CN104935399A - Interleaving mapping method of LDPC codeword and de-interleave de-mapping method - Google Patents
Interleaving mapping method of LDPC codeword and de-interleave de-mapping method Download PDFInfo
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- CN104935399A CN104935399A CN201410106851.4A CN201410106851A CN104935399A CN 104935399 A CN104935399 A CN 104935399A CN 201410106851 A CN201410106851 A CN 201410106851A CN 104935399 A CN104935399 A CN 104935399A
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Abstract
An interleaving mapping method of a LDPC codeword and a de-interleave de-mapping method are disclosed. The interleaving mapping method comprises the following steps that first bit interleaving is performed on a verification portion in a LDPC codeword so as to obtain a verification bit stream; an information bit portion and the verification bit stream in the LDPC codeword are jointed so as to form a LDPC codeword after the first bit interleaving; the LDPC codeword after the first bit interleaving is divided into a plurality of successive bit sub-blocks according to a preset length, and an arrangement sequence of the bit sub-blocks is changed according to a corresponding bit exchange pattern so as to form a LDPC codeword after second bit interleaving; the LDPC codeword after second bit interleaving is written into according to a column sequence and is read out according to a row sequence so as to acquire a LDPC codeword after third bit interleaving; constellation mapping is performed on the LDPC codeword after third bit interleaving according to a constellation diagram so as to acquire a symbol stream. For different LDPC code lists, the interleaving mapping method and the de-interleave de-mapping method are selected so that system performance is improved.
Description
Technical field
The present invention relates to digital television techniques field, particularly a kind of interlace map method of LDPC code word and deinterleaving de-mapping method.
Background technology
In existing broadcast communication standard, LDPC coding, Bit Interleave and constellation mapping are code modulation modes the most common.In different emission systems, LDPC coding, Bit Interleave and constellation mapping all need independent design, and combined debugging, to obtain best channel performance.Therefore, how forming Bit Interleave targetedly for specific LDPC code word and constellation mapping mode, is a technical barrier of this area.
Summary of the invention
The problem that the present invention solves cannot form Bit Interleave targetedly for specific LDPC code word and constellation mapping mode in prior art.
For solving the problem, embodiments providing a kind of interlace map method of LDPC code word, comprising the steps: the check part in described LDPC code word to carry out first time Bit Interleave to obtain check bit stream; Information bit part in described LDPC code word and described check bit stream are spliced into the LDPC code word after first time Bit Interleave; LDPC code word after described first time Bit Interleave is divided into the multiple sub-blocks of bits of continuous print by predetermined length, and puts in order the LDPC code word after forming second time Bit Interleave according to sub-blocks of bits described in corresponding bit exchange pattern change; LDPC code word column major order write memory space after described second time Bit Interleave is also sequentially read the LDPC code word after obtaining third time Bit Interleave by row in this memory space; Constellation mapping is carried out to obtain symbol stream according to corresponding planisphere to the LDPC code word after described third time Bit Interleave; Wherein, described bit exchange pattern and described planisphere are all corresponding from the LDPC code table of different code check.
The embodiment of the present invention additionally provides a kind of deinterleaving de-mapping method of LDPC code word, comprises the steps: to carry out soft demapping process to obtain bit soft value data to symbol stream soft value data according to corresponding planisphere; Wherein said symbol stream soft value data obtain after symbol that interlace map method that receiving terminal receives LDPC code word described above obtains flows through fast Fourier transform; Described bit soft value data are sequentially written in memory space by row and column major order reads to obtain first time than the bit soft value data after deinterleave in this memory space; Described first time is divided into the multiple bit soft value data sub-block of continuous print than the bit soft value data after deinterleave by predetermined length, and according to bit soft value data sub-block described in corresponding bit exchange pattern change put in order form second time than the bit soft value data after deinterleave; Described second time is carried out third time than deinterleave to obtain third time than the bit soft value data after deinterleave than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave; Described second time is spliced into bit soft value data flow with described third time than the bit soft value data after deinterleave than in the bit soft value data after deinterleave; LDPC decoding process is carried out to obtain decoded bitstream data to described bit soft value data flow.
Compared with prior art, technical solution of the present invention has the following advantages:
Corresponding interlace map and deinterleaving de-mapping method is selected better to be promoted to make systematic function for different LDPC code tables.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of the embodiment of the interlace map method of a kind of LDPC code word of the present invention;
Fig. 2 is the schematic flow sheet of the embodiment of the deinterleaving de-mapping method of a kind of LDPC code word of the present invention;
Fig. 3 be in the interlace map method of a kind of LDPC code word of the present invention to the check part in LDPC code word carry out first time Bit Interleave to obtain the schematic diagram of check bit stream;
Fig. 4 is the schematic diagram put in order according to sub-blocks of bits described in bit exchange pattern change in the interlace map method of a kind of LDPC code word of the present invention.
Embodiment
Inventor finds in prior art, cannot form Bit Interleave targetedly for specific LDPC code word and constellation mapping mode.
For the problems referred to above, inventor is through research, provide a kind of interlace map method and deinterleaving de-mapping method of LDPC code word, select corresponding interlace map and deinterleaving de-mapping method better to be promoted to make systematic function for different LDPC code tables.
For enabling above-mentioned purpose of the present invention, feature and advantage more become apparent, and are described in detail the specific embodiment of the present invention below in conjunction with accompanying drawing.
In embodiments of the present invention, transmitter terminal is: first bit stream after message sink coding is input to the coding that LDPC encoder carries out the LDPC code word of specific code check code length, input bit interleaver afterwards, interleaving treatment is carried out according to certain specific Bit Interleave patterning method, subsequently the data after Bit Interleave process are carried out the 1024NUC constellation mapping of corresponding code check, constellation mapping, modulates afterwards, launch, experience channel.Receiver end is: the data after channel are carried out demodulation, and the data input De-mapping module then after demodulation, carries out QPSK demapping.Afterwards the bit soft value information that De-mapping module exports is input to de-interleaving block and carries out deinterleaving, output to ldpc decoder afterwards, the decoding based on specific LDPC code word is carried out to it, output bit flow of finally decoding.
As shown in Figure 1 be the schematic flow sheet of the embodiment of the interlace map method of a kind of LDPC code word of the present invention.With reference to figure 1, the interlace map method of LDPC code word comprises the steps:
Step S11: the check part in described LDPC code word is carried out first time Bit Interleave to obtain check bit stream;
Step S12: the information bit part in described LDPC code word and described check bit stream are spliced into the LDPC code word after first time Bit Interleave;
Step S13: the LDPC code word after described first time Bit Interleave is divided into the multiple sub-blocks of bits of continuous print by predetermined length, and put in order the LDPC code word after forming second time Bit Interleave according to sub-blocks of bits described in corresponding bit exchange pattern change;
