问题已开启
(普通问题)
TDLTE中,”逻辑根序列的起始索引号“的配置是如何影响切换的?
我这边最近有一个情况,一批站点切换成功率随着RRC链接请求数量的增加严重恶化(这一批站点在同一区域),后来重新规划逻辑根序列的起始索引号后,切换指标恢复正常。
逻辑根序列的起始索引号的配置是如何影响切换的呢?这里面涉及的技术原理有哪些呢?求详细解读!我自己找了一些资料,但没整理清楚这两者的直接联系,望指导!谢谢了!
逻辑根序列的起始索引号的配置是如何影响切换的呢?这里面涉及的技术原理有哪些呢?求详细解读!我自己找了一些资料,但没整理清楚这两者的直接联系,望指导!谢谢了!
原来这一批站点
逻辑根序列的起始索引号 都是相等的,后来重新规划成不一样的了,问题就解决了
提问者: 游作良 提问时间: 2014-08-17
• LTE上下行峰值速率理论能达到多少?5G上下行峰值速率理论能达到多少? 2020-11-28
• VoLTE网络优化工作 VOLTE启呼转CSFB 有哪些原因 2020-11-25
• VOLTE掉话机制是什么? 2020-11-04
• LTE attach何时会携带imsi 2020-10-30
• 终端无法稳定驻留LTE 2020-10-28
• LTE 如何控制UE动态选择信号比较好的频点来进行测量 2020-10-26
• 为什么VOLTE end之后,QCI=1的承载也正常释放了,但是不触发LTE2NR fast return 2020-10-22
• LTE UE在连接状态没有上报测量报告 2020-10-13
• VoLTE网络优化工作 VOLTE启呼转CSFB 有哪些原因 2020-11-25
• VOLTE掉话机制是什么? 2020-11-04
• LTE attach何时会携带imsi 2020-10-30
• 终端无法稳定驻留LTE 2020-10-28
• LTE 如何控制UE动态选择信号比较好的频点来进行测量 2020-10-26
• 为什么VOLTE end之后,QCI=1的承载也正常释放了,但是不触发LTE2NR fast return 2020-10-22
• LTE UE在连接状态没有上报测量报告 2020-10-13
问题答案
( 2 )
切换也是一种rach接入,rach过程中prach资源的分配是最为主要的过程,rootsequenceindex是通过循环移位从而生成zc接入序列的输入参数,邻居的root sequence相同的话就增加了rach失败的几率。
Table 5.7.2-4: Root Zadoff-Chu sequence order for preamble formats 0 – 3.
Logical root sequence number Physical root sequence number
(in increasing order of the corresponding logical sequence number)
0–23 129, 710, 140, 699, 120, 719, 210, 629, 168, 671, 84, 755, 105, 734, 93, 746, 70, 769, 60, 779
2, 837, 1, 838
24–29 56, 783, 112, 727, 148, 691
30–35 80, 759, 42, 797, 40, 799
36–41 35, 804, 73, 766, 146, 693
42–51 31, 808, 28, 811, 30, 809, 27, 812, 29, 810
52–63 24, 815, 48, 791, 68, 771, 74, 765, 178, 661, 136, 703
64–75 86, 753, 78, 761, 43, 796, 39, 800, 20, 819, 21, 818
76–89 95, 744, 202, 637, 190, 649, 181, 658, 137, 702, 125, 714, 151, 688
90–115 217, 622, 128, 711, 142, 697, 122, 717, 203, 636, 118, 721, 110, 729, 89, 750, 103, 736, 61, 778, 55, 784, 15, 824, 14, 825
116–135 12, 827, 23, 816, 34, 805, 37, 802, 46, 793, 207, 632, 179, 660, 145, 694, 130, 709, 223, 616
136–167 228, 611, 227, 612, 132, 707, 133, 706, 143, 696, 135, 704, 161, 678, 201, 638, 173, 666, 106, 733, 83, 756, 91, 748, 66, 773, 53, 786, 10, 829, 9, 830
168–203 7, 832, 8, 831, 16, 823, 47, 792, 64, 775, 57, 782, 104, 735, 101, 738, 108, 731, 208, 631, 184, 655, 197, 642, 191, 648, 121, 718, 141, 698, 149, 690, 216, 623, 218, 621
204–263 152, 687, 144, 695, 134, 705, 138, 701, 199, 640, 162, 677, 176, 663, 119, 720, 158, 681, 164, 675, 174, 665, 171, 668, 170, 669, 87, 752, 169, 670, 88, 751, 107, 732, 81, 758, 82, 757, 100, 739, 98, 741, 71, 768, 59, 780, 65, 774, 50, 789, 49, 790, 26, 813, 17, 822, 13, 826, 6, 833
264–327 5, 834, 33, 806, 51, 788, 75, 764, 99, 740, 96, 743, 97, 742, 166, 673, 172, 667, 175, 664, 187, 652, 163, 676, 185, 654, 200, 639, 114, 725, 189, 650, 115, 724, 194, 645, 195, 644, 192, 647, 182, 657, 157, 682, 156, 683, 211, 628, 154, 685, 123, 716, 139, 700, 212, 627, 153, 686, 213, 626, 215, 624, 150, 689
