CN1189279A - 在蜂窝网络中用于软件通信的与配置无关的方法及设备 - Google Patents
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/12—Access point controller devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/14—Backbone network devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/04—Interfaces between hierarchically different network devices
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Abstract
Description
#ifndef_SS7_IF_H #deFIne_SS7_IF_H /* *Copyright(c)1994,1995 * interWAVE Communications Inc,Redwood City,CA USA.All rights reserved. * * @(#)$Header:/cvs/iw/include/ss7_if.h,v 1.5 1995/09/14 21:01:03 phc Exp $ * *DESCRIPTION:Structure definitions that define the messages that go * between NMI & trillium stack. */ extern int ss7_msc_mbx; #define SS7_SENDMSG(msg)(ss7_msc_mbx==MBX_SS7_IF)?\ E1MsgSend(ss7_slot,MBX_SS7_IF,\ MEDIUM_PRIORITY,(tIwMsgHdr*)msg):\ IwMsgSend(ss7_msc_mbx,MEDIUM_PRIORITY,\ (tIwMsgHdr*)msg) #define SS7_NULL_SPID (Oxffff) #define SS7_NULL_SUID (Oxffff) #define SS7_NULL_SSN (Oxffff) #define SS7_NULL_PC (Oxffffffff) #define SS7_SP_CFG_REQ(1) #define SS7_SN_CFG_REQ(2) #define SS7_SD_CFG_REQ(3) #define SS7_QI_CFG_REQ(4) #define SS7_PWR_UP (6) /*Following messages go from SS7 stack to the IWP*/ #define SS7_SP_UDAT_IND (7) #define SS7_SP_UI_STA_IND (8) #define_SS7_SP_CORD_IND (9) <dp n="d25"/> #define SS7_SP_CORD_CFM (10) #define SS7_SP_STE_IND (11) #define SS7_SP_PC_STE_IND(12) #define SS7_SP_CON_IND(13) #define SS7_SP_CON_CFM(14) #define SS7_SP_DAT_IND(15) #define SS7_SP_EDAT_IND (16) #define SS7_SP_DAT_ACK_IND(17) #define SS7_SP_RST_IND (18) #define SS7_SP_RST_CFM (19) #define SS7_SP_DIS_IND (20) #define SS7_SP_INF IND (21) /*Following message go from IWP to the SS7 stack*/ #define SS7_SP_BND_REQ(22) #define SS7_SP_UBND_REQ (23) #define SS7_SP_UDAT_REQ (24) #define SS7_SP_CORD_REQ (25) #define SS7_SP_CORD_RSP (26) #define SS7_SP_STE_REQ(27) #define SS7_SP_CON_REQ(28) #define SS7_SP_CON_RSP(29) #define SS7_SP_DAT_REQ(30) #define SS7_SP_DAT_ACK_REQ(31) #define SS7_SP_EDAT_REQ (32) #define SS7_SP_RST_REQ(33) #define SS7_SP_RST_RSP(34) #define SS7_SP_DIS_REQ(35) #define SS7_SP_INF_REQ(36) #define SS7_SP_STA_REQ(37) #define SS7_SP_STA_IND(38) #define SS7_SP_STA_CFM(39) #define SS7_SP_STS_REQ(40) #define SS7_SP_STS_CFM(41) #define SS7_SN_STA_REQ(41) #define SS7_SN_STA_IND(42) #define SS7_SN_STA_CFM(43) <dp n="d26"/> #define SS7_SN_STS_REQ(44) #define SS7_SN_STS_CFM(45) #define SS7_SD_STA_REQ(45) #define SS7_SD_STA_IND(46) #define SS7_SD_STA_CFM(47) #define SS7_SD_STS_REQ(48) #define SS7_SD_STS_CFM(49) #define SS7_QI_STA_REQ(50) #define SS7_QI_STA_IND(51) #define SS7_QI_STA_CFM(52) #define SS7_QI_STS_REQ(53) #define SS7_QI_STS_CFM(54) #define CP_TRIL_CONID(ss7_con,tril_con)\ {(ss7_con)->suId=(tril_con)->suId;\ (ss7_con)->spId=(tril_con)->spId;\ (ss7_con)->suInstId=(tril_con)->suInstId;\ (ss7_con)->spInstId=(tril_con)->spInstId;} #define CP_SS7_CONID(tril_con,ss7_con)\ {(trol_con)->suId=(ss7_con)->suId;\ (tril_con)->spId=(ss7_con)->spId;\ (tril_con)->suInstId=(ss7_con)->suInstId;\ (tril_con)->spInstId=(ss7_con)->spInstId;} #define CP_SS7_ADDR(tril_adr,ss7_addr)\ {(tril_adr)->ssn=(ss7_addr)->ssn;\ (tril_adr)->pc=(ss7_addr)->pc;\ (tril_adr)->pres=(ss7_addr)->valid;\ (tril_adr)->sw=SW_CCITT;\ (tril_adr)->niInd=INAT_IND;\ (tril_adr)->rtgInd=RTE_SSN;\ (tril_adr)->ssnInd=(ss7_addr)->valid;\ (tril_adr)->pcInd=(ss7_addr)->valid;\ (tril_adr)->gt.format=GTFRMT_0;} #define CP_TRIL_ADDR(ss7_adr,tril_addr)\ <dp n="d27"/> #define SIZE_SS7_SN_STS_CFM(sizeof(tss7_sn_sts_cfm)) #endif #ifdef SD typedef struct{ tIwMsgHdr Hdr; SdMngmt mgmt; }tss7_sd_cfg; #define SIZE_SS7_SD_CFG(sizeof(tss7_sd_cfg)) typedef struct{ tIwMsgHdr Hdr; SdMngmt sta; }tss7_sd_sta_req; #define SIZE_SS7_SD_STA_REQ(sizeof(tss7_sd_sta_req)) typedef struct{ tIwMsgHdr Hdr; SdMngmt sta; }tss7_sd_sta_ind; #define SIZE_SS7_SD_STA_IND(sizeof(tss7_sd_sta_ind)) typedef struct{ tIwMsgHdr Hdr; SdMngmt sta; }tss7_sd_sta_cfm; #define SIZE_SS7_SD_STA_CFM(sizeof(tss7_sd_sta_cfm)) typedef struct{ tIwMsgHdr Hdr; SdMngmt sts; }tss7_sd_sts_req; #define SIZE_SS7_SD_STS_REQ(sizeof(tss7_sd_sts_req)) typedef struct{ tIwMsgHdr Hdr; SdMngmt sts; }tss7_sd_sts_cfm; #define SIZE_SS7_SD_STS_CFM(sizeof(tss7_sd_sts_cfm)) <dp n="d28"/> #endif #ifdef QI typedef struct{ tIwMsgHdr Hdr; QiMngmt mgmt; }tss7_qi_cfg; #define SIZE_SS7_QI_CFG(sizeof(tss7_qi_cfg)) typedef struct{ tIwMsgHdr Hdr; QiMngmt sta; }tss7_qi_sta_req; #define SIZE_SS7_QI_STA_REQ(sizeof(tss7_qi_sta_req)) typedef struct{ tIwMsgHdr Hdr; QiMngmt sta; }tss7_qi_sta_ind; #define SIZE_SS7_QI_STA_IND(sizeof(tss7_qi_sta_ind)) typedef struct{ tIwMsgHdr Hdr; QiMngmt sta; }tss7_qi_sta_cfm; #define SIZE_SS7_QI_STA_CFM(sizeof(tss7_qi_sta_cfm)) typedef struct{ tIwMsgHdr Hdr; QiMngmt sts; }tss7_qi_sts_req; #define SIZE_SS7_QI_STS_REQ(sizeof(tss7_qi_sts_req)) typedef struct{ tIwMsgHdr Hdr; QiMngmt sts; }tss7_qi_sts_cfm; #define SIZE_SS7_QI_STS_CFM(sizeof(tss7_qi_sts_cfm)) #endif <dp n="d29"/> {(ss7_adr)->valid=(tril_addr)->pres & (tril_addr)->ssnInd & \ (tril_addr)->pcInd;\ (ss7_adr)->ssn=(tril_addr)->ssn;\ (ss7_adr)->pc=(tril_addr)->pc;} #ifdef SP typedef struct{ tIwMsgHdr Hdr; SpMngmt mgmt; }tss7_sp_cfg; #define SIZE_SS7_SP_CFG(sizeof(tss7_sp_cfg)) typedef struct{ tIwMsgHdr Hdr; SpMngmt sta; }tss7_sp_sta_req; #define SIZE_SS7_SP_STA_REQ(sizeof(tss7_sp_sta_req)) typedef struct{ tIwMsgHdr Hdr; SpMngmt sta; }tss7_sp_sta_ind; #define SIZF_SS7_SP_STA_IND(sizeof(tss7_sp_sta_ind)) typedef struct{ tIwMsgHdr Hdr; SpMngmt sta; }tss7_sp_sta_cfm; #define SIZE_SS7_SP_STA_CFM(sizeof(tss7_sp_sta_cfm)) typedef struct{ tIwMsgHdr Hdr; SpMngmt sts; }tss7_sp_sts_req; #define SIZE_SS7_SP_STS_REQ(sizeof(tss7_sp_sts_req)) typedef struct{ tIwMsgHdr Hdr; SpMngmt sts; <dp n="d30"/> }tss7_sp_sts_cfm; #define SIZE_SS7_SP_STS_CFM(sizeof(tss7_sp_sts_cfm)) #endif #ifdef SN typedef struct{ tIwMsgHdr Hdr; SnMngmt mgmt; }tss7_sn_cfg; #define SIZE_SS7_SN_CFG(sizeof(tss7_sn_cfg)) typedef struct{ tIwMsgHdr Hdr; SnMngmt sta; }tss7_sn_sta_req; #define SIZE_SS7_SN_STA_REQ(sizeof(tss7_sn_sta_req)) typedef struct{ tIwMsgHdr