Step S14: by the LDPC code word after described second time Bit Interleave all column major order write memory space and by row order in this memory space, read to obtain the LDPC code word after third time Bit Interleave;
Step S15: constellation mapping is carried out to obtain symbol stream according to corresponding planisphere to the LDPC code word after described third time Bit Interleave; Wherein, described bit exchange pattern and described planisphere are all corresponding from the LDPC code table of different code check.
In the present embodiment, described step S11 specifically comprises the steps: the check part column major order write memory space in described LDPC code word and sequentially reads to obtain check bit stream in this memory space by row.
Particularly, the check portion generating LDPC code word is divided and carries out Bit Interleave: check part M the bit altogether of LDPC code word, write in a memory space by row, often arrange Q bit, altogether q row, that is M=Q
*q, then sequentially reads by row.Its specific implementation process is with reference to shown in figure 3.
In described step S13, the LDPC code word after described first time Bit Interleave is divided into the multiple sub-blocks of bits of continuous print by predetermined length, and wherein said predetermined length is 360.Further, according to sub-blocks of bits described in corresponding bit exchange pattern change put in order formed second time Bit Interleave after LDPC code word.Its detailed process is detailed as shown in Figure 4, in the diagram, and (m
0, m
1..., m
n/360-1) be the bit exchange pattern of 360 length bits sub-blocks.
Particularly, the code length of the LDPC code word in LDPC code table is 64800.For the LDPC code word of different code check, provide different bit exchange patterns.
In the present embodiment, for code check 6/15N
ldpc=64800q × q=360 × 360, Q=108.Code table is:
Corresponding bit exchange pattern is:
94341205122669239119170581672595307811299215106153
1218159139466974548861211148113379146271714080110
4379410402137131536908616831116708915410514433152
16362161311266313313577531601581914338124601554911169142
102412911832552610841761652967177127136859317910713891
7516617465103176175173100644782128157151164162717110187141
17828961614245203351721501307112314981109595213213461
727340122489711028414798117238344148115156145650145
1255711168
It should be noted that, in the present embodiment, each numerical value in described bit exchange pattern refers to the position without sub-blocks of bits described before bit exchange.Such as, first numerical value 94 implication in above-mentioned bit exchange pattern refers to and original after bit exchange, nowadays becomes first sub-blocks of bits without the 95th sub-blocks of bits before bit exchange.
Corresponding planisphere is:
Constellation point | Constellation symbol |
0 | 1.5031+1.5031i |
1 | 1.5031+1.2286i |
2 | 1.2286+1.5031i |
3 | 1.2286+1.2286i |
4 | 1.5031+0.9418i |
5 | 1.5031+1.0048i |
6 | 1.2286+0.9418i |
7 | 1.2286+1.0048i |
8 | 0.9418+1.5031i |
9 | 0.9418+1.2286i |
10 | 1.0048+1.5031i |
11 | 1.0048+1.2286i |
12 | 0.9418+0.9418i |
13 | 0.9418+1.0048i |
14 | 1.0048+0.9418i |
15 | 1.0048+1.0048i |
16 | 1.5031+0.6097i |
17 | 1.5031+0.6072i |
18 | 1.2286+0.6097i |
19 | 1.2286+0.6072i |
20 | 1.5031+0.7196i |
21 | 1.5031+0.7113i |
22 | 1.2286+0.7196i |
23 | 1.2286+0.7113i |
24 | 0.9418+0.6097i |
25 | 0.9418+0.6072i |
26 | 1.0048+0.6097i |
27 | 1.0048+0.6072i |
28 | 0.9418+0.7196i |
29 | 0.9418+0.7113i |
30 | 1.0048+0.7196i |
31 | 1.0048+0.7113i |
32 | 0.6097+1.5031i |
33 | 0.6097+1.2286i |
34 | 0.6072+1.5031i |
35 | 0.6072+1.2286i |
36 | 0.6097+0.9418i |
37 | 0.6097+1.0048i |
38 | 0.6072+0.9418i |
39 | 0.6072+1.0048i |
40 | 0.7196+1.5031i |
41 | 0.7196+1.2286i |
42 | 0.7113+1.5031i |
43 | 0.7113+1.2286i |
44 | 0.7196+0.9418i |
45 | 0.7196+1.0048i |
46 | 0.7113+0.9418i |
47 | 0.7113+1.0048i |
48 | 0.6097+0.6097i |
49 | 0.6097+0.6072i |
50 | 0.6072+0.6097i |
51 | 0.6072+0.6072i |
52 | 0.6097+0.7196i |
53 | 0.6097+0.7113i |
54 | 0.6072+0.7196i |
55 | 0.6072+0.7113i |
56 | 0.7196+0.6097i |
57 | 0.7196+0.6072i |
58 | 0.7113+0.6097i |
59 | 0.7113+0.6072i |
60 | 0.7196+0.7196i |
61 | 0.7196+0.7113i |
62 | 0.7113+0.7196i |
63 | 0.7113+0.7113i |
64 | 1.5031+0.1275i |
65 | 1.5031+0.1276i |
66 | 1.2286+0.1275i |
67 | 1.2286+0.1276i |
68 | 1.5031+0.1295i |
69 | 1.5031+0.1294i |
70 | 1.2286+0.1295i |
71 | 1.2286+0.1294i |
72 | 0.9418+0.1275i |
73 | 0.9418+0.1276i |
74 | 1.0048+0.1275i |
75 | 1.0048+0.1276i |
76 | 0.9418+0.1295i |
77 | 0.9418+0.1294i |
78 | 1.0048+0.1295i |
79 | 1.0048+0.1294i |
80 | 1.5031+0.3666i |
81 | 1.5031+0.3675i |
82 | 1.2286+0.3666i |
83 | 1.2286+0.3675i |
84 | 1.5031+0.3424i |
85 | 1.5031+0.3431i |
86 | 1.2286+0.3424i |
87 | 1.2286+0.3431i |
88 | 0.9418+0.3666i |
89 | 0.9418+0.3675i |
90 | 1.0048+0.3666i |
91 | 1.0048+0.3675i |
92 | 0.9418+0.3424i |
93 | 0.9418+0.3431i |
94 | 1.0048+0.3424i |
95 | 1.0048+0.3431i |
96 | 0.6097+0.1275i |
97 | 0.6097+0.1276i |
98 | 0.6072+0.1275i |
99 | 0.6072+0.1276i |
100 | 0.6097+0.1295i |
101 | 0.6097+0.1294i |
102 | 0.6072+0.1295i |
103 | 0.6072+0.1294i |
104 | 0.7196+0.1275i |
105 | 0.7196+0.1276i |
106 | 0.7113+0.1275i |
107 | 0.7113+0.1276i |
108 | 0.7196+0.1295i |
109 | 0.7196+0.1294i |
110 | 0.7113+0.1295i |
111 | 0.7113+0.1294i |
112 | 0.6097+0.3666i |
113 | 0.6097+0.3675i |
114 | 0.6072+0.3666i |
115 | 0.6072+0.3675i |
116 | 0.6097+0.3424i |
117 | 0.6097+0.3431i |
118 | 0.6072+0.3424i |
119 | 0.6072+0.3431i |
120 | 0.7196+0.3666i |
121 | 0.7196+0.3675i |
122 | 0.7113+0.3666i |
123 | 0.7113+0.3675i |
124 | 0.7196+0.3424i |
125 | 0.7196+0.3431i |
126 | 0.7113+0.3424i |
127 | 0.7113+0.3431i |
128 | 0.1275+1.5031i |
129 | 0.1275+1.2286i |
130 | 0.1276+1.5031i |
131 | 0.1276+1.2286i |
132 | 0.1275+0.9418i |
133 | 0.1275+1.0048i |
134 | 0.1276+0.9418i |
135 | 0.1276+1.0048i |
136 | 0.1295+1.5031i |
137 | 0.1295+1.2286i |
138 | 0.1294+1.5031i |
139 | 0.1294+1.2286i |
140 | 0.1295+0.9418i |
141 | 0.1295+1.0048i |
142 | 0.1294+0.9418i |
143 | 0.1294+1.0048i |
144 | 0.1275+0.6097i |
145 | 0.1275+0.6072i |
146 | 0.1276+0.6097i |
147 | 0.1276+0.6072i |
148 | 0.1275+0.7196i |
149 | 0.1275+0.7113i |
150 | 0.1276+0.7196i |
151 | 0.1276+0.7113i |
152 | 0.1295+0.6097i |
153 | 0.1295+0.6072i |
154 | 0.1294+0.6097i |
155 | 0.1294+0.6072i |
156 | 0.1295+0.7196i |
157 | 0.1295+0.7113i |
158 | 0.1294+0.7196i |
159 | 0.1294+0.7113i |
160 | 0.3666+1.5031i |
161 | 0.3666+1.2286i |
162 | 0.3675+1.5031i |
163 | 0.3675+1.2286i |
164 | 0.3666+0.9418i |
165 | 0.3666+1.0048i |
166 | 0.3675+0.9418i |
167 | 0.3675+1.0048i |
168 | 0.3424+1.5031i |
169 | 0.3424+1.2286i |
170 | 0.3431+1.5031i |
171 | 0.3431+1.2286i |
172 | 0.3424+0.9418i |
173 | 0.3424+1.0048i |
174 | 0.3431+0.9418i |
175 | 0.3431+1.0048i |
176 | 0.3666+0.6097i |
177 | 0.3666+0.6072i |
178 | 0.3675+0.6097i |
179 | 0.3675+0.6072i |
180 | 0.3666+0.7196i |
181 | 0.3666+0.7113i |
182 | 0.3675+0.7196i |
183 | 0.3675+0.7113i |
184 | 0.3424+0.6097i |
185 | 0.3424+0.6072i |
186 | 0.3431+0.6097i |
187 | 0.3431+0.6072i |
188 | 0.3424+0.7196i |
189 | 0.3424+0.7113i |
190 | 0.3431+0.7196i |
191 | 0.3431+0.7113i |
192 | 0.1275+0.1275i |
193 | 0.1275+0.1276i |
194 | 0.1276+0.1275i |
195 | 0.1276+0.1276i |
196 | 0.1275+0.1295i |
197 | 0.1275+0.1294i |
198 | 0.1276+0.1295i |
199 | 0.1276+0.1294i |
200 | 0.1295+0.1275i |
201 | 0.1295+0.1276i |
202 | 0.1294+0.1275i |
203 | 0.1294+0.1276i |
204 | 0.1295+0.1295i |
205 | 0.1295+0.1294i |
206 | 0.1294+0.1295i |
207 | 0.1294+0.1294i |
208 | 0.1275+0.3666i |
209 | 0.1275+0.3675i |
210 | 0.1276+0.3666i |
211 | 0.1276+0.3675i |
212 | 0.1275+0.3424i |
213 | 0.1275+0.3431i |
214 | 0.1276+0.3424i |
215 | 0.1276+0.3431i |
216 | 0.1295+0.3666i |
217 | 0.1295+0.3675i |
218 | 0.1294+0.3666i |
219 | 0.1294+0.3675i |
220 | 0.1295+0.3424i |
221 | 0.1295+0.3431i |
222 | 0.1294+0.3424i |
223 | 0.1294+0.3431i |
224 | 0.3666+0.1275i |
225 | 0.3666+0.1276i |
226 | 0.3675+0.1275i |
227 | 0.3675+0.1276i |
228 | 0.3666+0.1295i |
229 | 0.3666+0.1294i |
230 | 0.3675+0.1295i |
231 | 0.3675+0.1294i |
232 | 0.3424+0.1275i |
233 | 0.3424+0.1276i |
234 | 0.3431+0.1275i |
235 | 0.3431+0.1276i |
236 | 0.3424+0.1295i |
237 | 0.3424+0.1294i |
238 | 0.3431+0.1295i |
239 | 0.3431+0.1294i |
240 | 0.3666+0.3666i |
241 | 0.3666+0.3675i |
242 | 0.3675+0.3666i |
243 | 0.3675+0.3675i |
244 | 0.3666+0.3424i |
245 | 0.3666+0.3431i |
246 | 0.3675+0.3424i |
247 | 0.3675+0.3431i |
248 | 0.3424+0.3666i |
249 | 0.3424+0.3675i |
250 | 0.3431+0.3666i |
251 | 0.3431+0.3675i |
