Multi-User System for Remote Access to the Resources of the Educational Computer Cluster Based on Single Board Diskless Computer Raspberry PI 3 Model B as a Service

Remote laboratories are increasingly being used in academic courses, especially in science and engineering. New control systems allow the development of even complex experiments with a low cost. In this paper we present a remote laboratory that reproduces a small-scale photovoltaic system, including a solar panels and lights, a charge controller, a battery and a dummy load. A Raspberry PI microcontroller is used to send the different inputs to the laboratory, handling commands, measuring some electrical quantities and provide remote access via the web. The laboratory, developed with the involvement of graduating students, will be used in the Master courses of electrical engineering. Particular attention has been paid on the development of hardware and software, to use the developed laboratory as a model for the realization of other experiments.

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RANCANG BANGUN SISTEM MONITORING KEAMANAN RUMAH BERBASIS WEB MENGGUNAKAN RASPBERRY PI B+ SEBAGAI SERVER DAN MEDIA KONTROL

GEMA TEKNOLOGI ◽

10.14710/gt.v19i1.21959 ◽

2016 ◽

Vol 19 (1) ◽

pp. 22

Author(s):

Muhammad Khoiru Syabibi ◽

Arkhan Subari

Keyword(s):

Monitoring System ◽

Light Emitting Diode ◽

Web Server ◽

Remote Access ◽

Raspberry Pi ◽

Web Based ◽

Light Emitting ◽

Security Monitoring ◽

Home Security ◽

Security Monitoring System

Muhammad Khoiru Syabibi, Arkhan Subari in this paper explain that Along with the progress of era, the development of advanced technology also impacts on the development of security systems. Sophisticated security systems that digitally integrated has been growing, one of them is a web-based security system. This web-based home security monitoring system uses a raspberry pi b + that serves as a server and media controller, then for the web programming, it uses HTML, CSS and Javascript. This web-based home security monitoring system home uses a webcam (web camera) that functions like CCTV which can be monitored via a web browser, magnetic switch as security detector, keypad as access control to turn off security monitoring system for 10 seconds, and the buzzer and LED as security indicators. When someone enter the house, he/she must press the keypad. If keypad input is correct according to the passcode then the LED will turn off, indicate that home security monitoring system off for 10 seconds. If he/she enter the house without pressing the keypad according to the passcode then when the door opens, a switch magnetic will active, then buzzer will sound and the indicator on the web will change, indicate that he/she is a person who will do the crime.Keyword : raspberry pi b+, webcam, magnetic switch, keypad, buzzer and LED. ReferencesAndre. 2014. Sejarah PHP dan Perkembangan Versi PHP. http://www.duniailkom.com/sejarah-php-dan-perkembangan-versi-php.Apache Software Foundation. About the Apache HTTP Server Project. http://httpd.apache.org/ABOUT_APACHE.html.Arfa. 2014. Akses Kontrol Kendaraan Bermotor Roda Empat Menggunakan Password dan Sensor. Skripsi. Jakarta: STMIK Raharja.Aziz, Abdul. 