《高级无线网络—4G技术》——1.5参考文献

本节书摘来自异步社区《高级无线网络—4g技术》一书中的第1章，第1.5节,作者： 【芬】savo g. glisic 更多章节内容可以访问云栖社区“异步社区”公众号查看。

[1] m. mouly and m.-b. pautet. the gsm system for mobile communications. palaiseau: france, 1992.

[2] r. kalden, i. meirick and m. meyer. wireless internet access based on gprs, ieee pers. commun., vol. 7, no. 2, 2000, pp. 8-18.

[3] 3rd generation partnership project (3gpp), www.3gpp.org

[4] j. khun-jush, p. schramm, g. malmgren and j. torsner. hiperlan2: broadband wireless communications at 5 ghz. ieee commun. mag., vol. 40, no. 6, 2002, pp. 130-137.

[5] u. varshney. the status and future of 802.11-based wlans, ieee comput., vol. 36, no. 6, 2003, pp. 102-105.

[6] digital video broadcasting (dvb), www.dvb.org, january 2002.

[7] s. glisic. advanced wireless communications: 4g technology. john wiley & sons: chichester, 2004.

[8] j. mitola iii and g. maguire jr. cognitive radio: making software radios more personal, ieee pers. commun., vol. 6, no. 4, 1999, pp. 13-18.

[9] j. border et al. performance enhancing proxies intended to mitigate link-related degradations. rfc 3135, june 2001.

[10] d.c. feldmeier, a,j. mcauley, j.m. smith, d.s. bakin,w.s. marcus andt.m. raleigh, protocol boosters, ieee jsac, vol. 16, no. 3, 1998, pp. 437-444.

[11] m. garc´ıa et al. an experimental study of snoop tcp performance over the ieee 802.11b wlan. 5th int. symp. wireless personal multimedia commun., honolulu, hi, vol. iii, october 2002, pp. 1068-1072.

[12] l.mu˜noz, m. garcia, j. choque, r. aguero and p. mahonen, optimizing internet flows over ieee 802.11b wireless local area networks: a performance enhancing proxy based on forward error correction, ieee commun. mag., vol. 39, no. 12, 2001, pp. 60-67.

[13] v. jacobson. tcp/ip compression for low-speed serial links, rfc 1144, february 1990.

[14] wireless lan. ieee draft standard p802.11, january 1996.

[15] radio equipment and systems (res); high performance radio local area network (hiperlan); functional specification. etsi, france, draft prets 300 652, 1995.

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[17] 3gpp technical specification 25.401 utran overall description.

[18] 3gpp technical specification 25.410 utran in interface: general aspects and principles.

[19] 3gpp technical specification 25.411 utran iu interface: layer 1.

[20] 3gpp technical specification 25.412 utran iu interface: signalling transport.

[21] 3gpp technical specification 25.413 utran iu interface: ranap signalling.

[22] 3gpp technical specification 25.414 utran iu interface: data transport and transport signalling.

[23] 3gpp technical specification 25.415 utran iu interface: cn-ran user plane protocol.

[24] 3gpp technical specification 25.420 utran iur interface: general aspects and principles.

[25] 3gpp technical specification 25.421 utran iur interface: layer 1.

[26] 3gpp technical specification 25.422 utran iur interface: signalling transport.

[27] 3gpp technical specification 25.423 utran iur interface: rnsap signalling.

[28] 3gpp technical specification 25.424utraniur interface: data transport and transport signalling for cch data streams.

[29] 3gpp technical specification 25.425 utran iur interface: user plane protocols for cch data streams.

[30] 3gpp technical specification 25.426 utran iur and iub interface data transport and transport signalling for dch data streams.

[31] 3gpp technical specification 25.427 utran iur and iub interface user plane protocols for dci-1 data streams.

[32] 3gpp technical specification 25.430 utran iub interface: general aspects and principles.

[33] 3gpp technical specification 25.431 utran iub interface: layer 1.

[34] 3gpp technical specification 25.432 utran iub interface: signalling transport.

[35] 3gpp technical specification 25.433 utran iub interface: nbap signalling.

[36] 3gpp technical specification 25.434utraniub interface: data transport and transport signalling for cch data streams.

[37] 3gpp technical specification 25.435 utran iub interface: user plane protocols for cch data streams.

[38] 3g ts 25.301 radio interface protocol architecture.

[39] 3g ts 25.302 services provided by the physical layer.

[40] 3g ts 25.303 ue functions and interlayer procedures in connected mode.

[41] 3g ts 25.304 ue procedures in idle mode.

[42] 3g ts 25.321 mac protocol specification.

[43] 3g ts 25.322 rlc protocol specification.

[44] 3g ts 25.323 pdcp protocol specification.

[45] 3g ts 25.324 broadcast/multicast control protocol (bmc) specification.

[46] 3g ts 25.331 rrc protocol specification.

[47] 3g ts 24.008 mobile radio interface layer 3 specification, core network protocols - stage 3.

[48] 3g ts 33.102 3g security; security architecture.

[49] gsm 04.18 digital cellural telecommunications system (phase 2+); mobile radio interface layer 3 specification, radio resource control protocol.

[50] ietf rfc 2507 ip header compression.

[51] 3g ts 25.305 stage 2 functional specification of location services in utran.

[52] 3g ts 33.105 3g security; cryptographic algorithm requirements.

[53] g. armitage and k. adams. packet reassembly during cell loss, ieee network, vol. 7, no. 5, 1995, pp. 26-34.

[54] u. black. atm volume i: foundation for broadband networks. prentice-hall: upper saddle river, nj, 1992.

[55] m. garrett. a service architecture for atm: from applications to scheduling, ieee network, vol. 10, no. 3, 1996, pp. 6-14.

[56] d. mcdysan and d. spohn. atm: theory and application. mcgraw-hill: new york, 1999.

[57] k. sato, s. ohta and i. tokizawa. broad-band atm network architecture based on virtual paths, ieee trans. commun., vol. 38, no. 8, 1990, pp. 1212-1222.

[58] t. suzuki. atmadaptation layer protocol, ieee commun. maga., vol. 32, no. 4, 1994, 80-83.