252 | 0.3424+0.3424i |
253 | 0.3424+0.3431i |
254 | 0.3431+0.3424i |
255 | 0.3431+0.3431i |
256 | 1.5031-1.5031i |
257 | 1.5031-1.2286i |
258 | 1.2286-1.5031i |
259 | 1.2286-1.2286i |
260 | 1.5031-0.9418i |
261 | 1.5031-1.0048i |
262 | 1.2286-0.9418i |
263 | 1.2286-1.0048i |
264 | 0.9418-1.5031i |
265 | 0.9418-1.2286i |
266 | 1.0048-1.5031i |
267 | 1.0048-1.2286i |
268 | 0.9418-0.9418i |
269 | 0.9418-1.0048i |
270 | 1.0048-0.9418i |
271 | 1.0048-1.0048i |
272 | 1.5031-0.6097i |
273 | 1.5031-0.6072i |
274 | 1.2286-0.6097i |
275 | 1.2286-0.6072i |
276 | 1.5031-0.7196i |
277 | 1.5031-0.7113i |
278 | 1.2286-0.7196i |
279 | 1.2286-0.7113i |
280 | 0.9418-0.6097i |
281 | 0.9418-0.6072i |
282 | 1.0048-0.6097i |
283 | 1.0048-0.6072i |
284 | 0.9418-0.7196i |
285 | 0.9418-0.7113i |
286 | 1.0048-0.7196i |
287 | 1.0048-0.7113i |
288 | 0.6097-1.5031i |
289 | 0.6097-1.2286i |
290 | 0.6072-1.5031i |
291 | 0.6072-1.2286i |
292 | 0.6097-0.9418i |
293 | 0.6097-1.0048i |
294 | 0.6072-0.9418i |
295 | 0.6072-1.0048i |
296 | 0.7196-1.5031i |
297 | 0.7196-1.2286i |
298 | 0.7113-1.5031i |
299 | 0.7113-1.2286i |
300 | 0.7196-0.9418i |
301 | 0.7196-1.0048i |
302 | 0.7113-0.9418i |
303 | 0.7113-1.0048i |
304 | 0.6097-0.6097i |
305 | 0.6097-0.6072i |
306 | 0.6072-0.6097i |
307 | 0.6072-0.6072i |
308 | 0.6097-0.7196i |
309 | 0.6097-0.7113i |
310 | 0.6072-0.7196i |
311 | 0.6072-0.7113i |
312 | 0.7196-0.6097i |
313 | 0.7196-0.6072i |
314 | 0.7113-0.6097i |
315 | 0.7113-0.6072i |
316 | 0.7196-0.7196i |
317 | 0.7196-0.7113i |
318 | 0.7113-0.7196i |
319 | 0.7113-0.7113i |
320 | 1.5031-0.1275i |
321 | 1.5031-0.1276i |
322 | 1.2286-0.1275i |
323 | 1.2286-0.1276i |
324 | 1.5031-0.1295i |
325 | 1.5031-0.1294i |
326 | 1.2286-0.1295i |
327 | 1.2286-0.1294i |
328 | 0.9418-0.1275i |
329 | 0.9418-0.1276i |
330 | 1.0048-0.1275i |
331 | 1.0048-0.1276i |
332 | 0.9418-0.1295i |
333 | 0.9418-0.1294i |
334 | 1.0048-0.1295i |
335 | 1.0048-0.1294i |
336 | 1.5031-0.3666i |
337 | 1.5031-0.3675i |
338 | 1.2286-0.3666i |
339 | 1.2286-0.3675i |
340 | 1.5031-0.3424i |
341 | 1.5031-0.3431i |
342 | 1.2286-0.3424i |
343 | 1.2286-0.3431i |
344 | 0.9418-0.3666i |
345 | 0.9418-0.3675i |
346 | 1.0048-0.3666i |
347 | 1.0048-0.3675i |
348 | 0.9418-0.3424i |
349 | 0.9418-0.3431i |
350 | 1.0048-0.3424i |
351 | 1.0048-0.3431i |
352 | 0.6097-0.1275i |
353 | 0.6097-0.1276i |
354 | 0.6072-0.1275i |
355 | 0.6072-0.1276i |
356 | 0.6097-0.1295i |
357 | 0.6097-0.1294i |
358 | 0.6072-0.1295i |
359 | 0.6072-0.1294i |
360 | 0.7196-0.1275i |
361 | 0.7196-0.1276i |
362 | 0.7113-0.1275i |
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879 | -0.7113-0.1294i |
880 | -0.6097-0.3666i |
881 | -0.6097-0.3675i |
882 | -0.6072-0.3666i |
883 | -0.6072-0.3675i |
884 | -0.6097-0.3424i |
885 | -0.6097-0.3431i |
886 | -0.6072-0.3424i |
887 | -0.6072-0.3431i |
888 | -0.7196-0.3666i |
889 | -0.7196-0.3675i |
890 | -0.7113-0.3666i |
891 | -0.7113-0.3675i |
892 | -0.7196-0.3424i |
893 | -0.7196-0.3431i |
894 | -0.7113-0.3424i |
895 | -0.7113-0.3431i |
896 | -0.1275-1.5031i |
897 | -0.1275-1.2286i |
898 | -0.1276-1.5031i |
899 | -0.1276-1.2286i |
900 | -0.1275-0.9418i |
901 | -0.1275-1.0048i |
902 | -0.1276-0.9418i |
903 | -0.1276-1.0048i |
904 | -0.1295-1.5031i |
905 | -0.1295-1.2286i |
906 | -0.1294-1.5031i |
907 | -0.1294-1.2286i |
908 | -0.1295-0.9418i |
909 | -0.1295-1.0048i |
910 | -0.1294-0.9418i |
911 | -0.1294-1.0048i |
912 | -0.1275-0.6097i |
913 | -0.1275-0.6072i |
914 | -0.1276-0.6097i |
915 | -0.1276-0.6072i |
916 | -0.1275-0.7196i |
917 | -0.1275-0.7113i |
918 | -0.1276-0.7196i |
919 | -0.1276-0.7113i |
920 | -0.1295-0.6097i |
921 | -0.1295-0.6072i |
922 | -0.1294-0.6097i |
923 | -0.1294-0.6072i |
924 | -0.1295-0.7196i |
925 | -0.1295-0.7113i |
926 | -0.1294-0.7196i |
927 | -0.1294-0.7113i |
928 | -0.3666-1.5031i |
929 | -0.3666-1.2286i |
930 | -0.3675-1.5031i |
931 | -0.3675-1.2286i |
932 | -0.3666-0.9418i |
933 | -0.3666-1.0048i |
934 | -0.3675-0.9418i |
935 | -0.3675-1.0048i |
936 | -0.3424-1.5031i |
937 | -0.3424-1.2286i |
938 | -0.3431-1.5031i |
939 | -0.3431-1.2286i |
940 | -0.3424-0.9418i |
941 | -0.3424-1.0048i |
942 | -0.3431-0.9418i |
943 | -0.3431-1.0048i |
944 | -0.3666-0.6097i |
945 | -0.3666-0.6072i |
946 | -0.3675-0.6097i |
947 | -0.3675-0.6072i |
948 | -0.3666-0.7196i |
949 | -0.3666-0.7113i |
950 | -0.3675-0.7196i |
951 | -0.3675-0.7113i |
952 | -0.3424-0.6097i |
953 | -0.3424-0.6072i |
954 | -0.3431-0.6097i |
955 | -0.3431-0.6072i |
956 | -0.3424-0.7196i |
957 | -0.3424-0.7113i |
958 | -0.3431-0.7196i |
959 | -0.3431-0.7113i |
960 | -0.1275-0.1275i |
961 | -0.1275-0.1276i |
962 | -0.1276-0.1275i |
963 | -0.1276-0.1276i |
964 | -0.1275-0.1295i |
965 | -0.1275-0.1294i |
966 | -0.1276-0.1295i |
967 | -0.1276-0.1294i |
968 | -0.1295-0.1275i |
969 | -0.1295-0.1276i |
970 | -0.1294-0.1275i |
971 | -0.1294-0.1276i |
972 | -0.1295-0.1295i |
973 | -0.1295-0.1294i |
974 | -0.1294-0.1295i |
975 | -0.1294-0.1294i |
976 | -0.1275-0.3666i |
977 | -0.1275-0.3675i |
978 | -0.1276-0.3666i |
979 | -0.1276-0.3675i |
980 | -0.1275-0.3424i |
981 | -0.1275-0.3431i |
982 | -0.1276-0.3424i |
983 | -0.1276-0.3431i |
984 | -0.1295-0.3666i |
985 | -0.1295-0.3675i |
986 | -0.1294-0.3666i |
987 | -0.1294-0.3675i |
988 | -0.1295-0.3424i |
989 | -0.1295-0.3431i |
990 | -0.1294-0.3424i |
991 | -0.1294-0.3431i |
992 | -0.3666-0.1275i |
993 | -0.3666-0.1276i |
994 | -0.3675-0.1275i |
995 | -0.3675-0.1276i |
996 | -0.3666-0.1295i |
997 | -0.3666-0.1294i |
998 | -0.3675-0.1295i |
999 | -0.3675-0.1294i |
1000 | -0.3424-0.1275i |
1001 | -0.3424-0.1276i |
1002 | -0.3431-0.1275i |
1003 | -0.3431-0.1276i |
1004 | -0.3424-0.1295i |
1005 | -0.3424-0.1294i |
1006 | -0.3431-0.1295i |
1007 | -0.3431-0.1294i |
1008 | -0.3666-0.3666i |
1009 | -0.3666-0.3675i |
1010 | -0.3675-0.3666i |
1011 | -0.3675-0.3675i |
1012 | -0.3666-0.3424i |
1013 | -0.3666-0.3431i |
1014 | -0.3675-0.3424i |
1015 | -0.3675-0.3431i |
1016 | -0.3424-0.3666i |
1017 | -0.3424-0.3675i |
1018 | -0.3431-0.3666i |
1019 | -0.3431-0.3675i |
1020 | -0.3424-0.3424i |
1021 | -0.3424-0.3431i |
1022 | -0.3431-0.3424i |
1023 | -0.3431-0.3431i |
The code length of LDPC code word is 64800 bits, code check is 8/15, Q=84 code table is:
Corresponding bit exchange pattern is:
411376759949516716412532491405215686327753492141
431751183399544161051706621501369010457178108145110
53931133039692640135160117201278314712321095848127
1211810077129551259835111179741734270101118107453747
64132124621341151080761481241308417616310312012687151139
511461291381579115451692217161651667911673177461617277
2816210215611913361603115286114130361591221311531285644
381552397143112168658314215891069617485891917214815082
1498817144
Corresponding planisphere is:
Constellation point | Constellation symbol |
0 | 1.4800+1.4800i |
1 | 1.4800+1.2281i |
2 | 1.2281+1.4800i |
3 | 1.2281+1.2281i |
4 | 1.4800+0.9212i |
5 | 1.4800+1.0349i |
6 | 1.2281+0.9212i |
7 | 1.2281+1.0349i |
8 | 0.9212+1.4800i |
9 | 0.9212+1.2281i |
10 | 1.0349+1.4800i |
11 | 1.0349+1.2281i |
12 | 0.9212+0.9212i |
13 | 0.9212+1.0349i |
14 | 1.0349+0.9212i |
15 | 1.0349+1.0349i |
16 | 1.4800+0.5810i |
17 | 1.4800+0.5872i |
18 | 1.2281+0.5810i |
19 | 1.2281+0.5872i |
20 | 1.4800+0.7604i |
21 | 1.4800+0.7213i |
22 | 1.2281+0.7604i |
23 | 1.2281+0.7213i |
24 | 0.9212+0.5810i |
25 | 0.9212+0.5872i |
26 | 1.0349+0.5810i |
27 | 1.0349+0.5872i |
28 | 0.9212+0.7604i |
29 | 0.9212+0.7213i |
30 | 1.0349+0.7604i |
31 | 1.0349+0.7213i |
32 | 0.5810+1.4800i |
33 | 0.5810+1.2281i |
34 | 0.5872+1.4800i |
35 | 0.5872+1.2281i |
36 | 0.5810+0.9212i |
37 | 0.5810+1.0349i |
38 | 0.5872+0.9212i |
39 | 0.5872+1.0349i |
40 | 0.7604+1.4800i |
41 | 0.7604+1.2281i |
42 | 0.7213+1.4800i |
43 | 0.7213+1.2281i |
44 | 0.7604+0.9212i |
45 | 0.7604+1.0349i |
46 | 0.7213+0.9212i |
47 | 0.7213+1.0349i |
48 | 0.5810+0.5810i |
49 | 0.5810+0.5872i |
50 | 0.5872+0.5810i |
51 | 0.5872+0.5872i |
52 | 0.5810+0.7604i |
53 | 0.5810+0.7213i |
54 | 0.5872+0.7604i |
55 | 0.5872+0.7213i |
56 | 0.7604+0.5810i |
57 | 0.7604+0.5872i |
58 | 0.7213+0.5810i |
59 | 0.7213+0.5872i |
60 | 0.7604+0.7604i |
61 | 0.7604+0.7213i |
62 | 0.7213+0.7604i |
63 | 0.7213+0.7213i |
64 | 1.4800+0.0773i |
65 | 1.4800+0.0773i |
66 | 1.2281+0.0773i |
67 | 1.2281+0.0773i |
68 | 1.4800+0.1614i |
69 | 1.4800+0.1614i |
70 | 1.2281+0.1614i |
71 | 1.2281+0.1614i |
72 | 0.9212+0.0773i |
73 | 0.9212+0.0773i |
74 | 1.0349+0.0773i |
75 | 1.0349+0.0773i |
76 | 0.9212+0.1614i |
77 | 0.9212+0.1614i |
78 | 1.0349+0.1614i |
79 | 1.0349+0.1614i |
80 | 1.4800+0.4163i |
81 | 1.4800+0.4159i |
82 | 1.2281+0.4163i |
83 | 1.2281+0.4159i |
84 | 1.4800+0.3086i |
85 | 1.4800+0.3085i |
86 | 1.2281+0.3086i |
87 | 1.2281+0.3085i |
88 | 0.9212+0.4163i |
89 | 0.9212+0.4159i |
90 | 1.0349+0.4163i |
91 | 1.0349+0.4159i |