2012. Pengertian, Fungsi, Serta Cara Kerja Web Server. http://www.dedeerik.com/pengertian-fungsi-serta-cara-kerja-web-server.Baharudin, M. 2011. Pengertian Website. http://www.naevaweb.com/pengertian-website/arsip.html.Cox, Tim. 2014. Raspberry Pi Cookbook. Birmingham: Packt Publishing.Embedded Linux Wiki. Raspberry Pi, Low-level Peripherals. http://elinux.org/RPi_Low- level_peripherals.Embededdlinux. Raspberry Mode B-Block diagram. Diunduh http://embeddelinux01.com.Faizal. 2011. Prinsip Kerja Piezoelectric. http://www.insinyoer.com/prinsip-kerja-piezoelectric.Friedl, Stave. 2015. Secure Linux/Unix Access With Putty and Open SSH. http://unixwiz.net/techtips/putty-openssh.html/2015.Gudang Linux. 2011. Python. http://gudanglinux.com/glossary/python.Gurevich, Vladimir. 2011. Electric Relays: Principles and Applications. London: CRC Press.Harian Android. 2014. Pengertian dan Fungsi SD Card. http://www.harianandroid.com/2014/04/pengertian-dan-fungsi-sd-card.html.Heranudin. 2011. Rancang Bangun Sistem Keamanan Ruangan Menggunakan Radio Frequency. Skripsi. Depok: FT UI.Iswan, Agusta. 2012. Sistem Proteksi Brankas Berpassword Menggunakan Magnetic Doorlock sebagai Penggerak Doorstrike Berbasis Mikrokontroller. Tugas Akhir D3 Teknik Elektro. Semarang: FT UNNES.Kho, Dickson. 2012. Dioda dan Fungsi Dioda. http://teknikelektronika.com/-dioda-fungsi-dioda.Kho, Dickson. 2012. Pengertian LED (Light Emitting Diode) dan Cara Kerjanya. http://teknikelektronika.com/pengertian-led-light-emitting-diode-cara-kerja.Kho, Dickson. Pengertian Resistor dan Jenis Resistor. http://teknikelektronika.com/pengertian-resistor-jenis-jenis-resistor.Komponen Elektronika. 2011. Rangkaian Buzzer. http://komponenelektronika.com/rangkaian- buzzer.html.MS-1 Magnetic Door Switch datasheet. http://www.braude.ac.il/files/departments/electrical_electronic_engineering/labs/data_pages/p3.pdfNasih, Muhammad Usman. 2013. Alat Pengaman Kendaraan Bermotor Menggunakan Password dan SMS. Tugas Akhir. Yogyakarta: STMIK El Rahma.Özcan, Yakut. 2014. Piezoelektrik.Paul Malvino, Albert. 2010. Prinsip-Prinsip Elektronika. Jakarta: Erlangga.Pemrograman Komputer. 2012. Petunjuk Praktikum Pemrograman Komputer. Semarang: D3 Teknik Elektro UNDIP.Prayitno, Indra. 2010. Kupas Tuntas Malwar. Jakarta: Elex Media Komputindo.Raspberry Pi Fondation. GPIO Raspberry Pi Model A dan B. https://www.raspberrypi.org/documentation/usage/gpio/2009Raspberry Pi Fondation. Setting Up And Apache Web Server On A Raspberry Pi. https://www.raspberrypi.org/documentation/remote-access/web-server/apache.md.Raspberrry Pi Fondation. SSH Using Windows. http://raspberrypi.org/documentation/remote-access/ssh/windows.md/2014Richardson, Matt dan Shawn Wallace. 2015. Make: Getting Started with Raspberry Pi. Sebastopol: Maker Media.Robinson, Andrew dan Mike Cook. 2014. Raspberry Pi Projects. Chichester: John Wiley & Sons Ltd.Rohiman, Ao. 2011. Pengertian dan cara kerja router.http://www.catatanteknisi.com/2011/05/pengertian-cara-kerja-router.html.Sidik, Betha. 2011. Javascript. Jakarta: Informatika.Wahyu. Pengertian Webcam dan Fungsinya. http://wahyu.blog.fisip.uns.ac.id/2011/12/06/pengertian-web-cam-dan-fungsinya.Wikipedia. Secure Digital. https://en.wikipedia.org/wiki/Secure_Digital#Micro.

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PERANCANGAN SISTEM KAMERA PENGAWAS BERBASIS PERANGKAT BERGERAK MENGGUNAKAN RASPBERRY PI

Jurnal Ilmiah Teknologi Infomasi Terapan ◽

10.33197/jitter.vol3.iss2.2017.130 ◽

2017 ◽

Vol 3 (2) ◽

Author(s):

Dwi Ely Kurniawan ◽

Syafarudin Fani

Keyword(s):

