CA4C22 A7959436ECCA5E08A4BF2BF9EEF4BCE5E3E48DD77EB418F6B 84BF8937CE0CF9DAD247A64E9E850373FEE3D673F47C2 41 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表)Index identifying field modulation sequence cytokines (Wk) 36 4 1 0x3D6BD09A3DBD9ECCClC584E71C87221CD266087C7A692 D3EFF2D5F84DF2011EA3675853A61CD75D23600F8C115E034 06AF914938170256B86DA5646CE0211FFDCD76A9A5E8D840 37 5 1 0x27F0DA91D4ADlF39F0EAD459E2705CB2CA029A8E57592F 1697877199FF707D0411D6068A0664594D89568460F268A225B B2AC0ED043659D779EA84656DEC0322F8C0CB111AD2C8 38 6 1 0x616FBCE479AAAC98B483FCF6EC06BBA84580EA98FA517B 3065A418CAF2C965B7AF2E7866B257390517016F25214900881 93372879FAA8954651E7B3C80BA1725CB781726F32328 39 7 1 0x357714863C5F477BE963806EA9D6EF6350BAFClC183FCC6 BB47FFFEAA9FFD863 58918F6 A218266D624C A07092EC24466 C7F7120C1887A3F59A48EBAB67F24A6E8930B862F509A3 40 8 1 0xABE49D0F8B9C8406BD70B3FD83758768CDBA98164B929A 1EA18D59BD44B 80F9BBEF9D1CE51E4EE1CF21F6CCF18 A7D 4A92C26C121A22FC95663F0B55B892CF7D3D65812A503DA48 41 9 1 0x6898A2FC8C36DF0B84380FBCDE70812390B644E3B5BEA87 D76C9123477638B331BEBC075664EA58C15680263664C48BF3 411C3C13789C504A01FB4C7B9AC86AA524075E52C6A90 42 10 1 0xE7709988D2D2 D6ABC6CEFB025FFCAFCA4C0E75C883529 EA439B75229ECE88FB5BD5D3BCA17C25BEB6575D932D01B 5A63E044102E208C071C734EBA55712E122822ED2F2B379A11 43 11 1 0xE49DCC8627542BA30FA500DCC23EEBF5A54B490EE7632C 6BE57C724C3E74CD199930AB1D929D425185E2E1220CD2300 F487392F4DC29416D332F13F8E760571D99617B263F387D 44 12 1 0xEE4CBD9B0EC65DE6DA78 A2 A205E5908B74127BDE612 A9 BD2D8F0C6A2B9E675401A9DDAA30FF9A55E87DAFFA3A33 E53AAA1D96A60B326D7F6FA147098DD825BD0FB13ADDFE0 1569 45 13 1 0xAD7DAD0BCA42DEDAFCCF7E57DC58D00E691E81C04B98 B2EDB66C66570B204B8352A08744D8A603C2A7769C7A9EE9 38189A45737B86871E5C4025EE594D827C603E3A49FD45519F 46 14 1 0xF8F29BA0D2FA2D529EAF2CE9383E614F5AE8CA06658DD0 39AB2C9912DFC7CD1BA9744339E537850B7E4EA564819772D 3320B1C7BA73EC24D90B8DCE17EA5DAD53771F68B050F43 47 15 1 0x9CC0ECC9E7E8940DFED1332AF492CFD39A21F2820394EF0 523 019EE5290A2B4281FF032C23 8A6BE41116C274E918F34F3 A27B5F147E10D41658CDC7EFEDC3135255C2B83B0AE6A 38 200838193 Table 309--2k FFT mode of the foregoing Modulating sequences for each segment and identifying cells ( Table) index identifying field modulation sequence cytokines (Wk) 48 16 1 0xFCE9C41A74CBB56634447836109869E557C5A0FAAlD4566E3 6A51258CE6D096FBD3E0B7193418D9DFCBD27693F8A5072425 D4E3F33DB5AB45B1EF3E11A6730BED42961DF0354CD 49 17 1 0x7941B66A275FB8F0B AA8EF7FFCC36AAA660113B66BE476D 629AE512E489341F6C9F84EC1BE1C05CA3C850D20B1A12AA9 C94E1A6541C29A9B4BCD41B94460DEF2E9643ADCE86728 50 18 1 0x0A91F390213C9B2ED372BA19FC42EE85AAB2598B58D2F718 4EA920546D6A81ED316551B74B341E23 8A7FB83 A4EF7D9EB09 39B7771A6F4D0AF1F72752FE3234793D3CDC19BDFE08 51 19 1 0x96949ACCD785385AE8DE99CE42BBB73B996A886115A78D06 06AEC14D2E46E849BF88F9A2E17C2494704F1020CEF85FFDE16 B7483DBC6A130488E3AC586E528A00B90134776E08C 52 20 1 0x53FFBA26676A4FDlA6C30B8E4EA02DF535C922978CD24F60 99C25003567F207CC5851656C5FD0D3F071942A16F1DB48DFBC 26BACC15A1E618FF35F3DC3E141E3666BCA507ED72E 53 21 1 0x7F3219ABE1389DBED8FC2FlC9C0FCE1974E71C224E1922F4 CAD42E40AF15A5ECDB14221480F964E67BBD345C44DCA0853 548B399E3DF4D054D176C0804D1B1154152BE973A8896 54 22 1 0x8 D5552CCA9EA46C991FF81A35873F43C963E02ED24C4102A7 9F5EB5EC25814511BA5DD2FE9FB9699E7ED76F965B24748AE1 A4A3 A590F4F13E4722CCE399006F79AD8CE673178F7 hereinbefore modulation sequence 55 23 1 0xDB74EFA478268CDDE2596ADF9410FD83FCEDBB07C6DEC7 A3422A6CC66EF901C1534EC2A83E1A89BA207C721ECF3D4291 8FF40B3863379FDF3CED7A9CC86E348CAB032F8FAAD9CD 56 24 1 0x5811ADD9240A7B3 AF35CACA6EFCCF4090A54EBF33DE54C 077192354DDEB81CC968D18354090B09D7472C83E1696E19545F 08136EF20CD74656BCD31296066E03CC89E22E47CF47 57 25 1 0x871ECE60EDD2E19360D13862A15242250635774424B22465B3 EF625E72072B7C45D81076DB4A5BFD5BE146F15CAA80DA031 763DAC23BBBC54249E9878EC465F3EABE0B7AA497B8 58 26 1 0xD8259BAF89D3E13242CClCDBA9C0281A09919D24ECF5BA8 3CDCD81E698EAA37DFE3E5802B3395B80A3DE91CF6C4BE2D 34BBE985EE4041C4290D0A9185F115C963AD536E4133426 59 27 1 0xl203AlFD3F7B8E9D97A3812D4375D42BC9E8F0E393BD669A 8099407EC0356DC45FEF848C98F3EF32A9A850CC67CE432339C BAF38BBA7DD0C94BC03B4704866509255E28450E459 39 200838193 309--2k FFT mode table each Segment and identification Cells (Continued) index identifies the cell segment modulation sequence (wk) 60 28 1 0x6 A78 A3 F0DC5E4FA504580C3 7F5416BCC4A2BD51FC1A714 71BD1433EC3DD924E713 0A7B2B3 31AB0B4 AF6CF94C045A9 C246965F46478D939795887EE3320BBC2D5DD5FFB06F894E8 61 29 1 0x3042F24E050BAB38880A07BDE5D28AEE4AD59E0D71AB59 824122E80F8FF67BEA1ECC865F50B25CF5095C642B800E6A4 D132B49E5968DEBDDA029A227AF332CF034BB937B471603 62 30 1 0xC82853465FBB213A85A52888464E5D38D997F6C31966A94B 452A2DE853CE38010BF9EA930BBD318189D5D2D0BDB44652 48 A2E8B481021531BEO1F5E0FF1 BAB753 70C57B3 6BE6E9 63 31 1 0x2B17EC947632DABA3A2E11022033F20F873032F51F0647111 11D0C215E9E84C11A9E70950977527960700B3 7C6FECC A57C3 5A91873C935D7EDC22CB44DCC251396173CAC82B912 64 0 2 0x83FC05D6DED982EB95B06E 16C91EF94B441BBD4868C09E 9B3 A251AD72427F2124607E151796070C2819E395EB68 A2C59 7391636333A7E492B70D8EA7397FFA1B28C20E0820CC45 65 1 2 0x45818FB AE49B983DB9B8FBEA1E816823430CE47BD159317 3605CA255CCCCAE73C7283336BCBC94133DCA64D675BBA8 48A3E1C2EEE35D6085F06E72EAA696FBED6EA545F2 7D3692 66 2 2 0xA005745E452ACE6BDDFC4A9F6253BF4B467C93ACFF0F66 3A3F5949F15A1D266DEB0D26EC16D2A083F830E878A0300D7 4CFA3266CBBF3F0244ED56344D6AD5D887B3179CE56890D 67 3 2 0xE52F56367EA45E4683E020856D05D08391D3D84766CA2253 1B3EC6BE682E76B6ED7BCAABC3AB6BDE32C4F700D4CDFF 26F79AE16499D2B70EC389AC3ED5E02FDF5C43B296CF965D 68 4 2 0xC5C62E3 A911A0F28BF6 A67E1D A2486FED7110B08F0A934 C930AA035290D098857ECF3A069203A2560DADD5016802D9 C1596526C7F1DA7C7B53360B0A673AA8634FB94D5838DC3E 69 5 2 0xF9E176A9837BF970D5FD51732ECB8D90FBD12F62B62F938 BE07915BABB0C6596080C832CE7FF914C849B9DA66F2380F3 058F66340A34CA43583EC8EDC1E5CB5A2A25436E72292D 70 6 2 0x5C26DB2489BE5197B20CD6B3 8B181B7789DCB90881AAC4 B4317B2F40B44884144A1B15BCB53C8E30FEC419861C54B56 158D9719E448B8 A8F455F5B116275D796329059CDF682D3 71 7 2 0xEF3 5242D5C426C1EBD9563A761CFBF11A531ACB93 8922E BBA5227D8292585B777783972DA79C853A2A178601E6CFEA3 5380045B50EE628F13AE3EC5B72FED52F92F731BB594DE8 40 200838193 table 309-- Pre-modulation of 2k FFT mode And each piece of identification cells (Continued) Cell recognition index modulation sequence segment (wk) 72 8 2 0x17FBB33193C68A1CAA8CEF5CB9A7FDFA1E89994F1779D2D0 DE69DE75A6B338A07635C80A58722BB01398252F6C46AB7AEA 79A6FC05F383F89ED65C49A2B9FB0D82A6EC03DD61F5 73 9 2 0x076C1A1DCA870DF36638307F891A52F737BA2B54EC0AD1FC 5424D4F32DDE168ACE9B08653DEF8A23BF37CA3D306138D698 A133834BFB65BDE57048B9EEC630B13E91EDB1B52E8F 74 10 2 0xA6800969ED0CE80A76F0F9BF7597ABE76DF60F243EE529C63 AF72BAD6AB8B3F0B09DFC132C2B006827E55E352E3940A3BB8 EE3526522ADF65AB76492BA41A393740A4B85CD5113 75 11 2 0x64817485E539E02AAB074982A56DC6E867C606313194BD66B4 CF8B9E92C4F9FD138B0E6EF36F699A3E6DCC46741B8CB16389 EB A2C745398A30EA3102B6B A4FE9A8DA9605F929FF 76 12 2 0xA3E438CB9EC48C4F4DD92C24950D0FlEAE7EEE920501C2C8 2531EDF8AEE3531F8D6B82D28C1FE0731088489FD215D19202D AEE0A57E3E1634C7A1BD5395CA64C64C14E5C02D436 77 13 2 0x8F9339B406037D35ADB9858576A62AF6139FD2B02D381C7DF 147A274E145F76DE5687AEC5BD3A715E0E893EEB6F24573D401 7B24B30D4357E339B104601FC2DD184DC 9A8F0D76A 78 14 2 0xDA85062511E22DEDB53797BDBEC8B0281818E890D438CB5A 48B2E4011FD5EFB2192C0FEDEE598372C7C06BEF25F9B9702A8 A9F0F52B197E9C910BB63F467E53BF46A45F75C22F6 79 15 2 0x914DE1436839A8E2FDD4EACCD645C3D29E522E19E0055A25 10679A977772830824C7363461CBF5D662456DB798BA72AEB67F EB2FC28DAAD3FAE0048727CF6E9B237A82489790D6 80 16 2 0xA21E09CF0A98EB012E8914A31BE5BE53F47AF5650B6BCE281 2F65C994A100EA41F732830EB3F6C6F7028BC9FB3C5D108F6331 5DEDE8EE82CF5DE892032688E1C367D8567A20ACA 81 17 2 0x6E11F29AE45A99D74D911777D1DE60495C2DAF1705C7844FB 7FC0A01247F3265F45D90A198ADCD0DB98A3CE22ACF24A77C 737E5BF99DCD7EFA6B6096B70C572996B62E7814236B 82 18 2 0xE9F8FC 17F5361DBCDD8F18F28CA90B618DF6B56D3481C9E3 B7FDBEA6D55FAB32A4310A52AD7AAA26D082B38D4D8A2FC B70A3C6A4167515CA710E8F9B237F64B4D9A8C3CE8DF085 83 19 2 0xllFDC3B4712101D717D0EDD7556EAE0940AA1683D4CA4C22 A7959436ECCA5E08A4BF2BF9EEF4BCE5E3E48DD77EB418F6B 84BF8937CE0CF9DAD247A64E9E850373FEE3D673F47C2 41 200838193 Table 309--2k FFT mode transfer hereinbefore change And identifying cell columns each segment (Continued)

索引識別細胞段調變序列(wk) 84 20 2 0xE8784553C091233730B7DA704B8A02BEBE45E5DEF4361394E3 B0E417FE3B571E641ADF2603402B8084A2D1318AF30CD95AD01 4D553408393AD345C05D62F435C708948233EF55B 85 21 2 0xCDD6E932F9D2FAD131E7AE666B758CC4BB60C60230FE1449 4D0F77E89A9BE726FAF8F9465AD0262D75C0A5374165A4FD2B4 C602C0FF123F416360C112F6F95BD6790F81ACD858A 86 22 2 0xA2702DE422E1CBADAA8285C1C3B1F41D44561BCBF105466D F8070E604C733DE579755BCB8237C8DDB55A865B213D1929ED C553CE9B55994985F9EBEDF2A9F524301E3DA0498817 87 23 2 0x54487F7BDCDF87B 1AA252798D7E5AD97E6F5263B7986B1E3E 637852EDC83FA360676C04E35A1F5045B0A0B7DE9269F8A0E17 F100D9AC78D873AE59BA0BA3E8AB3DDF928AD58F9E 88 24 2 0x3461AA27EDE0A9F7955B469C41AE1485EFBFE4EB233B0BBE B5F31BB36AC1E72CA6BF06B1E58F8612096CFA7289DEA8927B 6368DC845DC8476074B83F3C1545A17F73EFE214A3C9 89 25 2 0x2DDBBF4F82EB33001E46F08D17DB89DCE3C7CC127F6B7D17 839FE17A86F69178A1903E91857147348B491631336CB5D710382 B59FF71416FEC2BAF0A0584F2155EEB71C54F84C4 90 26 2 0x762E2454401F66455358322AC0CFDF76EB18EFA9684A10F0F52 7537A54E75FAD77BD89E0D47980793C7B79B922C17792CC84BB EA81F6637192B74407A5B859EA1C873ED29D48FD 91 27 2 0xF74BBB6C4B97071EBC19F3FE7840A67A3959BD9936335A4F8 BD10C9CFD925D8388C31B947BFD318FFC8B0967C132A602BC3 1B29835AE070006A50554CF3C5F85D56832ABA9CA5B 92 28 2 0x06493F32F3CA54692CAE2579388B97D99B5D540DE71F8B2405 944C3A4FF18D7D45D4026DB9A867B85870BE6E23C9A8F84332D 29B84B0303BB5179DFD89B56A14A37ABE053A0277 93 29 2 0xC88A3A3C0211A21661FD2B30937F0A187B6601E366A8FC5BC D4210E2D5D3365B22D4D63273F822D89EC1745304FBA4D0A929 5AA51212C11C9D0A31FABB066289D8227B5BFDE8 AO 94 30 2 0xA81E35C6A92953C584FE5FB3B6FlB0A532E91A49DB703D6E2 0D796F4532630C1D64DCEA580188BDDAB37722AD5DDCC9DF E7CFEDE1518D8E2ACA842F3570C7F381EAB9C5E4D485C 95 31 2 0x08C0CClC53E52AA366AFA63A48EBE2F7389C8A33CEB20173 432B4828D68A547D4673E27F942FCA95942029CFE9F413FDABE 1D0BCF95022C5B99C1B229D151E9D3CA0A122F1BEEF 42 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(Wk) 96 0 0 0x9774EF2FA326AB 19DE599803EB48740C90995A4508064B6B19 E58304229C5EDC578EF2C7030D4D2A01C9FB7618E7CB8564816 354DD61EE144D7C94AFE8AB966875131B9F7C18BB 97 1 1 0xB9FBD947B7F9F3C8F6D3799E095BE558E6A2D0550C0DD0DD C92CC7BB53C1FE80D536B1FAE89C9224E3504629DBF0C545794 4A72769B7162FBB0BBE18189749D3E7E264CFBA7A0E 98 2 2 0xFD0E15EC140B2E87817AECC16F134B66221C759CCF0E5000C DC0A3BADBB354D6845D745C22B1FB78C4205ABCF689495DE5 55CFFB4E4164A9ED06E484A192308A8CA89048A92C32 99 3 0 0x28237E963DE488B97083F5A76BF5A861773DB61108461A8CB8 FAE918887897033207CEBFB83380BCC45748732F9752C86DEA5F 5EE4BA741C6DAB59375DDCBDC6EFEDBCD10DF3C2 100 4 1 0x023B7D4F9CA92DlE796C749B7664CCC4E8558C5CF20BF702E 39BC3AE525A9FAA6581F4A22EF6829A44156DAE4CABEA9C6A 41D5A4325C02980C8FA4621A7FD08D874C687B68C706 101 5 2 0xB7FF5E696A6923C504E2A64A097EB201EC52D7963D9D5DA4 6051A4EBA8B2C2DB9FC4249ABF2D8CCC881F8AAD20230F1B6 6D5D48CF2BCC5CADE7217E25FB9F6CB93CCE4111A33C6 102 6 0 0x6870AA97FE0FF504C4247EBFA8EFlA21B6EEE100E407F29308 6E1F48C7292BEC491DDAF0E2CF02455825089FCD985F77CDC4 B561A6B8CD60CE31CBE6D467CFB4D153746FB7BE0D 103 7 1 0x91466310F3C4F355233B54C0AB8CB818780691443781B71AB6F B8F6CD516661E39075B4207E55400E081FD79C524628C8FE1277 BE1A6165ACB5F154158D26593FED2C48EF66268 104 8 2 0x45F8EB9235B6DC375771B69789AFEEEBB806965E6931A844F3 70CA14AA982635C54EA0BA973373D9FE010993B41EB8BF2C21 9B09AD13B4FE7FDC7295C55858834490674637ED95 105 9 0 0x3AA7974B18884644F5C782A5E71AF70D91220EB0C468D079A FB7DF8033D3AB54BC728657D60B349C575C8B3DEC403A6D406 E3FC4D016655D406B0B78389CEFCFF8A37D867A44DF 106 10 1 0x1140B404D18CA769BDC1E1188BBB5BFA3B87668D158B0875F 4D4EE90ED42974B5A02A6AAFC6977EACD194CB9E8423E2931F 2CD9AEF6C90F44EC626C56518360D20AE97219FDE89 107 11 2 0x76BE5786CE3C33A20A3776587F83E6C5280BD4DF20FE6C52D 6BB582957E0CAEB988B32C3DB58027815D8618FB6FDB1BCF9E 871D6C552AED5679BE98189D95708FE92750C5ADE33 43 200838193 表309——2k FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 108 12 0 0x33597C2D850E76B116A82F95C766D2002B9822D 52E09B1968BEF3DFD48D9F53D5296F1559BEB0B C7791C1F6B666EE68C605A2098A4A0BD57CE4F7 A843068A8BA3BF0065ACA53C6 109 13 1 0x894BllE2BB6884D9FFD78C6A8103F3BD44E6DF E48CD0DC89C63A4F8BA95858545D37EC1652AB2 C073B99BC667D1F396C87F9902FCB08686E563D0 D30EBF3D65756A63F0037C240 110 14 2 0xDD08538B0939E852443E8801AB36C0FF50A6A0 B63BBBE969F6A5A60BD6EEF19D070C3A14366EC 789D39D07CD8891491FDB3C7EF57A0A310C8A4D C0A03D5DB84DA0D6911C4CB A9B 111 15 0 0x7FFA4EF380C6504225EA6C8339E130DB7E69577 E9C46CA494F66E2D5B25 A256444606103 A821615C 2CDEA721D153669E5025CDC37904CFC16A84E3B 745079E5F1F3E08B0684BBB 112 16 1 0x8 A608CAD1CD85FD846FB2A3 9FB61EBF9A219B 9B7499179C2C066F3F78F3B3EDEF15B7227C650B EFB63C950E1B52632D78D1A0F34552BA138C877F 09FCCFD30511E340F794D154A 113 17 2 0x775CA156A4C0BDB8FE5FF3CFB91FC7BC9DEA F1B8B3362D06C9738D332868BBA3B18A0A907EE7 918D95510298E42F44B7BFC39D9E002EE24D1806E E0436B92DEC06DA3FDA2230F6 44 200838193 表309a——lk(1024)FFT模式的前文調變序列每段(segment) 及識別細胞(IDcell) 索引識別細胞段調變序列(wk) 0 0 0 0xA6F294537B285E1844677D133E4D53CCBlF182DE0 0489E53E6B6E77065C7EE7D0ADBEAF 1 1 0 0x668321CBBE7F462E6C2A07E8BBDA2C7F7946D5F6 9E35AC8ACF7D64AB4A33C467001F3B2 2 2 0 0xlC75D30B2DF72CEC9117A0BD8EAF8E0502461FC0 7456AC906ADE03E9B5AB5E1D3F98C6E 3 3 0 0x5F9A2E5C A7CC69A5227104FB1CC2262809F3B10D 0542B9BDFDA4A73A7046096DF0E8D3D 4 4 0 0x82F8A0AB918138D84BB86224F6C342D81BC8BFE7 91CA9EB54096159D672E91C6E13032F 5 5 0 0xEE27E59B84CCF15BB1565EF90D478CD2C49EE8A7 0DE368EED7C9420B0C6FFAF9AF035FC 6 6 0 0xC1DF5AE28D1CA6A8917BCDAF4E73BD93F931C44 F93C3F12F0132FB643EFD5885C8B2BCB 7 7 0 0xFCA36CCCF7F3E0602696DF745A68DB948C57DFA9 575BEA1F05725C42155898F0A63A248 8 8 0 0x024B0718DE6474473A08C8B151AED124798F15DlF FCCD0DE574C5D2C52A42EEF858DBA5 9 9 0 0xD4EBFCC3F5A0332BEA5B309ACB04685B8DlBB4C B49F9251461B4ABA255897148F0FF238 10 10 0 0xEEA213F429EB926D1BDEC03ABB67D1DE47B4738 F3E929854F83D18B216095E6F546DADE 11 11 0 0xC03036FA9F253045DF6C0889A8B83BAEFCF90EB9 93C2D79BD911CA84075061AA43DA471 12 12 0 0xlE68EC22E5E2947FB0A29E4CC70597254B36C6033 1EACF779FE752D3F55DC41ABFC7DC9 13 13 0 0x63A57E75A0434F035AAC4504B265081D497F10C77 928B71797C5D6C6824DC0F23BE34EE 14 14 0 0xC57C4612816DE981C58FD6F8DE9DD41F2422ADBC 522B0CE31F9A6D5F2A126DC08F69FB1 15 15 0 0x978256AF184E7ED17789B33D324C711B36BFBCCE5 446EB03687E9A0A839C7CE156104D2 16 16 0 0x011EC823157DD73150640CEB7DDB0AlF8F91E0959 9A851D5C7CAF687CFB752D297D82FC 17 17 0 0xC6DE82BEB7F57B9120E8A376D85C8F70FDC65BC6 60402DAC4AE6002EA2740C4F9E5973C 18 18 0 0x4C74929D6F9FAB9E5BB761026038E076F6824295E0 AF397806ECEBC6DC713F03ACDC27C 19 19 0 0xl3ElE85C2234D0F3418001A35F135E10C6C918C36B C659FDA9D655D288A0BDAA8BF489D 20 20 0 0xFD4AF2D8F4F08FlA7DF59291C9AEE788F641B8231 CFB813376E0BEB68DFCFCBBE552445 45 200838193 表309a——lk FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 21 21 0 0xEBBC77A493AA0C62C62F25EE5E8D0701F50386F 49026FA31487C9FD5C5206CE4EB00576 22 22 0 0xl34F936F9E875842587ADCA92187F2FC6D62FFC3 A833D8CDE465F9972ABAA83763AAEB7 23 23 0 0x3CD1DA70670BC73363D1B4A66D280FF6AA7636 D07ECF32BA26101E5EBA1594FB8A0420A 24 24 0 0x918296B2937C2B6F73CF98F85A81B723DlC69DB DF3E019749C582DA22E789562729D475 25 25 0 0xC323981B8B2240865F48D61AElB3B61D88522B73 58952F949D4308CA15D1EE8FDFA683F 26 26 0 0x7514A6FA5FBB250C5C8CE96F791D676036C344A 44B24284477B44CB3E758F8BCD58F05B 27 27 0 0x84C7FEC6E977FAlEC0C7CC9E0D067C73D8F846F 82ABB3456D2104E1448D5A58D5975152 28 28 0 0x4841 AFC277B86A0E067AF319422F501C87ACBFB DD66BFEA3644F879AE98BA8C5D605123 29 29 0 0xF35EA87318E459138A2CE69169AD5FD9F30B62D A04ED21320A9F59893F0D176752152FD 30 30 0 0xA0C5F35C5971CD3DC55D7D2B9FD27AA17A1985 83F580EB0800744EE5B6B3648DEA95840 31 31 0 0xA6D3D33AD9B56862DBF076E3ACE6A3150510CC C8BE77DE4E6E10EB5FE163765647D07DF 32 0 1 0x52849D8F020EA6583032917F36E8B62DFD18AD4 