92 | 0.9212+0.3086i |
93 | 0.9212+0.3085i |
94 | 1.0349+0.3086i |
95 | 1.0349+0.3085i |
96 | 0.5810+0.0773i |
97 | 0.5810+0.0773i |
98 | 0.5872+0.0773i |
99 | 0.5872+0.0773i |
100 | 0.5810+0.1614i |
101 | 0.5810+0.1614i |
102 | 0.5872+0.1614i |
103 | 0.5872+0.1614i |
104 | 0.7604+0.0773i |
105 | 0.7604+0.0773i |
106 | 0.7213+0.0773i |
107 | 0.7213+0.0773i |
108 | 0.7604+0.1614i |
109 | 0.7604+0.1614i |
110 | 0.7213+0.1614i |
111 | 0.7213+0.1614i |
112 | 0.5810+0.4163i |
113 | 0.5810+0.4159i |
114 | 0.5872+0.4163i |
115 | 0.5872+0.4159i |
116 | 0.5810+0.3086i |
117 | 0.5810+0.3085i |
118 | 0.5872+0.3086i |
119 | 0.5872+0.3085i |
120 | 0.7604+0.4163i |
121 | 0.7604+0.4159i |
122 | 0.7213+0.4163i |
123 | 0.7213+0.4159i |
124 | 0.7604+0.3086i |
125 | 0.7604+0.3085i |
126 | 0.7213+0.3086i |
127 | 0.7213+0.3085i |
128 | 0.0773+1.4800i |
129 | 0.0773+1.2281i |
130 | 0.0773+1.4800i |
131 | 0.0773+1.2281i |
132 | 0.0773+0.9212i |
133 | 0.0773+1.0349i |
134 | 0.0773+0.9212i |
135 | 0.0773+1.0349i |
136 | 0.1614+1.4800i |
137 | 0.1614+1.2281i |
138 | 0.1614+1.4800i |
139 | 0.1614+1.2281i |
140 | 0.1614+0.9212i |
141 | 0.1614+1.0349i |
142 | 0.1614+0.9212i |
143 | 0.1614+1.0349i |
144 | 0.0773+0.5810i |
145 | 0.0773+0.5872i |
146 | 0.0773+0.5810i |
147 | 0.0773+0.5872i |
148 | 0.0773+0.7604i |
149 | 0.0773+0.7213i |
150 | 0.0773+0.7604i |
151 | 0.0773+0.7213i |
152 | 0.1614+0.5810i |
153 | 0.1614+0.5872i |
154 | 0.1614+0.5810i |
155 | 0.1614+0.5872i |
156 | 0.1614+0.7604i |
157 | 0.1614+0.7213i |
158 | 0.1614+0.7604i |
159 | 0.1614+0.7213i |
160 | 0.4163+1.4800i |
161 | 0.4163+1.2281i |
162 | 0.4159+1.4800i |
163 | 0.4159+1.2281i |
164 | 0.4163+0.9212i |
165 | 0.4163+1.0349i |
166 | 0.4159+0.9212i |
167 | 0.4159+1.0349i |
168 | 0.3086+1.4800i |
169 | 0.3086+1.2281i |
170 | 0.3085+1.4800i |
171 | 0.3085+1.2281i |
172 | 0.3086+0.9212i |
173 | 0.3086+1.0349i |
174 | 0.3085+0.9212i |
175 | 0.3085+1.0349i |
176 | 0.4163+0.5810i |
177 | 0.4163+0.5872i |
178 | 0.4159+0.5810i |
179 | 0.4159+0.5872i |
180 | 0.4163+0.7604i |
181 | 0.4163+0.7213i |
182 | 0.4159+0.7604i |
183 | 0.4159+0.7213i |
184 | 0.3086+0.5810i |
185 | 0.3086+0.5872i |
186 | 0.3085+0.5810i |
187 | 0.3085+0.5872i |
188 | 0.3086+0.7604i |
189 | 0.3086+0.7213i |
190 | 0.3085+0.7604i |
191 | 0.3085+0.7213i |
192 | 0.0773+0.0773i |
193 | 0.0773+0.0773i |
194 | 0.0773+0.0773i |
195 | 0.0773+0.0773i |
196 | 0.0773+0.1614i |
197 | 0.0773+0.1614i |
198 | 0.0773+0.1614i |
199 | 0.0773+0.1614i |
200 | 0.1614+0.0773i |
201 | 0.1614+0.0773i |
202 | 0.1614+0.0773i |
203 | 0.1614+0.0773i |
204 | 0.1614+0.1614i |
205 | 0.1614+0.1614i |
206 | 0.1614+0.1614i |
207 | 0.1614+0.1614i |
208 | 0.0773+0.4163i |
209 | 0.0773+0.4159i |
210 | 0.0773+0.4163i |
211 | 0.0773+0.4159i |
212 | 0.0773+0.3086i |
213 | 0.0773+0.3085i |
214 | 0.0773+0.3086i |
215 | 0.0773+0.3085i |
216 | 0.1614+0.4163i |
217 | 0.1614+0.4159i |
218 | 0.1614+0.4163i |
219 | 0.1614+0.4159i |
220 | 0.1614+0.3086i |
221 | 0.1614+0.3085i |
222 | 0.1614+0.3086i |
223 | 0.1614+0.3085i |
224 | 0.4163+0.0773i |
225 | 0.4163+0.0773i |
226 | 0.4159+0.0773i |
227 | 0.4159+0.0773i |
228 | 0.4163+0.1614i |
229 | 0.4163+0.1614i |
230 | 0.4159+0.1614i |
231 | 0.4159+0.1614i |
232 | 0.3086+0.0773i |
233 | 0.3086+0.0773i |
234 | 0.3085+0.0773i |
235 | 0.3085+0.0773i |
236 | 0.3086+0.1614i |
237 | 0.3086+0.1614i |
238 | 0.3085+0.1614i |
239 | 0.3085+0.1614i |
240 | 0.4163+0.4163i |
241 | 0.4163+0.4159i |
242 | 0.4159+0.4163i |
243 | 0.4159+0.4159i |
244 | 0.4163+0.3086i |
245 | 0.4163+0.3085i |
246 | 0.4159+0.3086i |
247 | 0.4159+0.3085i |
248 | 0.3086+0.4163i |
249 | 0.3086+0.4159i |
250 | 0.3085+0.4163i |
251 | 0.3085+0.4159i |
252 | 0.3086+0.3086i |
253 | 0.3086+0.3085i |
254 | 0.3085+0.3086i |
255 | 0.3085+0.3085i |
256 | 1.4800-1.4800i |
257 | 1.4800-1.2281i |
258 | 1.2281-1.4800i |
259 | 1.2281-1.2281i |
260 | 1.4800-0.9212i |
261 | 1.4800-1.0349i |
262 | 1.2281-0.9212i |
263 | 1.2281-1.0349i |
264 | 0.9212-1.4800i |
265 | 0.9212-1.2281i |
266 | 1.0349-1.4800i |
267 | 1.0349-1.2281i |
268 | 0.9212-0.9212i |
269 | 0.9212-1.0349i |
270 | 1.0349-0.9212i |
271 | 1.0349-1.0349i |
272 | 1.4800-0.5810i |
273 | 1.4800-0.5872i |
274 | 1.2281-0.5810i |
275 | 1.2281-0.5872i |
276 | 1.4800-0.7604i |
277 | 1.4800-0.7213i |
278 | 1.2281-0.7604i |
279 | 1.2281-0.7213i |
280 | 0.9212-0.5810i |
281 | 0.9212-0.5872i |
282 | 1.0349-0.5810i |
283 | 1.0349-0.5872i |
284 | 0.9212-0.7604i |
285 | 0.9212-0.7213i |
286 | 1.0349-0.7604i |
287 | 1.0349-0.7213i |
288 | 0.5810-1.4800i |
289 | 0.5810-1.2281i |
290 | 0.5872-1.4800i |
291 | 0.5872-1.2281i |
292 | 0.5810-0.9212i |
293 | 0.5810-1.0349i |
294 | 0.5872-0.9212i |
295 | 0.5872-1.0349i |
296 | 0.7604-1.4800i |
297 | 0.7604-1.2281i |
298 | 0.7213-1.4800i |
299 | 0.7213-1.2281i |
300 | 0.7604-0.9212i |
301 | 0.7604-1.0349i |
302 | 0.7213-0.9212i |
303 | 0.7213-1.0349i |
304 | 0.5810-0.5810i |
305 | 0.5810-0.5872i |
306 | 0.5872-0.5810i |
307 | 0.5872-0.5872i |
308 | 0.5810-0.7604i |
309 | 0.5810-0.7213i |
310 | 0.5872-0.7604i |
311 | 0.5872-0.7213i |
312 | 0.7604-0.5810i |
313 | 0.7604-0.5872i |
314 | 0.7213-0.5810i |
315 | 0.7213-0.5872i |
316 | 0.7604-0.7604i |
317 | 0.7604-0.7213i |
318 | 0.7213-0.7604i |
319 | 0.7213-0.7213i |
320 | 1.4800-0.0773i |
321 | 1.4800-0.0773i |
322 | 1.2281-0.0773i |
323 | 1.2281-0.0773i |
324 | 1.4800-0.1614i |
325 | 1.4800-0.1614i |
326 | 1.2281-0.1614i |
327 | 1.2281-0.1614i |
328 | 0.9212-0.0773i |
329 | 0.9212-0.0773i |
330 | 1.0349-0.0773i |
331 | 1.0349-0.0773i |
332 | 0.9212-0.1614i |
333 | 0.9212-0.1614i |
334 | 1.0349-0.1614i |
335 | 1.0349-0.1614i |
336 | 1.4800-0.4163i |
337 | 1.4800-0.4159i |
338 | 1.2281-0.4163i |
339 | 1.2281-0.4159i |
340 | 1.4800-0.3086i |
341 | 1.4800-0.3085i |
342 | 1.2281-0.3086i |
343 | 1.2281-0.3085i |
344 | 0.9212-0.4163i |
345 | 0.9212-0.4159i |
346 | 1.0349-0.4163i |
347 | 1.0349-0.4159i |
348 | 0.9212-0.3086i |
349 | 0.9212-0.3085i |
350 | 1.0349-0.3086i |
351 | 1.0349-0.3085i |
352 | 0.5810-0.0773i |
353 | 0.5810-0.0773i |
354 | 0.5872-0.0773i |
355 | 0.5872-0.0773i |
356 | 0.5810-0.1614i |
357 | 0.5810-0.1614i |
358 | 0.5872-0.1614i |
359 | 0.5872-0.1614i |
360 | 0.7604-0.0773i |
361 | 0.7604-0.0773i |
362 | 0.7213-0.0773i |
363 | 0.7213-0.0773i |
364 | 0.7604-0.1614i |
365 | 0.7604-0.1614i |
366 | 0.7213-0.1614i |
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881 | -0.5810-0.4159i |
882 | -0.5872-0.4163i |
883 | -0.5872-0.4159i |
884 | -0.5810-0.3086i |
885 | -0.5810-0.3085i |
886 | -0.5872-0.3086i |
887 | -0.5872-0.3085i |
888 | -0.7604-0.4163i |
889 | -0.7604-0.4159i |
890 | -0.7213-0.4163i |
891 | -0.7213-0.4159i |
892 | -0.7604-0.3086i |
893 | -0.7604-0.3085i |
894 | -0.7213-0.3086i |
895 | -0.7213-0.3085i |
896 | -0.0773-1.4800i |
897 | -0.0773-1.2281i |
898 | -0.0773-1.4800i |
899 | -0.0773-1.2281i |
900 | -0.0773-0.9212i |
901 | -0.0773-1.0349i |
902 | -0.0773-0.9212i |
903 | -0.0773-1.0349i |
904 | -0.1614-1.4800i |
905 | -0.1614-1.2281i |
906 | -0.1614-1.4800i |
907 | -0.1614-1.2281i |
908 | -0.1614-0.9212i |
909 | -0.1614-1.0349i |
910 | -0.1614-0.9212i |
911 | -0.1614-1.0349i |
912 | -0.0773-0.5810i |
913 | -0.0773-0.5872i |
914 | -0.0773-0.5810i |
915 | -0.0773-0.5872i |
916 | -0.0773-0.7604i |
917 | -0.0773-0.7213i |
918 | -0.0773-0.7604i |
919 | -0.0773-0.7213i |
920 | -0.1614-0.5810i |
921 | -0.1614-0.5872i |
922 | -0.1614-0.5810i |
923 | -0.1614-0.5872i |
924 | -0.1614-0.7604i |
925 | -0.1614-0.7213i |
926 | -0.1614-0.7604i |
927 | -0.1614-0.7213i |
928 | -0.4163-1.4800i |
929 | -0.4163-1.2281i |
930 | -0.4159-1.4800i |
931 | -0.4159-1.2281i |
932 | -0.4163-0.9212i |
933 | -0.4163-1.0349i |
934 | -0.4159-0.9212i |
935 | -0.4159-1.0349i |
936 | -0.3086-1.4800i |
937 | -0.3086-1.2281i |
938 | -0.3085-1.4800i |
939 | -0.3085-1.2281i |
940 | -0.3086-0.9212i |
941 | -0.3086-1.0349i |
942 | -0.3085-0.9212i |
943 | -0.3085-1.0349i |
944 | -0.4163-0.5810i |
945 | -0.4163-0.5872i |
946 | -0.4159-0.5810i |
947 | -0.4159-0.5872i |
948 | -0.4163-0.7604i |
949 | -0.4163-0.7213i |
950 | -0.4159-0.7604i |
951 | -0.4159-0.7213i |
952 | -0.3086-0.5810i |
953 | -0.3086-0.5872i |
954 | -0.3085-0.5810i |
955 | -0.3085-0.5872i |
956 | -0.3086-0.7604i |
957 | -0.3086-0.7213i |
958 | -0.3085-0.7604i |
959 | -0.3085-0.7213i |
960 | -0.0773-0.0773i |
961 | -0.0773-0.0773i |
962 | -0.0773-0.0773i |
963 | -0.0773-0.0773i |
964 | -0.0773-0.1614i |
965 | -0.0773-0.1614i |
966 | -0.0773-0.1614i |
967 | -0.0773-0.1614i |
968 | -0.1614-0.0773i |
969 | -0.1614-0.0773i |
970 | -0.1614-0.0773i |
971 | -0.1614-0.0773i |
972 | -0.1614-0.1614i |
973 | -0.1614-0.1614i |
974 | -0.1614-0.1614i |
975 | -0.1614-0.1614i |
976 | -0.0773-0.4163i |
977 | -0.0773-0.4159i |
978 | -0.0773-0.4163i |
979 | -0.0773-0.4159i |