328–383 225, 614, 224, 615, 221, 618, 220, 619, 127, 712, 147, 692, 124, 715, 193, 646, 205, 634, 206, 633, 116, 723, 160, 679, 186, 653, 167, 672, 79, 760, 85, 754, 77, 762, 92, 747, 58, 781, 62, 777, 69, 770, 54, 785, 36, 803, 32, 807, 25, 814, 18, 821, 11, 828, 4, 835
384–455 3, 836, 19, 820, 22, 817, 41, 798, 38, 801, 44, 795, 52, 787, 45, 794, 63, 776, 67, 772, 72
767, 76, 763, 94, 745, 102, 737, 90, 749, 109, 730, 165, 674, 111, 728, 209, 630, 204, 635, 117, 722, 188, 651, 159, 680, 198, 641, 113, 726, 183, 656, 180, 659, 177, 662, 196, 643, 155, 684, 214, 625, 126, 713, 131, 708, 219, 620, 222, 617, 226, 613
456–513 230, 609, 232, 607, 262, 577, 252, 587, 418, 421, 416, 423, 413, 426, 411, 428, 376, 463, 395, 444, 283, 556, 285, 554, 379, 460, 390, 449, 363, 476, 384, 455, 388, 451, 386, 453, 361, 478, 387, 452, 360, 479, 310, 529, 354, 485, 328, 511, 315, 524, 337, 502, 349, 490, 335, 504, 324, 515
514–561 323, 516, 320, 519, 334, 505, 359, 480, 295, 544, 385, 454, 292, 547, 291, 548, 381, 458, 399, 440, 380, 459, 397, 442, 369, 470, 377, 462, 410, 429, 407, 432, 281, 558, 414, 425, 247, 592, 277, 562, 271, 568, 272, 567, 264, 575, 259, 580
562–629 237, 602, 239, 600, 244, 595, 243, 596, 275, 564, 278, 561, 250, 589, 246, 593, 417, 422, 248, 591, 394, 445, 393, 446, 370, 469, 365, 474, 300, 539, 299, 540, 364, 475, 362, 477, 298, 541, 312, 527, 313, 526, 314, 525, 353, 486, 352, 487, 343, 496, 327, 512, 350, 489, 326, 513, 319, 520, 332, 507, 333, 506, 348, 491, 347, 492, 322, 517
630–659 330, 509, 338, 501, 341, 498, 340, 499, 342, 497, 301, 538, 366, 473, 401, 438, 371, 468, 408, 431, 375, 464, 249, 590, 269, 570, 238, 601, 234, 605
660–707 257, 582, 273, 566, 255, 584, 254, 585, 245, 594, 251, 588, 412, 427, 372, 467, 282, 557, 403, 436, 396, 443, 392, 447, 391, 448, 382, 457, 389, 450, 294, 545, 297, 542, 311, 528, 344, 495, 345, 494, 318, 521, 331, 508, 325, 514, 321, 518
708–729 346, 493, 339, 500, 351, 488, 306, 533, 289, 550, 400, 439, 378, 461, 374, 465, 415, 424, 270, 569, 241, 598
730–751 231, 608, 260, 579, 268, 571, 276, 563, 409, 430, 398, 441, 290, 549, 304, 535, 308, 531, 358, 481, 316, 523
752–765 293, 546, 288, 551, 284, 555, 368, 471, 253, 586, 256, 583, 263, 576
766–777 242, 597, 274, 565, 402, 437, 383, 456, 357, 482, 329, 510
778–789 317, 522, 307, 532, 286, 553, 287, 552, 266, 573, 261, 578
790–795 236, 603, 303, 536, 356, 483
796–803 355, 484, 405, 434, 404, 435, 406, 433
804–809 235, 604, 267, 572, 302, 537
810–815 309, 530, 265, 574, 233, 606
816–819 367, 472, 296, 543
820–837 336, 503, 305, 534, 373, 466, 280, 559, 279, 560, 419, 420, 240, 599, 258, 581, 229, 610
回答者:
ebrain68
回答时间:2014-08-17 17:00
8 9
楼上 好完美的解答。
协议里 有对应的表格,自己查一下就行
协议里 有对应的表格,自己查一下就行
回答者:
hillyspring
回答时间:2014-08-17 19:37
25 27
一楼贴的东西我的理解都是关于根序列规划之类的吧,协议我看到这个表了,我想知道的应该是根序列与切换之间的关系,或者说影响切换成功的问题。我自己现在的理解应该是涉及到基于切换后接入新小区的问题导致失败,但还是没有理清楚这其中原理性的东西,希望有人能详细解释下!先表示感谢!
游作良 2014-08-17 22:32
我晕啊 一楼去哪儿了啊怎么看不到啊
leonnjf 2014-10-10 17:17
联系我们 - 问通信专家 | Powered by MSCBSC 移动通信网 © 2006 - |