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"WiMAX (Worldwide Interoperability for Microwave Access) merupakan standar internasional tentang Broadband Wireless Access yang mengacu kepada standar IEEE 802.16. Keunggulan utama WiMAX adalah jarak jangkauan yang mampu mencapai 50 km, dan secara teoritis mampu menangani kecepatan data sampai 75 Mbps. Segmentasi pelanggan WiMAX diperlukan agar operator dapat menjangkau seluruh tipe pelanggan yang ada (class 1, class 2, dan class 3) dan mengoptimalkan bandwith yang tersedia, sesuai dengan karakteristik tipe pelanggan tersebut. Setelah melakukan segmentasi pelanggan, operator perlu menyelidiki bagaimana perbandingan tarif pada tiap segmen agar mencapai keuntungan yang diharapkan.Pada skripsi ini dilakukan dua perhitungan. Perhitungan pertama bertujuan untuk mengetahui rancangan segmentasi pelanggan terbaik pada metropolitan dan rural area, berdasarkan perhitungan ekspektasi keuntungan (Present Worth). Perhitungan kedua akan mencari perbandingan tarif pada tiap segmen metropolitan dan rural area, sehingga didapat hubungan tarif tiap segmen pelanggan. Rancangan segmentasi pelanggan WiMAX pada Metropolitan dan Rural Area dapat digunakan sebagai acuan bagi operator mengenai ekspektasi keuntungan yang akan didapat setiap rancangan segmentasi. Perhitungan perbandingan tarif tiap segmen menunjukkan bahwa segmen yang ditujukan untuk tipe pelanggan class 3 akan memberi kontribusi yang minim terhadap keuntungan. Meskipun demikian, keberadaan segmen ini membuat operator dapat menjangkau seluruh lapisan masyarakat menjadi pelanggannya.

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WiMAX (Worldwide Interoperability for Microwave Access) is an international standard for Broadband Wireless Access which refers to IEEE 802.16. The most prominent features of WiMAX are it's wide coverage and high speed data-rate. The maximum distance that can be covered by WiMAX in one area is 50 km, and theoretically, data transfer can be supported up-to 75 Mbps. A segmentation for WiMAX subscribers is needed by operators in order to reach all available subscriber type (class 1, class 2, dan class 3). A segmentation for WiMAX subscribers could also optimize the use of available bandwith, according to the characteristics of each subscriber type. After implementing subscribers segmentation, operators need to compare the tariff for each segment, in order to achieve expected profit.In this thesis, two calculations have been proposed. The first calculation was done to understand the best subscriber segmentation design in metropolitan and rural area, based on Present Worth method. In the second calculation, tariffs comparison for each segment in metropolitan and rural area has been calculated, in order to understand the corelation between each segment tariffs. The aim of designing WiMAX subscriber segmentation in metropolitan and rural area is to provide operators with a reference of profit expectations in each subscriber segmentation design. The tariffs comparison calculation of each segment showed that the segment aimed for class 3 subscriber types will give minimum profit contribution. Nonetheless, this segment could be used by operators as a medium to reach the entire society stratum to become its costumer."

"Perkembangan Broadband Wireless Access (BWA) sebagai standar global untuk media transmisi data telah digunakan sebagai penyedia jasa akses internet berkecepatan tinggi. Worldwide Interoperability for Microwave Access (WiMAX) merupakan teknologi BWA yang memiliki kecepatan akses tinggi dengan jangkauan luas. Aplikasi WiMAX yang ditunjang oleh kemampuan interoperabilitas, fleksibilitas, dan aspek komersial telah membawa dampak penggunaan internet lebih efisien serta memberikan layanan murah dan mudah. Fenomena ini harus disikapi oleh para operator Internet Service Provider (ISP) dalam mengembangkan bisnis guna memenuhi persaingan di era global saat ini. Dengan melihat aspek teknik serta aspek keuangan dalam menetapkan kelayakan implementasi wireless network dengan WiMAX sebagai subtitusi, maka dalam penelitian ini dilakukan kajian implementasi teknologi WiMAX sebagai layanan backhaul pada jaringan WiFi di Jakarta. Dari data jumlah hotspot terdaftar di IIX dan rata-rata peak traffic tiap hotspot per regional, penelitian ini menjelaskan perhitungan aspek teknis dengan kombinasi pilihan harga sewa dan teknologi. Hasil dari perhitungan akan memberikan beberapa kombinasi gambaran nilai investasi teknologi WiMAX sebagai substitusi backhaul jaringan hotspot yang ada dan perkembangannya 5 tahun ke depan.

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The development of Broadband Wireless Access (BWA), such as WiMAX, as a global standard for data transmission media has been used by high speed internet access provider. WiMAX application which supported by capabilities of interoperability, flexibility and commercial aspect make the internet services become more efficient, cheaper and easier to the customer. This phenomenon should be responded by ISPs. Based on technical and financial aspect in deciding the implementation of Wireless Network with WiMAX technology as a substitute, this research will observe and analyze the projection of WiMAX technology implementation as a backhaul for the existing Wi-Fi?s network in Jakarta. This paper will describe the calculation based on the amount of hotspots registered in IIX and average peak traffic per regional from technical aspect with several pricing and technology combination. The result give the basic figures in investing WiMAX as substitute technology for backhaul in hotspot network and also will show its growth in 5 years."