980 | -0.0773-0.3086i |
981 | -0.0773-0.3085i |
982 | -0.0773-0.3086i |
983 | -0.0773-0.3085i |
984 | -0.1614-0.4163i |
985 | -0.1614-0.4159i |
986 | -0.1614-0.4163i |
987 | -0.1614-0.4159i |
988 | -0.1614-0.3086i |
989 | -0.1614-0.3085i |
990 | -0.1614-0.3086i |
991 | -0.1614-0.3085i |
992 | -0.4163-0.0773i |
993 | -0.4163-0.0773i |
994 | -0.4159-0.0773i |
995 | -0.4159-0.0773i |
996 | -0.4163-0.1614i |
997 | -0.4163-0.1614i |
998 | -0.4159-0.1614i |
999 | -0.4159-0.1614i |
1000 | -0.3086-0.0773i |
1001 | -0.3086-0.0773i |
1002 | -0.3085-0.0773i |
1003 | -0.3085-0.0773i |
1004 | -0.3086-0.1614i |
1005 | -0.3086-0.1614i |
1006 | -0.3085-0.1614i |
1007 | -0.3085-0.1614i |
1008 | -0.4163-0.4163i |
1009 | -0.4163-0.4159i |
1010 | -0.4159-0.4163i |
1011 | -0.4159-0.4159i |
1012 | -0.4163-0.3086i |
1013 | -0.4163-0.3085i |
1014 | -0.4159-0.3086i |
1015 | -0.4159-0.3085i |
1016 | -0.3086-0.4163i |
1017 | -0.3086-0.4159i |
1018 | -0.3085-0.4163i |
1019 | -0.3085-0.4159i |
1020 | -0.3086-0.3086i |
1021 | -0.3086-0.3085i |
1022 | -0.3085-0.3086i |
1023 | -0.3085-0.3085i |
The code length of LDPC code word is 64800 bits, code check is 9/15;
Code table is:
Corresponding bit exchange pattern is:
1779132601081712385164801409561261121387615793304815
14815387114774018791431722916188421141056510713912754
43671662794831581011669881212434241121144507111549
152615273122383798926561595953681711561308981147104
78961351369923666313171692234212914417033146119
10316117821336251111102281791509210616013711901132014519
721731091688617836314516274751671001321541763912064125151
11041633512815514147551185714924970134174701352546142
10158165175
Corresponding planisphere is:
Constellation point | Constellation symbol |
0 | 1.4645+1.4645i |
1 | 1.4645+1.2234i |
2 | 1.2234+1.4645i |
3 | 1.2234+1.2234i |
4 | 1.4645+0.9218i |
5 | 1.4645+1.0366i |
6 | 1.2234+0.9218i |
7 | 1.2234+1.0366i |
8 | 0.9218+1.4645i |
9 | 0.9218+1.2234i |
10 | 1.0366+1.4645i |
11 | 1.0366+1.2234i |
12 | 0.9218+0.9218i |
13 | 0.9218+1.0366i |
14 | 1.0366+0.9218i |
15 | 1.0366+1.0366i |
16 | 1.4645+0.5765i |
17 | 1.4645+0.5863i |
18 | 1.2234+0.5765i |
19 | 1.2234+0.5863i |
20 | 1.4645+0.7706i |
21 | 1.4645+0.7279i |
22 | 1.2234+0.7706i |
23 | 1.2234+0.7279i |
24 | 0.9218+0.5765i |
25 | 0.9218+0.5863i |
26 | 1.0366+0.5765i |
27 | 1.0366+0.5863i |
28 | 0.9218+0.7706i |
29 | 0.9218+0.7279i |
30 | 1.0366+0.7706i |
31 | 1.0366+0.7279i |
32 | 0.5765+1.4645i |
33 | 0.5765+1.2234i |
34 | 0.5863+1.4645i |
35 | 0.5863+1.2234i |
36 | 0.5765+0.9218i |
37 | 0.5765+1.0366i |
38 | 0.5863+0.9218i |
39 | 0.5863+1.0366i |
40 | 0.7706+1.4645i |
41 | 0.7706+1.2234i |
42 | 0.7279+1.4645i |
43 | 0.7279+1.2234i |
44 | 0.7706+0.9218i |
45 | 0.7706+1.0366i |
46 | 0.7279+0.9218i |
47 | 0.7279+1.0366i |
48 | 0.5765+0.5765i |
49 | 0.5765+0.5863i |
50 | 0.5863+0.5765i |
51 | 0.5863+0.5863i |
52 | 0.5765+0.7706i |
53 | 0.5765+0.7279i |
54 | 0.5863+0.7706i |
55 | 0.5863+0.7279i |
56 | 0.7706+0.5765i |
57 | 0.7706+0.5863i |
58 | 0.7279+0.5765i |
59 | 0.7279+0.5863i |
60 | 0.7706+0.7706i |
61 | 0.7706+0.7279i |
62 | 0.7279+0.7706i |
63 | 0.7279+0.7279i |
64 | 1.4645+0.0640i |
65 | 1.4645+0.0641i |
66 | 1.2234+0.0640i |
67 | 1.2234+0.0641i |
68 | 1.4645+0.1752i |
69 | 1.4645+0.1753i |
70 | 1.2234+0.1752i |
71 | 1.2234+0.1753i |
72 | 0.9218+0.0640i |
73 | 0.9218+0.0641i |
74 | 1.0366+0.0640i |
75 | 1.0366+0.0641i |
76 | 0.9218+0.1752i |
77 | 0.9218+0.1753i |
78 | 1.0366+0.1752i |
79 | 1.0366+0.1753i |
80 | 1.4645+0.4342i |
81 | 1.4645+0.4332i |
82 | 1.2234+0.4342i |
83 | 1.2234+0.4332i |
84 | 1.4645+0.3073i |
85 | 1.4645+0.3069i |
86 | 1.2234+0.3073i |
87 | 1.2234+0.3069i |
88 | 0.9218+0.4342i |
89 | 0.9218+0.4332i |
90 | 1.0366+0.4342i |
91 | 1.0366+0.4332i |
92 | 0.9218+0.3073i |
93 | 0.9218+0.3069i |
94 | 1.0366+0.3073i |
95 | 1.0366+0.3069i |
96 | 0.5765+0.0640i |
97 | 0.5765+0.0641i |
98 | 0.5863+0.0640i |
99 | 0.5863+0.0641i |
100 | 0.5765+0.1752i |
101 | 0.5765+0.1753i |
102 | 0.5863+0.1752i |
103 | 0.5863+0.1753i |
104 | 0.7706+0.0640i |
105 | 0.7706+0.0641i |
106 | 0.7279+0.0640i |
107 | 0.7279+0.0641i |
108 | 0.7706+0.1752i |
109 | 0.7706+0.1753i |
110 | 0.7279+0.1752i |
111 | 0.7279+0.1753i |
112 | 0.5765+0.4342i |
113 | 0.5765+0.4332i |
114 | 0.5863+0.4342i |
115 | 0.5863+0.4332i |
116 | 0.5765+0.3073i |
117 | 0.5765+0.3069i |
118 | 0.5863+0.3073i |
119 | 0.5863+0.3069i |
120 | 0.7706+0.4342i |
121 | 0.7706+0.4332i |
122 | 0.7279+0.4342i |
123 | 0.7279+0.4332i |
124 | 0.7706+0.3073i |
125 | 0.7706+0.3069i |
126 | 0.7279+0.3073i |
127 | 0.7279+0.3069i |
128 | 0.0640+1.4645i |
129 | 0.0640+1.2234i |
130 | 0.0641+1.4645i |
131 | 0.0641+1.2234i |
132 | 0.0640+0.9218i |
133 | 0.0640+1.0366i |
134 | 0.0641+0.9218i |
135 | 0.0641+1.0366i |
136 | 0.1752+1.4645i |
137 | 0.1752+1.2234i |
138 | 0.1753+1.4645i |
139 | 0.1753+1.2234i |
140 | 0.1752+0.9218i |
141 | 0.1752+1.0366i |
142 | 0.1753+0.9218i |
143 | 0.1753+1.0366i |
144 | 0.0640+0.5765i |
145 | 0.0640+0.5863i |
146 | 0.0641+0.5765i |
147 | 0.0641+0.5863i |
148 | 0.0640+0.7706i |
149 | 0.0640+0.7279i |
150 | 0.0641+0.7706i |
151 | 0.0641+0.7279i |
152 | 0.1752+0.5765i |
153 | 0.1752+0.5863i |
154 | 0.1753+0.5765i |
155 | 0.1753+0.5863i |
156 | 0.1752+0.7706i |
157 | 0.1752+0.7279i |
158 | 0.1753+0.7706i |
159 | 0.1753+0.7279i |
160 | 0.4342+1.4645i |
161 | 0.4342+1.2234i |
162 | 0.4332+1.4645i |
163 | 0.4332+1.2234i |
164 | 0.4342+0.9218i |
165 | 0.4342+1.0366i |
166 | 0.4332+0.9218i |
167 | 0.4332+1.0366i |
168 | 0.3073+1.4645i |
169 | 0.3073+1.2234i |
170 | 0.3069+1.4645i |
171 | 0.3069+1.2234i |
172 | 0.3073+0.9218i |
173 | 0.3073+1.0366i |
174 | 0.3069+0.9218i |
175 | 0.3069+1.0366i |
176 | 0.4342+0.5765i |
177 | 0.4342+0.5863i |
178 | 0.4332+0.5765i |
179 | 0.4332+0.5863i |
180 | 0.4342+0.7706i |
181 | 0.4342+0.7279i |
182 | 0.4332+0.7706i |
183 | 0.4332+0.7279i |
184 | 0.3073+0.5765i |
185 | 0.3073+0.5863i |
186 | 0.3069+0.5765i |
187 | 0.3069+0.5863i |
188 | 0.3073+0.7706i |
189 | 0.3073+0.7279i |
190 | 0.3069+0.7706i |
191 | 0.3069+0.7279i |
192 | 0.0640+0.0640i |
193 | 0.0640+0.0641i |
194 | 0.0641+0.0640i |
195 | 0.0641+0.0641i |
196 | 0.0640+0.1752i |
197 | 0.0640+0.1753i |
198 | 0.0641+0.1752i |
199 | 0.0641+0.1753i |
200 | 0.1752+0.0640i |
201 | 0.1752+0.0641i |
202 | 0.1753+0.0640i |
203 | 0.1753+0.0641i |
204 | 0.1752+0.1752i |
205 | 0.1752+0.1753i |
206 | 0.1753+0.1752i |
207 | 0.1753+0.1753i |
208 | 0.0640+0.4342i |
209 | 0.0640+0.4332i |
210 | 0.0641+0.4342i |
211 | 0.0641+0.4332i |
212 | 0.0640+0.3073i |
213 | 0.0640+0.3069i |
214 | 0.0641+0.3073i |
215 | 0.0641+0.3069i |
216 | 0.1752+0.4342i |
217 | 0.1752+0.4332i |
218 | 0.1753+0.4342i |
219 | 0.1753+0.4332i |
220 | 0.1752+0.3073i |
221 | 0.1752+0.3069i |
222 | 0.1753+0.3073i |
223 | 0.1753+0.3069i |
224 | 0.4342+0.0640i |
225 | 0.4342+0.0641i |
226 | 0.4332+0.0640i |
227 | 0.4332+0.0641i |
228 | 0.4342+0.1752i |
229 | 0.4342+0.1753i |
230 | 0.4332+0.1752i |
231 | 0.4332+0.1753i |
232 | 0.3073+0.0640i |
233 | 0.3073+0.0641i |
234 | 0.3069+0.0640i |
235 | 0.3069+0.0641i |
236 | 0.3073+0.1752i |
237 | 0.3073+0.1753i |
238 | 0.3069+0.1752i |
239 | 0.3069+0.1753i |
240 | 0.4342+0.4342i |
241 | 0.4342+0.4332i |
242 | 0.4332+0.4342i |
243 | 0.4332+0.4332i |
244 | 0.4342+0.3073i |
245 | 0.4342+0.3069i |
246 | 0.4332+0.3073i |
247 | 0.4332+0.3069i |
248 | 0.3073+0.4342i |
249 | 0.3073+0.4332i |
250 | 0.3069+0.4342i |
251 | 0.3069+0.4332i |
252 | 0.3073+0.3073i |
253 | 0.3073+0.3069i |
254 | 0.3069+0.3073i |
255 | 0.3069+0.3069i |
256 | 1.4645-1.4645i |
257 | 1.4645-1.2234i |
258 | 1.2234-1.4645i |
259 | 1.2234-1.2234i |
260 | 1.4645-0.9218i |
261 | 1.4645-1.0366i |
262 | 1.2234-0.9218i |
263 | 1.2234-1.0366i |
264 | 0.9218-1.4645i |
265 | 0.9218-1.2234i |
266 | 1.0366-1.4645i |
267 | 1.0366-1.2234i |
268 | 0.9218-0.9218i |
269 | 0.9218-1.0366i |
270 | 1.0366-0.9218i |
271 | 1.0366-1.0366i |
272 | 1.4645-0.5765i |
273 | 1.4645-0.5863i |
274 | 1.2234-0.5765i |
275 | 1.2234-0.5863i |
276 | 1.4645-0.7706i |
277 | 1.4645-0.7279i |
278 | 1.2234-0.7706i |
279 | 1.2234-0.7279i |
280 | 0.9218-0.5765i |
281 | 0.9218-0.5863i |
282 | 1.0366-0.5765i |
283 | 1.0366-0.5863i |
284 | 0.9218-0.7706i |
285 | 0.9218-0.7279i |
286 | 1.0366-0.7706i |
287 | 1.0366-0.7279i |
288 | 0.5765-1.4645i |
289 | 0.5765-1.2234i |
290 | 0.5863-1.4645i |
291 | 0.5863-1.2234i |
292 | 0.5765-0.9218i |
293 | 0.5765-1.0366i |
294 | 0.5863-0.9218i |
295 | 0.5863-1.0366i |
296 | 0.7706-1.4645i |
297 | 0.7706-1.2234i |
298 | 0.7279-1.4645i |
299 | 0.7279-1.2234i |
300 | 0.7706-0.9218i |
301 | 0.7706-1.0366i |
302 | 0.7279-0.9218i |
303 | 0.7279-1.0366i |
304 | 0.5765-0.5765i |
305 | 0.5765-0.5863i |
306 | 0.5863-0.5765i |
307 | 0.5863-0.5863i |
308 | 0.5765-0.7706i |
309 | 0.5765-0.7279i |
310 | 0.5863-0.7706i |
