Modelling and Development of a Radio Resource Control and Scheduling Algorithm for Long-Term Evolution (LTE) Uplink

Olawale Oluwasegun Ogunrinola; Isaiah Opeyemi Olaniyi; Segun A. Afolabi; Gbemiga Abraham Olaniyi; Olushola Emmanuel Ajeigbe

doi:10.18280/rces.080201

Modelling and Development of a Radio Resource Control and Scheduling Algorithm for Long-Term Evolution (LTE) Uplink

Review of Computer Engineer Studies ◽

10.18280/rces.080201 ◽

2021 ◽

Vol 8 (2) ◽

pp. 23-34

Author(s):

Olawale Oluwasegun Ogunrinola ◽

Isaiah Opeyemi Olaniyi ◽

Segun A. Afolabi ◽

Gbemiga Abraham Olaniyi ◽

Olushola Emmanuel Ajeigbe

Keyword(s):

Optimization Problems ◽

Long Term Evolution ◽

Base Station ◽

Proportional Fairness ◽

Radio Resource ◽

Radio System ◽

Maximum Expansion ◽

Term Evolution ◽

Lte Uplink

Modern radio communication services transmit signals from an earth station to a high-altitude station, space station or a space radio system via a feeder link while in Global Systems for Mobile Communication (GSM) and computer networks, the radio uplink transmit from cell phones to base station linking the network core to the communication interphase via an upstream facility. Hitherto, the Single-Carrier Frequency Division Multiple Access (SC-FDMA) has been adopted for uplink access in the Long-Term Evolution (LTE) scheme by the 3GPP. In this journal, the LTE uplink radio resource allocation is addressed as an optimization problem, where the desired solution is the mapping of the schedulable UE to schedulable Resource Blocks (RBs) that maximizes the proportional fairness metric. The particle swarm optimization (PSO) has been employed for this research. PSO is an algorithm that is very easy to implement to solve real time optimization problems and has fewer parameters to adjust when compared to other evolutionary algorithms. The proposed scheme was found to outperform the First Maximum Expansion (FME) and Recursive Maximum Expansion (RME) in terms of simulation time and fairness while maintaining the throughput.

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Power Saving-Based Radio Resource Scheduling in Long-Term Evolution Advanced Network

Lecture Notes in Electrical Engineering - Computer Engineering and Networking ◽

10.1007/978-3-319-01766-2_82 ◽

2013 ◽

pp. 713-721

Author(s):

Yen-Yin Chu ◽

I-Hsuan Peng ◽

Yen-Wen Chen ◽

Chi-Fu Yi ◽

Addison Y. S. Su

Keyword(s):

Resource Scheduling ◽

Power Saving ◽

Long Term Evolution ◽

Radio Resource ◽

Term Evolution ◽

Radio Resource Scheduling ◽

Long Term Evolution Advanced

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Analisis Tekno Ekonomi Biaya Capex dan Opex Implementasi Jaringan Long Term Evolution Area Banten

Jurnal Telekomunikasi dan Komputer ◽

10.22441/incomtech.v8i1.2142 ◽

2017 ◽

Vol 8 (1) ◽

pp. 1

Author(s):

Totok Yuwanto

Keyword(s):

Capacity Planning ◽

Long Term Evolution ◽

Base Station ◽

Term Evolution ◽

Coverage Estimation

Dengan semakin pesatnya pertumbuhan dan kebutuhan penggunaan data maka diperlukan suatu jaringan telekomunikasi yang mampu memenuhi kebutuhan tersebut yaitu dalam hal kapasitas, kualitas, mobilitas dan kecepatan. Untuk memenuhi kebutuhan tersebut maka perusahaan operator telekomunikasi dituntut untuk menggelar jaringan telekomunikasi yang mempunyai kapasitas besar, kecepatan tinggi, handal dan mempunyai kualitas yang bisa memenuhi kebutuhan tsb . Salah satu tehnologi seluler terbaru yang bisa memenuhi kebutuhan tsb adalah tehnologi LTE. Pada penelitian ini dianalisa secara teknologi dan ekonomi terhadap implementasi LTE release 8 pada jaringan operator existing dengan menggunakan skenario join base station. Model analisa yang digunakan berdasarkan prinsip tekno ekonomi dengan menggunakan metoda capacity planning and coverage estimation untuk menentukan perancangan teknologi LTE serta metoda DCF untuk menganalisa secara ekonomi dan juga mengukur kelayakan biaya yang dikeluarkan untuk implementasi LTE tersebut. Hasil penelitian diperoleh nilai NPV positif dan IRR sebesar 12.95% , dengan nilai Pay Back Period 3 Tahun 1 Bulan. Berdasarkan hasil tsb dapat disimpulkan bahwa implementasi jaringan berbasis Long Term Evolution (LTE) di propinsi Banten layak untuk di implementasikan.

