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Journal of Telecommunication Control and Intelligent System
Published by Peneliti Teknologi Teknik Indonesia
ISSN : 28082036     EISSN : 2808182X     DOI : https://doi.org/10.4771211/
Core Subject : Science, Education, Engineering,
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Engineering Mathematics
JTCIS (Journal of Telecommunication Control and Intelligent Systems) is a high-level academic series publication in theory in Control, Telecommunications, and Intelligent Systems covering antenna design engineering, telecommunications engineering, intelligent systems engineering, embedded control systems, and the Internet of Things. The book series invites academics, researchers and practitioners to submit articles and reports which are the result of work, research and studies oriented towards the application of information technology products for the development of society in general. JTCIS accepts each article in the form of pure research reports, technical reports from implementation experience in the field, systematic literature reviews, opinions from experts, experienced practitioners, and leaders, as well as counterarguments for specific positions.
Arjuna Subject : Ilmu Komputer (semua kategori) - Ilmu Komputer (Lain-Lain)
Articles 5 Documents
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Search results for , issue "Vol. 1 No. 1 (2021): Monograph Book of Telecommunications" : 5 Documents clear
Quality of Service Analysis on The Network Lte-Advanced Between Smartfren and Provider Telkomsel on Malioboro Street Yogyakarta Ahmad Dwi Pranata; Widyasmoro; Yessi Jusman
Journal of Telecommunication Control and Intelligent System Vol. 1 No. 1 (2021): Monograph Book of Telecommunications
Publisher : PTTI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jtcis.v1i1.27

Abstract

LTE-Advanced is one of the communication technologies that can build the global telecommunications industry. As one of the bases for the use of networks that are widely used in the world, the LTE-Advanced network can meet consumer needs. There are several factors that can affect the quality of the network (network quality), one of which is the quality of service. In this study, to measure the quality of service using 3 parameters, namely throughput, latency and jitter. Based on the results that have been carried out using the walk test method and speedtest software for 4 days, the average throughput range value for smartfren providers is 19.8-28.2 Mbps and for Telkomsel providers of 32.5-49.1 Mbps of course. the results from both providers are included in the TIPHON standard excel category because they are in the range >2.1 mbps. In the latency parameter, the average range for both providers is 24.6-28.3 ms on the smartfren provider and 27.9-42.3 ms on the Telkomsel provider if it is included in the TIPHON standard, the results from both providers are in the perfect category because they are at ranges < 150 ms. In the jitter parameter, the average range of results is 8.3-12.7 ms on the smartfren provider while on the Telkomsel provider it is 16-50.9 ms, the average range of the jitter parameters includes index 3 or good because it is in the range 0-75 ms. Based on the results of the measurement of quality of service which consists of 3 parameters, namely throughput, latency and jitter, all of them are included in the appropriate category and are good for use in the Malioboro road area and its surroundings.
Research Methodology Design for WBAN Smart System Connection to Control Covide19 Patients Remotely Israa Al_barazanchi; Haider Rasheed Abdulshaheed; Wahidah Hashim; Ammar Ahmed Alkahtani; Rina Azlin Razali; Elika daghighi; Zahraa A. Jaaz; Shihab A. Shawkat
Journal of Telecommunication Control and Intelligent System Vol. 1 No. 1 (2021): Monograph Book of Telecommunications
Publisher : PTTI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jtcis.v1i1.45