311 | 0.5863-0.7279i |
312 | 0.7706-0.5765i |
313 | 0.7706-0.5863i |
314 | 0.7279-0.5765i |
315 | 0.7279-0.5863i |
316 | 0.7706-0.7706i |
317 | 0.7706-0.7279i |
318 | 0.7279-0.7706i |
319 | 0.7279-0.7279i |
320 | 1.4645-0.0640i |
321 | 1.4645-0.0641i |
322 | 1.2234-0.0640i |
323 | 1.2234-0.0641i |
324 | 1.4645-0.1752i |
325 | 1.4645-0.1753i |
326 | 1.2234-0.1752i |
327 | 1.2234-0.1753i |
328 | 0.9218-0.0640i |
329 | 0.9218-0.0641i |
330 | 1.0366-0.0640i |
331 | 1.0366-0.0641i |
332 | 0.9218-0.1752i |
333 | 0.9218-0.1753i |
334 | 1.0366-0.1752i |
335 | 1.0366-0.1753i |
336 | 1.4645-0.4342i |
337 | 1.4645-0.4332i |
338 | 1.2234-0.4342i |
339 | 1.2234-0.4332i |
340 | 1.4645-0.3073i |
341 | 1.4645-0.3069i |
342 | 1.2234-0.3073i |
343 | 1.2234-0.3069i |
344 | 0.9218-0.4342i |
345 | 0.9218-0.4332i |
346 | 1.0366-0.4342i |
347 | 1.0366-0.4332i |
348 | 0.9218-0.3073i |
349 | 0.9218-0.3069i |
350 | 1.0366-0.3073i |
351 | 1.0366-0.3069i |
352 | 0.5765-0.0640i |
353 | 0.5765-0.0641i |
354 | 0.5863-0.0640i |
355 | 0.5863-0.0641i |
356 | 0.5765-0.1752i |
357 | 0.5765-0.1753i |
358 | 0.5863-0.1752i |
359 | 0.5863-0.1753i |
360 | 0.7706-0.0640i |
361 | 0.7706-0.0641i |
362 | 0.7279-0.0640i |
363 | 0.7279-0.0641i |
364 | 0.7706-0.1752i |
365 | 0.7706-0.1753i |
366 | 0.7279-0.1752i |
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883 | -0.5863-0.4332i |
884 | -0.5765-0.3073i |
885 | -0.5765-0.3069i |
886 | -0.5863-0.3073i |
887 | -0.5863-0.3069i |
888 | -0.7706-0.4342i |
889 | -0.7706-0.4332i |
890 | -0.7279-0.4342i |
891 | -0.7279-0.4332i |
892 | -0.7706-0.3073i |
893 | -0.7706-0.3069i |
894 | -0.7279-0.3073i |
895 | -0.7279-0.3069i |
896 | -0.0640-1.4645i |
897 | -0.0640-1.2234i |
898 | -0.0641-1.4645i |
899 | -0.0641-1.2234i |
900 | -0.0640-0.9218i |
901 | -0.0640-1.0366i |
902 | -0.0641-0.9218i |
903 | -0.0641-1.0366i |
904 | -0.1752-1.4645i |
905 | -0.1752-1.2234i |
906 | -0.1753-1.4645i |
907 | -0.1753-1.2234i |
908 | -0.1752-0.9218i |
909 | -0.1752-1.0366i |
910 | -0.1753-0.9218i |
911 | -0.1753-1.0366i |
912 | -0.0640-0.5765i |
913 | -0.0640-0.5863i |
914 | -0.0641-0.5765i |
915 | -0.0641-0.5863i |
916 | -0.0640-0.7706i |
917 | -0.0640-0.7279i |
918 | -0.0641-0.7706i |
919 | -0.0641-0.7279i |
920 | -0.1752-0.5765i |
921 | -0.1752-0.5863i |
922 | -0.1753-0.5765i |
923 | -0.1753-0.5863i |
924 | -0.1752-0.7706i |
925 | -0.1752-0.7279i |
926 | -0.1753-0.7706i |
927 | -0.1753-0.7279i |
928 | -0.4342-1.4645i |
929 | -0.4342-1.2234i |
930 | -0.4332-1.4645i |
931 | -0.4332-1.2234i |
932 | -0.4342-0.9218i |
933 | -0.4342-1.0366i |
934 | -0.4332-0.9218i |
935 | -0.4332-1.0366i |
936 | -0.3073-1.4645i |
937 | -0.3073-1.2234i |
938 | -0.3069-1.4645i |
939 | -0.3069-1.2234i |
940 | -0.3073-0.9218i |
941 | -0.3073-1.0366i |
942 | -0.3069-0.9218i |
943 | -0.3069-1.0366i |
944 | -0.4342-0.5765i |
945 | -0.4342-0.5863i |
946 | -0.4332-0.5765i |
947 | -0.4332-0.5863i |
948 | -0.4342-0.7706i |
949 | -0.4342-0.7279i |
950 | -0.4332-0.7706i |
951 | -0.4332-0.7279i |
952 | -0.3073-0.5765i |
953 | -0.3073-0.5863i |
954 | -0.3069-0.5765i |
955 | -0.3069-0.5863i |
956 | -0.3073-0.7706i |
957 | -0.3073-0.7279i |
958 | -0.3069-0.7706i |
959 | -0.3069-0.7279i |
960 | -0.0640-0.0640i |
961 | -0.0640-0.0641i |
962 | -0.0641-0.0640i |
963 | -0.0641-0.0641i |
964 | -0.0640-0.1752i |
965 | -0.0640-0.1753i |
966 | -0.0641-0.1752i |
967 | -0.0641-0.1753i |
968 | -0.1752-0.0640i |
969 | -0.1752-0.0641i |
970 | -0.1753-0.0640i |
971 | -0.1753-0.0641i |
972 | -0.1752-0.1752i |
973 | -0.1752-0.1753i |
974 | -0.1753-0.1752i |
975 | -0.1753-0.1753i |
976 | -0.0640-0.4342i |
977 | -0.0640-0.4332i |
978 | -0.0641-0.4342i |
979 | -0.0641-0.4332i |
980 | -0.0640-0.3073i |
981 | -0.0640-0.3069i |
982 | -0.0641-0.3073i |
983 | -0.0641-0.3069i |
984 | -0.1752-0.4342i |
985 | -0.1752-0.4332i |
986 | -0.1753-0.4342i |
987 | -0.1753-0.4332i |
988 | -0.1752-0.3073i |
989 | -0.1752-0.3069i |
990 | -0.1753-0.3073i |
991 | -0.1753-0.3069i |
992 | -0.4342-0.0640i |
993 | -0.4342-0.0641i |
994 | -0.4332-0.0640i |
995 | -0.4332-0.0641i |
996 | -0.4342-0.1752i |
997 | -0.4342-0.1753i |
998 | -0.4332-0.1752i |
999 | -0.4332-0.1753i |
1000 | -0.3073-0.0640i |
1001 | -0.3073-0.0641i |
1002 | -0.3069-0.0640i |
1003 | -0.3069-0.0641i |
1004 | -0.3073-0.1752i |
1005 | -0.3073-0.1753i |
1006 | -0.3069-0.1752i |
1007 | -0.3069-0.1753i |
1008 | -0.4342-0.4342i |
1009 | -0.4342-0.4332i |
1010 | -0.4332-0.4342i |
1011 | -0.4332-0.4332i |
1012 | -0.4342-0.3073i |
1013 | -0.4342-0.3069i |
1014 | -0.4332-0.3073i |
1015 | -0.4332-0.3069i |
1016 | -0.3073-0.4342i |
1017 | -0.3073-0.4332i |
1018 | -0.3069-0.4342i |
1019 | -0.3069-0.4332i |
1020 | -0.3073-0.3073i |
1021 | -0.3073-0.3069i |
1022 | -0.3069-0.3073i |
1023 | -0.3069-0.3069i |
The code length of LDPC code word is 64800 bits, code check is 10/15, Q=60
Code table is:
Corresponding bit pattern is:
2229104855010210176591416714432146128368114716998677
1621716611733121737336390471711301401815111516858175131
2430887015523481410149684210713354261371181542035
1561212866149110755191278016311110864169106172876976170
7746513556123103828314391463816417811255611312931
13514297159151524891007810511292624016111911412212019
39167727115379134139150455360215715717414561155962743
158488411610917714823179012616016544379841949313695125
1321242138
Corresponding planisphere is:
Constellation point | Constellation symbol |
0 | 1.4377+1.4377i |
1 | 1.4377+1.2232i |
2 | 1.2232+1.4377i |
3 | 1.2232+1.2232i |
4 | 1.4377+0.9302i |
5 | 1.4377+1.0579i |
6 | 1.2232+0.9302i |
7 | 1.2232+1.0579i |
8 | 0.9302+1.4377i |
9 | 0.9302+1.2232i |
10 | 1.0579+1.4377i |
11 | 1.0579+1.2232i |
12 | 0.9302+0.9302i |
13 | 0.9302+1.0579i |
14 | 1.0579+0.9302i |
15 | 1.0579+1.0579i |
16 | 1.4377+0.5505i |
17 | 1.4377+0.6150i |
18 | 1.2232+0.5505i |
19 | 1.2232+0.6150i |
20 | 1.4377+0.8066i |
21 | 1.4377+0.7158i |
22 | 1.2232+0.8066i |
23 | 1.2232+0.7158i |
24 | 0.9302+0.5505i |
25 | 0.9302+0.6150i |
26 | 1.0579+0.5505i |
27 | 1.0579+0.6150i |
28 | 0.9302+0.8066i |
29 | 0.9302+0.7158i |
30 | 1.0579+0.8066i |
31 | 1.0579+0.7158i |
32 | 0.5505+1.4377i |
33 | 0.5505+1.2232i |
34 | 0.6150+1.4377i |
35 | 0.6150+1.2232i |
36 | 0.5505+0.9302i |
37 | 0.5505+1.0579i |
38 | 0.6150+0.9302i |
39 | 0.6150+1.0579i |
40 | 0.8066+1.4377i |
41 | 0.8066+1.2232i |
42 | 0.7158+1.4377i |
43 | 0.7158+1.2232i |
44 | 0.8066+0.9302i |
45 | 0.8066+1.0579i |
46 | 0.7158+0.9302i |
47 | 0.7158+1.0579i |
48 | 0.5505+0.5505i |
49 | 0.5505+0.6150i |
50 | 0.6150+0.5505i |
51 | 0.6150+0.6150i |
52 | 0.5505+0.8066i |
53 | 0.5505+0.7158i |
54 | 0.6150+0.8066i |
55 | 0.6150+0.7158i |
56 | 0.8066+0.5505i |
57 | 0.8066+0.6150i |
58 | 0.7158+0.5505i |
59 | 0.7158+0.6150i |
60 | 0.8066+0.8066i |
61 | 0.8066+0.7158i |
62 | 0.7158+0.8066i |
63 | 0.7158+0.7158i |
64 | 1.4377+0.0596i |
65 | 1.4377+0.0642i |
66 | 1.2232+0.0596i |
67 | 1.2232+0.0642i |
68 | 1.4377+0.1766i |
69 | 1.4377+0.1669i |
70 | 1.2232+0.1766i |
71 | 1.2232+0.1669i |
72 | 0.9302+0.0596i |
73 | 0.9302+0.0642i |
74 | 1.0579+0.0596i |
75 | 1.0579+0.0642i |
76 | 0.9302+0.1766i |
77 | 0.9302+0.1669i |
78 | 1.0579+0.1766i |
79 | 1.0579+0.1669i |
80 | 1.4377+0.4471i |
81 | 1.4377+0.4043i |
82 | 1.2232+0.4471i |
83 | 1.2232+0.4043i |
84 | 1.4377+0.2868i |
85 | 1.4377+0.3091i |
86 | 1.2232+0.2868i |
87 | 1.2232+0.3091i |
88 | 0.9302+0.4471i |
89 | 0.9302+0.4043i |
90 | 1.0579+0.4471i |
91 | 1.0579+0.4043i |
92 | 0.9302+0.2868i |
93 | 0.9302+0.3091i |
94 | 1.0579+0.2868i |
95 | 1.0579+0.3091i |
96 | 0.5505+0.0596i |
97 | 0.5505+0.0642i |
98 | 0.6150+0.0596i |
99 | 0.6150+0.0642i |
100 | 0.5505+0.1766i |
101 | 0.5505+0.1669i |
102 | 0.6150+0.1766i |
103 | 0.6150+0.1669i |
104 | 0.8066+0.0596i |
105 | 0.8066+0.0642i |
106 | 0.7158+0.0596i |
107 | 0.7158+0.0642i |
108 | 0.8066+0.1766i |
109 | 0.8066+0.1669i |
110 | 0.7158+0.1766i |
111 | 0.7158+0.1669i |
112 | 0.5505+0.4471i |
113 | 0.5505+0.4043i |
114 | 0.6150+0.4471i |
115 | 0.6150+0.4043i |
116 | 0.5505+0.2868i |
117 | 0.5505+0.3091i |
118 | 0.6150+0.2868i |
119 | 0.6150+0.3091i |
120 | 0.8066+0.4471i |
121 | 0.8066+0.4043i |
122 | 0.7158+0.4471i |
123 | 0.7158+0.4043i |
124 | 0.8066+0.2868i |
125 | 0.8066+0.3091i |
126 | 0.7158+0.2868i |
127 | 0.7158+0.3091i |
128 | 0.0596+1.4377i |
129 | 0.0596+1.2232i |
130 | 0.0642+1.4377i |
131 | 0.0642+1.2232i |
132 | 0.0596+0.9302i |
133 | 0.0596+1.0579i |
134 | 0.0642+0.9302i |
135 | 0.0642+1.0579i |
136 | 0.1766+1.4377i |
137 | 0.1766+1.2232i |
138 | 0.1669+1.4377i |
139 | 0.1669+1.2232i |
140 | 0.1766+0.9302i |
141 | 0.1766+1.0579i |
142 | 0.1669+0.9302i |
143 | 0.1669+1.0579i |
144 | 0.0596+0.5505i |
145 | 0.0596+0.6150i |
146 | 0.0642+0.5505i |
147 | 0.0642+0.6150i |
148 | 0.0596+0.8066i |
149 | 0.0596+0.7158i |
150 | 0.0642+0.8066i |