D77A7D2D8EC2D4F20CC0C75B7D4DF708 33 1 1 0xCC53A152209DEC7E61A06195E3FA633076F7AEl BAFFE83CE565087C0507BA596E0BD990 34 2 1 0xl7D98A7E32CCA9B142FE32DB37B2BF726E25AA 7A557FFB5C400B47A38B16CF18E1EDE63 35 3 1 0xA5BA8C7E2C795C9F84EBBD425992766BDE5549 A7A9F7EF7E44AFD941C6084568638FE84 36 4 1 0x33E57E78A5696255CA61AE36027036DA619E493A 0A8F95D9915C6E61F3006CB9706BEBA 37 5 1 0x09961E7309A9B7F3929C370C51910EBABlB4F409 FA976AE8679F354C84C4051F371F902 38 6 1 0x508A9EBAEF3C7E09CFCFC0B6F444A09B45A130 EFC8C5B22BCE87213854E7C9D329C9ADC 39 7 1 0xAACEEF9BCDC82E4AD525185B07CBABCB74861 D16F7C25CFBA917B05463AD65391AF840D 40 8 1 0x23060ACC5A125DAB207EEEE47B4EEElE8466BD 17DDA2EB3CD90D2AB7A758C213E6D7FE5 41 9 1 0xCA55521667BDA8B6FlB205201A51B3A0C05DE9 EA06BC73268730A81A992777021F46055 46 200838193 表3〇9a——lk FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 42 10 1 0x05ADFCA2F8207DC6FF8D1A85A1DD4694D4C48 A838C4F833C532710021AC448A7B62B8DD 43 11 1 0x218C951223D7B712DC98F8B5217388A830003C5 F2A00F232DD3475D2FC78C25B8D88FF9 44 12 1 0x79B94D24D721121EF678B7156F8D2666DE712BB F3 837C85 A9518781903146A7B4D42A28 45 13 1 0x58 AABEF6A6BDE4011CAC583C5104B2C6FC5A 2980F856373E5931A3C690245327581FA13 46 14 1 0x427DlAD18E338E16FCE6E23B4AD6D82A2144D 53048F2665AA94577AFABD26889FCB1F9F 47 15 1 0x337FE0E4C15A22471AE0F6B6F91161A7DE2E14 03D73587D5C8355105D2F70642B2CE425 48 16 1 0xA3FCAA311B536AC9DB39FED9F4E996506B318 1C58D6B7E04157A3FD463F60468765BCFD 49 17 1 0xF484FD1F57F53A4A749B86148E0B1D0653667CE 1393198875DDB0AE9179BBBDAAD53A11 50 18 1 0xA3E9ECFlE6048562BC89DB6168E708855F0D4A D29F859EF36C9160DF407D85426233632 51 19 1 0x890519376DlFFAA2894EABCD6663B0A3C24119 82C17B01270E0FB0B289D4BC8C3B83DA9 52 20 1 0x09847B6187BB5F6F6728B4ED610088FAD9DADF C00748E9DCD8A0CE320D6C991654ABE05 53 21 1 0x3285AE0A3D196313659C37BE1C94D61D20F11F D49D9FDF9D1026FF5763F02CB78AE135C 54 22 1 0x0069D3F34D0D455AFB45FEFDF716333B785C6B DA90DA23F1CC68BC6A1DBC916C595DA3E 55 23 1 0xAA977A8BCA39381E7C35AlACC7C4F60421C08 62BFD6106C7C025B0676EA0EF68972DD8F 56 24 1 0xF310745C497094ABE56E0490C0800319DBE2905 53E696B6859635AF03B121F79D925D19 57 25 1 0x964DFD350B9C7DFDC7F6F7C43283A76F0D613E 48A5520D1DAF761C6F47E389B43A023F5 58 26 1 0x6D767B88D28A455CC3B56C942BAFD8E465A50 FD2C22FE6162E03A9AAC3C1CC899800610 59 27 1 0xC5491C6CA3D998906EC1482F815B74B7C2E381 6B682ACC6009AB7EFF34BF0E9CE59C754 60 28 1 0x6D8EE32D30E19D93A0E5AD8226BAE9CF6FCB A17CF6E67FDC5A15A81ECB8908BEDD77C80 61 29 1 0x98F8BFDF774C7A249418E6FF4723D6E6AB2F09 1CDE4DE1CE11D3BD463B509FB716940FD 62 30 1 0x65300BAD8FFA21BC7DC2ClF79FA97A9F469CC C9E270A61759F34D6276F57CBEB009CD21 47 200838193 表309a——lk FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(Wk) 63 31 1 0x6F36BB6D5A7DC4FB720439E91FF0DE86DD6C4B9 3CFC4271F2BCC6169616E3AEAA19E360 64 0 2 0xD27B00C70A8AA2C036ADD4E99D047A376B363FE DC287B8FD1A7794818C5873ECD0D3D56 65 1 2 0xE7FDDCEED8D31B2C0752D976DE92BEA241A713 CF818C274AA1C2E3862C7EB7023AF35D4 66 2 2 0x87BF4954022D30549DF7348477EACB97AC3565B83 8460CC62F242883313B15C31370335 67 3 2 0x82DD830BEDE4F13C76E4CF9AEF5E42609F0BDDC B000A742B6372DD5225B0C3114494746 68 4 2 0x4E06E4CF46ElF5691938D7F40179D8F79A85216775 384BD97966DB4BBF49FB6FAB8F945 69 5 2 0x64164534569A5E670FDB390D09C04802DD6A16B02 2CADC77EDD7464AFED43C773A8DC76 70 6 2 0xFB8769A81AA9DB607F14A6A95948401F83057CDC 9C9C3996BA5821403A49F00A4E35191 71 7 2 0x77710D6F40B4F79CC63F678551C3EC18FA9DF2C82 E6C8F415DADFD63264B7513180070E 72 8 2 0x503F196BBF93C238BFD5E735E5AE52E0DAE64F5E 2F4C3B92E553F51303C4A64C4403BF3 73 9 2 0x5FD4A6894566678C95B9D5A59DDE5366799045FE B03A2BAA74094140E9068C61C2E972C 74 10 2 0x95B584DC40C8B5DEAD63D48FCE65BlE61BAB4C 597D921DB12677141E2FFE7C0AA3DA0D5 75 11 2 0x985763AB6CC8934DB8A0BE738A7AF1D1FA3958C 1F9E2D6A51A163E47A0A6E5FEB759FDD 76 12 2 0xFD8D45F00D943AD986BD353D61C6746DBF8A309 B6AE1C173B880D957B76DC031A957E8D 77 13 2 0xAE4323534F6EFBlA20169328417885EF304FA22038 9FA9C2607E5A406F4CE4A7498A39F 78 14 2 0xE5205579893BE184CB9948C28E2F9AAF699D47B6 E5E0B219CBEAFE4BEC8D561BD809E34 79 15 2 0xAB11D6941478D36D5695CE813070DC1E32122A39 083E53FE373660AEB125D83383FBDCA 80 16 2 0xl88A09C46FlF11206FF9F15CFB5F6CD2F26C4BF48 5EE37D3650A595064F76CE34E40EAD 81 17 2 0x4B 1CDE2553 9A56CEDC45FE7F54C3 8CF155F4FB1 AE868F6C3952D07014BF828E810BDE2D 82 18 2 0xl6CA8F8C6A879E865E3611EAC389D56AFA3E4E84 CDBB73567BA4A160249C4B680A7D9BC 83 19 2 0x39D2B08AA0E2E8781476027B41AD72F8D9838B70 01AADFD33A92D81E56ECBB2C9378D58 48 200838193 表309a——lk FFT模式的前文調變序列每段及識別細胞(續表)Index identifies the cell segment modulation sequence (wk) 84 20 2 0xE8784553C091233730B7DA704B8A02BEBE45E5DEF4361394E3 B0E417FE3B571E641ADF2603402B8084A2D1318AF30CD95AD01 4D553408393AD345C05D62F435C708948233EF55B 85 21 2 0xCDD6E932F9D2FAD131E7AE666B758CC4BB60C60230FE1449 4D0F77E89A9BE726FAF8F9465AD0262D75C0A5374165A4FD2B4 C602C0FF123F416360C112F6F95BD6790F81ACD858A 86 22 2 0xA2702DE422E1CBADAA8285C1C3B1F41D44561BCBF105466D F8070E604C733DE579755BCB8237C8DDB55A865B213D1929ED C553CE9B55994985F9EBEDF2A9F524301E3DA0498817 87 23 2 0x54487F7BDCDF87B 1AA252798D7E5AD97E6F5263B7986B1E3E 637852EDC83FA360676C04E35A1F5045B0A0B7DE9269F8A0E17 F100D9AC78D873AE59BA0BA3E8AB3DDF928AD58F9E 88 24 2 0x3461AA27EDE0A9F7955B469C41AE1485EFBFE4EB233B0BBE B5F31BB36AC1E72CA6BF06B1E58F8612096CFA7289DEA8927B 6368DC845DC8476074B83F3C1545A17F73EFE214A3C9 89 25 2 0x2DDBBF4F82EB33001E46F08D17DB89DCE3C7CC127F6B7D17 839FE17A86F69178A1903E91857147348B491631336CB5D710382 B59FF71416FEC2BAF0A0584F2155EEB71C54F84C4 90 26 2 0x762E245440 The foregoing modulation sequence 1F66455358322AC0CFDF76EB18EFA9684A10F0F52 7537A54E75FAD77BD89E0D47980793C7B79B922C17792CC84BB EA81F6637192B74407A5B859EA1C873ED29D48FD 91 27 2 0xF74BBB6C4B97071EBC19F3FE7840A67A3959BD9936335A4F8 BD10C9CFD925D8388C31B947BFD318FFC8B0967C132A602BC3 1B29835AE070006A50554CF3C5F85D56832ABA9CA5B 92 28 2 0x06493F32F3CA54692CAE2579388B97D99B5D540DE71F8B2405 944C3A4FF18D7D45D4026DB9A867B85870BE6E23C9A8F84332D 29B84B0303BB5179DFD89B56A14A37ABE053A0277 93 29 2 0xC88A3A3C0211A21661FD2B30937F0A187B6601E366A8FC5BC D4210E2D5D3365B22D4D63273F822D89EC1745304FBA4D0A929 5AA51212C11C9D0A31FABB066289D8227B5BFDE8 AO 94 30 2 0xA81E35C6A92953C584FE5FB3B6FlB0A532E91A49DB703D6E2 0D796F4532630C1D64DCEA580188BDDAB37722AD5DDCC9DF E7CFEDE1518D8E2ACA842F3570C7F381EAB9C5E4D485C 95 31 2 0x08C0CClC53E52AA366AFA63A48EBE2F7389C8A33CEB20173 432B4828D68A547D4673E27F942FCA95942029CFE9F413FDABE 1D0BCF95022C5B99C1B229D151E9D3CA0A122F1BEEF 42 200838193 Table 309--2k FFT mode of each segment And identifying cells (continued ) Index identifies the cell segment modulation sequence (Wk) 96 0 0 0x9774EF2FA326AB 19DE599803EB48740C90995A4508064B6B19 E58304229C5EDC578EF2C7030D4D2A01C9FB7618E7CB8564816 354DD61EE144D7C94AFE8AB966875131B9F7C18BB 97 1 1 0xB9FBD947B7F9F3C8F6D3799E095BE558E6A2D0550C0DD0DD C92CC7BB53C1FE80D536B1FAE89C9224E3504629DBF0C545794 4A72769B7162FBB0BBE18189749D3E7E264CFBA7A0E 98 2 2 0xFD0E15EC140B2E87817AECC16F134B66221C759CCF0E5000C DC0A3BADBB354D6845D745C22B1FB78C4205ABCF689495DE5 55CFFB4E4164A9ED06E484A192308A8CA89048A92C32 99 3 0 0x28237E963DE488B97083F5A76BF5A861773DB61108461A8CB8 FAE918887897033207CEBFB83380BCC45748732F9752C86DEA5F 5EE4BA741C6DAB59375DDCBDC6EFEDBCD10DF3C2 100 4 1 0x023B7D4F9CA92DlE796C749B7664CCC4E8558C5CF20BF702E 39BC3AE525A9FAA6581F4A22EF6829A44156DAE4CABEA9C6A 41D5A4325C02980C8FA4621A7FD08D874C687B68C706 101 5 2 0xB7FF5E696A6923C504E2A64A097EB201EC52D7963D9D5DA4 6051A4EBA8B2C2DB9FC4249ABF2D8CCC881F8AAD20230F1B6 6D5D48CF2BCC5CADE7217E25FB9F6CB93CCE4111A33C6 102 6 0 0x6870AA97FE 0FF504C4247EBFA8EFlA21B6EEE100E407F29308 6E1F48C7292BEC491DDAF0E2CF02455825089FCD985F77CDC4 B561A6B8CD60CE31CBE6D467CFB4D153746FB7BE0D 103 7 1 0x91466310F3C4F355233B54C0AB8CB818780691443781B71AB6F B8F6CD516661E39075B4207E55400E081FD79C524628C8FE1277 BE1A6165ACB5F154158D26593FED2C48EF66268 hereinbefore modulation sequence 104 8 2 0x45F8EB9235B6DC375771B69789AFEEEBB806965E6931A844F3 70CA14AA982635C54EA0BA973373D9FE010993B41EB8BF2C21 9B09AD13B4FE7FDC7295C55858834490674637ED95 105 9 0 0x3AA7974B18884644F5C782A5E71AF70D91220EB0C468D079A FB7DF8033D3AB54BC728657D60B349C575C8B3DEC403A6D406 E3FC4D016655D406B0B78389CEFCFF8A37D867A44DF 106 10 1 0x1140B404D18CA769BDC1E1188BBB5BFA3B87668D158B0875F 4D4EE90ED42974B5A02A6AAFC6977EACD194CB9E8423E2931F 2CD9AEF6C90F44EC626C56518360D20AE97219FDE89 107 11 2 0x76BE5786CE3C33A20A3776587F83E6C5280BD4DF20FE6C52D 6BB582957E0CAEB988B32C3DB58027815D8618FB6FDB1BCF9E 871D6C552AED5679BE98189D95708FE92750C5ADE33 43 200838193 309--2k FFT mode table and each segment Identifying cells (continued Table) index identifying field modulation sequences cells (wk) 108 12 0 0x33597C2D850E76B116A82F95C766D2002B9822D 52E09B1968BEF3DFD48D9F53D5296F1559BEB0B C7791C1F6B666EE68C605A2098A4A0BD57CE4F7 A843068A8BA3BF0065ACA53C6 109 13 1 0x894BllE2BB6884D9FFD78C6A8103F3BD44E6DF E48CD0DC89C63A4F8BA95858545D37EC1652AB2 C073B99BC667D1F396C87F9902FCB08686E563D0 D30EBF3D65756A63F0037C240 110 14 2 0xDD08538B0939E852443E8801AB36C0FF50A6A0 B63BBBE969F6A5A60BD6EEF19D070C3A14366EC 789D39D07CD8891491FDB3C7EF57A0A310C8A4D C0A03D5DB84DA0D6911C4CB A9B 111 15 0 0x7FFA4EF380C6504225EA6C8339E130DB7E69577 E9C46CA494F66E2D5B25 A256444606103 A821615C 2CDEA721D153669E5025CDC37904CFC16A84E3B 745079E5F1F3E08B0684BBB 112 16 1 0x8 A608CAD1CD85FD846FB2A3 9FB61EBF9A219B 9B7499179C2C066F3F78F3B3EDEF15B7227C650B EFB63C950E1B52632D78D1A0F34552BA138C877F 09FCCFD30511E340F794D154A 113 17 2 0x775CA156A4C0BDB8FE5FF3CFB91FC7BC9DEA F1B8B3362D06C9738D332868BBA3B18A0A907EE7 918D95510298E42F44B7BFC39D9E002EE24D1806E E0436B92DEC06DA3FDA2230F6 44 200 838 193 Table 309a - lk (1024) FFT mode modulation foregoing sequence of each segment (segment) and the cell identification (IDcell) sequence index identifying field modulation cells (wk) 0 0 0 0xA6F294537B285E1844677D133E4D53CCBlF182DE0 0489E53E6B6E77065C7EE7D0ADBEAF 1 1 0 0x668321CBBE7F462E6C2A07E8BBDA2C7F7946D5F6 9E35AC8ACF7D64AB4A33C467001F3B2 2 2 0 0xlC75D30B2DF72CEC9117A0BD8EAF8E0502461FC0 7456AC906ADE03E9B5AB5E1D3F98C6E 3 3 0 0x5F9A2E5C A7CC69A5227104FB1CC2262809F3B10D 0542B9BDFDA4A73A7046096DF0E8D3D 4 4 0 0x82F8A0AB918138D84BB86224F6C342D81BC8BFE7 91CA9EB54096159D672E91C6E13032F 5 5 0 0xEE27E59B84CCF15BB1565EF90D478CD2C49EE8A7 0DE368EED7C9420B0C6FFAF9AF035FC 6 6 0 0xC1DF5AE28D1CA6A8917BCDAF4E73BD93F931C44 F93C3F12F0132FB643EFD5885C8B2BCB 7 7 0 0xFCA36CCCF7F3E0602696DF745A68DB948C57DFA9 575BEA1F05725C42155898F0A63A248 8 8 0 0x024B0718DE6474473A08C8B151AED124798F15DlF FCCD0DE574C5D2C52A42EEF858DBA5 9 9 0 0xD4EBFCC3F5A0332BEA5B309ACB04685B8DlBB4C B49F9251461B4ABA255897148F0FF238 10 10 0 0xEEA213F429EB926D1BDEC0 3ABB67D1DE47B4738 F3E929854F83D18B216095E6F546DADE 11 11 0 0xC03036FA9F253045DF6C0889A8B83BAEFCF90EB9 93C2D79BD911CA84075061AA43DA471 12 12 0 0xlE68EC22E5E2947FB0A29E4CC70597254B36C6033 1EACF779FE752D3F55DC41ABFC7DC9 13 13 0 0x63A57E75A0434F035AAC4504B265081D497F10C77 928B71797C5D6C6824DC0F23BE34EE 14 14 0 0xC57C4612816DE981C58FD6F8DE9DD41F2422ADBC 522B0CE31F9A6D5F2A126DC08F69FB1 15 15 0 0x978256AF184E7ED17789B33D324C711B36BFBCCE5 446EB03687E9A0A839C7CE156104D2 16 16 0 0x011EC823157DD73150640CEB7DDB0AlF8F91E0959 9A851D5C7CAF687CFB752D297D82FC 17 17 0 0xC6DE82BEB7F57B9120E8A376D85C8F70FDC65BC6 60402DAC4AE6002EA2740C4F9E5973C 18 18 0 0x4C74929D6F9FAB9E5BB761026038E076F6824295E0 AF397806ECEBC6DC713F03ACDC27C 19 19 0 0xl3ElE85C2234D0F3418001A35F135E10C6C918C36B C659FDA9D655D288A0BDAA8BF489D 20 20 0 0xFD4AF2D8F4F08FlA7DF59291C9AEE788F641B8231 CFB813376E0BEB68DFCFCBBE552445 45 200838193 Table 309a - ls FFT mode of the previous modulation sequence per segment and identify cells (continued) Index recognition cells Segment modulation sequence (wk) 21 21 0 0xEBBC77A493AA0C62C62F25EE5E8D0701F50386F 49026FA31487C9FD5C5206CE4EB00576 22 22 0 0xl34F936F9E875842587ADCA92187F2FC6D62FFC3 A833D8CDE465F9972ABAA83763AAEB7 23 23 0 0x3CD1DA70670BC73363D1B4A66D280FF6AA7636 D07ECF32BA26101E5EBA1594FB8A0420A 24 24 0 0x918296B2937C2B6F73CF98F85A81B723DlC69DB DF3E019749C582DA22E789562729D475 25 25 0 0xC323981B8B2240865F48D61AElB3B61D88522B73 58952F949D4308CA15D1EE8FDFA683F 26 26 0 0x7514A6FA5FBB250C5C8CE96F791D676036C344A 44B24284477B44CB3E758F8BCD58F05B 27 27 0 0x84C7FEC6E977FAlEC0C7CC9E0D067C73D8F846F 82ABB3456D2104E1448D5A58D5975152 28 28 0 0x4841 AFC277B86A0E067AF319422F501C87ACBFB DD66BFEA3644F879AE98BA8C5D605123 29 29 0 0xF35EA87318E459138A2CE69169AD5FD9F30B62D A04ED21320A9F59893F0D176752152FD 30 30 0 0xA0C5F35C5971CD3DC55D7D2B9FD27AA17A1985 83F580EB0800744EE5B6B3648DEA95840 31 31 0 0xA6D3D33AD9B56862DBF076E3ACE6A3150510CC C8BE77DE4E6E10EB5FE163765647D07DF 32 0 1 0x52849D8F020EA6583032917F36E8B62DFD18AD4 D77 A7D2D8EC2D4F20CC0C75B7D4DF708 33 1 1 0xCC53A152209DEC7E61A06195E3FA633076F7AEl BAFFE83CE565087C0507BA596E0BD990 34 2 1 0xl7D98A7E32CCA9B142FE32DB37B2BF726E25AA 7A557FFB5C400B47A38B16CF18E1EDE63 35 3 1 0xA5BA8C7E2C795C9F84EBBD425992766BDE5549 A7A9F7EF7E44AFD941C6084568638FE84 36 4 1 0x33E57E78A5696255CA61AE36027036DA619E493A 0A8F95D9915C6E61F3006CB9706BEBA 37 5 1 0x09961E7309A9B7F3929C370C51910EBABlB4F409 FA976AE8679F354C84C4051F371F902 38 6 1 0x508A9EBAEF3C7E09CFCFC0B6F444A09B45A130 EFC8C5B22BCE87213854E7C9D329C9ADC 39 7 1 0xAACEEF9BCDC82E4AD525185B07CBABCB74861 D16F7C25CFBA917B05463AD65391AF840D 40 8 1 0x23060ACC5A125DAB207EEEE47B4EEElE8466BD 17DDA2EB3CD90D2AB7A758C213E6D7FE5 41 9 1 0xCA55521667BDA8B6FlB205201A51B3A0C05DE9 EA06BC73268730A81A992777021F46055 46 200838193 Table 3 〇9a—— lk FFT mode of the previous modulation sequence per segment and recognition of cells (continued) Index identification cell segment modulation sequence (wk) 42 10 1 0x05ADFCA2F8207DC6FF8D1A85A1DD4694D4C48 A838C4F833C532710021AC448A7B62B8DD 43 11 1 0x218C951223D7B712DC98F8B5217388A830003C5 F2A00F232DD3475D2FC78C25B8D88FF9 44 12 1 0x79B94D24D721121EF678B7156F8D2666DE712BB F3 837C85 A9518781903146A7B4D42A28 45 13 1 0x58 AABEF6A6BDE4011CAC583C5104B2C6FC5A 2980F856373E5931A3C690245327581FA13 46 14 1 0x427DlAD18E338E16FCE6E23B4AD6D82A2144D 53048F2665AA94577AFABD26889FCB1F9F 47 15 1 0x337FE0E4C15A22471AE0F6B6F91161A7DE2E14 03D73587D5C8355105D2F70642B2CE425 48 16 1 0xA3FCAA311B536AC9DB39FED9F4E996506B318 1C58D6B7E04157A3FD463F60468765BCFD 49 17 1 0xF484FD1F57F53A4A749B86148E0B1D0653667CE 1393198875DDB0AE9179BBBDAAD53A11 50 18 1 0xA3E9ECFlE6048562BC89DB6168E708855F0D4A D29F859EF36C9160DF407D85426233632 51 19 1 0x890519376DlFFAA2894EABCD6663B0A3C24119 82C17B01270E0FB0B289D4BC8C3B83DA9 52 20 1 0x09847B6187BB5F6F6728B4ED610088FAD9DADF C00748E9DCD8A0CE320D6C991654ABE05 53 21 1 0x3285AE0A3D196313659C37BE1C94D61D20F11F D49D9FDF9D1026FF5763F02CB78AE135C 54 22 1 0x0069D3F34D0D455AFB45FEFDF716333B785C6B DA90DA23F1CC68BC6A1DBC916C595 DA3E 55 23 1 0xAA977A8BCA39381E7C35AlACC7C4F60421C08 62BFD6106C7C025B0676EA0EF68972DD8F 56 24 1 0xF310745C497094ABE56E0490C0800319DBE2905 53E696B6859635AF03B121F79D925D19 57 25 1 0x964DFD350B9C7DFDC7F6F7C43283A76F0D613E 48A5520D1DAF761C6F47E389B43A023F5 58 26 1 0x6D767B88D28A455CC3B56C942BAFD8E465A50 FD2C22FE6162E03A9AAC3C1CC899800610 59 27 1 0xC5491C6CA3D998906EC1482F815B74B7C2E381 6B682ACC6009AB7EFF34BF0E9CE59C754 60 28 1 0x6D8EE32D30E19D93A0E5AD8226BAE9CF6FCB A17CF6E67FDC5A15A81ECB8908BEDD77C80 61 29 1 0x98F8BFDF774C7A249418E6FF4723D6E6AB2F09 1CDE4DE1CE11D3BD463B509FB716940FD 62 30 1 0x65300BAD8FFA21BC7DC2ClF79FA97A9F469CC C9E270A61759F34D6276F57CBEB009CD21 47 200838193 tables 309a - lk FFT mode Pre-modulation sequence per segment and recognition of cells (continued) Index recognition Cell segment modulation sequence (Wk) 63 31 1 0x6F36BB6D5A7DC4FB720439E91FF0DE86DD6C4B9 3CFC4271F2BCC6169616E3AEAA19E360 64 0 2 0xD27B00C70A8AA2C036ADD4E99D047A376B363FE DC287B8FD1A7794818C5873ECD0D3D56 65 1 2 0xE7FDDCEED8D31B2 C0752D976DE92BEA241A713 CF818C274AA1C2E3862C7EB7023AF35D4 66 2 2 0x87BF4954022D30549DF7348477EACB97AC3565B83 8460CC62F242883313B15C31370335 67 3 2 0x82DD830BEDE4F13C76E4CF9AEF5E42609F0BDDC B000A742B6372DD5225B0C3114494746 68 4 2 0x4E06E4CF46ElF5691938D7F40179D8F79A85216775 384BD97966DB4BBF49FB6FAB8F945 69 5 2 0x64164534569A5E670FDB390D09C04802DD6A16B02 2CADC77EDD7464AFED43C773A8DC76 70 6 2 0xFB8769A81AA9DB607F14A6A95948401F83057CDC 9C9C3996BA5821403A49F00A4E35191 71 7 2 0x77710D6F40B4F79CC63F678551C3EC18FA9DF2C82 E6C8F415DADFD63264B7513180070E 72 8 2 0x503F196BBF93C238BFD5E735E5AE52E0DAE64F5E 2F4C3B92E553F51303C4A64C4403BF3 73 9 2 0x5FD4A6894566678C95B9D5A59DDE5366799045FE B03A2BAA74094140E9068C61C2E972C 74 10 2 0x95B584DC40C8B5DEAD63D48FCE65BlE61BAB4C 597D921DB12677141E2FFE7C0AA3DA0D5 75 11 2 0x985763AB6CC8934DB8A0BE738A7AF1D1FA3958C 1F9E2D6A51A163E47A0A6E5FEB759FDD 76 12 2 0xFD8D45F00D943AD986BD353D61C6746DBF8A309 B6AE1C173B880D957B76DC031A957E8D 77 13 2 0xAE4323534F6EFBl The foregoing modulation sequence lk FFT mode, per - A20169328417885EF304FA22038 9FA9C2607E5A406F4CE4A7498A39F 78 14 2 0xE5205579893BE184CB9948C28E2F9AAF699D47B6 E5E0B219CBEAFE4BEC8D561BD809E34 79 15 2 0xAB11D6941478D36D5695CE813070DC1E32122A39 083E53FE373660AEB125D83383FBDCA 80 16 2 0xl88A09C46FlF11206FF9F15CFB5F6CD2F26C4BF48 5EE37D3650A595064F76CE34E40EAD 81 17 2 0x4B 1CDE2553 9A56CEDC45FE7F54C3 8CF155F4FB1 AE868F6C3952D07014BF828E810BDE2D 82 18 2 0xl6CA8F8C6A879E865E3611EAC389D56AFA3E4E84 CDBB73567BA4A160249C4B680A7D9BC 83 19 2 0x39D2B08AA0E2E8781476027B41AD72F8D9838B70 01AADFD33A92D81E56ECBB2C9378D58 48 200838193 table 309a Segment and identification of cells (continued)

