Analisis Pengaruh Buffering Transport Pada Jaringan IEEE-802.11
DAFTAR PUSTAKA
[1]
Fitriawan, Helm, and Amri Wahyudin. "Simulasi Kinerja Jaringan
Nirkabel IEEE-802.11a dan IEEE-802.11g Menggunakan NS-2."
Jurnal Rekayasa Elektrika 10.4 (2014). Hal 161-165.
[2]
Showail, Ahmad, Kamran Jamshaid and Basem Shihada, “ Buffer
Sizing in Wireless Network: Chalenge, Solutions, and Oppurtunities”,
IEEE Communication Magazine, 2016, pp.130-137.
[3]
Towidjojo, Rendra, dan Mohhammad Eno Farhan. 2015. “Router
Mikrotk: Implementasi Wireless LAN Indoor”. Jasakom. Hal 1 – 17.
[4]
Suherman, Suherman, and Marwan Al–Akaidi. "An efficient negative
acknowledgement–based
transport
protocol
in
802.11
media
streaming."International Journal of Ad Hoc and Ubiquitous Computing
16.3 (2014). pp. 161-171.
[5]
Sukadarmika,
Gde,
(WIRELESS
et
LOCAL
al.
"ANALISIS
AREA
COVERAGE
NETWORK)
WLAN
802.11
a
MENGGUNAKAN OPNET MODELER."Majalah Ilmiah Teknologi
Elektro (Journal of Electrical Technology) 9.2 (2012). Hal 143-151
[6]
Akhavan, Mohammad Reza. 2006. “Study the Performance Limits of
IEEE 802.11 Wireless LANs”. Lalea University of Technology :
Sweden. pp.1-40.
[7]
Firdaus, M.Fahri dan Etika Nuraini. 2015. “Wireless ICT Network”.
Yogyakarta: UII Press. Hal 191 – 206.
[8] Chousidis, Christos, Rajagopal Nilavalan, and Laurentiu Lipan.
"Expanding the use of CTS-to-Self mechanism for reliable
41
Universitas Sumatera Utara
broadcasting on IEEE 802.11 networks." Wireless Communications
and Mobile Computing Conference (IWCMC), 2014 International.
IEEE, 2014.pp. 1051-1056.
[9]
Widyawan, dkk. "Quality Of Service Wireless LAN Dengan
Menggunakan Mekanisme RTS/CTS Berdasarkan Standar 802.11
g."Proceeding CITEE 2011 (2011). Hal: 71-76.
[10] Vassis, Dimitris, et al. "The IEEE 802.11 g standard for high data rate
WLANs." Network, IEEE 19.3 (2005): 21-26.
[11] D. Vassis, G. Kormentzas, "Performance Analysis of IEEE 802.11 Ad
Hoc Networks in the Presence of Hidden Terminals", Computer
Networks (Elsevier), vol.51, no.9, 2007, pp.2345-2352.
[12] Yang Xiao and Jon Rosdahl, “Throughput and Delay Limits of IEEE
802.11”. IEEE COMMUNICATIONS LETTERS, VOL. 6, NO. 8,
AUGUST 2002.pp.355.357
[13] Netbeans IDE https://netbeans.org/. Di akses pada tanggal 25
September 2016
[14] Pamvotis – IEEE 802.11 WLAN Simulator http://www.pamvotis.org/
Di akses pada tanggal 25 September 2016
[15] Mubarakah, Naemah, and Suherman "Reducing Moble Device Energy
Consumption in Transmitting Multimedia Content by Arranging
Transport Protocol Load." International Seminar On Application for
Technology of Information and Communication (2016). pp. 111-131.
42
Universitas Sumatera Utara
[1]
Fitriawan, Helm, and Amri Wahyudin. "Simulasi Kinerja Jaringan
Nirkabel IEEE-802.11a dan IEEE-802.11g Menggunakan NS-2."
Jurnal Rekayasa Elektrika 10.4 (2014). Hal 161-165.
[2]
Showail, Ahmad, Kamran Jamshaid and Basem Shihada, “ Buffer
Sizing in Wireless Network: Chalenge, Solutions, and Oppurtunities”,
IEEE Communication Magazine, 2016, pp.130-137.
[3]
Towidjojo, Rendra, dan Mohhammad Eno Farhan. 2015. “Router
Mikrotk: Implementasi Wireless LAN Indoor”. Jasakom. Hal 1 – 17.
[4]
Suherman, Suherman, and Marwan Al–Akaidi. "An efficient negative
acknowledgement–based
transport
protocol
in
802.11
media
streaming."International Journal of Ad Hoc and Ubiquitous Computing
16.3 (2014). pp. 161-171.
[5]
Sukadarmika,
Gde,
(WIRELESS
et
LOCAL
al.
"ANALISIS
AREA
COVERAGE
NETWORK)
WLAN
802.11
a
MENGGUNAKAN OPNET MODELER."Majalah Ilmiah Teknologi
Elektro (Journal of Electrical Technology) 9.2 (2012). Hal 143-151
[6]
Akhavan, Mohammad Reza. 2006. “Study the Performance Limits of
IEEE 802.11 Wireless LANs”. Lalea University of Technology :
Sweden. pp.1-40.
[7]
Firdaus, M.Fahri dan Etika Nuraini. 2015. “Wireless ICT Network”.
Yogyakarta: UII Press. Hal 191 – 206.
[8] Chousidis, Christos, Rajagopal Nilavalan, and Laurentiu Lipan.
"Expanding the use of CTS-to-Self mechanism for reliable
41
Universitas Sumatera Utara
broadcasting on IEEE 802.11 networks." Wireless Communications
and Mobile Computing Conference (IWCMC), 2014 International.
IEEE, 2014.pp. 1051-1056.
[9]
Widyawan, dkk. "Quality Of Service Wireless LAN Dengan
Menggunakan Mekanisme RTS/CTS Berdasarkan Standar 802.11
g."Proceeding CITEE 2011 (2011). Hal: 71-76.
[10] Vassis, Dimitris, et al. "The IEEE 802.11 g standard for high data rate
WLANs." Network, IEEE 19.3 (2005): 21-26.
[11] D. Vassis, G. Kormentzas, "Performance Analysis of IEEE 802.11 Ad
Hoc Networks in the Presence of Hidden Terminals", Computer
Networks (Elsevier), vol.51, no.9, 2007, pp.2345-2352.
[12] Yang Xiao and Jon Rosdahl, “Throughput and Delay Limits of IEEE
802.11”. IEEE COMMUNICATIONS LETTERS, VOL. 6, NO. 8,
AUGUST 2002.pp.355.357
[13] Netbeans IDE https://netbeans.org/. Di akses pada tanggal 25
September 2016
[14] Pamvotis – IEEE 802.11 WLAN Simulator http://www.pamvotis.org/
Di akses pada tanggal 25 September 2016
[15] Mubarakah, Naemah, and Suherman "Reducing Moble Device Energy
Consumption in Transmitting Multimedia Content by Arranging
Transport Protocol Load." International Seminar On Application for
Technology of Information and Communication (2016). pp. 111-131.
42
Universitas Sumatera Utara