Hdr; SnMngmt sta; }tss7_sn_sta_ind; #define SIZE_SS7_SN_STA_IND(sizeof(tss7_sn_sta_ind)) typedef struct{ tIwMsgHdr Hdr; SnMngmt sta; }tss7_sn_sta_cfm; #define SIZE_SS7_SN_STA_CFM(sizeof(tss7_sn_sta_cfm)) typedef struet{ tIwMsgHdr Hdr; SnMngmt sts; }tss7_sn_sts_req; #define SIZE_SS7_SN_STS_REQ(sizeof(tss7_sn_sts_req)) typedef struct{ tIwMsgHdr Hdr; SnMngmt sts; }tss7_sn_sts_cfm; <dp n="d31"/> typedef struct{ tIwMsgHdr Hdr; u16 suId; u16 spId; u16 ssn; u8 type; }tss7_sp_bnd_req; #define SIZE_ZSS7_SP_BND_REQ(sizeof(tss7_sp_bnd_req)) typedef struct{ tIwMsgHdr Hdr; u16 spId; u16 reason; }tss7_sp_ubnd_req; #define SIZE_SS7_SP_UBND_REQ(sizeof(tss7_sp_ubnd_req)) typedef struct{ tIwMsgHdr Hdr; u16 status; }tss7_pwr_up; #define SIZE_SS7_PWR_UP(sizeof(tss7_pwr_up)) typedef struct{ u16 valid; u16 ssn; u32 pc; }tss7_sp_addr; #define SIZE_SS7_SP_ADDR (sizeof(tss7_sp_addr)) typedef struct{ tIwMsgHdr Hdr; u16 SpId; tss7_sp_addr Cd; /*Called Address*/ tss7_sp_addr Cg; /*Calling Address*/ u16 Len;/*Length of Data Field*/ u8 Data[0]; }tss7_sp_udat_req; #define SIZE_SS7_SP_UDAT_REQ(len)(sizeof(tss7_sp_udat_req)+len) <dp n="d32"/> typedef struct{ tIwMsgHdr Hdr; u16 SuId; u32 OPc; /*Originating Point Code*/ tss7_sp_addr Cd; /*Called Address*/ tss7_sp_addr Cg; /*Calling Addrress*/ u16 Len; /*Length of Data Field*/ u8 Data[0]; }tss7_sp_udat_ind; #define SIZE_SS7_SP_UDAT_IND(len)(sizeof(tss7_sp_udat_ind)+len) typedef struct{ u16 suId; u16 spId; u32 suInstId; u32 spInstId; }tss7_sp_conid; #define SIZE_SS7_CONID(sizeof(tss7_conid)) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr Cd; /*Called Address*/ tss7_sp_addr Cg; /*Calling Addrress*/ u16 Len; u8 Data[0]; }tss7_sp_con_req; #define SIZE_SS7_SP_CON_REQ(len) (sizeof(tss7_sp_con_req)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr Cd; tss7_sp_addr Cg; u16 Len; u8 Data[0]; }tss7_sp_con_ind; #define SIZE_SS7_SP_CON_IND(len) (sizeof(tss7_sp_con_ind)+len) <dp n="d33"/> typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr RspAdr; u16 Len; u8 Data[0]; }tss7_sp_con_rsp; #define SIZE_SS7_SP_CON_RSP(len)(sizeof(tss7_sp_con_rsp)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr RspAdr; u16 Len; u8 Data[0]; }tss7_sp_con_cfm; #define SIZE_SS7_SP_CON_CFM(len)(sizeof(tss7_sp_con_cfm)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr RspAdr; u8 Reason; u8 Orig; u16 Len; u8 Data[0]; }tss7_sp_dis_req; #define SIZE_SS7_SP_DIS_REQ(len)(sizeof(tss7_sp_dis_req)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; tss7_sp_addr RspAdr; u8 Reason; u8 Orig; u16 Len; u8 Data[0]; }tss7_sp_dis_ind; <dp n="d34"/> #define SIZE_SS7_SP_DIS_IND(len)(sizeof(tss7_sp_dis_ind)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; u16 Len; u8 Data[0]; }tss7_sp_dat_req; #define SIZE_SS7_SP_DAT_REQ(len) (sizeof(tss7_sp_dat_req)+len) typedef struct{ tIwMsgHdr Hdr; tss7_sp_conid ConId; u16 Len; u8 Data[0]; }tss7_sp_dat_ind; #define SIZE_SS7_SP_DAT_IND(len) (sizeof(tss7_sp_dat_ind)+len) extern u32 ss7_slot;/*Slot of the E1 card that holds the ss7 stack*/ extern u16 bssap_spid; extern