索引識別細胞段調變序列(wk) 84 20 2 0x8C258BC80D4AD125F335A5151EDF9E9A463E06 C5C8D046F82E5DC3D73EF4D2231C5D14F 85 21 2 0x41A029C6356C825585179C5348EDF07A3AC2022 539AC28DC4CD3C1DFADC8EE9644CD939 86 22 2 0x0D70A77CBE9804913BFBEC4FBF917C5CD3580 F6062BBAD3F99ECEBB4A9EBB87523AB722 87 23 2 0x6A00A30901F9FDE44B4FlECED44E0BCB943B2 9519F313BE4496D34F39B154FC2384CB75 88 24 2 0x95351107A8BE6ABFC24C1292FE1A0FE677CBFD 04F2E81178CAA9D294730EF9C946F676E 89 25 2 0x01F21470FD9BlE0B3C6B2F7C0412A15764C277 D61BA2EE3B3769DE7ADACB2BB29918FB7 90 26 2 0xA578ABFE155369440FA3D4DF757CCA596469B8 0A0E56BFE6010DD63E67CEDB86BB1EF39 91 27 2 0xlElCFFAB031836777DE5D168A9246C559574C74 CCC06405EB406B8DDB7C9A6EF54A66A5 92 28 2 0x354149C2CA19A735F9CD04AF4922E8ECE6509B 978B951F946FD4AD36C7F9C83624205E7 93 29 2 0x5 A27E60DEA547D0D41897A03199F28 A967AC51 728E3B38325B4FBECF1B85A7EE9B04182 94 30 2 0x784DA3B 16B810FE3B851060AD7BD27D9D9457 F6C8899A13D311E531B855C15ECE6D3A2F 95 31 2 0xD7DFBC65797633A8C13D3EEC781D4895233813 6063B579D69437B28B744B5A4BE18AFA9 96 0 0 0x61AF26BD39A9FFF52826625E04ADA299385A37 3FA946D837D754E6CFEBB26F5C03B87CF 97 1 1 0xD77D97CDB93DBEAA65CAFA146F40D72B5E80 944F750E07325DC164ED60F32434BC7187D 98 2 2 0x4529D9CA65AF49ClC39BDC18CFAB87E03FE4D AFC0A48FF1457D46B0DF66B414A23ACDDB 99 3 0 0x33AC0261DAA57C1D611EBA1C730D50AFEE5B E3E849030A4E891BC8C5F4C78DCDDFEA263 100 4 1 0xBED48C704F02A84F03BCD299D919DA56F7B71 EDF8A0F8A25E8F8496F95A44CE2B9F74C9 101 5 2 0x0ECCBE0902EBF4B4C29506014A3706622784B7 B2D5153E10AD3112DC5E45277A32E79DE 102 6 0 0x7CB4937889C7DFD9AA2D37235E06F993D3D4F5 D515B39CA652F62397C08457D66BC5A36 103 7 1 0x43F23F6CAC6C43896B3EDBF00ElCBD42E2CC7 5E2A996448F0FCF17F6779DD6E356FED11 104 8 2 0x72C8A209FBC4A568BEF03BCFElB0D959F977B 0963780B4E54E2B9A1016344ACB7EE3E3A 49 200838193 表309a——Ik FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 105 9 0 0x77AEB9E50DC3727849A94FBFFCDB5B9589AF5 0ABD8A58808B9663058E17A2EBC496DF43 106 10 1 0x667123C89077FE4AAAEF15C635E976C6811682D 478FFC7B721A76B5A38697DF4FB7D2CE 107 11 2 0xCBD6C5C9BE55B0BE76AD03392E8A8AB9A860 63DB31B79280B447980BB841FD7E9DC6B9B 108 12 0 0xC7D7DEF8B3C9C8667D8D65063B4DADlFF6944 5C87CA71DA955D0CA23970E988A6EA4C83 109 13 1 0xFB246ABD92F9E560CB2BEC2317204C9CE22AD 3BD19EA02E90F5F3B7F4F65538D8ED098E 110 14 2 0x29E74579472FDD8FFC2700B2BF33C649989DD8 153093A7CA08B50F7A5E4BAED108A0F0D 111 15 0 0xA27F29D8D6CCD7EB4BBE303C3E9E95802DB98 BFD5B8ED03B88304359D92E3EC108CA3C8 112 16 1 0x3FE70E26FA00327FE3B2BE6BC5D5014F588F09 C17D222C146DD68B4824692A651888C76 113 17 2 0x41E91307EC58801CFF2C7E9CFEFBEB71681FAE 2BEAEC72D4E4556E99345D3BA4B369B59 50 200838193 表3 09b-512FFT模式的前文調變序列每段(segment)及識別細胞(IDcell) 索引識別細胞段調變序列(wk) 0 0 0 0x66C9CB4DlC8F31D60F5795886EE02FFF6BE4 1 1 0 0xD8C30DA58B5ED71056C5D79032B80E05522C 2 2 0 0x8EB62664E3B2C5222DE18E9000561F25AAFC 3 3 0 0x3B32299087C257CD31C67E4AA5DD697B0E08 4 4 0 0xC07E0B0C5DB44071EE6CEC40CA3135CB5DB8 5 5 0 0x89B08CD299A8AC757DB59107AF4E1EF1EE1C 6 6 0 0xlB72E8C0ECFAABF050091382B411B45A718C 7 7 0 0x5B33ED5A6303397EC3CCC35C8203A5A05178 8 8 0 0xAD1173C461254BF9181238319F93F86AF964 9 9 0 0x51E2005BBA69C858BCC741D84990B657271C 10 10 0 0x21A03B607DD96F270CBC759B2A9BD6A84A34 11 11 0 0x4518EC4C7AD645D24AD949B42A7881403C7C 12 12 0 0xF8B70C595A37315D301D378A4D2848C821D4 13 13 0 0xFF42582005F8382C5CC6298D757155B36B24 14 14 0 0x599EF40107CBB3B30AF945365494A0D60570 15 15 0 0xC6D6BE87F0D88458ABD22DE822B64E450738 16 16 0 0xE043896829F236B10A35014D9E4F26ECB95C 17 17 0 0x2347472A610FC084C71460393AEF36CBE928 18 18 0 0x5F4D880DC516DC0B3860DA948225D2BC6770 19 19 0 0x9EFEEA99631FAF0D9589E9640BCD56C5FF08 20 20 0 0xFE792EF83B235B3D4A6447BED27035454BC0 21 21 0 0xB3BlB868C121C4555A64161B654A4FE81D70 22 22 0 0xB7C2D44078510ADD2447D93E8A1231AE3910 23 23 0 0x16A9D8F71CC1CD0EFA0008AA343 A7A4ADA4C 24 24 0 0x7389FDE96166E7E40F7A6778AA02944937A4 25 25 0 0xA0598A0907798B3465DD8CBD08565F0FB5B8 26 26 0 0x0E75B3C128085C954A25E5808FC5833A8FB0 27 27 0 0xBBCDA362265B4D4D2BEE80F635E638316280 28 28 0 0x660047B06A 1B5FAE6A9F0679DBC A9B1A2DF4 29 29 0 0x2594AE119CB87E802D67EF7EE0EAE99474CC 30 30 0 0x8FB3FA462D2CFAF842BB5319D9786A997C10 31 31 0 0x599E199B609C0C654DB053E8C94F343AAFF8 32 0 1 0xE0187D89220DllB5F60DAC078A5E2EED6EF0 33 1 1 0x69F57E074F14A10FEC6144C26E98C4688330 34 2 1 0xD2C4067132528AA41BBE61A9C171A382F768 51 200838193 表309b——512FFT模式的前文調變序列每段及識別細胞(續表)Index identifies the cell segment modulation sequence (wk) 84 20 2 0x8C258BC80D4AD125F335A5151EDF9E9A463E06 C5C8D046F82E5DC3D73EF4D2231C5D14F 85 21 2 0x41A029C6356C825585179C5348EDF07A3AC2022 539AC28DC4CD3C1DFADC8EE9644CD939 86 22 2 0x0D70A77CBE9804913BFBEC4FBF917C5CD3580 F6062BBAD3F99ECEBB4A9EBB87523AB722 87 23 2 0x6A00A30901F9FDE44B4FlECED44E0BCB943B2 9519F313BE4496D34F39B154FC2384CB75 88 24 2 0x95351107A8BE6ABFC24C1292FE1A0FE677CBFD 04F2E81178CAA9D294730EF9C946F676E 89 25 2 0x01F21470FD9BlE0B3C6B2F7C0412A15764C277 D61BA2EE3B3769DE7ADACB2BB29918FB7 90 26 2 0xA578ABFE155369440FA3D4DF757CCA596469B8 0A0E56BFE6010DD63E67CEDB86BB1EF39 91 27 2 0xlElCFFAB031836777DE5D168A9246C559574C74 CCC06405EB406B8DDB7C9A6EF54A66A5 92 28 2 0x354149C2CA19A735F9CD04AF4922E8ECE6509B 978B951F946FD4AD36C7F9C83624205E7 93 29 2 0x5 A27E60DEA547D0D41897A03199F28 A967AC51 728E3B38325B4FBECF1B85A7EE9B04182 94 30 2 0x784DA3B 16B810FE3B851060AD7BD27D9D9457 F6C8899A13D311E531B855C15ECE6D3A2F 95 31 2 0xD7DFBC65797633A8C13D 3EEC781D4895233813 6063B579D69437B28B744B5A4BE18AFA9 96 0 0 0x61AF26BD39A9FFF52826625E04ADA299385A37 3FA946D837D754E6CFEBB26F5C03B87CF 97 1 1 0xD77D97CDB93DBEAA65CAFA146F40D72B5E80 944F750E07325DC164ED60F32434BC7187D 98 2 2 0x4529D9CA65AF49ClC39BDC18CFAB87E03FE4D AFC0A48FF1457D46B0DF66B414A23ACDDB 99 3 0 0x33AC0261DAA57C1D611EBA1C730D50AFEE5B E3E849030A4E891BC8C5F4C78DCDDFEA263 100 4 1 0xBED48C704F02A84F03BCD299D919DA56F7B71 EDF8A0F8A25E8F8496F95A44CE2B9F74C9 101 5 2 0x0ECCBE0902EBF4B4C29506014A3706622784B7 B2D5153E10AD3112DC5E45277A32E79DE 102 6 0 0x7CB4937889C7DFD9AA2D37235E06F993D3D4F5 D515B39CA652F62397C08457D66BC5A36 103 7 1 0x43F23F6CAC6C43896B3EDBF00ElCBD42E2CC7 5E2A996448F0FCF17F6779DD6E356FED11 104 8 2 0x72C8A209FBC4A568BEF03BCFElB0D959F977B 0963780B4E54E2B9A1016344ACB7EE3E3A 49 200838193 table 309a - Ik FFT mode of the previous modulation sequence per segment and recognition of cells (continued) Index identification cell segment modulation sequence (wk) 105 9 0 0x77AEB9E50DC3727849A94FBFFCDB5B9589AF5 0ABD8A58808B9 663058E17A2EBC496DF43 106 10 1 0x667123C89077FE4AAAEF15C635E976C6811682D 478FFC7B721A76B5A38697DF4FB7D2CE 107 11 2 0xCBD6C5C9BE55B0BE76AD03392E8A8AB9A860 63DB31B79280B447980BB841FD7E9DC6B9B 108 12 0 0xC7D7DEF8B3C9C8667D8D65063B4DADlFF6944 5C87CA71DA955D0CA23970E988A6EA4C83 109 13 1 0xFB246ABD92F9E560CB2BEC2317204C9CE22AD 3BD19EA02E90F5F3B7F4F65538D8ED098E 110 14 2 0x29E74579472FDD8FFC2700B2BF33C649989DD8 153093A7CA08B50F7A5E4BAED108A0F0D 111 15 0 0xA27F29D8D6CCD7EB4BBE303C3E9E95802DB98 BFD5B8ED03B88304359D92E3EC108CA3C8 112 16 1 0x3FE70E26FA00327FE3B2BE6BC5D5014F588F09 C17D222C146DD68B4824692A651888C76 113 17 2 0x41E91307EC58801CFF2C7E9CFEFBEB71681FAE 2BEAEC72D4E4556E99345D3BA4B369B59 50 200838193 Table 3 09b-512FFT mode The above-mentioned modulation sequence per segment and identification cell (IDcell) index identification cell segment modulation sequence (wk) 0 0 0 0x66C9CB4DlC8F31D60F5795886EE02FFF6BE4 1 1 0 0xD8C30DA58B5ED71056C5D79032B80E05522C 2 2 0 0x8EB62664E3B2C5222DE18E9000561F25AAFC 3 3 0 0x3B32299087C257 CD31C67E4AA5DD697B0E08 4 4 0 0xC07E0B0C5DB44071EE6CEC40CA3135CB5DB8 5 5 0 0x89B08CD299A8AC757DB59107AF4E1EF1EE1C 6 6 0 0xlB72E8C0ECFAABF050091382B411B45A718C 7 7 0 0x5B33ED5A6303397EC3CCC35C8203A5A05178 8 8 0 0xAD1173C461254BF9181238319F93F86AF964 9 9 0 0x51E2005BBA69C858BCC741D84990B657271C 10 10 0 0x21A03B607DD96F270CBC759B2A9BD6A84A34 11 11 0 0x4518EC4C7AD645D24AD949B42A7881403C7C 12 12 0 0xF8B70C595A37315D301D378A4D2848C821D4 13 13 0 0xFF42582005F8382C5CC6298D757155B36B24 14 14 0 0x599EF40107CBB3B30AF945365494A0D60570 15 15 0 0xC6D6BE87F0D88458ABD22DE822B64E450738 16 16 0 0xE043896829F236B10A35014D9E4F26ECB95C 17 17 0 0x2347472A610FC084C71460393AEF36CBE928 18 18 0 0x5F4D880DC516DC0B3860DA948225D2BC6770 19 19 0 0x9EFEEA99631FAF0D9589E9640BCD56C5FF08 20 20 0 0xFE792EF83B235B3D4A6447BED27035454BC0 21 21 0 0xB3BlB868C121C4555A64161B654A4FE81D70 22 22 0 0xB7C2D44078510ADD2447D93E8A1231AE3910 23 23 0 0x16A9D8F71CC1CD0EFA0008AA343 A7A4ADA4C 24 24 0 0x7389FDE96166E7E40 F7A6778AA02944937A4 25 25 0 0xA0598A0907798B3465DD8CBD08565F0FB5B8 26 26 0 0x0E75B3C128085C954A25E5808FC5833A8FB0 27 27 0 0xBBCDA362265B4D4D2BEE80F635E638316280 28 28 0 0x660047B06A 1B5FAE6A9F0679DBC A9B1A2DF4 29 29 0 0x2594AE119CB87E802D67EF7EE0EAE99474CC 30 30 0 0x8FB3FA462D2CFAF842BB5319D9786A997C10 31 31 0 0x599E199B609C0C654DB053E8C94F343AAFF8 32 0 1 0xE0187D89220DllB5F60DAC078A5E2EED6EF0 33 1 1 0x69F57E074F14A10FEC6144C26E98C4688330 34 2 1 0xD2C4067132528AA41BBE61A9C171A382F768 51 200838193 table 309b - 512FFT Pattern of pre-modulation sequences for each segment and identification of cells (continued)

索引識別細胞段調變序列(wk) 35 3 1 0xB027CB82594D3900700B541A99CCD5FD5870 36 4 1 0xE9B565C61F73EC6633AlF2D96EC409495B80 37 5 1 0xEBD7E29110582C5951233AB22B03DE709698 38 6 1 0x0CCA91DA1B42B0B55C924F32B08B1FAE0E18 39 7 1 0xA4213FFB85B56E27C74FC6ECBA359875438C 40 8 1 0xlA37F92589686CFE5E4D4BFD8E2BC63AA8CC 41 9 1 0x31531 C7B2F7518BF59ACFB216FC74D09F2F4 42 10 1 0xCE026112DF00BB74E1B1F43B595112B16344 43 11 1 0x503494DE054AE395883AEDD8CC7801B8F124 44 12 1 0x8447E25CA9A0EElCFB9FADB6C42B8F565B3C 45 13 1 0x757C45DA8F140FB6E71024294B2439CDACFC 46 14 1 0xF2A59A32B51CE505E45E9B5C7C7DBE880DF4 47 15 1 0x8DFBF09479BC91E466A539E077D2B26A8B2C 48 16 1 0xlC6FB87D76DB82FFAlE492166684CACEE560 49 17 1 0xA32CF5 8413 7FDF1D4CCE6 A1CF40FEC1F4 AEO 50 18 1 0xEC4D3AC52136FA468F28777078C8A82C0808 51 19 1 0x30CABB208C9D6C774814A163765E4ACBC540 52 20 1 0xCA3448C6716F6F8D15D7372A3A4F6E825A14 53 21 1 0xABD1526F4A510F820B689F30ClE7B88C8848 54 22 1 0x94E4E2AE2C4E47FD7D0A154C25BF40F759E0 55 23 1 0x43BFFD566D85BE162650670BElA3CA523284 56 24 1 0xD7644475A2E5EDADlAD184242E3C841A03E0 57 25 1 0xA61DDBA416DlD14358647C4ACEF2503001E4 58 26 1 0xlF9047A8651D4D4A7C582469DC8C41B68E08 59 27 1 0xE0EAC02D975263F36D4BEF70669CBDEE658C 60 28 1 0xDFAE7334BD2B8FFlD2C7CB5922823B03F744 61 29 1 0xD44B2AD5842F1EEA1A39DBC64EC064FCCFBC 62 30 1 0x08AD296C8D17ABD021E02E20DACC247673EC 63 31 1 0x2FE66830D806B3F8DD38D5FElCF12DEB9774 64 0 2 0xC6325F42597BD48A8914944C7DB973D83E64 65 1 2 0xE04B98E9254434D3F765A621752C0FlFEC54 66 2 2 0xA74B60D84CCB156BlB8AE015B8CE980868EC 67 3 2 0x78E7405DCFDAlDFCDA6E54B3794B49A0F8B0 68 4 2 0xF32F4CA1A154E746FE1C2D1E4A1251779804 69 5 2 0x5A2905AlCF5D06444C880ADC07EB3889E71C 52 200838193 表309b——512FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 70 6 2 0x74290661C664DEB829569B7C4E6C32B2BE00 71 7 2 0xEBB53241F5D9CD87A612C0774ED2FED4679C 72 8 2 0xE33B89ABA4ED020D558B833AF74072922164 73 9 2 0x3B7D2DEEF829E230718AA7996CD814A4DD88 74 10 2 0x373861E8993FC22E176F6DA6A46A10158EF4 75 11 2 0x2BEA329B65DE1CD26ECDD382915AC40B1D0C 76 12 2 0x7A8B131BD5D1270C30003DA472DD81D9A434 77 13 2 0x9D6A237940057479D30BE19AD719F8F9B47C 78 14 2 0xClFB9C3811B349E9F793A14C8AE8425A6218 79 15 2 0xDFFDE03D8C717A346B4BlD3C02693330A9B4 80 16 2 0x76254DEF89683CD7210898069E2CDA0EE144 81 17 2 0x09B9B69C132C4E2DC16A1438828147D65F94 82 18 2 0xBlCCE0D47DF246E9059CBC970168518206AC 83 19 2 0xl017669D7990F3AB4378924C69E442F2BAD0 84 20 2 0x772407B19C5FA41D542C8A2DC9ADD2C2943C 85 21 2 0x7A38C2889EB10D93F23EC75B212D327D18A8 86 22 2 0xD25A195D899BF6F531F5ECC228BE0678A438 87 23 2 0xA83FDlC33F4C6CAA5A0E8B062937AC310034 88 24 2 0xAA6DDDlA05ADF49F615BE9F9EBCA6630E440 89 25 2 0xB14990574937763EEBD71A12FEB0C673F878 90 26 2 0xDDF013D74BDDE5FBB621A32B54DE24AAlD60 91 27 2 0xD814295D387D2EE33F90C07CA493062B3054 92 28 2 0x89B93046231A786C3D74ABAEC6AFF42D037C 93 29 2 0x5680E918BA19199E841B4D6A7DlDD1420E78 94 30 2 0x639CC821373B332F975817C0AlAC16A48150 95 31 2 0x06711D78BD8978D82DA58B7E494DDF77E994 96 0 0 0xC882DD8DBD23C796A1389DA4EAA9A4138640 97 1 1 0x038086D70895496BCABC404BlEC999F67AC0 98 2 2 0x8203073 A335DB9E57B0CA2F07D5958176B50 99 3 0 0x3FFlCD3638EE6469A4A482AF834EF56A2340 100 4 1 0x69EA7871159D5099F900C6133C07DABF56F0 101 5 2 0x4D88ABB17FF855393EDBC070CF0439D5E94C 102 6 0 0x01EFD43C87362B00E376A728BC597BEED978 103 7 1 0x7AE20D16F3CC6F947413518FDF6ElFCCCDE8 104 8 2 0xBB852F9A90B0DE260BB67F45491B31DE3A74 53 200838193 表309b——512FFT模式的前文調變序列每段及識別細胞(續表) 索引識別細胞段調變序列(wk) 105 9 0 0x088627544BDF971ClAC4F86F05A212EE9634 106 10 1 0x0C8A08A37C2B9D3C1812E9C116B4E6A6285C 107 11 2 0xE74775CADDDDF0D2D808FE7FClC177489284 108 12 0 0xE81ECC6AC393294E9B549A8B2BADE7FFF904 109 13 1 0xlC5FAE8CACE7A2CD13CAF4A34A440E909BF8 110 14 2 0x6EE7E42 A292BDACC5C79B81CA6598274C940 111 15 0 0x407547BC0C961D9E9ADDE010F4990724E8DC 112 16 1 0x46CE626ACD894F9650E6B7C3F9E3BFAE5B08 113 17 2 0xC59B894FBF170F44F4816750280AB8CB4E48 5 雖然本發明的一些較佳實施例已經被顯示且被描述，但戎領域中具有通常知識者可瞭解，可以對這些實施例進行變化，而不脫離本發明之原則及精神，本發明之範圍被疋義於申请專利範圍及其等效物中。【圖式簡單說明】 10 第1圖是一圖示，說明包括一行動中繼基地台、一中繼台及一用戶站之一網路。第2圖疋一圖示，說明包括一多中繼段中繼台連接之一網路。第3圖是一圖示，說明使用依據本發明之一實施例的一 15 安布調變序列。第4圖及第5圖是圖示，說明依據本發明之一實施例的一關聯安布調變序列之性能。第6圖是一圖示，說明依據本發明之一實施例的使用一 54 200838193 安布調變序列之一網路。第7圖是一圖示，說明依據本發明之另一實施例的使用一安布調變序列之一網路。【主要元件符號說明】 28、35…存取區 40、42…操作 56、 64···編碼提供器 57、 65、66…安布解碼器 20、30、50…行動中繼基地台 (MR-BS) 22、32、34、52、60、62··.