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Erratum to: Radio Resource Management for Device-to-Device Communications in Long Term Evolution Networks

Resource Allocation and MIMO for 4G and Beyond ◽

10.1007/978-1-4614-8057-0_12 ◽

2014 ◽

pp. E1-E2

Author(s):

Carlos F. M. Silva ◽

José Mairton B. Silva ◽

Tarcisio F. Maciel

Keyword(s):

Resource Management ◽

Radio Resource Management ◽

Long Term Evolution ◽

Radio Resource ◽

Term Evolution ◽

Device To Device

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Adaptive radio resource management for maximizing reward and balancing loads in 4G hybrid universal mobile telecommunications system and long term evolution communications

Wireless Communications and Mobile Computing ◽

10.1002/wcm.2358 ◽

2013 ◽

Vol 15 (3) ◽

pp. 510-526 ◽

Cited By ~ 3

Author(s):

Ben-Jye Chang ◽

Ying-Hsin Liang ◽

Kai-Xiang Cao

Keyword(s):

Resource Management ◽

Radio Resource Management ◽

Long Term Evolution ◽

Mobile Telecommunications ◽

Radio Resource ◽

Term Evolution ◽

Universal Mobile Telecommunications System

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Research and Implementation of Uplink Synchronization in TD-LTE

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.756-759.846 ◽

2013 ◽

Vol 756-759 ◽

pp. 846-850

Author(s):

De Ming Zhang ◽

Sheng Yao ◽

Xiao Wen Li

Keyword(s):

Detailed Analysis ◽

Long Term Evolution ◽

Base Station ◽

Evolution System ◽

Good Communication ◽

Time Alignment ◽

Term Evolution ◽

Test Instrumentation

To make sure a good communication between the terminal and the base station, synchronization is needed between them. The Uplink Time Alignment has been provided in the long term evolution system (TD-LTE), by which uplink synchronization can be maintained in terminals. In this letter, the concrete implementation of the Uplink Time Alignment in MAC sub-layer of terminals and independently adjustment of uplink timing were designed with research of the Uplink Time Alignment and detailed analysis of the specific applications of Timing Advance Command in the terminal. The proposed implementation can be applied for the development of test instrumentation and TD-LTE ratio frequency conformance.

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Analisa Perencanaan Backhaul Untuk Jaringan Long Term Evolution (LTE) Dikota Yogyakarta

Techno (Jurnal Fakultas Teknik Universitas Muhammadiyah Purwokerto) ◽

10.30595/techno.v19i2.3010 ◽

2018 ◽

Vol 19 (2) ◽

pp. 103

Author(s):

Muhammad Azhar ◽

Zein Hanni Pradana ◽

Ade Wahyudin

Keyword(s):

Long Term Evolution ◽

Base Station ◽

Core Network ◽

Receive Power ◽

Term Evolution

Pelayanan telekomunikasi sangat berperan penting dalam kehidupan modern. Perkembangan Teknologi LTE dikota sangat besar. Selaku Operator Memerlukan adanya backhaul yang handal namun juga efisien dari transmisi maupun dari segi kapasitas. Backhaul adalah suatu jalur yang menghubungkan dari suatu Base Station ke Base Station lain atau dari suatu Base Station ke core network untuk mengambil trafik dari Base Station tersebut.Pada Penelitian ini Membahas tentang analisa perencanaan backhaul untuk jaringan Long term Evolution di kota Yogyakarta. Dengan menggunakan Microwave sebagai teknologi Backhaul. Penelitian ini membahas Mengenai Perencanaan jaringan Long Term Evolution dengan Frekuensi 1800 MHz agar dapat Mengakomodasi Trafik di kota Yogyakarta dengan Menggunakan Perencanaan Capacity Maupun Coverage. Pada hasil perencanaan Jaringan Long Term Evolution menggunakan Frekuensi 1800 MHz Nilai Rereference Signal Receive Power (RSRP) didapat dari hasil simulasi dari Parameter Long Term Evolutin adalah adalah rata-rata sebesar -75.66 dBm Sedangkan Pada Perencanaan Backhaul Menggunakan Teknologi Microwave diperoleh rata-rata daya terima >-78 dBm dan nilai Availability >99,999% untuk link dibawah jarak <1,7km. Sehingga dapat diambil Kesimpulan Bahwa Backhaul Dengan Teknologi Microwave Pada penelitian ini bekerja dengan baik dan Optimal. dapat menghubungkan Jaringan LTE di Kota Yogyakarta dengan Jarak <1,7 km. Perencanaan ini dilakukan menggunakan atoll 3.3.