Monitoring System ◽

Remote Access ◽

Raspberry Pi ◽

Motion Sensor ◽

Motion Sensors ◽

Wireless Technology ◽

High Crime

[Id]Tingginya kriminalitas di Kota Batam membuat beberapa warga menjadi khawatir terhadap pencurian. Pemilik rumah dan toko terkadang waswas untuk meninggalkan rumah dalam keadaan kosong. Penelitian ini mengusulkan untuk merancang sebuah sistem kamera pengawas, sehingga pemilik rumah atau toko dapat dengan mudah memantau dan memonitor kondisi rumah mereka dengan perangkat bergerak yang dimiliki. Perancangan sistem kamera pengawas memanfaatkan teknologi wireless yang memungkinkan diakses jarak jauh, dimanapun dan kapanpun oleh pemilik rumah. Kamera CCTV dilengkapi dengan sensor motion yang akan mendeteksi adanya gerakan. Bila terdapat gerakan maka sensor akan mengirim sinyal ke raspberry pi, lalu memprosesnya dengan mengirim notifikasi ke perangkat smartphone. Pengguna dapat memutuskan untuk melakukan kontrol alarm aktif sebagai peringatan bahaya dalam upaya pencegahan tindakan pencurian.Kata kunci: kamera pengawas, perangkat bergerak, raspberry pi[En]The high crime in Batam makes some residents became concerned about theft. Where the owners of houses and shops are sometimes hesitant to leave the house empty. This study proposes to design a camera monitoring system, so that the owner of the house / shop can easily track and monitor the condition of their homes. CCTV cameras equipped with motion sensors that will detect the presence of motion. When there is a motion sensor will send a signal to the raspberry pi, and then forwarded to send notifications to the android. The design of the camera monitoring system using wireless technology that allows remote access, anywhere and anytime by the homeowner.

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Result Analysis: Remotely Accessible Security System using IoT

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.35111 ◽

2021 ◽

Vol 9 (VI) ◽

pp. 906-908

Author(s):

Swagat Ahire

Keyword(s):

Security System ◽

Remote Access ◽

Raspberry Pi ◽

Push Button ◽

Important Thing ◽

Door Lock ◽

Result Analysis

In the todays world a strong door locking system is that the first and most important thing to assure security of a home. Due to the increasing workload and daily travelling tasks most of the days people stays out of their houses. In such situations, identifying a visitor and getting remote access to their home is necessary. A smart door lock mechanism which may be completely monitored and controlled from a foreign location using smartphone is proposed during this paper. When a visitor presses bell/push button at the door, a Raspberry Pi with attached camera gets triggered and captures the image to check in database for identification. If found then door will simply open otherwise a notification will sent to the owner with OTP and visitor's image. Now depending upon owners will he/she can give access to visitor by giving system generated OTP.

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Ocean tidal loading models assessment using 28 months of gravimetric tidal records in Dublin, Ireland

10.5194/egusphere-egu21-2422 ◽

2021 ◽

Author(s):

Przemysław Dykowski ◽

Kamila Karkowska ◽

Marcin Sękowski ◽

Paul Kane

Keyword(s):

International Association ◽

Sampling Rate ◽

Remote Access ◽

Absolute Gravity ◽

Joint Analysis ◽

Raspberry Pi ◽

Ocean Tide ◽

Loading Effect ◽

Ocean Tidal Loading ◽

Tidal Loading

In June of 2018 a project for the establishment of a modern permanent Absolute Gravity Network&#160; on the island of Ireland was initiated by the National Mapping Agency of Ireland, Ordnance Survey Ireland (OSi) with the cooperation of &#160;Institute of Geodesy and Cartography (IGiK), and Land and Property Services (LPS) in Northern Ireland. The project assumes conducting absolute gravity surveys of the network using &#160;the A10 absolute gravimeter on approximately 60 stations homogenously distributed on the island of Ireland.Data processing includes time variable corrections for body tides, barometric pressure, polar motion as well as ocean tidal loading. For Ireland the ocean tidal loading effect can reach peaks of between 400 nm/s2 on the west coast and 200 nm/s2 on the east coast. This effect is significant and up to now the authors are unaware of previous historical data or&#160; tidal gravity records being performed in Ireland. Hence it was considered as a valid component of the overall Absolute Gravity Project to evaluate the current situation with ocean tidal loading effect in Ireland using gravimetric tidal records in order to validate available ocean tidal loading models.In order to assure the most optimal use of ocean tidal model as well as minimize the errors of including ocean tidal correction in absolute gravity processing the LaCoste&Romberg model G spring gravimeter was installed at OSi headquarters in Phoenix Park, Dublin, Ireland. Over a continuous period of 28 months gravity record with more than 99% data completeness at near 2Hz sampling rate was conducted.The project data was acquired through using a self-programmed Raspberry Pi computer allowing for automatic download and remote access to the data.A set of CSR, DTU, EOT, FES, GOT, TPXO (ocean tide loading provider &#8211; Chalmers, http://holt.oso.chalmers.se/loading/) ocean tidal loading models were used in a joint analysis with the collected tidal record. Analysis included performing tidal adjustment of the gravity data in the ETERNA 3.40 (ET34-X-V73) as well as comparison of IAG (International Association of Geodesy) recommended model combinations with the collected data.Recommendations by the project team as to which of the ocean tidal models is most suitable to be used in Ireland for the purpose of absolute gravity measurements were made.

