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Arie Marbandi
STTAL
Decision Sciences, Operations Research & Management Engineering Industrial & Manufacturing Engineering

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DESIGN OF PRISON SECURITY INFORMATION SYSTEM USING RFID Arip Purwito; Dani Wijaya Fauji Sitanggang; Suprayitno Suprayitno; Arie Marbandi
JOURNAL ASRO Vol 9 No 1 (2018): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (98.876 KB) | DOI: 10.37875/asro.v9i1.238

Abstract

Information systems and technology are currently developing rapidly, so computers can beused as security tools automatically with the addition of Radio Frequency Identification (RFID)technology. Sattahti security personnel in the detention room are required to always be ready to carryout security, supervision within the scope of the detention room. So far, Sattahti personnel inconducting surveillance and guarding detainees in and out of the room still use padlock locks so thatsecurity is less than the maximum, meeting SOP standards so that some detainees have a chance toescape, so that Sattahti personnel cannot properly monitor prisoners because there is no regulatingsystem detention rooms are better IT-based. Based on the above problems, it is necessary to designand build a detention room security information system using RFID technology. So that every sattahtipersonnel can be accessed in the security system information system database of the detention room.This is very helpful for sattahti personnel in the process of guarding detainees. This system can do anautomatic lock along with the time for each personnel who bring prisoners in and out of the detentionroom, by using serial communication from a personal computer (PC) to a microcontroller (reader RFIDstater kit ID-12 LA) so that it will read the identity card (tag) RFID) every person. This detention roomsecurity information system is useful to accelerate and facilitate personnel in changing duty pickets tothe next personnel regarding the whereabouts of all the strength of the prison guard personnel atSATTAHTI.Keywords: Information on detention room security, RFID
DESIGN OF STTAL COLLEGE STUDENT FINAL TASK AND RESEARCH PRODUCT INFORMATION SYSTEM BASED ON WEB Ahmadi Ahmadi; Muchammadil Chafid; Alexander Victor Bukit; Arie Marbandi
JOURNAL ASRO Vol 11 No 03 (2020): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37875/asro.v11i03.308

Abstract

STTAL is an educational institution to improve the student capability in managing naval technology. Annually, STTAL graduates diplomas and produces final task from the research of students. This product will then be exhibited at official exhibitions of the Indonesian Navy. The information system is designed for the final project and research of STTAL students. This information system is web-based to facilitate the information about the tools that are displayed and will help exhibition crews in conveying information about the tools to the visitors. This information system is easy to use, by scanning the QR Code on the device by Android smartphone application. Keywords : STTAL student work, Final Project Product Information System and STTAL Student Research Based on Web, Android Smartphone, QR Code.
DESIGN OF INDONESIAN NAVY PERSONAL EQUIPMENT MONITORING SYSTEM BASED ON ANDROID MODEL Sunarta Sunarta; Alexander Victor Bukit; Arie Marbandi; Kusdianto Kusdianto
JOURNAL ASRO Vol 11 No 2 (2020): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (288.542 KB) | DOI: 10.37875/asro.v11i2.272

Abstract

Kaporlap is individual equipment that is attached to the body of a soldier, including all accessories, ranging from headgear, body cover to leg cover. These individual equipment were distributed so that each soldier could carry out basic tasks or routine daily tasks and the additional tasks provided could run well. Design and Development of the Navy-based College of Technology Kaporlap Monitoring System (STTAL) Android-based is an information system designed to make it easier for Kaur warehouse to make a report to the Kadeprenalog to find out stock information available at Renalog warehouse when it will distribute Kaporlap to Personnel and Students. Data collection methods used in the preparation of this final project are field studies and literature. After being identified, the authors designed the Kaporlap inventory system with systems development models such as context diagrams, Data Flow Diagrams (DFD), Entity Relationship Diagrams (ERD) through to Input and Output designs, then proceed with the making of its web program and after that it can uploaded to the android system. After the whole system process is complete, it can be seen that the inventory system can produce information for official needs accurately and quickly.Keywords : Kaporlap Inventory System, Web Data, Android Applications.
DESIGN AND DEVELOPMENT OF MONITORING SYSTEM APPLICATIONS LYN SEPARATION OF STTAL PERSONNEL BASED ON ANDROID SYSTEM Suprayitno Suprayitno; Supartono Supartono; Arie Marbandi; Antonius Abdi Setiyawan
JOURNAL ASRO Vol 11 No 2 (2020): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (405.248 KB) | DOI: 10.37875/asro.v11i2.276