Abstract

The main objective of any research is to find a solution that helps solve a certain problem or improve the performance of the current solution. Therefore, sufficient justification of the study should be presented as there must be a specific problem to try to resolve it. The second objective is to prove that the research methodology developed as a proposal to solve the problem, and which is expected to achieve the results with the participation of an active contribution in this field There are two types of research methodology available, the stander and specific. The stander methodology includes the V-Shaped methodology, Design Research Methodology (DRM), and spiral methodology; Therefore, the research methodology used by this research will be scientific and relevant to cover the scientific aspects from the beginning of the work to the end. The proposed smart system will be tested using the simulation environment and will be validated by comparing the results obtained with the existing research to prove the proposed smart system called as IKS is able to increase the network performance in WBAN. The analysis of the network performance was implemented in real WBAN dataset and used the Multi-Parameter Intelligent Monitoring for Intensive Care (MIMIC) database. MIMIC database included the data recorded from 90 Intensive Care Unit (ICU) patients
A security alarm system to detect intrusion using an Arduino, a GSM module, and a motion sensor Muhammad Ahmad Baballe; Mukhtar Ibrahim Bello
Journal of Telecommunication Control and Intelligent System Vol. 1 No. 1 (2021): Monograph Book of Telecommunications
Publisher : PTTI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jtcis.v1i1.46

Abstract

If the user power or activate the security system, the Arduino Uno will read the data when the motion sensor detects an intruder. The Arduino Uno microcontroller will activate the buzzer and sound an alarm, it will then display on the liquid crystal display (LCD) showing the intrusion. The GSM module gets the information from the Microcontroller it will send a short message service to the designated mobile number registered in the system with the help of the SIM card inserted in the GSM module that an intrusion has occurred. To communicate between the Mobile phone and GSM modem, AT command is applied to this research. This is because the GSM modem can only understand AT command declaration. From this, it can communicate with Mobile phones, computers, and Arduino microcontrollers.
Android Bluetooth-Based Mobile Technology Analysis for Smart Home Taman Ginting; Didik Purwadi
Journal of Telecommunication Control and Intelligent System Vol. 1 No. 1 (2021): Monograph Book of Telecommunications
Publisher : PTTI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jtcis.v1i1.65

Abstract

Bluetooth Android has emerged as a viable choice of technology control for smart home for Light switch control uses an Android Smartphone communication media using Bluetooth. This system control can be used to support human needs in controlling its electronic equipment. This tool uses microcontroller technology, Android smartphones and Bluetooth. Bluetooth was initially developed as a cable replacement technology but properties such as low cost and high availability has led to the development of several control systems relying on Bluetooth signals. The characteristics of the Bluetooth device’s RSSI (Received Signal Strength Indication) value were analyzed in preliminary experiments. The best results of testing of algorithms to generate distance 1m greatest accuracy. From . Bluetooth and Smartphone can be seen that the maximum distance of Bluetooth can be connected without obstacles is 14 meters. The wall barrier has a thickness of 15 cm with a maximum distance of 10 meters. The data shows the level of barrier density affects the connection distance.From the results of the study note the effect on measurements include fingerprint grid size, algorithm and the amount of data from the location of the fingerprint data measurement area. From the results of the study with 10 m2 got 10.6 m results and 20 m2 with the results of 20.04 from the results of measurements and tests, it is known that the results of better light control in the range of 10 m2 or closer to the object / lamp.
Wheeled Robot Control with a Bluetooth-Based Smartphone Iswanto Suwarno; Nia Maharani Raharja
Journal of Telecommunication Control and Intelligent System Vol. 1 No. 1 (2021): Monograph Book of Telecommunications
Publisher : PTTI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jtcis.v1i1.68

Abstract

A wheeled robot is a robot that can walk on a flat surface with the help of wheels as its driving medium, this wheeled robot is made using Arduino as a programming brain, where this robot can move forward, backward, turn right and turn left with a smartphone via a bluetooth module, This wheeled robot is controlled via a smartphone as the remote control and the Bluetooth HC-05 as a connecting medium between the smartphone and the robot. In addition to using Arduino, this robot uses an l298n motor driver as an output regulator for DC motors. From the results of testing on this design it can be concluded that the speed of the experimental robot I was 0.58 m/s for a distance of 3 meters can be completed in 5.1 seconds, in experiment II with 0.56 m/s with the same distance and for 5.3 seconds, and in experiment III it can be completed in 5.5 seconds with a speed of 5.4 m/s, the difference in speed and duration between experiments is influenced by factors such as reduced robot battery voltage and the process of sending data and pairing can be done as far as 13 meters.

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