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Home Automation and Security using Raspberry Pi and Whatsapp

International Journal of Engineering and Advanced Technology - Regular Issue ◽

10.35940/ijeat.b3060.129219 ◽

2019 ◽

Vol 9 (2) ◽

pp. 3678-3682

Keyword(s):

Mobile Phone ◽

Mobile Device ◽

Web Server ◽

Remote Access ◽

Raspberry Pi ◽

Home Automation ◽

Web Interface ◽

Air Conditioners ◽

Home Appliances

This paper presents an ingenious remotely sensible system that controls the home appliances by using WhatsApp. This is an IOT based model designed and developed by using Raspberry Pi-3. In this proposed system of home automation, the feasibility of executing certain important tasks with higher controllability and remote access have been incorporated. Home appliances such as lights, fans, air conditioners, power driven electrical and electronic commodities etc., are made to control from any part of this world, using a mobile phone with WhatsApp installed in it. For ensuring this functionality, a web interface has been developed using the Raspberry Pi, as a web server for operating and controlling the home appliances through any Wi-Fi accessible mobile device with WhatsApp feature.

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Remote Access Of Substation To Automate And Protect Using Raspberry Pi

International Journal of Engineering Research and ◽

10.17577/ijertcon061 ◽

2018 ◽

Vol V6 (02) ◽

Author(s):

Suganya M J ◽

Rajarajeswari D ◽

Sivakami P ◽

Gomathi B ◽

S. Balamurugan ◽

...

Keyword(s):

Remote Access ◽

Raspberry Pi

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Sistem Kendali Perangkat Elektronik Jarak Jauh Berbasis Jaringan Nirkabel Menggunakan Secure Shell (SSH) dan robot Operating System (ROS)

Jurnal Teknologi Informasi dan Ilmu Komputer ◽

10.25126/jtiik.2020722737 ◽

2020 ◽

Vol 7 (6) ◽

pp. 1205

Author(s):

Abdul Jalil

Keyword(s):