中繼台(RS)Index identifies the cell segment modulation sequence (wk) 35 3 1 0xB027CB82594D3900700B541A99CCD5FD5870 36 4 1 0xE9B565C61F73EC6633AlF2D96EC409495B80 37 5 1 0xEBD7E29110582C5951233AB22B03DE709698 38 6 1 0x0CCA91DA1B42B0B55C924F32B08B1FAE0E18 39 7 1 0xA4213FFB85B56E27C74FC6ECBA359875438C 40 8 1 0xlA37F92589686CFE5E4D4BFD8E2BC63AA8CC 41 9 1 0x31531 C7B2F7518BF59ACFB216FC74D09F2F4 42 10 1 0xCE026112DF00BB74E1B1F43B595112B16344 43 11 1 0x503494DE054AE395883AEDD8CC7801B8F124 44 12 1 0x8447E25CA9A0EElCFB9FADB6C42B8F565B3C 45 13 1 0x757C45DA8F140FB6E71024294B2439CDACFC 46 14 1 0xF2A59A32B51CE505E45E9B5C7C7DBE880DF4 47 15 1 0x8DFBF09479BC91E466A539E077D2B26A8B2C 48 16 1 0xlC6FB87D76DB82FFAlE492166684CACEE560 49 17 1 0xA32CF5 8413 7FDF1D4CCE6 A1CF40FEC1F4 AEO 50 18 1 0xEC4D3AC52136FA468F28777078C8A82C0808 51 19 1 0x30CABB208C9D6C774814A163765E4ACBC540 52 20 1 0xCA3448C6716F6F8D15D7372A3A4F6E825A14 53 21 1 0xABD1526F4A510F820B689F30ClE7B88C8848 54 22 1 0x94E4E2AE2C4E47FD7D0A154C25BF40F759E0 55 23 1 0x43BFFD566D85BE162650670BElA3CA523284 56 24 1 0xD7644475A2E5EDADlAD184242E3C841A03E0 57 25 1 0xA61DDBA416DlD14358647C4ACEF2503001E4 58 26 1 0xlF9047A8651D4D4A7C582469DC8C41B68E08 59 27 1 0xE0EAC02D975263F36D4BEF70669CBDEE658C 60 28 1 0xDFAE7334BD2B8FFlD2C7CB5922823B03F744 61 29 1 0xD44B2AD5842F1EEA1A39DBC64EC064FCCFBC 62 30 1 0x08AD296C8D17ABD021E02E20DACC247673EC 63 31 1 0x2FE66830D806B3F8DD38D5FElCF12DEB9774 64 0 2 0xC6325F42597BD48A8914944C7DB973D83E64 65 1 2 0xE04B98E9254434D3F765A621752C0FlFEC54 66 2 2 0xA74B60D84CCB156BlB8AE015B8CE980868EC 67 3 2 0x78E7405DCFDAlDFCDA6E54B3794B49A0F8B0 68 4 2 0xF32F4CA1A154E746FE1C2D1E4A1251779804 69 5 2 0x5A2905AlCF5D06444C880ADC07EB3889E71C 52 200838193 table 309b - 512FFT hereinbefore modulation mode and cell recognition sequence of each segment (continued) sequence index identifying field modulation cells (wk) 70 6 2 0x74290661C664DEB829569B7C4E6C32B2BE00 71 7 2 0xEBB53241F5D9CD87A612C0774ED2FED4679C 72 8 2 0xE33B89ABA4ED020D558B833AF74072922164 73 9 2 0x3B7D 2DEEF829E230718AA7996CD814A4DD88 74 10 2 0x373861E8993FC22E176F6DA6A46A10158EF4 75 11 2 0x2BEA329B65DE1CD26ECDD382915AC40B1D0C 76 12 2 0x7A8B131BD5D1270C30003DA472DD81D9A434 77 13 2 0x9D6A237940057479D30BE19AD719F8F9B47C 78 14 2 0xClFB9C3811B349E9F793A14C8AE8425A6218 79 15 2 0xDFFDE03D8C717A346B4BlD3C02693330A9B4 80 16 2 0x76254DEF89683CD7210898069E2CDA0EE144 81 17 2 0x09B9B69C132C4E2DC16A1438828147D65F94 82 18 2 0xBlCCE0D47DF246E9059CBC970168518206AC 83 19 2 0xl017669D7990F3AB4378924C69E442F2BAD0 84 20 2 0x772407B19C5FA41D542C8A2DC9ADD2C2943C 85 21 2 0x7A38C2889EB10D93F23EC75B212D327D18A8 86 22 2 0xD25A195D899BF6F531F5ECC228BE0678A438 87 23 2 0xA83FDlC33F4C6CAA5A0E8B062937AC310034 88 24 2 0xAA6DDDlA05ADF49F615BE9F9EBCA6630E440 89 25 2 0xB14990574937763EEBD71A12FEB0C673F878 90 26 2 0xDDF013D74BDDE5FBB621A32B54DE24AAlD60 91 27 2 0xD814295D387D2EE33F90C07CA493062B3054 92 28 2 0x89B93046231A786C3D74ABAEC6AFF42D037C 93 29 2 0x5680E918BA19199E841B4D6A7DlDD1420E78 94 30 2 0x639CC821373B332F975817C0AlAC16A48150 95 31 2 0x06711D78BD8978D82DA58B7E494DDF77E994 96 0 0 0xC882DD8DBD23C796A1389DA4EAA9A4138640 97 1 1 0x038086D70895496BCABC404BlEC999F67AC0 98 2 2 0x8203073 A335DB9E57B0CA2F07D5958176B50 99 3 0 0x3FFlCD3638EE6469A4A482AF834EF56A2340 100 4 1 0x69EA7871159D5099F900C6133C07DABF56F0 101 5 2 0x4D88ABB17FF855393EDBC070CF0439D5E94C 102 6 0 0x01EFD43C87362B00E376A728BC597BEED978 103 7 1 0x7AE20D16F3CC6F947413518FDF6ElFCCCDE8 104 8 2 0xBB852F9A90B0DE260BB67F45491B31DE3A74 53 200838193 table 309b - 512FFT preamble modulation series per segment and cell recognition mode (continued) index identifying field modulation sequences cells (wk) 105 9 0 0x088627544BDF971ClAC4F86F05A212EE9634 106 10 1 0x0C8A08A37C2B9D3C1812E9C116B4E6A6285C 107 11 2 0xE74775CADDDDF0D2D808FE7FClC177489284 108 12 0 0xE81ECC6AC393294E9B549A8B2BADE7FFF904 109 13 1 0xlC5FAE8CACE7A2CD13CAF4A34A440E909BF8 110 14 2 0x6EE7E42 A292BDACC5C79B81CA6598274C940 111 15 0 0x407547BC0C961D9E9ADDE010F4990724E8DC 112 1 6 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 And the scope of the invention is intended to be in the scope of the claims and their equivalents. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a network including a mobile relay base station, a relay station, and a subscriber station. Figure 2 is a diagram showing a network including a multi-hop relay station connection. Figure 3 is a diagram illustrating the use of a 15 amp modulation sequence in accordance with an embodiment of the present invention. 4 and 5 are diagrams illustrating the performance of an associated Amble modulation sequence in accordance with an embodiment of the present invention. Figure 6 is a diagram illustrating a network using a 54 200838193 Amble modulation sequence in accordance with an embodiment of the present invention. Figure 7 is a diagram illustrating a network using an amp modulation sequence in accordance with another embodiment of the present invention. [Description of main component symbols] 28, 35...Access areas 40, 42... Operation 56, 64···Encoders 57, 65, 66...Amble decoders 20, 30, 50... Mobile relay base stations (MR -BS) 22, 32, 34, 52, 60, 62··. Relay Station (RS)

24、36、54…用戶站(SS) 26、3卜33···中繼區 5524, 36, 54... User Station (SS) 26, 3 Bu 33··· Relay Area 55

Claims

200838193 X. Patent application scope: 1. A device comprising: an Amp modulation sequence 7W/ for a downlink relay zone in an IEEE 802.16 network, the Amp modulation sequence has A pre-modulation sequence of the IEEE 5 802.16 network is, / = Ο,1,···, 113, and the relationship is as follows: PNf (y) = PNt (J - i = j = where J depends on the network A fast Fourier transform (FFT) size of the path, and J equals 567, 283, and I42, corresponding to an FFT of size 2048, 1024, and 512, respectively. The device of claim 1, further comprising: the IEEE 802. A base station in the network that transmits the frame using the Amp modulation sequence in the downlink zone. 3. The device of claim 1, further comprising: the IEEE 802. A relay station in the network that uses the Amp modulation sequence to transmit/receive a frame in the downlink region. 4. A method comprising the following steps: In an IEEE 802. An network modulation sequence 7W is provided in the network, and the ABB modulation sequence has a preamble sequence iWpi = 0, l, for the IEEE 802.16 network. . . , ll3, the relationship is as follows: 20 / (7) = PW a force,, · = 0,1,...,113, y = 0,1,...,/ where J depends on a fast Fourier transform (FFT) of the network Size, and J equals 567, 283, and 142, respectively, corresponding to an FFT of size 2048, 1024, and 512; and the use of the modulating 56 200838193 sequence in the downlink relay zone of the network. 5. The method of claim 4, wherein the using comprises: using the I-base station in the downlink routing area to use the Amp modulation sequence. 5 6. The method of claim 4, wherein the using comprises: using the relay modulation sequence in the downlink relay zone by a relay station of the network. 7. A device that contains: for use in an IEEE 802. A device for providing an Amp modulation sequence 10 in the network, the Amp modulation sequence is related to the IEEE 802. A pre-modulation sequence of 16 networks ΡΛ^, ί = 〇,1,···, η3, has the following relationship: PNf (j) = PNt (J - y), / = 〇, 1,. . . , 113, 7 = 0? 1,. . . , / where J depends on a fast Fourier transform (FFT) size of the network, and J equals 567, 283, and 142, corresponding to an FFT of size 2048, 15 1 〇 24, and 512, respectively; A device that uses the Amp modulation sequence in the downlink relay zone of the network. 8. A device comprising: an Amp modulation sequence for an IEEE 802. The next 20-line link relay in the network, the Amp modulation sequence is a reverse version of one of the network's previous modulation sequences. 9. The device of claim 8, further comprising: a base station in the network, wherein the base station uses the beta sequence in the downlink towel Frame. 57 200838193 10. The device of claim 8, further comprising: the IEEE 802. A relay station in the network that uses the Amp modulation sequence to transmit/receive a frame in the downlink relay zone. 5 11. A method comprising the following steps: in an IEEE 802. In the 16 network, an Amp modulation sequence is used in a downlink relay zone, and the Amp modulation sequence is a reverse version of a preamble sequence of the network. 12. The method of claim 11, wherein the Ampo 10 sequence is the IEEE 802. 16 used in a base station in the network. 13. The method of claim 11, wherein the Amble modulation sequence is the IEEE 802. 16 used in a relay station in the network. 14. A device comprising: means for providing an Amp modulation sequence, the Amp modulation sequence 15 being an IEEE 802. A reverse version of a preamble sequence of the network; and means for using the provided modulating sequence in the network. 15. A device comprising: an Amp modulation sequence iW; 4, for an IEEE 802. 16 in the network, a downlink relay zone, the Amble modulation sequence is related to the IEEE 802. 16 network preamble sequence / Wp / = 0,1,. . . , 113, the relationship is as follows: PNf (j) = PNt (J - j\ / = 0,1,. . . , 113, 7 = 0,1,. . . , / where J is equal to 567, and one of the networks has a Fast Fourier Transform (FFT) size of 2048. 58 200838193 16. A device comprising: an Amp modulation sequence for an IEEE 802. A downlink relay zone in the network, the Amble modulation sequence is related to the IEEE 802. 16 network of a pre-formatted sequence of households 7^, / = 〇, 1,. . . , 113, the relationship is as follows: 5 PNf{j) = PNt(J - j)^ i = 0,1,. . . ,113, j = 0,1,. . . , / where J is equal to 283, and one of the networks has a Fast Fourier Transform (FFT) size of 1024. 17. A device comprising: an Amp modulation sequence for an IEEE 802. 16 in the network - the downlink relay zone, the Amble modulation sequence is related to the IEEE 802. 16 network preamble modulation sequence / wpz = 0, l,. . . , ii3, the relationship is as follows: PNf (j) = PNt {J - j\ i = 〇, 1, . . . ,113, y = 〇, 1,. . . j where J is equal to 142 and one of the networks has a Fast Fourier Transform (FFT) size of 512. 15 18. A method comprising the following steps: On an 802. 16 A network modulation sequence is used in the downlink transmission, Where the network has a fast Fourier transform (FFT) size of 2048, And the Amble modulation sequence is as shown in Table 1 below. The network has an FFT size of 1024. And the Amble modulation sequence is as shown in Table 2 below. Or the network 20 has an FFT size of 512. And the Amble modulation sequence is as shown in Table 3 below: 59 200838193 Table 1 - 2048 FFT's associated Amp modulation sequence per segment and identification cell (EDcell) index Identification package 0 Modulation sequence (hexadecimal format) 0xC121AlBB7304101BA89DF9CAE9B4226A120DEF3668F27BD 063F03CAA21E1B91CD2CDD7303E348A8DDE8735E99AE0A23 E96F06CC57C682DC5ED0650AD72FD56D28DFF36CEFED483 0xBECAD0ADAEF6007C7D70EB0F608C6AF15B70FEE272406D 9161E02346EA951C9504C76E63559882B41CBA45B34040ECDB1 F62C44564FD24B4DC3389943B7CB296BD250BD835EF95 0 0x5E6489881725DDDF3CE7B5EBDFDE63121D0167C75B78E19 DA7CA210550BF14B6F5494698A467B6AEEA0FB1C8BA40DEF 292A7C2898F9DA2D9E11F0F5DCE446CF27CC0E1DDF8CA6A 0x3C9E672D1420C9309CEF14EA6FD4F5B97A910899F3FA795C 309E0142FBFE9B4E47F51E0C7A1AB8F0660626AD49AF9005C4 0BFC5661CB6F6BB2E69AB0FBB9833E8E4D7B4AAFE9CD 4 4 0 0xl636078F624760F6197F171562F3DCD54920F31205FB3A38248 DAI 526F7AADD051D1066029A849FA7E94F3D62444B15962A5F 328471B68DC5C4471DE36FCA3BED6FB42D2132BD8 0x0664ABD924414FE4D2F5D0C6DlD37AE34FDBCE235402A73 54F596BEBA26915FE5423CCEE603C62270F6390E822E149AC12 92A417C9C16CD11238A96F2DF791C90D44E6DE290072 0xD39DAF85B91E70D57739D7C4789C8C8B24CA95C9B914132E 03894918FCF6017ED37FB77DC6BB8033EF9B06E8CAC269BFD 0E6EFB747AB0FA257921E99A1976BADB087AC96D53292 0xCEC94E54FDB6580F2BD068D3DA9E3EF57BB4FB9DDlCCE9 FA053F40937447024908E7D1CC0D37CADD0460885DD73B7D9 B04454BC16D83C4A294E6A1FD61762CA10A36B26408FA32 0x744BC357950BElE7A2FB3DC88E80CE7E62C2826B9E354C6B BFF9671D92ED6559EE78A5D77437073E9ECA51BB08072E3374 F57AC17A907A140B4D923B30625AB043064D59BE9E9E 0x6C49998324893DC29F06017E1BB1FAB8B1005B509B7F6D298 9 2F56D19D4A8EA786B928458A1EFABB62BF2EE7BA04FF08E53 59961BE7D6E0E683C152793E60A755D9DABC34359D85 10 10 0 0x6C1B4CCFA8AACDE6EC6EB673A72C56C1C5DD345AE8C8D 29FDC5253C957B7F596F0A9C66221F05218F67BAFFDD1E261E C879FF69C6C9B9D4289631F9006C064DC6B00B895FA7660 0x3CD47864D59C9524DDE0CFFABD77EDC79A82A33C50C277 11 11 A83999FF6410DD607EC310CE85E52665E2B2F82A2930F435DA 6CCCB5E9E837298B20A5BE3EA5EC8A545BC6EFDF97C22F 0x47B6EEEAC33BB91469EDDBD6AB5BCE357E70AB23C070E3 973B5954072CE82F02B5E2947C20679DEF368A432360362D42C9 5B54D07CE939749FD13E7A31106A03C121084B67D1CF 60 12 12 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 13 13 0 0xCFB3D90E7C191FD3B4DF2A83BABC4903C1310095CE3ED2 2E991FE44980AEFE107D08C19A29EA806BB21E54B4B6B059E 53790D3D2FC6BBC38D418A99A252A6425C68D0E72155208 14 14 0 0x37C5DC6072417F46018998E9D07BB9D50BCD435BFBA9DD6 CD91A7B661E9EB480040346E36C0143C1C61697B95635524038 33C4E813F8A9B1451A600D23F8AAE3557235E0A592D0 15 15 0 0xB25DD8189EA22D3B7417AB0A3947442FF3DEA63BB34B8C 52244E40F06940A4987E7AF367C69082175901347C9344FEC3 70 8CF50D31A77FEE3BDC38DF4D67C492E5A4ECBE328326 16 16 0 0x0B605B518205EC8B28B6ABDFF9F70F81A3BE0277AD43D6E 0D5444CF374F9722CEC9889C26F91EFAC94CE69DABB4F1389 B8BD91F4BCA5BD0CE2F087C6E7D819FCABD4067151B084 17 17 0 0xB405BA2CDF90D4106E01B553E0ADE6D6404D8F1972E04DE BD95A354F1A329C9EEDD6BC28197EC6C972FE297875ACEE7 B9D3F8B27970B6CE50439E692DBA4ABA939EFC711506911 18 18 0 0XF93910D8600937D1CE7140592B1B48EB9078ABE69D7C7E25 936A2F5C3F94EDF8C642A00A02B409FA796A00B5B55989306B 67CC8 AD510F5EE4F0B31C69B01837A53F57B313 AB4B8 19 19 0 0xD142B09554524A773A134AAC48D2302E874A66E9165877498 31EBE81C0433ED84FF3AD37461B838A2A439E742CA559D8B1 8BAFD8A213CCCEF3D4A00E9F6A3FCFEC8367BC07C605 20 20 0 0x7FBAB81D84E3994F2A0DF770691EA0C38E41A381C82D23D E2F1BA1905771FBBB267D419A898F3A13380DC3D366C880288 50CC250D35456D6D8E24566746495C9099A95648FE54B twenty one twenty one 0 0x4A526A123B7CAA3C8BE39404879EB98A7ADF92F70692D06 6880CEC43D7D04D4465FEE3133B0E00F74A3E25F23F1CDE19 255BFBF3F6E176F49F0DBB7257E52713D6E38AC421416E twenty two twenty two 0 0x41BCF75850F7F507DE7BAF72440F81CCD6CBD39DF3F4C48 0B63372EB304DF1EFBAFFCC46ABB23D7F576652F046E04657 4ABB652A345BE940AB1B0C41D180E5A69323AE1FC286B5 twenty three twenty three 0 0XD1589BE6E052BF2F6454CA3B6544E7EC40EA0C52F1F1FCD 9EA0AC848426C7CFD68954903E58207EA978A6FBDE339C636 12B5D1129BA47830C548B8D852D015AA21BA0744ED2859 twenty four twenty four 0 0xE51B8551B163C3AEE3ED428A02B241591438C4258A827FAl 40318DC6D0CFD972F7000B4E9A789CB77DB0CB8870668A525 F8435E1B909A151BEE848909D9BA3C7AEBA1777B22967 25 25 0 0x5C557F5FB89ED6CD24E3C47C02986488E0EC7541CBA57DC B86A43A26407B84A29E2E5F8508D657868710BF5E9F78A8D1F F0454369527F5C6360F26C9ED855A409937FBF64CE499 61 200838193 Table 1 One-to-one 2048 FFT-associated Abu modulation sequence for each segment and identification of cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 26 26 0 0xCFCBB5D7ADBC3A2E4056468E5DF76AAlCA194D4367B95F 4B540048756459D31032746FED90E16BA7F84A502745F0C701A 6AF19A646B470665C4452DF6A4FB5BDA75E881CF983C0 27 27 0 0x726271597B24271D3E80A6ABE9AA8E09D6128FC43E8F97AB 4F6C6032FF6958CBDC0E53B29EA89192464AF384C0348836589 13F51A36A9FD3AC91C709231205C513ED702DAC05D3 28 28 0 0x78BC5870B4A4B7ACBC933F3CDFDBC1381B48774E9956DF7 B98BB08DE15C8AF45D45539F1CDF354B7774AD1AF63DD9C0 DE444EA385B462CB53F42C1FB3D226926C28A107DED84C9 29 29 0 0x1 El 9E6FECF103B31B820A7444E248362790113C863DBB251C DDF58CFDCB580F2BECD2B335227FB0EB7815FEADB3670438 F6F2F158B4CBF2AFA56FD55A121412E3A9FE3E576FA84 30 30 0 0x21D6ElD51BB213B6B752A3926DCB36F5992EB2EF44BE4E24 48CFE526309BD119F59611E5988CE1AA177848F5541645F3C541 098F9DD4C237E8DAF3157BE9F8C000694C3F97D5AD 31 31 0 0xCBD095E152AF83C914490C2FFFFD0E1785046802775B74182 88FB1F514CD7067B761A2A85D65A41D14C8D0E644B9BBA129 8F3C4E95CCE1DDCDA5DC51D040644B1CC2897E90B6A9 32 0 1 0xE6B9D7C3D84283265DD2BEB35CED572A764DAAFC6E256A DB97F5290057397D886B8128D26837919B82BB4F890F867563C1 0D5998334309A75045F6571D0BD1B205B7808299B8A4 33 1 1 0x8FEA67DB25D706BEE88FBAB3EFB735BA330BB88E275B5F C1681264C9FF2A20ACB90C496043E1FADA19E528C42D1FBB5 D3F596DB39A61EE806A09411DF8D5393B5594A39DFA5C88 34 2 1 0x67A14BB44D27CFBD286045AF19275DF9371ElE0A82C9BF39 372C32CB0B56D222B01981680547621BB8355FCA508D1626D00 780771D61AEE07BA98C8B3BF34367BAD63F791810F9 35 3 1 0x7A14B769AE708C67B88E835BFCCAFlADAA20E97BF939CA 1D17642F7D41E0FE9469AD5CAF130218AF768918609F9B95945 2CC9BB504F06055A4AFCF68BF28206452059666E2B37C 36 4 1 0x021B17A5956EB3BFF884073626A5B61D6A40E81C9289F5602 C07A8831F006C4BAEB3865CA1AE6C578804FB21FAB4FF7CB4 965E3E10664B3844E138E721A3833379BDBC590BD6BC 37 5 1 0xl34B5888D3031F44C037B6A621579EEB9A6C20B70354DDA4 45164F06216A91B29A266051606B8820BE0EFF998EE1E968F49A EA715940534D3A0E479A2B570F9CF8B52B895B0FE4 38 6 1 0xl4C4CF64E81ED3A4E85D013CDE78A62A9155F9E14ECC9811 009284A4F680E8A09CEA4D661E74F5EDA6934F531825A60CDE 8A5F195701A215DD60376F3FC12D1935559E273DF686 62 200838193 Table 1 - a 2048 FFT associated with the Abu modulation sequence for each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 39 7 1 0xC590AF461D0C9176524FE6D5D71259AFC5E1183048EFE366 