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Artificial Intelligence Based LTE MIMO Antenna for 5th Generation Mobile Networks

Journal of Artificial Intelligence and Capsule Networks - September 2019 ◽

10.36548/jaicn.2020.3.002 ◽

2020 ◽

Vol 2 (3) ◽

pp. 155-162

Author(s):

Dr. Abul Bashar

Keyword(s):

Artificial Intelligence ◽

Mobile Networks ◽

Multiple Input Multiple Output ◽

Long Term Evolution ◽

Base Station ◽

Fifth Generation ◽

Term Evolution ◽

Multiple Input ◽

Input Multiple Output

Artificial intelligence based long term evolution multi in multi output antenna supporting the fifth generation mobile networks is put forth in the paper. The mechanism laid out in paper is devised using the monopole-antenna integrated with the switchable pattern. The long term evolution based multiple input and multiple output antenna is equipped with four antennas and capable of providing a four concurrent data streams quadrupling the theoretical maximum speed of data transfer allowing the base station to convey four diverse signals through four diverse transmit antennas for a single user equipment. The utilization of the long term evolution multiple input multiple output is capable of utilizing the multi-trial broadcasting to offer betterments in the signal performance as well as throughput and spectral efficiency when used along the fifth generation mobile networks. So the paper proposes the artificial intelligence based long term evolution multiple input multiple output four transmit antenna with four diverse signal transmission capacity that is operating in the frequency of 3.501 Gigahertz frequency. The laid out design is evaluated using the Multi-input Multi output signal analyzer to acquire the capacity of the passive conveyance of the various antennas with the diverse combination of patterns. The outcomes observed enables the artificial intelligence antenna to identify the choicest antenna to be integrated in the diverse environments for improving the throughput, signal performance and the data conveyance speed.

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ARSITEKTUR JARINGAN LTE (LONG TERM EVOLUTION) UNTUK MENGATASI BACKHAUL CONNECTION WIFI PADA RURAL AREA DENGAN TEKNOLOGI FOURTH GENERATION (4G)

Just TI (Jurnal Sains Terapan Teknologi Informasi) ◽

10.46964/justti.v10i2.107 ◽

2019 ◽

Vol 10 (2) ◽

pp. 24

Author(s):

Komang Ayu Triana Indah ◽

Ida Bagus Putra Manuaba

Keyword(s):

Rural Area ◽

Long Term Evolution ◽

Base Station ◽

Fourth Generation ◽

Delay Spread ◽

Term Evolution

Teknologi WiFi yang digunakan pada rural area pada umumnya untuk jaringan fisik untuk koneksi satu base-station ke base-station yang lain (backhaul) atau ke switching centre seringkali terdapat banyak permasalahan. Wi-Fi dioptimasi untuk penggunaan dengan jangkauan yang pendek, penggunaan untuk luar ruangan dan jangkauan yang panjang akan menyebabkan multipath dan delay spread tidak tertangani secara optimal Meskipun penggunaan teknologi WiFi cukup praktis, akan tetapi penggunaan WiFi untuk koneksi backhaul akan menimbulkan permasalahan karena teknologi WiFi dirancang dan dioptimasi untuk penggunaan dengan cakupan LAN, sedangkan kondisi geografis di pedesaan tidak memungkinkan instalasi tersebut. Teknologi LTE menjawab permasalahan yang timbul dalam instalasi WiFi diantaranya kecepatan puncak data, mobilitas pengguna, daya, konsumsi, handover, fasilitas roaming dan coverage.. Long Term Evolution (LTE) adalah generasi teknologi telekomunikasi selular. Menurut standar, LTE memberikan kecepatan uplink hingga 50 megabit per detik (Mbps) dan kecepatan downlink hingga 100 Mbps. LTE memiliki standar terbaru teknologi jaringan mobile yang diproduksi dengan teknologi jaringan GSM/EDGE dan UMTS/HSDPA. Implementasi LTE untuk mengatasi permasalahan koneksi backhaul di pedesaan dengan teknologi Rural 4G secara teknis dilakukan untuk mengatasi permasalahan koneksi backhaul pada jaringan WiFi.

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