Operating System ◽

Wireless Local Area Network ◽

Local Area Network ◽

Electronic Devices ◽

Local Area ◽

Remote Access ◽

Raspberry Pi ◽

Area Network ◽

Air Conditioner ◽

Robot Operating System

Salah satu tantangan di era revolusi industri 4.0 adalah pengembangan sistem kontrol secara jarak jauh menggunakan koneksi jaringan nirkabel. Tujuan penelitian ini adalah membangun sistem kontrol perangkat elektronik jarak jauh dengan memanfaatkan jaringan wireless tethering pada smartphone menggunakan topologi Wireless Local Area Network (WLAN) dan Robot Operating System (ROS) sebagai perangkat lunak kontrol. Pemanfaatan wireless tethering smartphone untuk berbagi koneksi internet dapat dimanfaatkan untuk mengontrol perangkat elektronik yang terkoneksi ke Raspberry Pi. Koneksi jaringan wireless tethering memiliki arsitektur jaringan yang cukup sederhana jika dibandingkan dengan arsitektur pengontrolan jarak jauh lainnya, serta memiliki jarak jangkau koneksi yang cukup jauh dibandingkan dengan koneksi Bluetooth. Metodologi yang digunakan untuk mengontrol perangkat elektronik pada penelitian ini adalah menggunakan Remote Access Control (RAC) berbasis protokol SSH. Pemanfaatan wireless tethering dan aplikasi mobile SSH dapat digunakan untuk mengirim perintah ROS message dari smartphone ke Raspberry Pi untuk mengontrol pin GPIO Raspberry Pi agar aktif high atau aktif low. Pada saat ROS message mengirim perintah ke GPIO untuk aktif high, maka sistem akan memberikan instruksi kepada relay untuk menyalakan perangkat elektronik. Selanjutnya pada saat GPIO menerima perintah untuk aktif low, maka sistem akan memberikan instruksi kepada relay untuk mematikan perangkat elektronik. Hasil penelitian ini adalah smartphone android dapat digunakan untuk mengontrol perangkat elektronik seperti lampu, kipas angin, pemanas ruangan, dan air conditioner secara jarak jauh menggunakan jaringan WLAN berdasarkan perintah dari ROS message. Perangkat elektronik pada penelitian ini dapat di kontrol secara efektif pada jarak 20 meter di dalam ruangan dan 40 meter di area bebas hambatan. AbstractOne of the challenges in the Industrial Revolution 4.0 is the development of control systems by remotely using a wireless network connection. This study aims to build a control system for controlling the electronic devices by remotely with the utilization of wireless tethering network in the smartphone used Wireless Local Area Network (WLAN) topology and Robot Operating System (ROS) as software for the controller. Utilization of wireless tethering in the smartphone for share the internet connection can be used for control the electronic devices that connected to the Raspberry Pi. The connection of wireless tethering has a simple architecture when compared with the other architecture of the control system by remotely, it then has a long-range connection when compared to the Bluetooth connection. The methodology has used to manage the electronic devices in this study is used Remote Access Control (RAC) based on SSH protocol. The utilization of wireless tethering and mobile SSH can be used to sends ROS message command from smartphone to the Raspberry Pi to control the Raspberry Pi GPIO pin to active high or active low. When android smartphone send ROS message command to the Raspberry Pi to make the GPIO to active high, the system will instruct the relay to turn on the electronic devices. Then when GPIO accepts the instruction to active low, the system will instruct the relay to turn off the electronic devices. The result of this study is that android smartphone can be used to control the electronic devices such as a lamp, fan, heater, and air conditioner by remotely used WLAN network and command from ROS message. The electronic devices on this study can be controlled by effectively with the distance of 20 meters in the rooms and 40 meters at the outside area.

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Remote Access of Medical Image Processing and 3D Visualization Application using Raspberry Pi

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i3.1.17080 ◽

2018 ◽

Vol 7 (3.1) ◽

pp. 171

Author(s):

Sreepathy H V ◽

Nandish S ◽

Chaitanya CVS

Keyword(s):

Image Processing ◽

Medical Image ◽

3D Visualization ◽

Academic Research ◽

Medical Image Processing ◽

Remote Access ◽

Healthcare Sector ◽

Raspberry Pi ◽

Visualization Toolkit ◽

Extensive Growth

With the extensive growth in technology, healthcare sector has benefitted a lot recently. Looking into the academic research and validation in the area of medical image processing and visualization, many platforms and the open-source resources are available. Insight toolkit (ITK) and visualization toolkit (VTK) are extensively used for medical image processing and 3D visualization respectively. Resources used to develop an application using ITK-VTK and same resources be used to deliver it to the users such as, clinicians, doctors etc. This can be achieved by using respective hardware and the infrastructure. In the proposed article, the infrastructure and resource used to build and deploy the application and remote access given to the users are elucidated.

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Online System for Monitoring and Analysis of the Operation of a Small Photovoltaic Plant

ANNUAL JOURNAL OF TECHNICAL UNIVERSITY OF VARNA BULGARIA ◽

10.29114/ajtuv.vol5.iss1.228 ◽

2021 ◽

Vol 5 (1) ◽

pp. 76-85

Author(s):

Nikolay Hristov ◽

Maik Jurgen Streblau ◽

Tatyana Dimova

Keyword(s):

Operating System ◽

Environmental Parameters ◽

Integrated System ◽

Remote Access ◽

Raspberry Pi ◽

The Internet ◽

Input Output ◽

Online System ◽

Technical University ◽

Photovoltaic Plant

This article proposes an integrated system for monitoring and analysis of the operation of a small photovoltaic plant with the possibility of remote access via the Internet. The system has been built on the territory of Varna Technical University and is based on a mini computer Raspberry Pi 3B + using a Linux operating system. The monitoring is performed by keeping track of the environmental parameters and the input-output parameters of the photovoltaic inverter. Data are presented for a period of three months: October 1, 2020 to December 31, 2020. The results are visualized by appropriate graphs, demonstrating the change in the observed indicators, both for the entire specified period and for a randomly selected day.

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