151 | 0.0642+0.7158i |
152 | 0.1766+0.5505i |
153 | 0.1766+0.6150i |
154 | 0.1669+0.5505i |
155 | 0.1669+0.6150i |
156 | 0.1766+0.8066i |
157 | 0.1766+0.7158i |
158 | 0.1669+0.8066i |
159 | 0.1669+0.7158i |
160 | 0.4471+1.4377i |
161 | 0.4471+1.2232i |
162 | 0.4043+1.4377i |
163 | 0.4043+1.2232i |
164 | 0.4471+0.9302i |
165 | 0.4471+1.0579i |
166 | 0.4043+0.9302i |
167 | 0.4043+1.0579i |
168 | 0.2868+1.4377i |
169 | 0.2868+1.2232i |
170 | 0.3091+1.4377i |
171 | 0.3091+1.2232i |
172 | 0.2868+0.9302i |
173 | 0.2868+1.0579i |
174 | 0.3091+0.9302i |
175 | 0.3091+1.0579i |
176 | 0.4471+0.5505i |
177 | 0.4471+0.6150i |
178 | 0.4043+0.5505i |
179 | 0.4043+0.6150i |
180 | 0.4471+0.8066i |
181 | 0.4471+0.7158i |
182 | 0.4043+0.8066i |
183 | 0.4043+0.7158i |
184 | 0.2868+0.5505i |
185 | 0.2868+0.6150i |
186 | 0.3091+0.5505i |
187 | 0.3091+0.6150i |
188 | 0.2868+0.8066i |
189 | 0.2868+0.7158i |
190 | 0.3091+0.8066i |
191 | 0.3091+0.7158i |
192 | 0.0596+0.0596i |
193 | 0.0596+0.0642i |
194 | 0.0642+0.0596i |
195 | 0.0642+0.0642i |
196 | 0.0596+0.1766i |
197 | 0.0596+0.1669i |
198 | 0.0642+0.1766i |
199 | 0.0642+0.1669i |
200 | 0.1766+0.0596i |
201 | 0.1766+0.0642i |
202 | 0.1669+0.0596i |
203 | 0.1669+0.0642i |
204 | 0.1766+0.1766i |
205 | 0.1766+0.1669i |
206 | 0.1669+0.1766i |
207 | 0.1669+0.1669i |
208 | 0.0596+0.4471i |
209 | 0.0596+0.4043i |
210 | 0.0642+0.4471i |
211 | 0.0642+0.4043i |
212 | 0.0596+0.2868i |
213 | 0.0596+0.3091i |
214 | 0.0642+0.2868i |
215 | 0.0642+0.3091i |
216 | 0.1766+0.4471i |
217 | 0.1766+0.4043i |
218 | 0.1669+0.4471i |
219 | 0.1669+0.4043i |
220 | 0.1766+0.2868i |
221 | 0.1766+0.3091i |
222 | 0.1669+0.2868i |
223 | 0.1669+0.3091i |
224 | 0.4471+0.0596i |
225 | 0.4471+0.0642i |
226 | 0.4043+0.0596i |
227 | 0.4043+0.0642i |
228 | 0.4471+0.1766i |
229 | 0.4471+0.1669i |
230 | 0.4043+0.1766i |
231 | 0.4043+0.1669i |
232 | 0.2868+0.0596i |
233 | 0.2868+0.0642i |
234 | 0.3091+0.0596i |
235 | 0.3091+0.0642i |
236 | 0.2868+0.1766i |
237 | 0.2868+0.1669i |
238 | 0.3091+0.1766i |
239 | 0.3091+0.1669i |
240 | 0.4471+0.4471i |
241 | 0.4471+0.4043i |
242 | 0.4043+0.4471i |
243 | 0.4043+0.4043i |
244 | 0.4471+0.2868i |
245 | 0.4471+0.3091i |
246 | 0.4043+0.2868i |
247 | 0.4043+0.3091i |
248 | 0.2868+0.4471i |
249 | 0.2868+0.4043i |
250 | 0.3091+0.4471i |
251 | 0.3091+0.4043i |
252 | 0.2868+0.2868i |
253 | 0.2868+0.3091i |
254 | 0.3091+0.2868i |
255 | 0.3091+0.3091i |
256 | 1.4377-1.4377i |
257 | 1.4377-1.2232i |
258 | 1.2232-1.4377i |
259 | 1.2232-1.2232i |
260 | 1.4377-0.9302i |
261 | 1.4377-1.0579i |
262 | 1.2232-0.9302i |
263 | 1.2232-1.0579i |
264 | 0.9302-1.4377i |
265 | 0.9302-1.2232i |
266 | 1.0579-1.4377i |
267 | 1.0579-1.2232i |
268 | 0.9302-0.9302i |
269 | 0.9302-1.0579i |
270 | 1.0579-0.9302i |
271 | 1.0579-1.0579i |
272 | 1.4377-0.5505i |
273 | 1.4377-0.6150i |
274 | 1.2232-0.5505i |
275 | 1.2232-0.6150i |
276 | 1.4377-0.8066i |
277 | 1.4377-0.7158i |
278 | 1.2232-0.8066i |
279 | 1.2232-0.7158i |
280 | 0.9302-0.5505i |
281 | 0.9302-0.6150i |
282 | 1.0579-0.5505i |
283 | 1.0579-0.6150i |
284 | 0.9302-0.8066i |
285 | 0.9302-0.7158i |
286 | 1.0579-0.8066i |
287 | 1.0579-0.7158i |
288 | 0.5505-1.4377i |
289 | 0.5505-1.2232i |
290 | 0.6150-1.4377i |
291 | 0.6150-1.2232i |
292 | 0.5505-0.9302i |
293 | 0.5505-1.0579i |
294 | 0.6150-0.9302i |
295 | 0.6150-1.0579i |
296 | 0.8066-1.4377i |
297 | 0.8066-1.2232i |
298 | 0.7158-1.4377i |
299 | 0.7158-1.2232i |
300 | 0.8066-0.9302i |
301 | 0.8066-1.0579i |
302 | 0.7158-0.9302i |
303 | 0.7158-1.0579i |
304 | 0.5505-0.5505i |
305 | 0.5505-0.6150i |
306 | 0.6150-0.5505i |
307 | 0.6150-0.6150i |
308 | 0.5505-0.8066i |
309 | 0.5505-0.7158i |
310 | 0.6150-0.8066i |
311 | 0.6150-0.7158i |
312 | 0.8066-0.5505i |
313 | 0.8066-0.6150i |
314 | 0.7158-0.5505i |
315 | 0.7158-0.6150i |
316 | 0.8066-0.8066i |
317 | 0.8066-0.7158i |
318 | 0.7158-0.8066i |
319 | 0.7158-0.7158i |
320 | 1.4377-0.0596i |
321 | 1.4377-0.0642i |
322 | 1.2232-0.0596i |
323 | 1.2232-0.0642i |
324 | 1.4377-0.1766i |
325 | 1.4377-0.1669i |
326 | 1.2232-0.1766i |
327 | 1.2232-0.1669i |
328 | 0.9302-0.0596i |
329 | 0.9302-0.0642i |
330 | 1.0579-0.0596i |
331 | 1.0579-0.0642i |
332 | 0.9302-0.1766i |
333 | 0.9302-0.1669i |
334 | 1.0579-0.1766i |
335 | 1.0579-0.1669i |
336 | 1.4377-0.4471i |
337 | 1.4377-0.4043i |
338 | 1.2232-0.4471i |
339 | 1.2232-0.4043i |
340 | 1.4377-0.2868i |
341 | 1.4377-0.3091i |
342 | 1.2232-0.2868i |
343 | 1.2232-0.3091i |
344 | 0.9302-0.4471i |
345 | 0.9302-0.4043i |
346 | 1.0579-0.4471i |
347 | 1.0579-0.4043i |
348 | 0.9302-0.2868i |
349 | 0.9302-0.3091i |
350 | 1.0579-0.2868i |
351 | 1.0579-0.3091i |
352 | 0.5505-0.0596i |
353 | 0.5505-0.0642i |
354 | 0.6150-0.0596i |
355 | 0.6150-0.0642i |
356 | 0.5505-0.1766i |
357 | 0.5505-0.1669i |
358 | 0.6150-0.1766i |
359 | 0.6150-0.1669i |
360 | 0.8066-0.0596i |
361 | 0.8066-0.0642i |
362 | 0.7158-0.0596i |
363 | 0.7158-0.0642i |
364 | 0.8066-0.1766i |
365 | 0.8066-0.1669i |
366 | 0.7158-0.1766i |
367 | 0.7158-0.1669i |
368 | 0.5505-0.4471i |
369 | 0.5505-0.4043i |
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371 | 0.6150-0.4043i |
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886 | -0.6150-0.2868i |
887 | -0.6150-0.3091i |
888 | -0.8066-0.4471i |
889 | -0.8066-0.4043i |
890 | -0.7158-0.4471i |
891 | -0.7158-0.4043i |
892 | -0.8066-0.2868i |
893 | -0.8066-0.3091i |
894 | -0.7158-0.2868i |
895 | -0.7158-0.3091i |
896 | -0.0596-1.4377i |
897 | -0.0596-1.2232i |
898 | -0.0642-1.4377i |
899 | -0.0642-1.2232i |
900 | -0.0596-0.9302i |
901 | -0.0596-1.0579i |
902 | -0.0642-0.9302i |
903 | -0.0642-1.0579i |
904 | -0.1766-1.4377i |
905 | -0.1766-1.2232i |
906 | -0.1669-1.4377i |
907 | -0.1669-1.2232i |
908 | -0.1766-0.9302i |
909 | -0.1766-1.0579i |
910 | -0.1669-0.9302i |
911 | -0.1669-1.0579i |
912 | -0.0596-0.5505i |
913 | -0.0596-0.6150i |
914 | -0.0642-0.5505i |
915 | -0.0642-0.6150i |
916 | -0.0596-0.8066i |
917 | -0.0596-0.7158i |
918 | -0.0642-0.8066i |
919 | -0.0642-0.7158i |
920 | -0.1766-0.5505i |
921 | -0.1766-0.6150i |
922 | -0.1669-0.5505i |
923 | -0.1669-0.6150i |
924 | -0.1766-0.8066i |
925 | -0.1766-0.7158i |
926 | -0.1669-0.8066i |
927 | -0.1669-0.7158i |
928 | -0.4471-1.4377i |
929 | -0.4471-1.2232i |
930 | -0.4043-1.4377i |
931 | -0.4043-1.2232i |
932 | -0.4471-0.9302i |
933 | -0.4471-1.0579i |
934 | -0.4043-0.9302i |
935 | -0.4043-1.0579i |
936 | -0.2868-1.4377i |
937 | -0.2868-1.2232i |
938 | -0.3091-1.4377i |
939 | -0.3091-1.2232i |
940 | -0.2868-0.9302i |
941 | -0.2868-1.0579i |
942 | -0.3091-0.9302i |
943 | -0.3091-1.0579i |
944 | -0.4471-0.5505i |
945 | -0.4471-0.6150i |
946 | -0.4043-0.5505i |
947 | -0.4043-0.6150i |
948 | -0.4471-0.8066i |
949 | -0.4471-0.7158i |
950 | -0.4043-0.8066i |
951 | -0.4043-0.7158i |
952 | -0.2868-0.5505i |
953 | -0.2868-0.6150i |
954 | -0.3091-0.5505i |
955 | -0.3091-0.6150i |
956 | -0.2868-0.8066i |
957 | -0.2868-0.7158i |
958 | -0.3091-0.8066i |
959 | -0.3091-0.7158i |
960 | -0.0596-0.0596i |
961 | -0.0596-0.0642i |
962 | -0.0642-0.0596i |
963 | -0.0642-0.0642i |
964 | -0.0596-0.1766i |
965 | -0.0596-0.1669i |
966 | -0.0642-0.1766i |
967 | -0.0642-0.1669i |
968 | -0.1766-0.0596i |
969 | -0.1766-0.0642i |
970 | -0.1669-0.0596i |
971 | -0.1669-0.0642i |
972 | -0.1766-0.1766i |
973 | -0.1766-0.1669i |
974 | -0.1669-0.1766i |
975 | -0.1669-0.1669i |
976 | -0.0596-0.4471i |
977 | -0.0596-0.4043i |
978 | -0.0642-0.4471i |
979 | -0.0642-0.4043i |
980 | -0.0596-0.2868i |
981 | -0.0596-0.3091i |
982 | -0.0642-0.2868i |
983 | -0.0642-0.3091i |
984 | -0.1766-0.4471i |
985 | -0.1766-0.4043i |
986 | -0.1669-0.4471i |
987 | -0.1669-0.4043i |
988 | -0.1766-0.2868i |
989 | -0.1766-0.3091i |
990 | -0.1669-0.2868i |
991 | -0.1669-0.3091i |
992 | -0.4471-0.0596i |
993 | -0.4471-0.0642i |
994 | -0.4043-0.0596i |
995 | -0.4043-0.0642i |
996 | -0.4471-0.1766i |
997 | -0.4471-0.1669i |
998 | -0.4043-0.1766i |
999 | -0.4043-0.1669i |
1000 | -0.2868-0.0596i |
1001 | -0.2868-0.0642i |
1002 | -0.3091-0.0596i |
1003 | -0.3091-0.0642i |
1004 | -0.2868-0.1766i |
1005 | -0.2868-0.1669i |
1006 | -0.3091-0.1766i |
1007 | -0.3091-0.1669i |
1008 | -0.4471-0.4471i |
1009 | -0.4471-0.4043i |
1010 | -0.4043-0.4471i |
1011 | -0.4043-0.4043i |
1012 | -0.4471-0.2868i |
1013 | -0.4471-0.3091i |
1014 | -0.4043-0.2868i |
1015 | -0.4043-0.3091i |
1016 | -0.2868-0.4471i |
1017 | -0.2868-0.4043i |
1018 | -0.3091-0.4471i |
1019 | -0.3091-0.4043i |
1020 | -0.2868-0.2868i |
1021 | -0.2868-0.3091i |
1022 | -0.3091-0.2868i |
1023 | -0.3091-0.3091i |
In described step S14, such as, be the LDPC code word (the LDPC code word after second time Bit Interleave) of 64800 bits for code length, column major order write memory space and by row order read in this memory space, wherein every row 6480 bit, totally 10 row.