Abstract

The STTAL personnel pickup lyn mechanism and system is a means of pick-up transportation that helps STTAL personnel to transport departures from the pickup location to the work unit (satker). With the STTAL personnel pickup lyn facility can improve the performance of personnel at each work unit, travel time to the work unit is faster than using public transportation. Updated information related to vehicles in support of personnel pick-up cannot yet be fully accessed by personnel, so misinformation often occurs. Therefore, it is necessary to design an Android-based personnel pickup lyn monitoring system application. Here we will design a device for monitoring the pickup lyn by using a transmitter device in the form of a cellphone carried by a man or driver. This system can provide information through an application that is embedded on Android by looking at an integrated application in Open Street Map, which is able to send vehicle position data through an application that is planted on the Android user so that STTAL personnel can monitor the position of pickup service vehicles and updated information related to the vehicle. worn. Users can access the application and see the pickup lyn position on the android mobile. After this system is built, it makes it easy for all STTAL personnel who use the pickup service vehicles to monitor the position of the vehicle through applications that are planted on Android. Keywords : Android, Lyn pickup personnel, Open Street Map
DESIGN OF SHIP’S PERSONNEL POSITION MONITORING SYSTEM BASED ON LORA / GPS SHIELD USING DELPHI Agus Setiyawan; Alexander Victor Bukit; Arie Marbandi; Edy Widodo
JOURNAL ASRO Vol 10 No 1 (2019): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (376.926 KB) | DOI: 10.37875/asro.v10i1.233

Abstract

The ship escort mechanism and system in KRI / KAL in reporting the position of the ship beingguarded at this time is only limited to reports via radio communication equipment / HT. This causedthe KRI / KAL Commander's decision to be reconfirmed manually between the ship's escort Personneland the KRI / KAL Guard Officer. Therefore it is necessary to have a system that can monitor theposition of ship escort personnel periodically by applying LoRa (Long Range) technology integratedwith a GIS-based information system (Geographic Information System). The position monitoringsystem for ship escort personnel can send coordinate data from the Client transceiver device that iscarried by the ship escort personnel periodically with the 915MHz LoRa TM protocol and receive theclosest Gateway transceiver in KRI / KAL with the same frequency with an average time of two once asecond transmits, the coordinate data received is stored in the application server database monitoringthe position of ship escort personnel in the form of markers, so that the position of personnel ismonitored periodically and can be immediately reported to the KRI / KAL Commander as decisionmaker. This system can also receive coordinate data from several Client transceiver devices.Keywords: LoRa / GPS shield, ship personnel, GIS (Geographic Information System).
INFORMATION SECURITY MANAGEMENT STRATEGY ANALYSIS USING SYSTEM DYNAMICS MODELING Arie Marbandi; Ahmadi Ahmadi; Adi Bandono; Okol S Suharyo
JOURNAL ASRO Vol 9 No 2 (2018): International Journal of ASRO
Publisher : Indonesian Naval Technology College - Sekolah Tinggi Teknologi Angkatan Laut - STTAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (325.036 KB) | DOI: 10.37875/asro.v9i2.81

Abstract

Handling information security management is an absolute thing to do for organizations that have information systems to support the organization's operations. Information systems consisting of assets both software and hardware that manage data and information that are spread over networks and the internet, make it vulnerable to threats. Therefore investment and costs are needed to secure it. Costs incurred for this need are not small, but investment expenditures and information security costs carried out need serious handling to be more effective and on target. The System Dynamics Model is used to evaluate alternative strategies to demonstrate the effectiveness of investment and the cost of managing information security through simulation of policy changes. System Dynamics are methods for describing models and systems analysis that are dynamic and complex, consisting of variables that influence each other in the form of causal relationships and feedback between variables that are either reinforcing or giving balance. Simulation using a dynamic system model in this study illustrates that the management of risk assessment followed by vulnerability reduction efforts has a very large impact on the management of information security. By making a difference in the value of security tools investment, this provides an alternative choice in information security risk management investments to achieve the effectiveness of the overall costs incurred in managing information security
Co-Authors Adi Bandono Agus Setiyawan Ahmadi Ahmadi Alexander Victor Bukit Antonius Abdi Setiyawan Arip Purwito Dani Wijaya Fauji Sitanggang Edy Widodo Kusdianto Kusdianto Muchammadil Chafid Okol S Suharyo Sunarta Sunarta Supartono Supartono Suprayitno Suprayitno