22437490E053246B66418456F1891AC61BFF9557FFFE2DD633F C18383F5D0AC6F76B957601C697DEE2FA3C6128EEAC 40 8 1 0xl25BC0A5481A6BCBEF3491DAAD0FC66A93F445848364349 52BE518F336F84F3877278A738B9F7DD9F01D22BD9AB185785 949D268195DB316E1AEC1BFCD0EBD602139D1F0B927D5 41 9 1 0x095634A7AE024A5561359DE32DF80520A391EC83C3882CFD 123266C64016A831A57266AE03D7D8CCD1C6EE2C48936EBE1 57DADC7226D09C4810E7B3DF01C21D0FB6C313F451916 42 10 1 0x8859ECD4F4B7441448748EAA5D72CE38E0310474082207C65 AD80B4C9BAEA6D7DA43E853DCBABDADF11737944AED9C 25794AC113 AE703253F53FFA40DF7363D56B4B4B11990EE7 43 11 1 0xBElCFC64DE8699B8EA06E71FC8F4CCB682943B2F49CE12F 00C4B30448747A18A42B949B8D50C9998B32E7C324E3EA7D63 4C6E77092D2A5AFD77C433B00A5F0C5D42AE46133B927 44 12 1 0x96A807FBB5C8DF0BDA41BB190E285F6FEB64CD06569B855 5CA7CC5C5FF5BE17AA59FF0C55BB95802AE679D45630F1B4 BD954867BDE482ED109A7A045451E5B67BA6370D9BD3277 45 13 1 0xF98AA2BF925C7C063E41B29A77A4023A78E161DECEA2591 81C97795E396EE543C0651B22E1054AC1D204D0EA66366DB74 D19D203 817896700B1A3BEA7EF33F5B7B4253D0B5BEB5 46 14 1 0xC2F0A0D16F8EECAB5BA57E873BlD09B2437CE5DE38D04C CB4EE98126A5727ED0A1ECA79CC22E95D8B3E3FB489934D5 9C0BB1A66053175AF2867C1C9734F5794AB45F4B05D94F1F 47 15 1 0x56750DClD43AA4AC8C3B7F7E3B31A682B087E28FADE45C F2CF18972E43688827D651C434C0FF8142D45094A77980C4A0F 729C0414F8459CBF3492F54CC8B7FB02917E793370339 48 16 1 0xB32AC0FB86942B7D0CE65887CF78DA2D5ADBCCFC72BA4 24E0A51FC96E4BD3FB9B182C98ED07CBDF690B6731A48A56 C766A2B855F05A3EAA79619086C1E222C66ADD32E5823973F 49 17 1 0xl4E6173B5C26974F7B06229D82B3D2D9594382A6587293955 4858D04B0A13C53A0387D83721F936F82C912748A75946B6E27 D66DC880665556C33FFEF7155D0F1DFAE4566D829E 50 18 1 0xl07FBD983B3CBC9E2C4C7F4AE4EF8F50B2F658EEED9C90 D79BEF725C1DFE51C4782CD2ED8AA68CB78156B62A049572 18EF4B1AD19A4D55A177423F985D4ECB74D93C8409CF8950 51 19 1 0x31076EE2C809D00514A761A35C71120C8563DBC12ED687BF FA1F730408F20E29243E87459F11FD92176274B283756060B1E5 A886115699DCEDDD4273997B175 A1CA1EB33592969 63 200838193 Table 1--2048 FFT Correlation Amp Modulation Sequences and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 52 20 1 0x74EB7E0A53D666C78287C3BCFACFF186785A8335D643DFBl 2DB8F6854298E0FCB0BFA36A68A1A33E04FE6AC00A439906F2 4B31E94493ACAFB4057271D0C3658BF256E6645DFFCA 53 twenty one 1 0x69115CE97D4A82A88D8B201036E8B2A0B2FBC799CD12ACA 1053B223A2CBDDE67269F01284428DB37A5A8F502742B532F44 98724438E72E9873F03938F43F1B7DB91C87D5984CFE 54 twenty two 1 0xEFlE8CE6731B59EF60099C73344E27C8F2F09A5C52587512E2 4DA69F6EB7E79969DF97F4BBA5D88A281A437AD7AF9E54082 324B7407C693C2FCE1AC581FF8993625795334AAAB1 55 twenty three 1 0xB39B55FlF4C0D5312C7613395EB73CFBF9ECC61CD02FF189 42BCF3784E3E045D91587C154372CA83809F7663365442C5E37B 63E0DDB73FC1BF0829FB569A47BB31641E25F72EDB 56 twenty four 1 0xE2F3E274479133C076606948CB3D6A62EB304F76C810FA2A9 8769687C134E2EB90D0902AC18B1693381D7BB2AC498EE032A 7BCCFD72A50902F33F765353ACF5CDE50249BB5881A 57 25 1 0xlDE9255ED07D57CFA62371E1979242A3DDDC435BC6E8C05 B01553A8F6287DABFDA52DB6E081BA23ED4E04E7A46F7CDA 6244D2422EEAC60A4424A85461C8B06C9874BB7067378E1 58 26 1 0x642CC8276CAB5C693A88FA18950B09423820277A197DD2CB 47D236F3897BC501DA9CCD401A7C7FBEC557196781B3B3C15 DAF3724B9899058140395DB3833424C87CB91F5D9A41B 59 27 1 0x9A270A2147AA490A66120E2DC03D2930BBE5DDlCF5D39C C4C273E6330A15954CF7CF193121F7FA23B6AC037E029901596 6BDC9C70F1793D42BAEC2B481C5E9B971DEFCBF85C048 60 28 1 0X17291F60DFFABBAB43DD04CC77E11A9E9C9B1E262FA6962 4395A20329F36F52D0D58CCD4DE50C8E7249BBC37CC28BD8E 28E583F8ABD45233D682AFEC301A20A5F27A3B0FC51E56 61 29 1 0xC068E2DEC9DD2C0F34CCF5E4459405BBD7B 169A792D4C8 B2567001D4263A90AF3A4D0AFA61337857DE6FF1F0174482419 AD58EB079AB5277514BA7BDE050111CD5D0A0724F420C 62 30 1 0x9767D6CDEA30ECAED5D8FF07AF807D8CA840812D1745124 A622DBD0B4BAB91818CBDD0C9579FD0801C73CA17B454A2 D2956698C36FE99B1CBA72621114A5A15C84DDFA62CA1413 63 31 1 0x489D41353CE869C8A433B22D3443B7EBAC93CE1895AC3EA 5337F63ECD00E069E4AEE90A90E79588321797A8430B88888E2 60F8AF4C0CE1F04FCC044088745C5D5B4C6E2937E8D4 64 0 2 0xA2330410704314D85FFE9CE571B0ED4927E5CCC6C689CE9A 34516D7A9C7981430E069E8A87E062484FE424EB58A45CD9790 31612BDD822D29F789368760DA9D7419B7B6BA03FC1 64 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 65 1 2 0x496CBE4FA2A576B7DF6965574E760FA106BAC7774387C5121 5DDAE6B2653BCC8293D3D6CCC14E3CE753333AA453A06CE8 C9A8BDE2730C2C416817857DF1D9DBC19D9275DF181A2 66 2 2 0xB0916A739E8CDEllBAB56B22C6AB72240FCFDD3664C5F32 EB00C051 El 70C1FC1054B683764B0D7B664B85 A8F929AFC5C6 6F0FF35C93E62D2FDCA46F9523FBBD67354A27A2EA005 67 3 2 0xBA69F3694DC23AFBF407AB7C3591C370ED4B99268759EF64 FFB32B00EF234C7BD6D5C3D553DEB76D6E74167D637CD8CA 445366E21BCB89C10BA0B6A10407C1627A257E6C6AF4A7 68 4 2 0x7C3B1C1AB29DF2C6155CE650D06CCADE3E5B8FE364A69A 839B401680ABB5B06A45C049605CF37EA1190B094AC0550C93 2C950F10D088EB7F61245B87E656FD14F058895C7463A3 69 5 2 0xB4944E76C2A4545AD3A783B7137C1AC2532C502C66F1A0CF 01C4F665B9D9213289FFE734C1301069A630DD5DA89E07D1C9 F46D46F48BDF09B1D3 74CE8 ABFAB0E9FDEC1956E879F 70 6 2 0xCB416FB39A094C69EBAE4688DAFAA2F151D122798E9BlA8 6AD2A386198237F0C713CAD3DA8D8522821122D02F4DE8C2D 235581109D3B91EED818D1CD6B304DE98A7D9124DB643A 71 7 2 0xl7B29ADD8CEF49F4AB7F4EDA37C75C8F146770ADA2001C AC57F3678061E8545CA139E5B4E9C1EEEEDA1A4941BE44A5D D74491C9D358CA588FDF386E5C6A9BD7836423AB424ACF7 72 8 2 0xAF86BBC0376541B0DF9D45923A6B791FClCFA03F659E575E D56236F4A419C80DD44E1A5013AC6E051CCD65AE7B967B0B4 B9EE8F29991785FBFE59D3 AF73155385163C98CCDDFE8 73 9 2 OxF 174AD8DB7897C8D0C63779D120EA7BDA6DFD2C1CC8519 6B1C860CBC53ECFDC451F7BCA610D97351687BB4CF2B242A3 F8B50372AD45DECEF4A5891FE0C1C66CFB0E153B85836E0 74 10 2 0xC88AB3AlD2502EC9C5825D4926ED5A6FB544A64AC771DD C5029C74AC7AA7E41600D434C83FB90D0FCD1D56B5D4EF5C 6394A77C24F06FB6E7D5E9AEFD9F0F6E501730B796900165 75 11 2 0xFF949FA0695B 1597F25D6D408C570C519CA2E345D791C68D3 1D82E6233B67C5996F6CF7670D1C8BF9F234979D1F32D66BD2 98C8C6063E61763B6A54192E0D554079CA7A12E8126 76 12 2 0x6C2B403A72832632653A9CABD85E32C687C7EA50775B4049 8BA84BF9121108CE07F8314B41D6B1F8CAC7751FB78CA41343 80A049777E7578F0B0A924349BB2F2312379D31C27C5 77 13 2 0x56EB0F1593B218BB43F806208D9CC7EAC2B0CD24DE802BC EA24F6D77C91707A8E5CBDA375E16A7B6EFA2872E45E28FBE 381CB40D4BF9C86F54656EA1A19DB5ACBEC0602D9CC9F1 65 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 78 14 2 0x6F443AEFA2562FDCA7E62FC6DD089397E98D4AF0F951540 E9D9FA4F7D603E34EC19A77B7F034984DF7ABF880274D125A D31C2B09171818140D137DBDE9ECADB7B44788A460A15B 79 15 2 0x6B09E912415EC4D976F3E4E120075FCB55B143F4D7FE6D75 4E5D19EDB6A2466BAFD3862C6CE32410C14EEEE959E608A45 AA00798744A794BC3A26B33572BBF47159C16C287B289 80 16 2 0x535045E6AlBE6C3871164C04917BAF3417717B7BA8CC6F10 8BA3CDF93D140EF636FCD70C14CEF825700852993A6F481473 D6D0A6AF5E2FCA7DA7D8C528917480D71950F3907845 81 17 2 0xD6C4281E746D6994EA30ED6906D65F7EB3B99FDA7ECE3E E524F354473C519DB0B3B5198509B A2FA64CFE2480503FEDF2 21E3A0E8F5B43A92067B8BEEE889B2EB995A27594F8876 82 18 2 0xA10FB173C3159B2D26FEC4D9F1708E53A8AE682563C50ED 3F451B2B1CD410B64555EB54A508C254CD5FAAB657DBFEDC 793812CB6AD6FB186D095314F18F1BB3DB86CAFE83F1F97 83 19 2 0x43E2FCE6BC77FCEC0A1797265E24B5B9F3073EC91FD21D6 F182D7EEBB127C7A73D2F779FD4FD25107A53376C29A9E544 32532BC1685502907576AAEBB70BE8EB80848E2DC3BF88 84 20 2 0xDAAF7CC412910E3AC2F46BA03A2CB5C9C102CAAB280B5 A9B30CF518C8B452101D402C064FB582678EADC7FE8270DC7 29C86C2F7BA7A27D7D4051D20E5BED0CECC48903CAA21E17 85 twenty one 2 0x51AlB3581F09E6BDA9F6F488306C682FC48FF0340632D4BF 25A682ECA503AEB4640B5A629F1F5F64E7D95917EEF0B29228 7F0C406306DD2331AED66675E78C8B5F4B9F4C976BB3 86 twenty two 2 0xE8119205BC780C24AF954FB7D79FA19299AAD973CAA3B79 498BC84DA615AADBB13EC41D3DAAE9EA7BCCE320670E01 FB662A08FD3D86A22B82F8DC383A14155B5D3874427B40E45 87 twenty three 2 0x79F1AB5149FBBCD517C5D05D9A75CE1B1E359B008FE8705 1F96497BED050DA20AF85AC72036E606C5FC13B74A1EC67C7 8D619EDC64AF67E9B5A7EB19E4A4558DE1FB3BDEFE122A 88 twenty four 2 0x93C52847F7CEFE85A2A83CFClD2E06E213BA213B16C6DE4 9157B914E5F36904861F1A78D60FD6534E78356CDD8CFAD7D D0DCC4D727FDF7A12875823962DAA9EF9507B7E455862C 89 25 2 0x2321F2A38ED77AA84F21A050F5D437F6828EFF9AD41C08E BAD36CC8C6892D12CE28EA1897C09851E896F615E87F9C1E8 BED6FE4833E3C73B91DBE8B10F627800CCD741F2FDDBB4 90 26 2 0xBF12B94B7CE138579AlDA5E022ED498EC66F8157DD21334 9EE83449D9EDE3C9E019E2B0791BDEEB5FAE72A5ECAE4AF 0F08521695F718D76EFBF303544C1ACAA266F8022A24746E 66 200838193 Table 1 One-to-one 2048 FFT-associated Abu modulation sequence for each segment and identification of cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 91 11 2 0xDA5395D54C 16ABA1FA3CF32AA0A56000E075AC 194D8C3D 40654C83E690D13FF18CBFDE29D8C311C1BA49BF39308BD1F 25ACC6C99BD9A9C5E65021E7FCF983D78E0E9D236DDD2EF 92 28 2 0xEE405CA07D5EC52856AD91BFB9E8ADDC0C0D21D94B4CC 21F1593C4767D0E1A1DE6159DB6402BA2BEB18FF25C3229A0 24D1F8E7B02ABAD99BE9D11C9EA47534962A53CF4CFC9260 93 29 2 0x0517BFDADE441B914660DD5F8C50B938834848A55A94950B 25DF20CA2E83791B441FCE4C6B2B44DA6CCBAB470842B3D A3F1566C78066DE1850FEC90CD4BF86684588403C5C5113 94 30 2 0x3A12B27A39D5781CFE30EACF421535471B18A87B7F3E7FB9 33BBAB544EECD5BBD11801A573B26B830C64CA2F69EB0476 BC0EDB9258974CA50D8F6DCDFA7F21A3CA949563AC7815 95 31 2 0xF77D8F4485053CB978A8B944D8399DA3440A9F3D0B87D5B FC82F97F3940429A953F429FE47CE62BE2A516B1412D4C2CE8 04D73CC51391CEF47D7125C65F566C554A7CA38330310 96 0 0 OxDD 183EF9D8C8 ΑΕΙ 669D517F5293EB2287786BB2AC68126Α 1D3E7186EDF938054B2B0C0E34F71EA3B7A394420C1A798D6 D26010A25A9909302E12D7C0199A7B98D564C5F4F72EE9 97 1 1 0x705E5DF32647E7CB92E918187DD0DDF468ED96E4E5229EA 2A30FDB94620AC7244939175F8D6CAB017F83CADDE33493B B0BB030AA0B45671AA7DA90799ECB6F13CF9FEDE29BDF9D 98 2 2 0x4C349512091531510C4985212760B795268272DFF3 AAA7B A9 2916F3D5 A04231EDF8D443A2EB A216B2 ACDDB5DC503B3000 A70F339AE384466D2C8F683375E81E174D02837A870BF 99 3 0 0x43CFB08B3DB7F763BD3BBAEC9AD5B6382E5D277AFA57B 6134AE9F4CE12EA233D01CC1DFD73E04CC0E91E1118975F1D 31586210886DBCEE8615AFD6E5AFC10E9D1127BC697EC414 100 4 1 0x60E316DE1632ElB10BFE584625F13019403A4C25AB8256395 7D53275B6A82259416F74452F81A655F95A4A75C3D9C740EFD 04F3A31AA172333266ED92E369E78B49539F2BEDC40 101 5 2 0x63CC58882733C9D36F9DFA47E84E7B53A33D4F312BAB66D 8F0C404B551F8113331B4FD592423F9DB434D15D7258A0625B AB9BC69EB4A37804D7E9052654720A3C49656967AFFED 102 6 0 0xB07DEDF62ECA8B2DF3E62B67D38C7306B31D6586AD23B3 EEFA19B3F910A41AA240F3470F5BB89237D494E312F87610C9 4FE0270087776D8458F715FD7E242320AFF07FE9550E16 103 7 1 0xl6466F71234B7FC9A64BlA82A8FAD35A686587DEE487F131 4624A39EBF8107002AA7E042DAE09C786668AB36F1DF6D58E D81EC2289601E181D31D5032ADCC4AACF23CF08C66289 67 200838193 Table 1 - A 2048 FFT associated with the Amp modulation sequence for each segment and identification of cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 104 8 2 0XA9B7EC62E60922C11A1AA3A94E3BFE7F2DC8B590D98434 FD1D782DC990807F9BCECCE95D0572A3AC64195528530ECF2 2158C967A69601DD777F591E96D8EEAEC3B6DAC49D71FA2 105 9 0 0xFB225E61BEC51FF3F7391ClED0D602BAA6680B23FC7602B 65C0237BCD13AEA392CD06BEA614E3D2AD5CBCC01FBEDF 59E0B16230D704489B0EF58E7A541E3AF22621118D2E9E55C 106 10 1 0x917BF984E97504B06C18A6A36463722F0936F759B34F8C947 C42179D3298B357EE963F5565405AD2E942B709772B2FAE10D 1A8B166E1DC5FDADDD1188783BD96E5318B202D0288 107 11 2 0xCC7B5A30AE497F10EA9B918197D9E6AB754AA36B8E179F3 D8DBF6DF1861BA81E401ADBC34CD119D75307EA941ADD6B 4A367F04FB2BD014A367C1FE1A6EEC5045CC3C7361EA7D6E 108 12 0 0x63CA535A600FDC5D 15160C215EF273EABD052519045A0631 677666D6F8389EE3D0D7D9AA8F694ABCAF9B12BFBCF7D169 8D9074AB4419D4004B66E3A9F415688D6E70A1B43E9ACC 109 13 1 0x0243EC00FC656AEA6BCFD70CB0BC6A761610D3F4099FE13 69CF8BE663D99DCE034D54A6837ECBA2A1A1A95D1F25C639 13B0B3127FB6722BDCFC0815631EBFF9B2116DD4788D291 110 14 2 0xD95D3238896B05B21DBABC0503B251308C505EAF7E3CDB F8928911B3E0B9CB91E3766C285C30E0B98F776BD065A56F96 97DDDC6D05650AFF036CD580117C224A179C90D1CA10BB 111 15 0 0xDDD2160D107CF8FA79E0A2EDC7215683F3209EC3B3A40A7 966CA8B84E57B343A868415C086062226A45A4DAB4766F2925 362397EEA967EDB0C879CC13657A4420A6301CF725FFE 112 16 1 0x52A8B29EF02C788A0CBF33F90FEE131C85D4AA2CF058BlE B4C64AD870A93C6DF7D0A63E44EDA8F7B7CDCF1EFCF6603 439E8992ED9D98459FD786DF9C54DF621BFA1B38B5310651 113 17 2 0x6F0C445BFC5B6037B49D6C20776018B247740079B9C3FDED 22F42719408AA9B189E77E0950518DC5DD1614CCB1CE9360B 46CCD1D8F57B93DE3F89DF3CFFA7F1DBD03256A853AEE 68 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment (segment) and identification cells (IDcell) index Identification cell segment Modulation sequence (hexadecimal format) 0 0 0 0xF57DB50BE77E3A60EE76D67CA7912007B418F8D33CAB2 7CC8BEE622187A14DECA294F65 1 1 0 0x4DCF800E623CC52D526BEF35135AC796FAB629EFE345B DD17E054367462FE7DD384C166 2 2 0 0x76319FCB87AD5AD97C07B5609356A2E03F86240A071F571 BD05E8893734EFB4D0CBAE38 3 3 0 0xBCB170FB690620E5CE525BFBD9D42A0B08DCF901464433 8DF208E44A59633E53A7459FA 4 4 0 0xF4C0C87638974E6B9A86902AD795389E7FD13D81B42C36 F24461DD21B1C 818 9D5051F41 5 5 0 0x3FAC0F59F5FF630D04293EB7716C7B0E51779234B31E2B0 9F7A6A8DDA8F3321D9A7E477 6 6 0 0xD3D4D13AllABF7C26DF4C80F48FC3C9F2238C9FC9BDC E72F5B3DE89156538B1475AFB83 7 7 0 0xl245C650F191AA8423A4EA0F857DAEA95FBEA3129DB16 5A2EFB69640607CFEF3336C53F 8 8 0 0xA5DB1A1F774254A34BA32EA7B0B33FF8BA8F19E248B75 8 A8D13105CE22E267B18E0D240 9 9 0 0xlC4FF0F128E91AA45D52D8628A49F92D32DD8BlDA1620 D3590CDA57D4CC05AFC33FD72B 10 10 0 0X7B5B62AF67A90684D18BC1F2A19497CF1CE2DE27B8BE6 DD5C037BD8B649D7942FC84577 11 11 0 0X8E25BC255860AE02153889BD9EB43C99D709F3F75DC1D1 5911036FBA20CA4F95F6C0C03 12 12 0 0x93BE3FD5823BAAFCB4AE7F9EEF3578CC0636CD2A4E9A 0E33279450DFE2947A744371678 13 13 0 0x772C7DC4F03B241636BA3E9E8ED149EE308FE92B810A64 D20A2355AC0F2C205AE7EA5C6 14 14 0 0x8DF96F103B64854FAB659F8C730D44A3DB54424F82BB97 B1F6BF1A38197B68148623EA3 15 15 0 0x4B2086A873E39C150597E16C0D7622A733DFD6CD88E324 CBCCD91EE8B7E7218F56A41E9 16 16 0 0x3F41BE94B4AEDF3E16F53E3AB8A1599A90789FlF850DB BED730260A8CEBBEA8C4137880 17 17 0 0X3CE9A79F2302E457400675235B4020663DA63BF0EF13A1B 6EC5170489DEAFED7D417B63 18 18 0 0x3E43B35C0FC8E3B63D737601E9CF507A942416F6E071C06 4086EDDA79D5F9F6B9492E32 19 19 0 0xB912FD155BD05114BAA6B95BF9A63D6C3189363087AC8F AC5800182CF0B2C443A1787C8 69 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 20 20 0 0xA224AA7DD3F3FB16D7D076ECC81DF38C41D826FllE775 938949AFBE58F10F2F1B4F52BF twenty one twenty one 0 0x6EA00D7273604A3ABF93E128C5F64092F61C0AF80E0B17 A77A4F463463055C925EE3DD7 twenty two twenty two 0 0xED755C6EC155D54E99FA627B31BCC15C3FF46B63F4FE18 4953B5E1A421AE179F6C9F2C8 twenty three twenty three 0 0x5042051DF29A85D7A7808645D4CF37E0B6C6E556FF014B6 652D8BC6CCE3D0E60E5B8B3C twenty four twenty four 0 0xAE2B94E46A91E7445B41A392E9807CFBDB9638BC4ED81 5A1F19F3CEF6D43EC94D694189 25 25 0 0xFC165FBF1778BA85310C2B929F4A91ACED44A11B86DCD 87586B12FA610244D1D819C4C3 26 26 0 0XDA0F1AB3D1F1AE7CD322DEE221424D22522C36C06E6B8 9EF697313A30A4DDFA5F6528AE 27 27 0 0x4A8AE9AB1A5AB122872084B6A2CDD541F621F1BCE3E60 B07933E303785FEE97637FE321 28 28 0 0xC48A06BA315D19759ElF226C57FD66BBDFD35E1380AF4 4298CF5E6070561DEE43F58212 29 29 0 0xBF4A84AE6E8B0FC919AF9504C84B7205B46D0CF9BFAB5 9689673451C89A2718CE157ACF 30 30 0 0x021A957B126CD6DA7722E0010D701AFClA1985E855E4BF 9D4BEBAA3BCB38E9A3ACFA305 31 31 0 0xFBE0BE26A6EC687FAD70876727BEE7D133308A0A8C5673 5C76E0FDB4616AD9B5CCBCB65 32 0 1 0xl0EFB2BEDAE303304F2B4371B4BE5EEB2B518BFB46D17 6CFE894C0C1A657040F1B9214A 33 1 1 0x099BD0769A5DE0A03E10A6A73C17FF5D875EF6E0CC65F C7A98605867E37B9044A85CA33 34 2 1 0xC67B78718F368DlC5E2D0023ADFFEAA5E55A4764EFD4D ECDB4C7F428D95334C7E519BE8 35 3 1 0X217F1C616A21063829BF5227EF7EF95E592AA7BD66E499A 42BDD721F93A9E347E315DA5 36 4 1 0x5D7D60E9D3600CF86763A899BA9F1505C9279865B6C0E40 6C758653AA4696A51E7EA7CC 37 5 1 0x409F8ECF8A0232132ACF9E61756E95F902F2D8D5D70898A 30EC3949CFED9590CE786990 38 6 1 0x3B59394CB93E72Al C84E173D44DA313F70C85 A2D905222 F6D03F3F3907E3CF75D79510A 70 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 39 7 1 0xB021F589CA6B5C62A0DE895DF3A43EF68B8612ED3D5D3 E0DA18A4AB527413B3D9F77355 40 8 1 0xA7FEB67C8431AE5ED54B09B3CD745BBE8BD6621787772 DE27777E04D5BA485A335060C4 41 9 1 