Afterwards to the bitstream data (b after above-mentioned Bit Interleave
0, b
1..., b
n-1), according to 1024NUC planisphere, the decimal number corresponding to every eight binary bit sequence is mapped to some constellation point, obtains symbol stream (the corresponding constellation point of each complex symbol).Such as, ten corresponding decimal numbers of bit ' 0000001100 ' are 12, then correspond to the constellation point of 0.9218+0.9218i in table, this constellation point being shown as on real number axis and axis of imaginaries, real number axis 0.9218, axis of imaginaries 0.9218.Then at modulation module, OFDM operation is carried out to symbol stream, add carrier wave and launch.
In the present embodiment, described LDPC code word be to message sink coding after bit stream obtain after specific LDPC coding, wherein said specific LDPC coding can adopt prior art to realize.
Particularly, the code word of specific LDPC is generally 360 with L × L(L) be sub-block size, code table is as follows:
Table 1 code check 9/15N
ldpc=64800q × q=360 × 360, Q=72
Its coding method is as follows:
By the bit stream after message sink coding, be split as block of information one by one, each block of information is made up of K information bit, is expressed as S=(s
0, s
1...., s
k-1).By the specific LDPC coding in Fig. 1, be will according to S=(s
0, s
1...., s
k-1) generate M check bit P=(p
0, p
1...., p
m-1).Namely the code word Λ=(λ of N number of bit is obtained
0, λ
1...., λ
n-1), wherein N=K+M.Λ can be expressed as again, Λ=(s
0, s
1...., s
k-1, p
0, p
1...., p
m-1).
The step of coding is:
1) initialization λ
i=s
i, i=0,1 ...., K-1.p
j=0,j=0,1,....,M-1
2) to information bit λ
0, to the verification ratio being address with the first row numeral in code table
Spy adds up, and lift table 1 code check 9/15, the code table of code length 64800 is example:
3)
4) for an ensuing L-1 information bit, (usual L=360),
1L-, adds up with the check bit according to following y being address respectively by each information bit:
y={x+(mmod360)×Q}modM
Wherein, x refers to and λ
0relevant check digit address, act table 1 is example, the numeral of the first row in x and code table:
11315573316568062411040713404139471404014353155221569816079173631937419543205302283324339。
And wherein
m is the quantity of check bit, and be also the quantity that check matrix is capable, L is the size of sub-block in check matrix, is generally 360.
Code word for table 1 is example,
5) for L information bit λ
l, according to the second line number word address in code table, check bit is added up.Same for L information bit λ
lan ensuing L-1 information bit, continues to add up to check bit according to the formula in step 3), at this time the numeral of the second row in the x of the formula of step 3 kind and code table.
6) in like manner, for 2L, 3L, 4L ... iL ... individual information bit, according to difference the 3rd in code table, 4, 5, (i+1) L .... add up to check bit in the address of row, L-1 information bit after its information bit then adds up to check bit according to the formula in step 3) respectively, note the x of the formula of at this time step 3 kind corresponding be row in code table corresponding to a current i-th L information bit, L-1 bit after such as the i-th L information bit, its applying step 3) in formula time corresponding x address be (i+1) in code table OK.
7), after finishing step 5), be done as follows:
wherein i=1,2 ..., M1-1
The embodiment of the present invention additionally provides a kind of deinterleaving de-mapping method of LDPC code word.As shown in Figure 2 be the schematic flow sheet of the embodiment of the deinterleaving de-mapping method of a kind of LDPC code word of the present invention.With reference to figure 2, the deinterleaving de-mapping method of LDPC code word comprises the steps:
Step S21: soft demapping process is carried out to obtain bit soft value data according to corresponding planisphere to symbol stream soft value data; Wherein said symbol stream soft value data obtain after symbol that interlace map method that receiving terminal receives above-mentioned LDPC code word obtains flows through fast Fourier transform;
Step S22: described bit soft value data are divided and is sequentially written in memory space by row and column major order reads to obtain first time than the bit soft value data after deinterleave in this memory space;
Step S23: described first time is divided into the multiple bit soft value data sub-block of continuous print than the bit soft value data after deinterleave by predetermined length, and according to bit soft value data sub-block described in corresponding bit exchange pattern change put in order form second time than the bit soft value data after deinterleave;
Step S24: described second time is carried out third time than deinterleave to obtain third time than the bit soft value data after deinterleave than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave;
Step S25: described second time is spliced into bit soft value data flow with described third time than the bit soft value data after deinterleave than in the bit soft value data after deinterleave;
Step S26: LDPC decoding process is carried out to obtain decoded bitstream data to described bit soft value data flow.
In the present embodiment, described step S24 specifically comprises: described second time is sequentially written in memory space by row than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave and column major order reads to obtain third time than the bit soft value data after deinterleave in this memory space.
Although the present invention with preferred embodiment openly as above; but it is not for limiting the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; the Method and Technology content of above-mentioned announcement can be utilized to make possible variation and amendment to technical solution of the present invention; therefore; every content not departing from technical solution of the present invention; the any simple modification done above embodiment according to technical spirit of the present invention, equivalent variations and modification, all belong to the protection range of technical solution of the present invention.
Claims (12)
1. an interlace map method for LDPC code word, is characterized in that, comprise the steps:
Check part in described LDPC code word is carried out first time Bit Interleave to obtain check bit stream;
Information bit part in described LDPC code word and described check bit stream are spliced into the LDPC code word after first time Bit Interleave;
LDPC code word after described first time Bit Interleave is divided into the multiple sub-blocks of bits of continuous print by predetermined length, and puts in order the LDPC code word after forming second time Bit Interleave according to sub-blocks of bits described in corresponding bit exchange pattern change;
LDPC code word column major order write memory space after described second time Bit Interleave is also sequentially read the LDPC code word after obtaining third time Bit Interleave by row in this memory space;
Constellation mapping is carried out to obtain symbol stream according to corresponding planisphere to the LDPC code word after described third time Bit Interleave; Wherein, described bit exchange pattern and described planisphere are all corresponding from the LDPC code table of different code check.
2. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, the check part in described LDPC code word is carried out first time Bit Interleave and comprises to obtain check bit stream:
Check part column major order write memory space in described LDPC code word also is sequentially read to obtain check bit stream by row in this memory space.
3. the interlace map method of LDPC code word as claimed in claim 1, it is characterized in that, described predetermined length is 360 bits.
4. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 8/15; Code table is:
Corresponding bit exchange pattern is:
411376759949516716412532491405215686327753492141
431751183399544161051706621501369010457178108145110
53931133039692640135160117201278314712321095848127
1211810077129551259835111179741734270101118107453747
64132124621341151080761481241308417616310312012687151139
511461291381579115451692217161651667911673177461617277
2816210215611913361603115286114130361591221311531285644
381552397143112168658314215891069617485891917214815082
1498817144
Corresponding planisphere is:
5. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 9/15; Code table is:
Corresponding bit exchange pattern is:
1779132601081712385164801409561261121387615793304815
14815387114774018791431722916188421141056510713912754
43671662794831581011669881212434241121144507111549
152615273122383798926561595953681711561308981147104
78961351369923666313171692234212914417033146119
10316117821336251111102281791509210616013711901132014519
721731091688617836314516274751671001321541763912064125151
11041633512815514147551185714924970134174701352546142
10158165175
Corresponding planisphere is:
6. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 10/15; Code table is:
Corresponding bit pattern is:
2229104855010210176591416714432146128368114716998677
1621716611733121737336390471711301401815111516858175131
2430887015523481410149684210713354261371181542035
1561212866149110755191278016311110864169106172876976170
7746513556123103828314391463816417811255611312931
13514297159151524891007810511292624016111911412212019
39167727115379134139150455360215715717414561155962743
158488411610917714823179012616016544379841949313695125
1321242138
Corresponding planisphere is:
7. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 6/15; Code table is:
Corresponding bit exchange pattern is:
1314866761765136103151255461171381489725321391784172
28881344414126211716250631746513731671161709118122130
106901071531041561688595413414138311693684781151401206
1523752764127603096145100626751994371124160115875
1231262980231101294770591089137144164187135165125593
2027374799498248369118150191467756112928211335121
11442161011794586155133681051085317310214712849143142228
10916614915803981911917214017715115917533157577246132
154111163161
Corresponding planisphere is:
8. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 12/15;
Table is:
Corresponding bit exchange pattern is:
418873142128157130654878203311641541356147941049240
1095427284147524101291143942601161031111261101431546
124145147281081151014480173174178124381663585164120016
133221391271551238355191121323762125493812215814425162
793134216717591137100138323615995131721467756386166
168191637069508923591497615211507521699813610790179
15653141119742616016112149971296361511675814016517293
131484517111710610530971761779617170134153855871868102
8211811357
Corresponding planisphere is:
9. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 6/15; Code table is:
Corresponding bit exchange pattern is:
2713992159150529913219941292010336248782806784116
102517268348146147836611271015031111165164162108143127
1555546213417491903101061235710728471281494664170113
7713311811013914042172431363058716312611941601532213749
1241488656811446791227041744014100391581248953261
78156179154155130117157261761141384416896112025591052337
1733381712885369151601098945173181751661041421781610
11565167125857697141177152211451613529931633512175985
7311169131
Corresponding planisphere is:
10. the interlace map method of LDPC code word as claimed in claim 1, is characterized in that, in described LDPC code table, the code length of LDPC code word is 64800 bits, code check is 6/15; Code table is:
Corresponding bit exchange pattern is:
94341205122669239119170581672595307811299215106153
1218159139466974548861211148113379146271714080110
4379410402137131536908616831116708915410514433152
16362161311266313313577531601581914338124601554911169142
102412911832552610841761652967177127136859317910713891
7516617465103176175173100644782128157151164162717110187141
17828961614245203351721501307112314981109595213213461
727340122489711028414798117238344148115156145650145
1255711168
Corresponding planisphere is:
The deinterleaving de-mapping method of 11. 1 kinds of LDPC code words, is characterized in that, comprise the steps:
Soft demapping process is carried out to obtain bit soft value data according to corresponding planisphere to symbol stream soft value data; Wherein said symbol stream soft value data obtain after symbol that interlace map method that receiving terminal receives LDPC code word as claimed in claim 1 obtains flows through fast Fourier transform;
Described bit soft value data are sequentially written in memory space by row and column major order reads to obtain first time than the bit soft value data after deinterleave in this memory space;
Described first time is divided into the multiple bit soft value data sub-block of continuous print than the bit soft value data after deinterleave by predetermined length, and according to bit soft value data sub-block described in corresponding bit exchange pattern change put in order form second time than the bit soft value data after deinterleave;
Described second time is carried out third time than deinterleave to obtain third time than the bit soft value data after deinterleave than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave;
Described second time is spliced into bit soft value data flow with described third time than the bit soft value data after deinterleave than in the bit soft value data after deinterleave;
LDPC decoding process is carried out to obtain decoded bitstream data to described bit soft value data flow.
The deinterleaving de-mapping method of 12. LDPC code words as claimed in claim 11, it is characterized in that, describedly described second time is carried out third time than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave comprise than the bit soft value data after deinterleave to obtain third time than deinterleave:
Described second time is sequentially written in memory space by row than the bit soft value data of the check part corresponded in LDPC code word in the bit soft value data after deinterleave and column major order reads to obtain third time than the bit soft value data after deinterleave in this memory space.
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CN104935398A (en) * | 2014-03-20 | 2015-09-23 | 上海数字电视国家工程研究中心有限公司 | Interleaving mapping method of LDPC codeword and de-interleave de-mapping method |
CN105450352A (en) * | 2014-08-29 | 2016-03-30 | 上海数字电视国家工程研究中心有限公司 | LDPC codeword interleaving and mapping method and de-interleaving and de-mapping method |
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