"Thushara Weerawardane introduces new transport technologies and features for High Speed Packet Access (HSPA) and Long-Term Evolution (LTE) networks. Using advanced scientific methods, he proposes new adaptive flow control and enhanced congestion control algorithms, then defends them with highly-developed analytical models derived from Markov chains. For faster analysis, compared to long-lasting detailed simulations, these models provide optimum network performance and ensure reliable quality standards for end users during transport network congestion. Further, the author investigates and analyzes LTE transport network performance by introducing novel traffic differentiation models and buffer management techniques during intra-LTE handovers."

"Contents :- Table of Contents by Author - Acronym Guide - Making DSL Profitable: A Financial Analysis - Wholesale versus Retail: A Comparison of CLEC-DSL Business Models - International Telecom Market Opportunities and Trends - Using a Strong Brand through Retail and E-Commerce to Expand the DSL Market - The ISP Experience in Today's DSL Marketplace - Wholesale versus Retail Model for CLECs - VoDSL: Challenges in the Partnership Model - Automating Loop Management - Mass-Market Solutions for DSL Deployment - Driven Deployment in the New Millennium - ADSL Welcome to the Suburbs! - Enabling Effective DSL Deployment - The Building Blocks of Broadband - Managing for Explosive Digital Subscriber Line Growth - Delivery of ADSL Services in DLC Environments - The Future of Digital Subscriber Line - Lessons learned in Deploying Voice over DSL - DSL Mass Deployment: What You Don't Know Can Hurt You - Deployment Challenges and Solutions - loop-Management Processes for Efficient Customer Activation - DSL Deployment: The ISP Perspective - The Future Broadband Home - Challenges of the Digital loop Carrier - Practical Issues of Delivering Services inside the Customer Premises - Provisioning Broadband Services over DSL - Automated, End-to-End DSL Provisioning: From Loop Qualification to the Backhaul Network - DSL's Effect on ILEC Network Architecture - Connecting to the Network - DSL: A Last-Mile Technology - Access Issues in the Local Loop - Internet via Satellite - Integrated Software-on-Silicon Solutions for Next-Generation DSL CPE - Digital Subscriber Line Fault Localization - i-SLAM: The Next-Generation, IP-Aware, IP-Smart, Intelligent DSLAM - Fiber-to-the-Home Market Trial - Traffic Aggregation and Multiple Application Selection - Residential Broadband: The Move from How It Gets There to What Gets There - Plug-and-Play DSL - Internet Age: Going from Plug and Pray to Plug and Play - Residential Gateways: New Applications for High-Speed Premises Networking - Getting to Plug-and-Play DSL�An SBC Perspective - SelectPlay: Software over Broadband on Demand - Moving toward Plug-and-Play DSL - Always-On DSL Requires Always-On Provisioning - G.shdsl and ETSI SDSL Multirate Symmetric DSLs - HDSL2 Standards Compliance and Interoperability - DSL Spectrum Management - The Interoperability Problem "

"Menjaga kualitas Jaringan dalam suatu perusahaan atau organisasi khususnya yang bergerak dalam bidang telekomunikasi merupakan salah satu landasan dalam rangka penciptaan layanan yang berkualitas dan optimalisasi proses bisnis. Hal tersebut tidak lepas dari resiko yang timbul sehingga membutuhkan pengelolaan resiko yang baik dengan mengacu pada best practice framework manajemen resiko.FWA (Fixed Wireless Access) merupakan salah satu teknologi akses nirkabel yang digunakan oleh PT. Indosat melalui produknya Starone, dimana memiliki risiko yang cukup tinggi untuk kelangsungan kinerja perusahaan sehingga dibutuhkan metode pengendalian pengelolaan risiko yang tepat.Identifikasi dan pengolahan risiko kualitas jaringan Fixed Wireless Access (Starone) sangatlah penting untuk dapat menghindari maupun memperkecil tingkat risiko, sehingga menghasilkan suatu strategi yang tepat. Analisis risiko kualitas jaringan Fixed Wireless Access (Starone) di PT. Indosat dilakukan berdasarkan best practice framework manajemen risiko dalam meningkatkan daya saing terhadap kompetitor.Hasil dari risk mapping, risiko parameter kualitas jaringan berada pada level Very Low (0-20%), coverage berada pada level Low (20-40%) dengan frekuensi kemunculan risiko yang rendah (unlikely) dan dampak menengah (moderate), sedangkan kapasitas dan utilitas jaringan berada pada level Low (20-40%) karena memiliki frekuensi yang low, tetapi dengan tingkat keparahan menengah (moderate).Strategi untuk penanganan risiko dilakukan dengan meretensi dan atau mengalihkan risiko (transfer risk) dengan beberapa upaya yaitu: capital allocation, self insurance dan transfer by contract.

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Maintaining quality network in particular company or organization which specially focus on telecommunication sector is one of base system framework for creating a high quality service and optimizing business process. This thing cannot be separated from the risks that come up, so it needs well and balance risk management system which refer on risk management framework.FWA (Fixed Wireless Access) is one of wireless access technology which is used by PT. Indosat through its product called as Starone, which has high potential risks for its company continuity performance as of needed appropriate risk management controls. Identification and risk control in Fixed Wireless Access of Starone s network quality is very important to minimize the company s current risk level, so it can produce well managed strategy.Risk analysis for Fixed Wireless Access of Starone s network quality in PT. Indosat is done by risk management best practice framework which can be used to give opinion about risk and best chance in increasing competitiveness against competitors.The result from risk mapping shows that network quality s parameter risks is lying on Very Low (0-20%) level position, coverage on Low (20-40%) level position with low frequency intensity (unlikely) level and moderate severity, on the other side network capacity and network utility are also lying on Low (20-40%) level because have low frequency and moderate severity.Strategy for risk control is doing by risk retention and or risk transfer with capital allocation, self insurance and transfer by contract as the application."