0xAA062F840EEE49958150CE164CE3D605797BA0305CD8A5 804A04D8F6D15BDE6684AAA53 42 10 1 0xBB1D46DE51223584008E4CA3CC1F231C151232B2962BB8 5 A158B1FF63BE041F453FB5 AO 43 11 1 0x9FF11B1DA431E3F4BAE2CBB4C4F0054FA3C000C1511CE 84AD1F193B48EDEBC448A93184 44 12 1 0x14542B2DE5628C0981E18A95A13EC1CFDD48E7B6664B1F 6A8ED1E6F784884EB24B29D9E 45 13 1 0xC85F81AE4CA240963C58C9A7CEC6AlF01945A3F634D208 A3C1A35388027BD656F7D551A 46 14 1 0xF9F8D3F91164BD5F5EEA2955A664F120CAB2284541B6B5 2DC47673F6871CC718B58BE42 47 15 1 0xA42734D4260EF4BA08AAC13ABElACEBC028747BE58688 9F6D6F0758E2445A832707FECC 48 16 1 0xBF3DA6E16206FC62BFC5EA8207ED6BlA3818CD60A6997 2F9B7F9CDB9356CAD88C553FC5 49 17 1 0x885CAB55BDDD9E89750DBBAE1198C9C873E66CA60B8D 0712861D92E525CAFEAF8BF212F 50 18 1 0x4C6CC4642A1BE02FB068936CF79A1F94B52B0FAA110E71 686DB913D46A120678F3797C5 51 19 1 0x95BClDC313D2B914D0DF070E480DE8341988243C50DC66 6B3D57291455FF8B6EC98A091 52 20 1 0xA07D52A689936B04C73051B3B9712E003FB5B9B5F110086 B72D14E6F6FADDE186DE2190 53 twenty one 1 0x3AC8751ED340FC6EAFF6408B9FBF9B92BF88F04B86B293 87DEC39A6C8C698BC5075A14C 54 twenty two 1 0x7C5BA9A36893DB8563D16338FC45B095BD63AlEDCCC68 EFBF7FA2DF5AA2B0B2CFCB9600 55 twenty three 1 0xFlBB4E916F70576E60DA403E36086BFD4610384206F23E33 585AC3E781C9C53D15EE955 56 twenty four 1 0x98BA49B9EF848DC0F5AC69A16D6967CAA0947DB98C001 03092076A7D5290E923A2E08CF 57 25 1 0xAFC405C2D91C7E2F63 86EF5B8B04AA5127C86B0F6E5C14 C23EF6FE3BFBE39D0ACBFB269 71 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 58 26 1 0x0860019913383C35595C0746867F4434BF0A5A6271BF5D42 936ADC33 AA2514B11DE6EB6 59 27 1 0x2AE39A73970FD2CFF7ED59006335416D681C743ED2EDA 81F412837609199BC5363892A3 60 28 1 0x013EEBB7D1091D37815A85A3BFE676F3E85D3F6F3975D6 441B5A705C9B9870CB4C771B6 61 29 1 0xBF02968EDF90ADC62BDCB887387B27B3890F4D5676BC4 E2FF671829245E32EEFBFD1F19 62 30 1 0x84B3900D7D3EAF6E46B2CF9AE8650E479333962F95E95F 9EF8343BE3D845FF1B5D00CA6 63 31 1 0x06C7985575C7686968633D4F8E423F3C9D236BB617B0FF8 979C204EDF23BE5AB6DD6CF6 64 0 2 0x6ABCB0B37CE1A318129EE58BF1DE143B7FC6CD6EC5E2 0B9972BB56C03455150E300DE4B 65 1 2 0x2BACF5C40ED7E3461 C7438552E43181F3C8E582457D497 B6E9B4AE034D8CB1B773BBFE7 66 2 2 0xACC0EC8C3A8DC8CC11424F46330621ClDA6AC35E9D35 7EE212CEFB92A0CB4402A92FDE1 67 3 2 0x62E292288C30DA44ABB4EC6D42E5000D3BBD0F906427A F759F3276E3C8F27B7D0C1BB41 68 4 2 0xA29F1D5F6DF92FDD2DB669E9BD21CAEE684A159EF1B9 E802FEB1C9896AF8762F3276072 69 5 2 0x6E3B15CEE3C2B7F5262EBB7EE3B53440D6856BB4012039 0B09CDBF0E67A596A2CA26826 70 6 2 0x898AC72500F925C02841A5D699C39393B3EA0ClF802129 A956528FE06DB95581596E1DF 71 7 2 0x70E0018C8AED264C6BFB5BA82F13674134FB95F1837C38 AA1E6FC6339EF2D02F6B08EEE 72 8 2 0xCFDC022326523C0C8AFCAA749DC32F47AF2675B074A75 A7ACE7ABFD1C43C9FDD698FC0A 73 9 2 0x34E9743863160970282902E55D45C0D7FA2099E66CA7BB9 A5AB9DA931E666A291652BFA 74 10 2 0xAB05BC5503E7FF47828EE648DB849BE9A32D5D8678DA6 73F12BC6B57BAD13023B21ADA9 75 11 2 0xBBF9AED7FA76505E27C6858A56B479F831A9C5F8B8F5E 51CE7D051DB2C91336D5C6EA19 76 12 2 0xB17EA958C03B6EDEA9B011DCE838756D90C51FDB62E63 86BCACBD619B5C29B00FA2B1BF 72 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 77 13 2 0xF9C5192E52732F6025A7E064395F91C0445F20CF7A11E821 4C9680458DF76F2CAC4C275 78 14 2 0x2C7901BD86AB137D27F57D3984D07A76DE2B996F559F47 1431299D32187DC919EAA04A7 79 15 2 0x53BDFC 1CC1B A48D75066CEC7FCA7C109C54484C783B0E 0C8173 A96AB6CB1E28296B88D5 80 16 2 0xB570272C736EF260A9A50A6CBEC77A12FD2364F4B36FA DF3 A8F9FF60488F8F623905118 81 17 2 0xB47BD0817141FD280E0B4A9C36F161758DF2FAA8F31C32 AFE7FA23B736A59CAA47B38D2 82 18 2 0x3D9BE5016D23924068525DE6ACEDDB321727C5F56AB91 C357886C7A6179E15631F15368 83 19 2 0x1AB1EC934DD376A781B495CCBFB55800ED1C19B1F4EB5 82DE406E281 El 74705510D4B9C 84 20 2 0xF28BA38C44B2F7CEBC3BA741F620B13A3607C625979FB7 8A8A5ACCFA48B52B013D1A431 85 twenty one 2 0x9C9B322697713B5FB83CB323B14359CA440435C5E0FB712 CA39E8A1AA4136AC63940582 86 twenty two 2 0x44ED5C4AElDD7952DD73799FCB5DD4606F01ACB3A3E8 9FDF237DFDC8920197D3EE50EB0 87 twenty three 2 0xAED321C43F2A8D9CF2CB69227DC8CF98A94DC29D3D07 22B7378F2D227BF9F8090C50056 88 twenty four 2 0x76E6F62939F70CE294B95531E88174F20BFD3EE67F0587F4 9483243FD567D15E088ACA9 89 25 2 0xEDF18994DD4D35B5E7B96ECDC7745D86BEE4326EA8548 203EF4D63CD078D9BF0E284F80 90 26 2 0x9CF78DD61DB73E67C6BB08067FD6A70501D96269A533E AEFB2BC5F02296CAA87FD51EA5 91 27 2 0xA56652AF76593EDBBlD602D7A02603332E32EA9AA36249 5168BA7BEEE6C18C0D5FF3878 92 28 2 0xE7A04246C139FE36CB52BF629F8A9DlE9D90A6737174492 F520B39FACE59853439282AC 93 29 2 0x41820D977E5A1D8F37DF2DA4C1CDC714E8A35E69514F99 8C05E9182B0BE2A57B067E45 A 94 30 2 0xF45CB6737A83AAlD8CA788CBC85991136FEA29B9BE4B DEB50608A1DC7F081D68DC5B21E 95 31 2 0x95F5187D25AD22ED14DEC296B9EADC606C81CC4A912B 81E377CBC8315CC6E9EA63DFBEB 73 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 96 0 0 0xF3E1DC03AF64DD7F3672AEBEC1B6295FCEC5A1C9945B 5207A466414AFFF959CBD64F586 97 1 1 OxBEl 8E3D2C24CF06B72683BA4CE070AEF229017AD4EB02 F6285F53A6557DBC9DB3E9BEEB 98 2 2 0xDBB35C45282D66FB0D62BEA28FF12503F5B27FC07ElD5 F3183BD9C38392F5A6539B94A2 99 3 0 0xC6457FBB3BlE32FA313D8917250C09217C7DA77F50AB0C E385D7886B83EA55B864035CC 100 4 1 0x932EF9D473225A9F6921F17A451F051FB78EDEF6A5B989B 994B3DC0F21540F20E312B7D 101 5 2 0x7B9E74C5EE4A27A3B488CB5087CA8AB4DED21E44660E C528060A9432D2FD740907D3370 102 6 0 0x6C5A3D66BEA2103E9C46F4A6539CDA8ABAF2BCBC99F6 07AC4ECB4559BFBE3911EC92D3E 103 7 1 0x88B7F6AC76BB9EE6FE8F3F0F122699547AE334742BD3870 0FDB7CD691C2363536FC4FC2 104 8 2 0x5C7C77ED3522C680859D472A72D01EC690DEE9F9A9B0D 87F3DC0F7D16A523DF9045134E 105 9 0 0xC2FB6923D745E871A0C669D1011A51BD50AF591A9DADB 3FFDF295921E4EC3B0A79D75EE 106 10 1 0x734BEDF2FBE961C5AD6E584EDE3FFlE2B416881636E97A C63A8F755527FEE0913C48E66 107 11 2 0xD9D63B97EBF821DD019E22D0149ED8CDBC606159D5151 749CC0B56E7D0DAA7D93A36BD3 108 12 0 0xC132576511970E9C4530BAA95B8E53E13A2296FF8B5B2D C60A6B1BE661393CD1F7BEBE3 109 13 1 0x7190B71BlCAA6F2FEDCFAF097405798BDCB5447393204E 8C437D4D306A79F49BD5624DF 110 14 2 0xB0F05108B75D27A5EF0AD1053E5C90CA81BB9199263CC FD4D00E43FF1BBF4E29EA2E794 111 15 0 0xl3C5310837C749B9AC20CllDC0B71DABFD19DB401A979 7C3C0C7DD2D7EB336B1B94FE45 112 16 1 0x6E31118A654962412D16BB6283444BE8390F11AF280ABA3 D67D4DC7FE4C005F6470E7FC 113 17 2 0x9AD96CD25DCBA2C9976AA272B4E3757D475F8168ED7D F7F397E34FF38011A37E0C89782 74 200838193 Table 3-512 FFT associated with the modulating sequence of each segment (segment) and identification cells (IDcell) index Identification cell segment Modulation sequence (hexadecimal format) 0 0 0 0x4FADFFE80EEC2353D5E0D719E27165A726CC 1 1 0 0x689540E03A9813D746D411D6F5A34B618636 2 2 0 0x7EAB49F0D40012E30F6889469B8E4CC8DAE2 3 3 0 0x20ElBD2D774AA4FCC71967D487C2132899B8 4 4 0 0x3B75A75918A6046E6CEFlC045B7461A0FC06 5 5 0 0x70EFlEF0E5EBC1135B7D5C6A2B3296621B22 6 6 0 0x631CB45B105A839120141FAABE6E062E9DB0 7 7 0 0x3D140B4B808275866786FD39818CB56F99B4 8 8 0 0x4D3EAC3F93F3183890313FA5490C479D116A 9 9 0 0x71C9D4DA13243705C67A34272CBBB4008F14 10 10 0 0x58A42AD7B2A9B35C7A61C9ED377C0DB80B08 11 11 0 0x7C7805023CA85B2536A49744D6BC646E3144 12 12 0 0x570826242964A3D970197519D8B53461DA3E 13 13 0 0x49AD9B551D5D6328C67468383F40083485FE 14 14 0 0xlD40D60A5254D9453EA19B9BA7C1005EF334 15 15 0 0x39C144E4DA882F6897AA3442361FC2FAD6C6 16 16 0 0x753A6EC9E4F3650158AllAD89F282D23840E 17 17 0 0x292FA6D9EEB9380C51C64207E10CA9C5C588 18 18 0 0xlDCC7A97488252B60C39A076D147602365F4 19 19 0 0x21FF46D567A04D2F235361EBF18D32AEFEF2 20 20 0 0x07A545581C96FBC44CA579B589B83EE93CFE twenty one twenty one 0 0xlD702FE4A54DB0D04CB5544709062C3BlB9A twenty two twenty two 0 0x1138EB1890A2F937C44976A1143C045687DA twenty three twenty three 0 0x64B6A4BCB858AA2000BEE1670671DE372AD0 twenty four twenty four 0 0x4BD9245280AA3DCCBDE04FCECD0D2F7F239C 25 25 0 0x3B5BElF4D4217A63774C59A33DC120A3340A 26 26 0 0xlBE2B98347E2034F48A552742029079B5CE0 27 27 0 0x028D1838CF58DE02EFA96565B4C88D8B67BA 28 28 0 0X5F68B1B2A7B73CC1F2ACEBF5B0AC1BC400CC 29 29 0 0x665C532EAE0EFDEFCD6802FC3 A7310EA5348 30 30 0 0xl07D32AC3D373195BA843EBE6968C4BF9BE2 31 31 0 0x3FEAB859E5262F941B654C60720DB330F334 32 0 1 0x1 EED6EE8F4A3C06B60DF5B116089237C300E 33 1 1 0xl9822C4632EC86450C6FE10A51E5C0FD5F2C 34 2 1 0x2DDE838BlD072B0CFBB04AA294991CC04696 35 3 1 0xlC357F566732B055A01C0139653483A7C81A 36 4 1 0x03B5252046ED369F0B98CC6F9DF0C74D5B2E 37 5 1 0x32D21CF781A89AB9891534683411128FD7AE 75 200838193 Table 3 - Array of 512 FFTs for each segment and identification of cells (continued) index Identification fine Cell segment Modulation sequence (hexadecimal format) 38 6 1 0X30E0EBF1A21A99E492755A1A85B0B712A660 39 7 1 0x63855C3358BA6EC7E5C7C8ED5B43BFF9084A 40 8 1 0x662AB8C7A8E37FA564F4FE6C2D23493FD8B0 41 9 1 0x5E9F2165C7ED09BE6B3 5FA315DE9BC719518 42 10 1 0x458D1A911535B85F1B0E5DBA01F6910C80E6 43 11 1 0x491E3B003C66376EB823538EA540F6525814 44 12 1 0x79B4D5E3A846DB6BF3BE70EE0B2A748FC442 45 13 1 0x7E6B673 849A5284811CEDBE051E2B7447D5C 46 14 1 0x5F6022FB7C7C75B2F44F414E715A98B34A9E 47 15 1 0x69A2AC9A97DC0F394ACC4F127B3C521FBF62 48 16 1 0x0D4EE6A642CCD0924F0BFE83B6DD7C3BEC70 49 17 1 0x0EA5F06FE05E70ACE66571F7FD90435E698A 50 18 1 0x2020682A263ClDDC29E2C4BED90946B9646E 51 19 1 0x0547A6A4F4DD8D0A5025DC6D726209BAA618 52 20 1 0x50B482EDE4B8 A9D9D75163EDED1CC62458A6 53 twenty one 1 0x2422623BCF0619F22DA083E114A5EC9517AA 54 twenty two 1 0x0F35DE05FB486550A17D7FC4E468EA8E4E52 55 twenty three 1 0x429894A78B0FAlCC14C8D0FB436CD57FFB84 56 twenty four 1 0x0F80B04278E8484316B16B6F4E8B5C444DD6 57 25 1 0x4F0018149EE6 A47C4C35851716D04BB770C A 58 26 1 0x20E2DB0462772C48347CA565714C2BC413F0 59 27 1 0x634CEF7A72CClDEFA56D9F8C95D36806AE0E 60 28 1 0x45DF81B8828935A7C6971FE3A97A599CEBF6 61 29 1 0x7BE67E4C06E4C7B738B0AEFlE84356A9A456 62 30 1 0x6F9CDC4866B608E80F0817ABD1626D296A20 63 31 1 0x5DD3AF691E70FF5639763F9AC036182CCFE8 64 0 2 0x4CF8379D3B7C64525122A257BD3485F498C6 65 1 2 0x546FFlE0695D08CB4DDF965845492E33A40E 66 2 2 0x6E2C2032E63B500EA3BlAD51A664360DA5CA 67 3 2 0xlA3E0B25A53D9A54ECB67F70B7E77405CE3C 68 4 2 0x4033DD1490A4F16870FEC5CE550B0A65E99E 69 5 2 0x71CF2239AFC076A0226444C175E70B4128B4 70 6 2 0x00FA9A986CE47DB2D5283AF64CC70CC1285C 71 7 2 0x73CC56FE96E5DC0690CBC367375F04995BAE 72 8 2 0x4D08929C05DEB983A35560816E4BAB23B98E 73 9 2 0x23764A50366D33CAA31 Cl 88F283EEF697DB8 74 10 2 0x5EE35010AC4ACB6DEDD0E887F9322F0C39D8 75 11 2 0x6171A046B512839766EC9670F74DB298AFA8 76 200838193 Table 3 - Array of 512 FFTs for each segment and identification of cells (continued) index Identification fine Cell segment Modulation sequence (hexadecimal format) 76 12 2 0x584B3703769C4B78001861C91757B191A2BC 77 13 2 0x7C5B3E3F31D6B30FA1973C5D40053D88AD72 78 14 2 0x308CB4842EA2650B93DF2F259B103873BF06 79 15 2 0x5B2A19992C807971A5AC58BDlC63780F7FF6 80 16 2 0x450EE0B668F2C0322109D6782D23EF6548DC 81 17 2 0x53F4D7C502823850AD0768E4699072DB3B20 82 18 2 0x6AC083142D01D27A73412EC49F7C560E671A 83 19 2 0xl6BA9E844F2C64923D85AB9E133D72CDD010 84 20 2 0x785286976B2768A26855704BF4731BC049DC 85 twenty one 2 0x2A317C996909B5C6F89F93611AF2228638BC 86 twenty two 2 0x384A3CC0FA28866F5F195EDFB3237530B496 87 twenty three 2 0x5801186BD928ClA2E0B4AA6C65F98717F82A 88 twenty four 2 0x044El 8CCA7AF3F2FB50DF25F6B40B1776CAA 89 25 2 0x3C3F9CC61AFE90BlD7AEF8DDD925D413251A 90 26 2 0x0D70AA48F655A98B08DBBF4F77A5D7901F76 91 27 2 0x5419A8C1924A7C0613F98EE97C3975285036 92 28 2 0x7D81685FEAC6EBAA5D786C3CB188C4193B22 93 29 2 0x3CE08517717CAD65B042F33130BA312E02D4 94 30 2 0xl5024AD06B0A07D035D3E999B9D90826738C 95 31 2 0x532FDDF76524FDA34B68363D237A3D711CC0 96 0 0 0x04C3904B2AAE4B72390AD3C7897B63768226 97 1 1 0x06BCDF3326FlA4047AA7AD255221D6C20380 98 2 2 0xl5ADD035357ClE8A61BD4F3B7598B9C18082 99 3 0 0x0588AD5EE583EA824A4B2C4CEE38D9671FF8 100 4 1 0xlED5FAB7C07990C6013F321573511C3CAF2C 101 5 2 0x652F573841E61C07B6F939543FFDlBAA2364 102 6 0 0x3D36EFBD347A29CADD8E01A8D9C27857EF00 103 7 1 0x2F6667F0EDF7E315905C53EC679ED1608EBC 104 8 2 0x5CB8F719B12545FCDBA0C8F61A12B3E943BA 105 9 0 0x58D2EE908B41EC3E46B071D3F7A455C8C220 106 10 1 0x7428CACE5AD1072E90307973A87D8A20A260 107 11 2 0x429225DD0707FCFE2036961F7776A75DC5CE 108 12 0 0x413FFFCF6BA9A2B255B2E5299386AC66F02E 109 13 1 0x3FB212E044A58A5EA791668BCE6A62EBF470 110 14 2 0x05265C8334CA703B3C7466B7A928A84FCEEC 111 15 0 0x762E49C1325E100F76B2F370D2607BC55C04 112 16 1 0x21B4EBFB8F3F87DACE14D3E52366AC8CE6C4 113 17 2 0x24E5A63AA02815CD025E45E1D1FBE523B346 77 200838193 19. A device comprising: for an 802. 16 An Amp modulation sequence in the line below the network, Where the network has a fast Fourier transform (FFT) size of 2048, And the Amble modulation sequence is as shown in the following table. The network has an FFT 5 size of 1024. And the Amble modulation sequence is as shown in Table 2 below. Or the network has an FFT size of 512, And the Amble modulation sequence is as shown in Table 3 below: 78 200838193 Table 1--2048 FFT associated with the modulating sequence of each segment (segment) and identification Cell (IDcell) index Identification cell segment Modulation sequence (hexadecimal format) 0 0 0 0xC121AlBB7304101BA89DF9CAE9B4226A120DEF3668F27BD 063F03CAA21E1B91CD2CDD7303E348A8DDE8735E99AE0A23 E96F06CC57C682DC5ED0650AD72FD56D28DFF36CEFED483 1 1 0 OxBEC AD0ADAEF6007C7D70EB0F608C6AF15B70FEE272406D 9161E02346EA951C9504C76E63559882B41CBA45B34040ECDB1 F62C44564FD24B4DC3389943B7CB296BD250BD835EF95 2 2 0 0x5E6489881725DDDF3CE7B5EBDFDE63121D0167C75B78E19 DA7CA210550BF14B6F5494698A467B6AEEA0FB1C8B A40DEF 292A7C2898F9DA2D9E11F0F5DCE446CF27CC0E1DDF8CA6A 3 3 0 0x3C9E672D1420C9309CEF14EA6FD4F5B97A910899F3FA795C 309E0142FBFE9B4E47F51E0C7A1AB8F0660626AD49AF9005C4 0BFC5661CB6F6BB2E69AB0FBB9833E8E4D7B4AAFE9CD 4 4 0 0xl636078F624760F6197F171562F3DCD54920F31205FB3A38248 DAI 526F7AADD051D1066029A849FA7E94F3D62444B15962A5F 328471B68DC5C4471DE36FCA3BED6FB42D2132BD8 5 5 0 0x0664ABD924414FE4D2F5D0C6DlD37AE34FDBCE235402A73 54F596BEBA26915FE5423CCEE603C62270F6390E822E149AC12 92A417C9C16CD11238A96F2DF791C90D44E6DE290072 6 6 0 0xD39DAF85B91E70D57739D7C4789C8C8B24CA95C9B914132E 03894918FCF6017ED37FB77DC6BB8033EF9B06E8CAC269BFD 0E6EFB747AB0FA257921E99A1976BADB087AC96D53292 7 7 0 0xCEC94E54FDB6580F2BD068D3DA9E3EF57BB4FB9DDlCCE9 FA053F40937447024908E7D1CC0D37CADD0460885DD73B7D9 B04454BC16D83C4A294E6A1FD61762CA10A36B26408FA32 8 8 0 0x744BC357950BElE7A2FB3DC88E80CE7E62C2826B9E354C6B BFF9671D92ED6559EE78A5D77437073E9ECA51BB08072E3374 F57AC17A907A140B4D923B30625AB043064D59BE9E9E 9 9 0 0x6C49998324893DC29F06017E1BB1FAB8B1005B509B7F6D298 2F56D19D4A8EA786B928458A1EFABB62BF2EE7BA04FF08E53 59961BE7D6E0E683C152793E60A755D9DABC34359D85 10 10 0 0x6C1B4CCFA8AACDE6EC6EB673A72C56C1C5DD345AE8C8D 29FDC5253C957B7F596F0A9C66221F05218F67BAFFDD1E261E C879FF69C6C9B9D4289631F9006C064DC6B00B895FA7660 11 11 0 0x3CD47864D59C9524DDE0CFFABD77EDC79A82A33C50C277 A83999FF6410DD607EC310CE85E52665E2B2F82A2930F435DA 6CCCB5E9E837298B20A5BE3EA5EC8A545BC6EFDF97C22F 12 12 0 0x47B6EEEAC33BB91469EDDBD6AB5BCE357E70AB23C070E3 973B5954072CE82F02B5E2947C20679DEF368A432360362D42C9 5B54D07CE939749FD13E7A31106A03C121084B67D1CF 79 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 13 13 0 0xCFB3D90E7C 191FD3B4DF2A83B ABC4903C1310095CE3ED2 2E991FE44980AEFE107D08C19A29EA806BB21E54B4B6B059E 53790D3D2FC6BBC38D418A99A252A6425C68D0E72155208 14 14 0 0x37C5DC6072417F46018998E9D07BB9D50BCD435BFBA9DD6 CD91A7B661E9EB480040346E36C0143C1C61697B95635524038 33C4E813F8A9B1451A600D23F8AAE3557235E0A592D0 15 15 0 0xB25DD8189EA22D3B7417AB0A3947442FF3DEA63BB34B8C 52244E40F06940A4987E7AF367C69082175901347C9344FEC370 8CF50D31A77FEE3BDC38DF4D67C492E5A4ECBE328326 16 16 0 0x0B605B518205EC8B28B6ABDFF9F70F81A3BE0277AD43D6E 0D5444CF374F9722CEC9889C26F91EFAC94CE69DABB4F1389 B8BD91F4BCA5BD0CE2F087C6E7D819FCABD4067151B084 17 17 0 0xB405BA2CDF90D4106E01B553E0ADE6D6404D8F1972E04DE BD95A354F1A329C9EEDD6BC28197EC6C972FE297875ACEE7 B9D3F8B27970B6CE50439E692DBA4ABA939EFC711506911 18 18 0 0xF93910D8600937D1CE7140592B1B48EB9078ABE69D7C7E25 936A2F5C3F94EDF8C642A00A02B409FA796A00B5B55989306B 67CC8 AD510F5EE4F0B31C69B01837A53F57B313 AB4B8 19 19 0 0xD142B09554524A773A134AAC48D2302E874A66E9165877498 