u16 bssap_suid; extern u16 bssap_ssn; extern u32 them_pc; extern u32 us_pc; extern int ss7_sp_bnd_req(u16 suId,u16 spId,u16 ssn,u8 type); extern int ss7_sp_ubnd_req(u16 spId,u8 reason); extern int ss7_sp_udat_req(u16 spId,tss7_sp_addr*cd,tss7_sp_addr*cg, u16 len,u8*data); extern int ss7_sp_con_req(tss7_sp_conid*conid,tss7_sp_addr*cd, tss7_sp_addr*cg,u16 len,u8*data); extern int ss7_sp_con_rsp(tss7_sp_conid*conid,tss7_sp_addr*rsp,u16 len, u8*data); extern int ss7_sp_dat_req(tss7_sp_conid*conid,u16 len,u8*data); extern int ss7_sp_dis_req(tss7_sp_conid*conid,tss7_sp_addr*rsp,u8 reason, u8 originator,u16 len,u8*data); #endif/*_SS7_IF_H*/
Claims (23)
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US08/435,709 | 1995-05-04 | ||
US08/435,709 US5734699A (en) | 1995-05-04 | 1995-05-04 | Cellular private branch exchanges |
US645595P | 1995-11-10 | 1995-11-10 | |
US60/006,455 | 1995-11-10 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1189279A true CN1189279A (zh) | 1998-07-29 |
CN1092904C CN1092904C (zh) | 2002-10-16 |
Family
ID=26675657
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 96195052 Expired - Fee Related CN1092904C (zh) | 1995-05-04 | 1996-05-03 | 在蜂窝网络中用于软件通信的与配置无关的方法及设备 |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0824832A1 (zh) |
CN (1) | CN1092904C (zh) |
AU (1) | AU717297B2 (zh) |
CA (1) | CA2219879A1 (zh) |
WO (1) | WO1996035298A1 (zh) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
USH1836H (en) * | 1997-09-26 | 2000-02-01 | Fletcher; Anthony G. | Integrated telecommunications system |
JP4233297B2 (ja) * | 2002-10-07 | 2009-03-04 | 株式会社エヌ・ティ・ティ・ドコモ | 通信システム、移動端末、転送装置及び通信方法 |
GB201001623D0 (en) * | 2010-02-01 | 2010-03-17 | Nec Corp | Mobile communication routing |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH06500912A (ja) * | 1991-06-28 | 1994-01-27 | テレフオンアクチーボラゲツト エル エム エリクソン | 電気通信交換機に於けるモジュール構造性アプリケーション |
KR970005439B1 (ko) * | 1991-12-06 | 1997-04-16 | 모토로라 인코포레이티드 | 무선전화장치의 제어기 |
EP0587211B1 (en) * | 1992-08-10 | 2000-02-09 | Lucent Technologies Inc. | A radio communication system and a radio base station for use in such a system. |
CA2109788C (en) * | 1992-11-30 | 2000-01-18 | Salman Yousef Abbasi | Microcell including remote radio channel units having a metallic microcell-macrocell wire link to a macrocell radio control complex |
-
1996
- 1996-05-03 CN CN 96195052 patent/CN1092904C/zh not_active Expired - Fee Related
- 1996-05-03 AU AU58534/96A patent/AU717297B2/en not_active Ceased
- 1996-05-03 CA CA002219879A patent/CA2219879A1/en not_active Abandoned
- 1996-05-03 EP EP96920134A patent/EP0824832A1/en not_active Withdrawn
- 1996-05-03 WO PCT/US1996/006306 patent/WO1996035298A1/en not_active Application Discontinuation
Also Published As
Publication number | Publication date |
---|---|
CA2219879A1 (en) | 1996-11-07 |
AU5853496A (en) | 1996-11-21 |
CN1092904C (zh) | 2002-10-16 |
WO1996035298A1 (en) | 1996-11-07 |
EP0824832A1 (en) | 1998-02-25 |
AU717297B2 (en) | 2000-03-23 |
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