31EBE81C0433ED84FF3 AD37461B83 8A2A439E742CA559D8B1 8BAFD8 A213CCCEF3D4A00E9F6A3FCFEC8367BC07C605 20 20 0 0x7FBAB81D84E3994F2A0DF770691EA0C38E41A381C82D23D E2F1BA1905771FBBB267D419A898F3A13380DC3D366C880288 50CC250D35456D6D8E24566746495C9099A95648FE54B twenty one twenty one 0 0x4A526A123B7CAA3C8BE39404879EB98A7ADF92F70692D06 6880CEC43D7D04D4465FEE3133B0E00F74A3E25F23F1CDE19 255BFBF3F6E176F49F0DBB7257E52713D6E38AC421416E twenty two twenty two 0 0x41BCF75850F7F507DE7BAF72440F81CCD6CBD39DF3F4C48 0B63372EB304DF1EFBAFFCC46ABB23D7F576652F046E04657 4ABB652A345BE940AB1B0C41D180E5A69323AE1FC286B5 twenty three twenty three 0 0xD1589BE6E052BF2F6454CA3B6544E7EC40EA0C52F1F1FCD 9EA0AC848426C7CFD68954903E58207EA978A6FBDE339C636 12B5D1129BA47830C548B8D852D015AA21BA0744ED2859 twenty four twenty four 0 0xE51B8551B163C3AEE3ED428A02B241591438C4258A827FAl 40318DC6D0CFD972F7000B4E9A789CB77DB0CB8870668A525 F8435E1B909A151BEE848909D9BA3C7AEBA1777B22967 25 25 0 0x5C557F5FB89ED6CD24E3C47C02986488E0EC7541CBA57DC B86A43A26407B84A29E2E5F8508D657868710BF5E9F78A8D1F F0454369527F5C6360F26C9ED855A409937FBF64CE499 80 200838193 Table 1 One-to-one 2048 FFT-associated Abu modulation sequence for each segment and identification of cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 26 26 0 0xCFCBB5D7ADBC3A2E4056468E5DF76AAlCA194D4367B95F4 B540048756459D31032746FED90E16BA7F84A502745F0C701A6A F19A646B470665C4452DF6A4FB5BDA75E881CF983C0 27 27 0 0x726271597B24271D3E80A6ABE9AA8E09D6128FC43E8F97AB4 F6C6032FF6958CBDC0E53B29EA89192464AF384C034883658913 F51A36A9FD3 AC91C709231205C513ED702DAC05D3 28 28 0 0x78BC5870B4A4B7ACBC933F3CDFDBC1381B48774E9956DF7 B98BB08DE15C8AF45D45539F1CDF354B7774AD1AF63DD9C0D E444EA385B462CB53F42C1FB3D226926C28A107DED84C9 29 29 0 0xlE19E6FECF103B31B820A7444E248362790113C863DBB251CD DF58CFDCB580F2BECD2B335227FB0EB7815FEADB3670438F6F 2F158B4CBF2AFA56FD55A121412E3A9FE3E576FA84 30 30 0 0x21D6ElD51BB213B6B752A3926DCB36F5992EB2EF44BE4E244 8CFE526309BD119F59611E5988CE1AA177848F5541645F3C54109 8F9DD4C237E8DAF3157BE9F8C000694C3F97D5AD 31 31 0 0xCBD095E152AF83C914490C2FFFFD0E1785046802775B741828 8FB1F514CD7067B761A2A85D65A41D14C8D0E644B9BBA1298F 3C4E95CCE1DDCDA5DC51D040644B1CC2897E90B6A9 32 0 1 0xE6B9D7C3D84283265DD2BEB35CED572A764DAAFC6E256A DB97F5290057397D886B8128D26837919B82BB4F890F867563C10 D5998334309A75045F6571D0BD1B205B7808299B8A4 33 1 1 0x8FEA67DB25D706BEE88FBAB3EFB735BA330BB88E275B5FC 1681264C9FF2A20ACB90C496043E1FADA19E528C42D1FBB5D3 F596DB39A61EE806A09411DF8D5393B5594A39DFA5C88 34 2 1 0x67A14BB44D27CFBD286045AF19275DF9371ElE0A82C9BF393 72C32CB0B56D222B01981680547621BB8355FCA508D1626D0078 0771D61AEE07BA98C8B3BF34367BAD63F791810F9 35 3 1 0x7A14B769AE708C67B88E835BFCCAFlADAA20E97BF939CAl D17642F7D41E0FE9469AD5CAF130218AF768918609F9B959452C C9BB504F06055A4AFCF68BF28206452059666E2B37C 36 4 1 0x021B17A5956EB3BFF884073626A5B61D6A40E81C9289F5602C 07A8831F006C4BAEB3865CA1AE6C578804FB21FAB4FF7CB496 5E3E10664B3844E138E721A3833379BDBC590BD6BC 37 5 1 0xl34B5888D3031F44C037B6A621579EEB9A6C20B70354DDA44 5164F06216A91B29A266051606B8820BE0EFF998EE1E968F49AE A715940534D3A0E479A2B570F9CF8B52B895B0FE4 38 6 1 0xl4C4CF64E81ED3A4E85D013CDE78A62A9155F9E14ECC9811 009284A4F680E8A09CEA4D661E74F5EDA6934F531825A60CDE8 A5F195701A215DD60376F3FC12D1935559E273DF686 81 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 39 7 1 0xC590AF461D0C9176524FE6D5D71259AFC5E1183048EFE36622 437490E053246B66418456F1891AC61BFF9557FFFE2DD633FC183 83F5D0AC6F76B957601C697DEE2FA3C6128EEAC 40 8 1 0xl25BC0A5481A6BCBEF3491DAAD0FC66A93F44584836434952 BE518F336F84F3877278A738B9F7DD9F01D22BD9AB185785949 D268195DB316E1AEC1BFCD0EBD602139D1F0B927D5 41 9 1 0x095634A7AE024A5561359DE32DF80520A391EC83C3882CFD12 3266C64016A831A57266AE03D7D8CCD1C6EE2C48936EBE157D ADC7226D09C4810E7B3DF01C21D0FB6C313F451916 42 10 1 0x8859ECD4F4B7441448748EAA5D72CE38E0310474082207C65A D80B4C9BAEA6D7DA43E853DCBABDADF11737944AED9C2579 4AC113 AE703253F53FFA40DF7363D56B4B4B11990EE7 43 11 1 0xBElCFC64DE8699B8EA06E71FC8F4CCB682943B2F49CE12F00 C4B30448747A18A42B949B8D50C9998B32E7C324E3EA7D634C6 E77092D2A5AFD77C433B00A5F0C5D42AE46133B927 44 12 1 0x96A807FBB5C8DF0BDA41BB190E285F6FEB64CD06569B8555 CA7CC5C5FF5BE17AA59FF0C55BB95802AE679D45630F1B4BD 954867BDE482ED109A7A045451E5B67BA6370D9BD3277 45 13 1 0xF98AA2BF925C7C063E41B29A77A4023A78E161DECEA259181 C97795E396EE543C0651B22E1054AC1D204D0EA66366DB74D19 D203817896700B1A3BEA7EF33F5B7B4253D0B5BEB5 46 14 1 0xC2F0A0D16F8EECAB5BA57E873BlD09B2437CE5DE38D04CC B4EE98126A5727ED0A1ECA79CC22E95D8B3E3FB489934D59C0 BB1A66053175AF2867C1C9734F5794AB45F4B05D94F1F 47 15 1 0x56750DClD43AA4AC8C3B7F7E3B31A682B087E28FADE45CF2 CF18972E43688827D651C434C0FF8142D45094A77980C4A0F729C 0414F8459CBF3492F54CC8B7FB02917E793370339 48 16 1 0xB32AC0FB86942B7D0CE65887CF78DA2D5ADBCCFC72BA424 E0A51FC96E4BD3FB9B182C98ED07CBDF690B6731A48 A56C766 A2B855F05A3EAA79619086C1E222C66ADD32E5823973F 49 17 1 0xl4E6173B5C26974F7B06229D82B3D2D9594382A658729395548 58D04B0A13C53A0387D83721F936F82C912748A75946B6E27D66 DC880665556C33FFEF7155D0F1DFAE4566D829E 50 18 1 0xl07FBD983B3CBC9E2C4C7F4AE4EF8F50B2F658EEED9C90D7 9BEF725C1DFE51C4782CD2ED8 AA68CB78156B62A04957218EF 4B1AD19A4D55A177423F985D4ECB74D93C8409CF8950 51 19 1 0x31076EE2C809D00514A761A35C71120C8563DBC12ED687BFF A1F730408F20E29243E87459F11FD92176274B283756060B1E5A88 6115699DCEDDD4273997B175A1CA1EB33592969 82 200838193 Table 1 - Associated Ambi Modulation Sequences for 2048 FFTs and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 52 20 1 0x74EB7E0A53D666C78287C3BCFACFF186785A8335D643DFB 12DB8F6854298E0FCB0BFA36A68A1A33E04FE6AC00A439906 F24B31E94493ACAFB4057271D0C3658BF256E6645DFFCA 53 twenty one 1 0x69115CE97D4A82A88D8B201036E8B2A0B2FBC799CD12AC A1053B223A2CBDDE67269F01284428DB37A5A8F502742B532F 4498724438E72E9873F03938F43F1B7DB91C87D5984CFE 54 twenty two 1 OxEF 1E8CE6731B59EF60099C73344E27C8F2F09A5C52587512E 24DA69F6EB7E79969DF97F4BBA5D88A281A437AD7AF9E540 82324B7407C693C2FCE1AC581FF8993625795334AAAB1 55 twenty three 1 0xB39B55FlF4C0D5312C7613395EB73CFBF9ECC61CD02FF189 42BCF3784E3E045D91587C154372CA83809F7663365442C5E37 B63E0DDB73FC1BF0829FB569A47BB31641E25F72EDB 56 twenty four 1 0xE2F3E274479133C076606948CB3D6A62EB304F76C810FA2A9 8769687C134E2EB90D0902AC18B1693381D7BB2AC498EE032 A7BCCFD72A50902F33F765353ACF5CDE50249BB5881A 57 25 1 0xlDE9255ED07D57CFA62371E1979242A3DDDC435BC6E8C05 BO 1553A8F6287DABFDA52DB6E081B A23ED4E04E7A46F7CD A6244D2422EEAC60A4424A85461C8B06C9874BB7067378E1 58 26 1 0x642CC8276CAB5C693A88FA18950B09423820277A197DD2CB 47D236F3897BC501DA9CCD401A7C7FBEC557196781B3B3C15 DAF3724B9899058140395DB3833424C87CB91F5D9A41B 59 27 1 0x9A270A2147AA490A66120E2DC03D2930BBE5DDlCF5D39C C4C273E6330A15954CF7CF193121F7FA23B6AC037E029901596 6BDC9C70F1793D42BAEC2B481C5E9B971DEFCBF85C048 60 28 1 0x17291F60DFFABBAB43DD04CC77E11A9E9C9B1E262FA6962 4395A20329F36F52D0D58CCD4DE50C8E7249BBC37CC28BD8 E28E583F8ABD45233D682AFEC301A20A5F27A3B0FC51E56 61 29 1 0xC068E2DEC9DD2C0F34CCF5E4459405BBD7B169A792D4C8 B2567001D4263A90AF3A4D0AFA61337857DE6FF1F017448241 9AD58EB079AB5277514BA7BDE050111CD5D0A0724F420C 62 30 1 0x9767D6CDEA30ECAED5D8FF07AF807D8CA840812D174512 4A622DBD0B4BAB91818CBDD0C9579FD0801C73CA17B454A 2D2956698C36FE99B1CBA72621114A5A15C84DDFA62CA1413 63 31 1 0x489D41353CE869C8A433B22D3443B7EBAC93CE1895AC3EA 5337F63ECD00E069E4AEE90A90E79588321797A8430B88888E2 60F8AF4C0CE1F04FCC044088745C5D5B4C6E2937E8D4 64 0 2 0xA2330410704314D85FFE9CE571B0ED4927E5CCC6C689CE9 A34516D7A9C7981430E069E8A87E062484FE424EB58A45CD97 9031612BDD822D29F789368760DA9D7419B7B6BA03FC1 83 200838193 Table 1--2048 FFT Correlation Amp Modulation Sequences and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 65 1 2 0x496CBE4FA2A576B7DF6965574E760FA106BAC7774387C51215 DDAE6B2653BCC8293D3D6CCC14E3CE753333AA453A06CE8C 9A8BDE2730C2C416817857DF1D9DBC19D9275DF181A2 66 2 2 0xB0916A739E8CDEllBAB56B22C6AB72240FCFDD3664C5F32E B00C051E170C1FC1054B683764B0D7B664B85A8F929AFC5C66F 0FF35C93E62D2FDCA46F9523FBBD67354A27A2EA005 67 3 2 0xBA69F3694DC23AFBF407AB7C3591C370ED4B99268759EF64F FB32B00EF234C7BD6D5C3D553DEB76D6E74167D637CD8CA44 5366E21BCB89C10BA0B6A10407C1627A257E6C6AF4A7 68 4 2 0x7C3B 1C1AB29DF2C6155CE650D06CCADE3E5B8FE364A69A8 39B401680ABB5B06A45C049605CF37EA1190B094AC0550C932C 950F10D088EB7F61245B87E656FD14F058895C7463A3 69 5 2 0xB4944E76C2A4545AD3A783B7137C1AC2532C502C66F1A0CF0 1C4F665B9D9213289FFE734C1301069A630DD5DA89E07D1C9F4 6D46F48BDF09B1D374CE8 ABFAB0E9FDEC1956E879F 70 6 2 0xCB416FB39A094C69EBAE4688DAFAA2F151D122798E9BlA86 AD2A386198237F0C713CAD3DA8D8522821122D02F4DE8C2D23 5581109D3B91EED818D1CD6B304DE98A7D9124DB643A 71 7 2 0xl7B29ADD8CEF49F4AB7F4EDA37C75C8F146770ADA2001CA C57F3678061E8545CA139E5B4E9C1EEEEDA1A4941BE44A5DD7 4491C9D358CA588FDF386E5C6A9BD7836423AB424ACF7 72 8 2 0xAF86BBC0376541B0DF9D45923A6B791FClCFA03F659E575E D56236F4A419C80DD44E1A5013AC6E051CCD65AE7B967B0B4 B9EE8F29991785FBFE59D3AF73155385163C98CCDDFE8 73 9 2 0xF174AD8DB7897C8D0C63779D120EA7BDA6DFD2ClCC85196 B1C860CBC53ECFDC451F7BCA610D97351687BB4CF2B242A3F 8B50372AD45DECEF4A5891FE0C1C66CFB0E153B85836E0 74 10 2 0xC88AB3AlD2502EC9C5825D4926ED5A6FB544A64AC771DDC 5029C74AC7AA7E41600D434C83FB90D0FCD1D56B5D4EF5C639 4A77C24F06FB6E7D5E9AEFD9F0F6E501730B796900165 75 11 2 0xFF949FA0695B 1597F25D6D408C570C519CA2E345D791C68D3 1D82E6233B67C5996F6CF7670D1C8BF9F234979D1F32D66BD29 8C8C6063E61763B6A54192E0D554079CA7A12E8126 76 12 2 0x6C2B403A72832632653A9CABD85E32C687C7EA50775B40498 BA84BF9121108CE07F8314B41D6B1F8CAC7751FB78CA4134380 A049777E7578F0B0A924349BB2F2312379D31C27C5 77 13 2 0x56EB0F1593B218BB43F806208D9CC7EAC2B0CD24DE802BCE A24F6D77C91707A8E5CBDA375E16A7B6EFA2872E45E28FBE38 1CB40D4BF9C86F54656EA1A19DB5ACBEC0602D9CC9F1 84 200838193 Table 1--2048 FFT Correlation Amp Modulation Sequences and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 78 14 2 0x6F443AEFA2562FDCA7E62FC6DD089397E98D4AF0F951540E 9D9FA4F7D603E34EC19A77B7F034984DF7ABF880274D125AD3 1C2B09171818140D137DBDE9ECADB7B44788A460A15B 79 15 2 0x6B09E912415EC4D976F3E4E120075FCB55B143F4D7FE6D754 E5D19EDB6A2466BAFD3862C6CE32410C14EEEE959E608A45A A00798744A794BC3A26B33572BBF47159C16C287B289 80 16 2 0x535045E6AlBE6C3871164C04917BAF3417717B7BA8CC6F108 BA3CDF93D140EF636FCD70C14CEF825700852993A6F481473D 6D0A6AF5E2FCA7DA7D8C528917480D71950F3907845 81 17 2 0xD6C4281E746D6994EA30ED6906D65F7EB3B99FDA7ECE3EE 524F354473C519DB0B3B5198509BA2FA64CFE2480503FEDF221 E3A0E8F5B43A92067B8BEEE889B2EB995A27594F8876 82 18 2 OxAl 0FB173C3159B2D26FEC4D9F1708E53 A8 AE682563C50ED3 F451B2B1CD410B64555EB54A508C254CD5FAAB657DBFEDC7 93812CB6AD6FB186D095314F18F1BB3DB86CAFE83F1F97 83 19 2 0x43E2FCE6BC77FCEC0A1797265E24B5B9F3073EC91FD21D6F 182D7EEBB127C7A73D2F779FD4FD25107A53376C29A9E54432 532BC1685502907576AAEBB70BE8EB80848E2DC3BF88 84 20 2 0xDAAF7CC412910E3AC2F46BA03A2CB5C9C102CAAB280B5 A9B30CF518C8B452101D402C064FB582678EADC7FE8270DC72 9C86C2F7BA7A27D7D4051D20E5BED0CECC48903CAA21E17 85 twenty one 2 0x51AlB3581F09E6BDA9F6F488306C682FC48FF0340632D4BF2 5A682ECA503AEB4640B5A629F1F5F64E7D95917EEF0B292287 F0C406306DD2331AED66675E78C8B5F4B9F4C976BB3 86 twenty two 2 0xE8119205BC780C24AF954FB7D79FA19299AAD973CAA3B794 98BC84DA615AADBB13EC41D3DAAE9EA7BCCE320670E01FB 662A08FD3D86A22B82F8DC383A14155B5D3874427B40E45 87 twenty three 2 0x79F1AB5149FBBCD517C5D05D9A75CE1B1E359B008FE87051 F96497BED050DA20AF85AC72036E606C5FC13B74A1EC67C78 D619EDC64AF67E9B5A7EB19E4A4558DE1FB3BDEFE122A 88 twenty four 2 0x93C52847F7CEFE85A2A83CFClD2E06E213BA213B16C6DE4 9157B914E5F36904861F1A78D60FD6534E78356CDD8CFAD7DD 0DCC4D727FDF7A12875823962DAA9EF9507B7E455862C 89 25 2 0x2321F2A38ED77AA84F21A050F5D437F6828EFF9AD41C08EB AD36CC8C6892D12CE28EA1897C09851E896F615E87F9C1E8BE D6FE4833E3C73B91DBE8B10F627800CCD741F2FDDBB4 90 26 2 OxBF 12B94B7CE138579A1DA5E022ED498EC66F8157DD213349 EE83449D9EDE3C9E019E2B0791BDEEB5FAE72A5ECAE4AF0F 08521695F718D76EFBF303544C1ACAA266F8022A24746E 85 200838193 Table 1--2048 FFT Correlation Amp Modulation Sequences and Identifying Cells (Continued Table) index Identification cell segment Modulation sequence (hexadecimal format) 91 27 2 0xDA5395D54C16ABAlFA3CF32AA0A56000E075AC194D8C3D 40654C83E690D13FF18CBFDE29D8C311C1BA49BF39308BD1F 25ACC6C99BD9A9C5E65021E7FCF983D78E0E9D236DDD2EF 92 28 2 0xEE405CA07D5EC52856AD91BFB9E8ADDC0C0D21D94B4CC 21F1593C4767D0E1A1DE6159DB6402BA2BEB18FF25C3229A0 24D1F8E7B02ABAD99BE9D11C9EA47534962A53CF4CFC9260 93 29 2 0x0517BFDADE441B914660DD5F8C50B938834848A55A94950B 25DF20CA2E83791B441FCE4C6B2B44DA6CCBAB470842B3D A3F1566C78066DE1850FEC90CD4BF86684588403C5C5113 94 30 2 0x3 A12B27A39D5781CFE30EACF421535471B18A87B7F3E7FB9 33BBAB544EECD5BBD11801A573B26B830C64CA2F69EB0476 BC0EDB9258974CA50D8F6DCDFA7F21A3CA949563AC7815 95 31 2 0xF77D8F4485053CB978A8B944D8399DA3440A9F3D0B87D5B FC82F97F3940429A953F429FE47CE62BE2A516B1412D4C2CE8 04D73CC51391CEF47D7125C65F566C554A7CA38330310 96 0 0 0xDD183EF9D8C8AE1669D517F5293EB2287786BB2AC68126A 1D3E7186EDF938054B2B0C0E34F71EA3B7A394420C1A798D6 D26010A25A9909302E12D7C0199A7B98D564C5F4F72EE9 97 1 1 0x705E5DF32647E7CB92E918187DD0DDF468ED96E4E5229EA 2A30FDB94620AC7244939175F8D6CAB017F83CADDE33493B B0BB030AA0B45671AA7DA90799ECB6F13CF9FEDE29BDF9D 98 2 2 0x4C349512091531510C4985212760B795268272DFF3AAA7BA9 2916F3D5A04231EDF8D443A2EBA216B2ACDDB5DC503B3000 A70F339AE384466D2C8F683375E81E174D02837A870BF 99 3 0 0x43CFB08B3DB7F763BD3BBAEC9AD5B6382E5D277AFA57B 6134AE9F4CE12EA233D01CC1DFD73E04CC0E91E1118975F1D 31586210886DBCEE8615AFD6E5AFC10E9D1127BC697EC414 100 4 1 0x60E316DE1632ElB10BFE584625F13019403A4C25AB8256395 7D53275B6A82259416F74452F81A655F95A4A75C3D9C740EFD 04F3 A31AA172333266ED92E369E78B49539F2BEDC40 101 5 2 0x63CC58882733C9D36F9DFA47E84E7B53A33D4F312BAB66D 8F0C404B551F8113331B4FD592423F9DB434D15D7258A0625B AB9BC69EB4A37804D7E9052654720A3C49656967AFFED 102 6 0 0xB07DEDF62ECA8B2DF3E62B67D38C7306B31D6586AD23B3 EEFA19B3F910A41AA240F3470F5BB89237D494E312F87610C9 4FE0270087776D8458F715FD7E242320AFF07FE9550E16 103 7 1 0X16466F71234B7FC9A64B1A82A8FAD35A686587DEE487F131 4624A39EBF8107002AA7E042DAE09C786668AB36F1DF6D58E D81EC2289601E181D31D5032ADCC4AACF23CF08C66289 86 200838193 Table 1 - a 2048 FFT associated with the Amp modulation sequence for each segment and identify cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 104 8 2 0XA9B7EC62E60922C11A1AA3A94E3BFE7F2DC8B590D98434F D1D782DC990807F9BCECCE95D0572A3AC64195528530ECF221 58C967A69601DD777F591E96D8EEAEC3B6DAC49D71FA2 105 9 0 0xFB225E61BEC51FF3F7391ClED0D602BAA6680B23FC7602B6 5C0237BCD13AEA392CD06BEA614E3D2AD5CBCC01FBEDF59 Ε0Β16230D704489B0EF58E7A541E3 AF22621118D2E9E55C 106 10 1 0x917BF984E97504B06C18A6A36463722F0936F759B34F8C947C 42179D3298B357EE963F5565405AD2E942B709772B2FAE10D1A 8B166E1DC5FDADDD1188783BD96E5318B202D0288 107 11 2 0xCC7B5A30AE497F10EA9B918197D9E6AB754AA36B8E179F3 D8DBF6DF1861BA81E401ADBC34CD119D75307EA941ADD6B 4A367F04FB2BD014A367C1FE1A6EEC5045CC3C7361EA7D6E 108 12 0 0x63CA53 5A600FDC5D15160C215EF273EABD052519045A0631 677666D6F8389EE3D0D7D9AA8F694ABCAF9B12BFBCF7D169 8D9074AB4419D4004B66E3 A9F415688D6E70A1B43E9ACC 109 13 1 0x0243EC00FC656AEA6BCFD70CB0BC6A761610D3F4099FE13 69CF8BE663D99DCE034D54A6837ECBA2A1A1A95D1F25C639 13B0B3127FB6722BDCFC0815631EBFF9B2116DD4788D291 110 14 2 0xD95D3238896B05B21DBABC0503B251308C505EAF7E3CDBF 8928911B3E0B9CB91E3766C285C30E0B98F776BD065A56F9697 DDDC6D05650AFF036CD580117C224A179C90D1CA10ΒΒ 111 15 0 0xDDD2160D107CF8FA79E0A2EDC7215683F3209EC3B3A40A7 966CA8B84E57B343A868415C086062226A45A4DAB4766F29253 62397EEA967EDB0C879CC13657A4420A6301CF725FFE 112 16 1 0x52A8B29EF02C788A0CBF33F90FEE131C85D4AA2CF058BlE B4C64AD870A93C6DF7D0A63E44EDA8F7B7CDCF1EFCF66034 39E8992ED9D98459FD786DF9C54DF621BFA1B38B5310651 113 17 2 0x6F0C445BFC5B6037B49D6C20776018B247740079B9C3FDED2 2F42719408AA9B189E77E0950518DC5DD1614CCB1CE9360B46 CCD1D8F57B93DE3F89DF3CFFA7F1DBD03256A853AEE 87 200838193 Table 2 - 1024 FFT correlation of the Amp modulation sequence per segment and identification of cells (IDcell) index Identification cell segment Modulation sequence (hexadecimal format) 0 0 0 0xF57DB50BE77E3A60EE76D67CA7912007B418F8D33CAB2 7CC8BEE622187A14DECA294F65 1 1 0 0x4DCF800E623CC52D526BEF35135AC796FAB629EFE345B DD17E054367462FE7DD384C166 2 2 0 0x76319FCB87AD5AD97C07B5609356A2E03F86240A071F57 1BD05E8893734EFB4D0CBAE38 3 3 0 0xBCB170FB690620E5CE525BFBD9D42A0B08DCF90146443 38DF208E44A59633E53A7459FA 4 4 0 0xF4C0C87638974E6B9A86902AD795389E7FD13D81B42C36 F24461DD21B1C8189D5051F41 5 5 0 0x3FAC0F59F5FF630D04293EB7716C7B0E51779234B31E2B0 9F7A6A8DDA8F3321D9A7E477 6 6 0 0xD3D4D13AllABF7C26DF4C80F48FC3C9F2238C9FC9BDC E72F5B3DE89156538B1475AFB83 7 7 0 0xl245C650F191AA8423A4EA0F857DAEA95FBEA3129DB16 5A2EFB69640607CFEF3336C53F 8 8 0 0xA5DB1A1F774254A34BA32EA7B0B33FF8BA8F19E248B75 8 A8D13105CE22E267B18E0D240 9 9 0 0xlC4FF0F128E91AA45D52D8628A49F92D32DD8BlDA1620 D3590CDA57D4CC05AFC33FD72B 10 10 0 0x7B5B62AF67A90684D18BC1F2A19497CF1CE2DE27B8BE6 DD5C037BD8B649D7942FC84577 11 11 0 0x8E25BC255860AE02153889BD9EB43C99D709F3F75DClDl 5911036FBA20CA4F95F6C0C03 12 12 0 0x93BE3FD5823BAAFCB4AE7F9EEF3578CC0636CD2A4E9A 0E33279450DFE2947A744371678 13 13 0 0x772C7DC4F03B241636BA3E9E8ED149EE308FE92B810A64 D20A2355AC0F2C205AE7EA5C6 14 14 0 0x8DF96F103B64854FAB659F8C730D44A3DB54424F82BB97 B1F6BF1A38197B68148623EA3 15 15 0 0x4B2086A873E39C150597E16C0D7622A733DFD6CD88E324 CBCCD91EE8B7E7218F56A41E9 16 16 0 0x3F41BE94B4AEDF3E16F53E3AB8A1599A90789FlF850DB BED730260A8CEBBEA8C4137880 17 17 0 0x3CE9A79F2302E457400675235B4020663DA63BF0EF13AlB 6EC5170489DEAFED7D417B63 18 18 0 0x3E43B35C0FC8E3B63D737601E9CF507A942416F6E071C06 4086EDDA79D5F9F6B9492E32 19 19 0 0xB912FDl 55BD05114BAA6B95BF9A63D6C3189363087AC8 FAC5800182CF0B2C443A1787C8 88 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 20 20 0 0XA224AA7DD3F3FB16D7D076ECC81DF38C41D826F11E775 93 8949AFBE5 8F10F2F1B4F52BF twenty one twenty one 0 0x6EA00D7273604A3ABF93E128C5F64092F61C0AF80E0B17 A77A4F463463055C925EE3DD7 twenty two twenty two 0 0xED755C6EC155D54E99FA627B31BCC15C3FF46B63F4FEl 84953B5E1A421AE179F6C9F2C8 twenty three twenty three 0 0x5042051DF29A85D7A7808645D4CF37E0B6C6E556FF014B 6652D8BC6CCE3D0E60E5B8B3C twenty four twenty four 0 0xAE2B94E46A91E7445B41A392E9807CFBDB9638BC4ED81 5A1F19F3CEF6D43EC94D694189 25 25 0 0xFC165FBF1778BA85310C2B929F4A91ACED44AllB86DC D87586B12FA610244D1D819C4C3 26 26 0 0XDA0F1AB3D1F1AE7CD322DEE221424D22522C36C06E6B 89EF697313A30A4DDFA5F6528AE 27 27 0 0x4A8AE9AB1A5AB122872084B6A2CDD541F621F1BCE3E6 0B07933E303785FEE97637FE321 28 28 0 0xC48A06BA315D19759ElF226C57FD66BBDFD35E1380AF4 4298CF5E6070561DEE43F58212 29 29 0 0xBF4A84AE6E8B0FC919AF9504C84B7205B46D0CF9BFAB5 9689673451C89A2718CE157ACF 30 30 0 0x021A957B126CD6DA7722E0010D701AFClA1985E855E4B F9D4BEBAA3BCB38E9A3ACFA305 31 31 0 0xFBE0BE26A6EC687FAD70876727BEE7D133308A0A8C567 35C76E0FDB4616AD9B5CCBCB65 32 0 1 0xl0EFB2BEDAE303304F2B4371B4BE5EEB2B518BFB46D17 6CFE894C0C1A657040F1B9214A 33 1 1 0x099BD0769A5DE0A03E10A6A73C17FF5D875EF6E0CC65F C7A98605867E37B9044A85CA33 34 2 1 0xC67B78718F368DlC5E2D0023ADFFEAA5E55A4764EFD4 DECDB4C7F428D95334C7E519BE8 35 3 1 0x217FlC616A21063829BF5227EF7EF95E592AA7BD66E499 A42BDD721F93A9E347E315DA5 36 4 1 0x5D7D60E9D3600CF86763A899BA9F1505C9279865B6C0E4 06C758653AA4696A51E7EA7CC 37 5 1 0x409F8ECF8A0232132ACF9E61756E95F902F2D8D5D70898 A30EC3949CFED9590CE786990 38 6 1 0x3B59394CB93E72Al C84E173D44DA313F70C85 A2D905222 F6D03F3F3907E3CF75D79510A 89 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 39 7 1 0xB021F589CA6B5C62A0DE895DF3A43EF68B8612ED3D5D 3E0DA18A4AB527413B3D9F77355 40 8 1 0xA7FEB67C8431AE5ED54B09B3CD745BBE8BD6621787772 DE27777E04D5BA485A335060C4 41 9 1 0xAA062F840EEE49958150CE164CE3D605797BA0305CD8A5 804A04D8F6D15BDE6684AAA53 42 10 1 0XBB1D46DE51223584008E4CA3CC1F231C151232B2962BB8 5A158B1FF63BE041F453FB5A0 43 11 1 0x9FFl IB 1DA431E3F4BAE2CBB4C4F0054FA3C000C1511CE 84AD1F193B48EDEBC448A93184 44 12 1 0xl4542B2DE5628C0981E18A95A13EClCFDD48E7B6664Bl F6A8ED1E6F784884EB24B29D9E 45 13 1 0xC85F81AE4CA240963C58C9A7CEC6AlF01945A3F634D20 8A3C1A35388027BD656F7D551A 46 14 1 0xF9F8D3F91164BD5F5EEA2955A664F120CAB2284541B6B5 2DC47673F6871CC718B58BE42 47 15 1 0xA42734D4260EF4BA08AAC13ABElACEBC028747BE5868 89F6D6F0758E2445A832707FECC 48 16 1 0xBF3DA6E16206FC62BFC5EA8207ED6BlA3818CD60A6997 2F9B7F9CDB9356CAD88C553FC5 49 17 1 0x885CAB55BDDD9E89750DBBAE1198C9C873E66CA60B8D 0712861D92E525CAFEAF8BF212F 50 18 1 0x4C6CC4642A1BE02FB068936CF79A1F94B52B0FAA110E71 686DB913D46A120678F3797C5 51 19 1 0x95BClDC313D2B914D0DF070E480DE8341988243C50DC66 6B3D57291455FF8B6EC98A091 52 20 1 0xA07D52A689936B04C73051B3B9712E003FB5B9B5F110086 B72D14E6F6FADDE186DE2190 53 twenty one 1 0x3AC8751ED340FC6EAFF6408B9FBF9B92BF88F04B86B293 87DEC39A6C8C698BC5075A14C 54 twenty two 1 0x7C5BA9A36893DB8563D16338FC45B095BD63AlEDCCC6 8EFBF7FA2DF5AA2B0B2CFCB9600 55 twenty three 1 0xFlBB4E916F70576E60DA403E36086BFD4610384206F23E3 3585AC3E781C9C53D15EE955 56 twenty four 1 0x98BA49B9EF848DC0F5AC69A16D6967CAA0947DB98C00 103092076A7D5290E923A2E08CF 57 25 1 0xAFC405C2D91C7E2F6386EF5B8B04AA5127C86B0F6E5Cl 4C23EF6FE3BFBE39D0ACBFB269 90 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 58 26 1 0x0860019913383C35595C0746867F4434BF0A5A6271BF5D42 936ADC33 AA2514B11DE6EB6 59 27 1 0x2AE39A73970FD2CFF7ED59006335416D681C743ED2EDA 81F412837609199BC5363892A3 60 28 1 0x013EEBB7D1091D37815A85A3BFE676F3E85D3F6F3975D6 441B5A705C9B9870CB4C771B6 61 29 1 0xBF02968EDF90ADC62BDCB887387B27B3890F4D5676BC4 E2FF671829245E32EEFBFD1F19 62 30 1 0x84B3900D7D3EAF6E46B2CF9AE8650E479333962F95E95F 9EF8343BE3D845FF1B5D00CA6 63 31 1 0x06C7985575C7686968633D4F8E423F3C9D236BB617B0FF8 979C204EDF23BE5AB6DD6CF6 64 0 2 0x6ABCB0B37CE1A318129EE58BF1DE143B7FC6CD6EC5E2 0B9972BB56C03455150E300DE4B 65 1 2 0x2BACF5C40ED7E3461C7438552E43181F3C8E582457D497 B6E9B4AE034D8CB1B773BBFE7 66 2 2 0xACC0EC8C3A8DC8CC11424F46330621ClDA6AC35E9D35 7EE212CEFB92A0CB4402A92FDE1 67 3 2 0x62E292288C30DA44ABB4EC6D42E5000D3BBD0F906427A F759F3276E3C8F27B7D0C1BB41 68 4 2 0xA29F1D5F6DF92FDD2DB669E9BD21CAEE684A159EF1B9 E802FEB1C9896AF8762F3276072 69 5 2 0x6E3B15CEE3C2B7F5262EBB7EE3B53440D6856BB4012039 0B09CDBF0E67A596A2CA26826 70 6 2 0x898AC72500F925C02841A5D699C39393B3EA0ClF802129 A956528FE06DB95581596E1DF 71 7 2 0x70E0018C8AED264C6BFB5BA82F13674134FB95F1837C38 AA1E6FC6339EF2D02F6B08EEE 72 8 2 0xCFDC022326523C0C8AFCAA749DC32F47AF2675B074A75 A7ACE7ABFD1C43C9FDD698FC0A 73 9 2 0x34E9743863160970282902E55D45C0D7FA2099E66CA7BB9 A5AB9DA931E666A291652BFA 74 10 2 0xAB05BC5503E7FF47828EE648DB849BE9A32D5D8678DA6 73F12BC6B57BAD13023B21ADA9 75 11 2 0xBBF9AED7FA76505E27C6858A56B479F831A9C5F8B8F5E 51CE7D051DB2C91336D5C6EA19 76 12 2 0xB17EA958C03B6EDEA9B011DCE838756D90C51FDB62E63 86BCACBD619B5C29B00FA2B1BF 91 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 77 13 2 0xF9C5192E52732F6025A7E064395F91C0445F20CF7AllE821 4C9680458DF76F2CAC4C275 78 14 2 0x2C7901BD86AB137D27F57D3984D07A76DE2B996F559F47 1431299D32187DC919EAA04A7 79 15 2 0x53BDFC1CC1BA48D75066CEC7FCA7C109C54484C783B0E 0C8173 A96AB6CB1E28296B88D5 80 16 2 0xB570272C736EF260A9A50A6CBEC77A12FD2364F4B36FA DF3 A8F9FF60488F8F623905118 81 17 2 0xB47BD0817141FD280E0B4A9C36F161758DF2FAA8F31C32 AFE7FA23B736A59CAA47B38D2 82 18 2 0x3D9BE5016D23924068525DE6ACEDDB321727C5F56AB91 C357886C7A6179E15631F15368 83 19 2 0x1AB1EC934DD376A781B495CCBFB55800ED1C19B1F4EB5 82DE406E281E174705510D4B9C 84 20 2 0xF28BA38C44B2F7CEBC3BA741F620B13A3607C625979FB7 8A8A5ACCFA48B52B013D1A431 85 twenty one 2 0x9C9B322697713B5FB83CB323B14359CA440435C5E0FB712 CA39E8A1AA4136AC63940582 86 twenty two 2 0x44ED5C4AElDD7952DD73799FCB5DD4606F01ACB3A3E8 9FDF237DFDC8920197D3EE50EB0 87 twenty three 2 0xAED321C43F2A8D9CF2CB69227DC8CF98A94DC29D3D07 22B7378F2D227BF9F8090C50056 88 twenty four 2 0x76E6F62939F70CE294B95531E88174F20BFD3EE67F0587F4 9483243FD567D15E088ACA9 89 25 2 0xEDF18994DD4D35B5E7B96ECDC7745D86BEE4326EA8548 203EF4D63CD078D9BF0E284F80 90 26 2 0x9CF78DD61DB73E67C6BB08067FD6A70501D96269A533E AEFB2BC5F02296CAA87FD51EA5 91 27 2 0xA56652AF76593EDBBlD602D7A02603332E32EA9AA36249 5168B A7BEEE6C18C0D5FF3 878 92 28 2 0xE7A04246C139FE36CB52BF629F8A9DlE9D90A6737174492 F520B39FACE59853439282AC 93 29 2 0x41820D977E5A1D8F37DF2DA4C1CDC714E8A35E69514F99 8C05E9182B0BE2A57B067E45A 94 30 2 0xF45CB6737A83AAlD8CA788CBC85991136FEA29B9BE4B DEB50608A1DC7F081D68DC5B21E 95 31 2 0x95F5187D25 AD22ED14DEC296B9EADC606C81CC4A912B 81E377CBC8315CC6E9EA63DFBEB 92 200838193 Table 2 - 1024 FFT associated with the modulating sequence of each segment and identifying cells (continued) index Identification cell segment Modulation sequence (hexadecimal format) 96 0 0 0XF3E1DC03AF64DD7F3672AEBEC1B6295FCEC5A1C9945B 5207A466414AFFF959CBD64F586 97 1 1 0xBE18E3D2C24CF06B72683BA4CE070AEF229017AD4EB02 F6285F53A6557DBC9DB3E9BEEB 98 2 2 0xDBB35C45282D66FB0D62BEA28FF12503F5B27FC07ElD5 F3183BD9C38392F5A6539B94A2 99 3 0 0xC6457FBB3BlE32FA313D8917250C09217C7DA77F50AB0C E385D7886B83EA55B864035CC 100 4 1 0x932EF9D473225A9F6921F17A451F051FB78EDEF6A5B989B 994B3DC0F21540F20E312B7D 101 5 2 0x7B9E74C5EE4A27A3B488CB5087CA8AB4DED21E44660E C528060A9432D2FD740907D3370 102 6 0 0x6C5 A3D66BEA2103E9C46F4A6539CDA8 ABAF2BCBC99F6 07AC4ECB4559BFBE3911EC92D3E 103 7 1 0x88B7F6AC76BB9EE6FE8F3F0F122699547AE334742BD3870 0FDB7CD691C2363536FC4FC2 104 8 2 0x5C7C77ED3522C680859D472A72D01EC690DEE9F9A9B0D 87F3DC0F7D16A523DF9045134E 105 9 0 0xC2FB6923D745E871A0C669D1011A51BD50AF591A9DADB 3FFDF295921E4EC3B0A79D75EE 106 10 1 0x734BEDF2FBE961C5 AD6E584EDE3FF1E2B416881636E97A C63A8F755527FEE0913C48E66 107 11 2 0xD9D63B97EBF821DD019E22D0149ED8CDBC606159D5151 749CC0B56E7D0DAA7D93A36BD3 108 12 0 0xC132576511970E9C4530BAA95B8E53E13A2296FF8B5B2D C60A6B1BE661393CD1F7BEBE3 109 13 1 0x7190B71BlCAA6F2FEDCFAF097405798BDCB5447393204E 8C437D4D306A79F49BD5624DF 110 14 2 0xB0F05108B75D27A5EF0AD1053E5C90CA81BB9199263CC FD4D00E43FF1BBF4E29EA2E794 111 15 0 0xl3C5310837C749B9AC20CllDC0B71DABFD19DB401A979 7C3C0C7DD2D7EB336B1B94FE45 112 16 1 0x6E31118A654962412D16BB6283444BE8390F11AF280ABA3 D67D4DC7FE4C005F6470E7FC 113 17 2 0x9AD96CD25DCBA2C9976AA272B4E3757D475F8168ED7D F7F397E34FF38011A37E0C89782 93 200838193 Table 3-512 FFT related to the Amp modulation sequence per segment and identify cells (IDcell) index Identification cell segment Modulation sequence (hexadecimal format) 0 0 0 0x4FADFFE80EEC2353D5E0D719E27165A726CC 1 1 0 0x689540E03A9813D746D411D6F5A34B618636 2 2 0 0x7EAB49F0D40012E30F6889469B8E4CC8DAE2 3 3 0 0x20El BD2D774AA4FCC71967D487C2132899B8 4 4 0 0x3B75A75918A6046E6CEFlC045B7461A0FC06 5 5 0 0x70EFlEF0E5EBC1135B7D5C6A2B3296621B22 6 6 0 0x631CB45B105A839120141FAABE6E062E9DB0 7 7 0 0x3D140B4B808275866786FD39818CB56F99B4 8 8 0 0x4D3EAC3F93F3183890313FA5490C479D116A 9 9 0 0x71C9D4DA13243705C67A34272CBBB4008F14 10 10 0 0x58A42AD7B2A9B35C7A61C9ED377C0DB80B08 11 11 0 0x7C7805023CA85B2536A49744D6BC646E3144 12 12 0 0x570826242964A3D970197519D8B53461DA3E 13 13 0 0x49AD9B551D5D6328C67468383F40083485FE 14 14 0 0xlD40D60A5254D9453EA19B9BA7C1005EF334 15 15 0 0x39C144E4DA882F6897AA3442361FC2FAD6C6 16 16 0 0x753A6EC9E4F3650158AllAD89F282D23840E 17 17 0 0x292FA6D9EEB9380C51C64207E10CA9C5C588 18 18 0 0xlDCC7A97488252B60C39A076D147602365F4 19 19 0 0x21FF46D567A04D2F235361EBF18D32AEFEF2 20 20 0 0x07A545581C96FBC44CA579B589B83EE93CFE twenty one twenty one 0 0xlD702FE4A54DB0D04CB5544709062C3BlB9A twenty two twenty two 0 0xll38EB1890A2F937C44976A1143C045687DA twenty three twenty three 0 0x64B6A4BCB858AA2000BEE1670671DE372AD0 twenty four twenty four 0 0x4BD9245280AA3DCCBDE04FCECD0D2F7F239C 25 25 0 0x3B5BElF4D4217A63774C59A33DC120A3340A 26 26 0 0xlBE2B98347E2034F48A552742029079B5CE0 27 27 0 0x028D1838CF58DE02EFA96565B4C88D8B67BA 28 28 0 0x5F68B1B2A7B73CC1F2ACEBF5B0AC1BC400CC 29 29 0 0x665C532EAE0EFDEFCD6802FC3 A7310EA5348 30 30 0 0xl07D32AC3D373195BA843EBE6968C4BF9BE2 31 31 0 0x3FEAB859E5262F941B654C60720DB330F334 32 0 1 0xlEED6EE8F4A3C06B60DF5B116089237C300E 33 1 1 0xl9822C4632EC86450C6FE10A51E5C0FD5F2C 34 2 1 0x2DDE838BlD072B0CFBB04AA294991CC04696 35 3 1 0xlC357F566732B055A01C0139653483A7C81A 36 4 1 0x03B5252046ED369F0B98CC6F9DF0C74D5B2E 37 5 1 0x32D21CF781A89AB9891534683411128FD7AE 94 200838193 Table 3 - Array of 512 FFTs for each segment and identification of cells (continued) index Identification fine Cell segment Modulation sequence (hexadecimal format) 38 6 1 0X30E0EBF1A21A99E492755A1A85B0B712A660 39 7 1 0x63855C3358BA6EC7E5C7C8ED5B43BFF9084A 40 8 1 0x662AB8C7A8E37FA564F4FE6C2D23493FD8B0 41 9 1 0x5E9F2165C7ED09BE6B3 5FA315DE9BC719518 42 10 1 0x458D1A911535B85F1B0E5DBA01F6910C80E6 43 11 1 0x491E3B0O3C66376EB823538EA540F6525814 44 12 1 0x79B4D5E3A846DB6BF3BE70EE0B2A748FC442 45 13 1 0x7E6B673849A5284811CEDBE051E2B7447D5C 46 14 1 0x5F6022FB7C7C75B2F44F414E715A98B34A9E 47 15 1 0x69A2AC9A97DC0F394ACC4F127B3C521FBF62 48 16 1 0x0D4EE6A642CCD0924F0BFE83B6DD7C3BEC70 49 17 1 0x0EA5F06FE05E70ACE66571F7FD90435E698A 50 18 1 0x2020682A263ClDDC29E2C4BED90946B9646E 51 19 1 0x0547A6 A4F4DD8D0A5025DC6D726209B AA618 52 20 1 0x50B482EDE4B8 A9D9D75163EDED1CC62458A6 53 twenty one 1 0x2422623BCF0619F22DA083E114A5EC9517AA 54 twenty two 1 0x0F35DE05FB486550A17D7FC4E468EA8E4E52 55 twenty three 1 0x429894A78B0FAlCC14C8D0FB436CD57FFB84 56 twenty four 1 0x0F80B04278E8484316B16B6F4E8B5C444DD6 57 25 1 0x4F0018149EE6A47C4C35851716D04BB770CA 58 26 1 0x20E2DB0462772C48347CA565714C2BC413F0 59 27 1 0x634CEF7A72CClDEFA56D9F8C95D36806AE0E 60 28 1 0x45DF81B8828935A7C6971FE3A97A599CEBF6 61 29 1 0x7BE67E4C06E4C7B738B0AEFlE84356A9A456 62 30 1 0x6F9CDC4866B608E80F0817ABD1626D296A20 63 31 1 0x5DD3AF691E70FF5639763F9AC036182CCFE8 64 0 2 0x4CF8379D3B7C64525122A257BD3485F498C6 65 1 2 0x546FFlE0695D08CB4DDF965845492E33A40E 66 2 2 0x6E2C2032E63B500EA3B 1AD51A664360DA5CA 67 3 2 0xlA3E0B25A53D9A54ECB67F70B7E77405CE3C 68 4 2 0x4033DD1490A4F16870FEC5CE550B0A65E99E 69 5 2 0x71CF2239AFC076A0226444C175E70B4128B4 70 6 2 0x00FA9A986CE47DB2D5283AF64CC70CC1285C 71 7 2 0x73CC56FE96E5DC0690CBC367375F04995BAE 72 8 2 0x4D08929C05DEB983A35560816E4BAB23B98E 73 9 2 0x23764A50366D33CAA31C188F283EEF697DB8 74 10 2 0x5EE35010AC4ACB6DEDD0E887F9322F0C39D8 75 11 2 0x6171A046B512839766EC9670F74DB298AFA8 95 200838193 Table 3 - Array of 512 FFTs for each segment and identification of cells (continued) index Identification fine Cell segment Modulation sequence (hexadecimal format) 76 12 2 0x584B3703769C4B78001861C91757B191A2BC 77 13 2 0x7C5B3E3F31D6B30FA1973C5D40053D88AD72 78 14 2 0x308CB4842EA2650B93DF2F259B103873BF06 79 15 2 0x5B2A19992C807971A5AC58BDlC63780F7FF6 80 16 2 0x450EE0B668F2C0322109D6782D23EF6548DC 81 17 2 0x53F4D7C502823850AD0768E4699072DB3B20 82 18 2 0x6AC083142D01D27A73412EC49F7C560E671A 83 19 2 0xl6BA9E844F2C64923D85AB9E133D72CDD010 84 20 2 0x785286976B2768A26855704BF4731BC049DC 85 twenty one 2 0x2A317C996909B5C6F89F93611AF2228638BC 86 twenty two 2 0x384A3CC0FA28866F5F195EDFB3237530B496 87 twenty three 2 0x5801186BD928ClA2E0B4AA6C65F98717F82A 88 twenty four 2 0x044El 8CCA7AF3F2FB50DF25F6B40B1776CAA 89 25 2 0x3C3F9CC61AFE90BlD7AEF8DDD925D413251A 90 26 2 0x0D70AA48F655A98B08DBBF4F77A5D7901F76 91 27 2 0x5419A8C1924A7C0613F98EE97C3975285036 92 28 2 0x7D81685FEAC6EBAA5D786C3CB188C4193B22 93 29 2 0x3CE08517717CAD65B042F33130BA312E02D4 94 30 2 0xl5024AD06B0A07D035D3E999B9D90826738C 95 31 2 0x532FDDF76524FDA34B68363D237A3D711CC0 96 0 0 0x04C3904B2AAE4B72390AD3C7897B63768226 97 1 1 0x06BCDF3326FlA4047AA7AD255221D6C20380 98 2 2 0xl5ADD035357ClE8A61BD4F3B7598B9C18082 99 3 0 0x0588AD5EE583EA824A4B2C4CEE38D9671FF8 100 4 1 0x1 ED5FAB7C07990C6013F321573511C3CAF2C 101 5 2 0x652F573841E61C07B6F939543FFDlBAA2364 102 6 0 0x3D36EFBD347A29CADD8E01A8D9C27857EF00 103 7 1 0x2F6667F0EDF7E315905C53EC679ED1608EBC 104 8 2 0x5CB8F719B12545FCDBA0C8F61A12B3E943BA 105 9 0 0x58D2EE908B41EC3E46B071D3F7A455C8C220 106 10 1 0x7428CACE5AD1072E90307973A87D8A20A260 107 11 2 0x429225DD0707FCFE2036961F7776A75DC5CE 108 12 0 0x413FFFCF6BA9A2B255B2E5299386AC66F02E 109 13 1 0x3FB212E044A58A5EA791668BCE6A62EBF470 110 14 2 0x05265C8334CA703B3C7466B7A928A84FCEEC 111 15 0 0x762E49C1325E100F76B2F370D2607BC55C04 112 16 1 0x21B4EBFB8F3F87DACE14D3E52366AC8CE6C4 113 17 2 0x24E5A63AA02815CD025E45E1D1FBE523B346 96